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|
/* This is single source file, bootstrap version of Jim Tcl. See http://jim.berlios.de/ */
#define _GNU_SOURCE
#define JIM_TCL_COMPAT
#define JIM_REFERENCES
#define JIM_ANSIC
#define JIM_REGEXP
#define HAVE_NO_AUTOCONF
#define _JIMAUTOCONF_H
#define TCL_LIBRARY "."
#define jim_ext_bootstrap
#define jim_ext_aio
#define jim_ext_readdir
#define jim_ext_glob
#define jim_ext_regexp
#define jim_ext_file
#define jim_ext_exec
#define jim_ext_clock
#define jim_ext_array
#define jim_ext_stdlib
#define jim_ext_tclcompat
#if defined(__MINGW32__)
#define TCL_PLATFORM_OS "mingw"
#define TCL_PLATFORM_PLATFORM "windows"
#define HAVE_MKDIR_ONE_ARG
#define HAVE_SYSTEM
#else
#define TCL_PLATFORM_OS "unknown"
#define TCL_PLATFORM_PLATFORM "unix"
#define HAVE_VFORK
#define HAVE_WAITPID
#endif
#ifndef UTF8_UTIL_H
#define UTF8_UTIL_H
/**
* UTF-8 utility functions
*
* (c) 2010 Steve Bennett <steveb@workware.net.au>
*
* See LICENCE for licence details.
*/
/**
* Converts the given unicode codepoint (0 - 0xffff) to utf-8
* and stores the result at 'p'.
*
* Returns the number of utf-8 characters (1-3).
*/
int utf8_fromunicode(char *p, unsigned short uc);
#ifndef JIM_UTF8
#include <ctype.h>
/* No utf-8 support. 1 byte = 1 char */
#define utf8_strlen(S, B) (B) < 0 ? strlen(S) : (B)
#define utf8_tounicode(S, CP) (*(CP) = *(S), 1)
#define utf8_upper(C) toupper(C)
#define utf8_lower(C) tolower(C)
#define utf8_index(C, I) (I)
#define utf8_charlen(C) 1
#define utf8_prev_len(S, L) 1
#else
/**
* Returns the length of the utf-8 sequence starting with 'c'.
*
* Returns 1-4, or -1 if this is not a valid start byte.
*
* Note that charlen=4 is not supported by the rest of the API.
*/
int utf8_charlen(int c);
/**
* Returns the number of characters in the utf-8
* string of the given byte length.
*
* Any bytes which are not part of an valid utf-8
* sequence are treated as individual characters.
*
* The string *must* be null terminated.
*
* Does not support unicode code points > \uffff
*/
int utf8_strlen(const char *str, int bytelen);
/**
* Returns the byte index of the given character in the utf-8 string.
*
* The string *must* be null terminated.
*
* This will return the byte length of a utf-8 string
* if given the char length.
*/
int utf8_index(const char *str, int charindex);
/**
* Returns the unicode codepoint corresponding to the
* utf-8 sequence 'str'.
*
* Stores the result in *uc and returns the number of bytes
* consumed.
*
* If 'str' is null terminated, then an invalid utf-8 sequence
* at the end of the string will be returned as individual bytes.
*
* If it is not null terminated, the length *must* be checked first.
*
* Does not support unicode code points > \uffff
*/
int utf8_tounicode(const char *str, int *uc);
/**
* Returns the number of bytes before 'str' that the previous
* utf-8 character sequence starts (which may be the middle of a sequence).
*
* Looks back at most 'len' bytes backwards, which must be > 0.
* If no start char is found, returns -len
*/
int utf8_prev_len(const char *str, int len);
/**
* Returns the upper-case variant of the given unicode codepoint.
*
* Does not support unicode code points > \uffff
*/
int utf8_upper(int uc);
/**
* Returns the lower-case variant of the given unicode codepoint.
*
* NOTE: Use utf8_upper() in preference for case-insensitive matching.
*
* Does not support unicode code points > \uffff
*/
int utf8_lower(int uc);
#endif
#endif
/* Jim - A small embeddable Tcl interpreter
*
* Copyright 2005 Salvatore Sanfilippo <antirez@invece.org>
* Copyright 2005 Clemens Hintze <c.hintze@gmx.net>
* Copyright 2005 patthoyts - Pat Thoyts <patthoyts@users.sf.net>
* Copyright 2008 oharboe - yvind Harboe - oyvind.harboe@zylin.com
* Copyright 2008 Andrew Lunn <andrew@lunn.ch>
* Copyright 2008 Duane Ellis <openocd@duaneellis.com>
* Copyright 2008 Uwe Klein <uklein@klein-messgeraete.de>
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials
* provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE JIM TCL PROJECT ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
* PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* JIM TCL PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* The views and conclusions contained in the software and documentation
* are those of the authors and should not be interpreted as representing
* official policies, either expressed or implied, of the Jim Tcl Project.
*
*--- Inline Header File Documentation ---
* [By Duane Ellis, openocd@duaneellis.com, 8/18/8]
*
* Belief is "Jim" would greatly benifit if Jim Internals where
* documented in some way - form whatever, and perhaps - the package:
* 'doxygen' is the correct approach to do that.
*
* Details, see: http://www.stack.nl/~dimitri/doxygen/
*
* To that end please follow these guide lines:
*
* (A) Document the PUBLIC api in the .H file.
*
* (B) Document JIM Internals, in the .C file.
*
* (C) Remember JIM is embedded in other packages, to that end do
* not assume that your way of documenting is the right way, Jim's
* public documentation should be agnostic, such that it is some
* what agreeable with the "package" that is embedding JIM inside
* of it's own doxygen documentation.
*
* (D) Use minimal Doxygen tags.
*
* This will be an "ongoing work in progress" for some time.
**/
#ifndef __JIM__H
#define __JIM__H
#ifdef __cplusplus
extern "C" {
#endif
#include <time.h>
#include <limits.h>
#include <stdio.h> /* for the FILE typedef definition */
#include <stdlib.h> /* In order to export the Jim_Free() macro */
#include <stdarg.h> /* In order to get type va_list */
/* -----------------------------------------------------------------------------
* System configuration
* autoconf (configure) will set these
* ---------------------------------------------------------------------------*/
#ifndef HAVE_NO_AUTOCONF
#endif
/* -----------------------------------------------------------------------------
* Compiler specific fixes.
* ---------------------------------------------------------------------------*/
/* Long Long type and related issues */
#ifndef jim_wide
# ifdef HAVE_LONG_LONG
# define jim_wide long long
# ifndef LLONG_MAX
# define LLONG_MAX 9223372036854775807LL
# endif
# ifndef LLONG_MIN
# define LLONG_MIN (-LLONG_MAX - 1LL)
# endif
# define JIM_WIDE_MIN LLONG_MIN
# define JIM_WIDE_MAX LLONG_MAX
# else
# define jim_wide long
# define JIM_WIDE_MIN LONG_MIN
# define JIM_WIDE_MAX LONG_MAX
# endif
/* -----------------------------------------------------------------------------
* LIBC specific fixes
* ---------------------------------------------------------------------------*/
# ifdef HAVE_LONG_LONG
# define JIM_WIDE_MODIFIER "lld"
# else
# define JIM_WIDE_MODIFIER "ld"
# define strtoull strtoul
# endif
#endif
#define UCHAR(c) ((unsigned char)(c))
/* -----------------------------------------------------------------------------
* Exported defines
* ---------------------------------------------------------------------------*/
/* Jim version numbering: every version of jim is marked with a
* successive integer number. This is version 0. The first
* stable version will be 1, then 2, 3, and so on. */
#define JIM_VERSION 71
#define JIM_OK 0
#define JIM_ERR 1
#define JIM_RETURN 2
#define JIM_BREAK 3
#define JIM_CONTINUE 4
#define JIM_SIGNAL 5
#define JIM_EXIT 6
/* The following are internal codes and should never been seen/used */
#define JIM_EVAL 7
#define JIM_MAX_NESTING_DEPTH 1000 /* default max nesting depth */
/* Some function get an integer argument with flags to change
* the behaviour. */
#define JIM_NONE 0 /* no flags set */
#define JIM_ERRMSG 1 /* set an error message in the interpreter. */
#define JIM_UNSHARED 4 /* Flag to Jim_GetVariable() */
/* Flags for Jim_SubstObj() */
#define JIM_SUBST_NOVAR 1 /* don't perform variables substitutions */
#define JIM_SUBST_NOCMD 2 /* don't perform command substitutions */
#define JIM_SUBST_NOESC 4 /* don't perform escapes substitutions */
#define JIM_SUBST_FLAG 128 /* flag to indicate that this is a real substition object */
/* Unused arguments generate annoying warnings... */
#define JIM_NOTUSED(V) ((void) V)
/* Flags for Jim_GetEnum() */
#define JIM_ENUM_ABBREV 2 /* Allow unambiguous abbreviation */
/* Flags used by API calls getting a 'nocase' argument. */
#define JIM_CASESENS 0 /* case sensitive */
#define JIM_NOCASE 1 /* no case */
/* Filesystem related */
#define JIM_PATH_LEN 1024
/* Newline, some embedded system may need -DJIM_CRLF */
#ifdef JIM_CRLF
#define JIM_NL "\r\n"
#else
#define JIM_NL "\n"
#endif
#define JIM_LIBPATH "auto_path"
#define JIM_INTERACTIVE "tcl_interactive"
/* -----------------------------------------------------------------------------
* Stack
* ---------------------------------------------------------------------------*/
typedef struct Jim_Stack {
int len;
int maxlen;
void **vector;
} Jim_Stack;
/* -----------------------------------------------------------------------------
* Hash table
* ---------------------------------------------------------------------------*/
typedef struct Jim_HashEntry {
const void *key;
union {
void *val;
int intval;
} u;
struct Jim_HashEntry *next;
} Jim_HashEntry;
typedef struct Jim_HashTableType {
unsigned int (*hashFunction)(const void *key);
const void *(*keyDup)(void *privdata, const void *key);
void *(*valDup)(void *privdata, const void *obj);
int (*keyCompare)(void *privdata, const void *key1, const void *key2);
void (*keyDestructor)(void *privdata, const void *key);
void (*valDestructor)(void *privdata, void *obj);
} Jim_HashTableType;
typedef struct Jim_HashTable {
Jim_HashEntry **table;
const Jim_HashTableType *type;
unsigned int size;
unsigned int sizemask;
unsigned int used;
unsigned int collisions;
void *privdata;
} Jim_HashTable;
typedef struct Jim_HashTableIterator {
Jim_HashTable *ht;
int index;
Jim_HashEntry *entry, *nextEntry;
} Jim_HashTableIterator;
/* This is the initial size of every hash table */
#define JIM_HT_INITIAL_SIZE 16
/* ------------------------------- Macros ------------------------------------*/
#define Jim_FreeEntryVal(ht, entry) \
if ((ht)->type->valDestructor) \
(ht)->type->valDestructor((ht)->privdata, (entry)->u.val)
#define Jim_SetHashVal(ht, entry, _val_) do { \
if ((ht)->type->valDup) \
entry->u.val = (ht)->type->valDup((ht)->privdata, _val_); \
else \
entry->u.val = (_val_); \
} while(0)
#define Jim_FreeEntryKey(ht, entry) \
if ((ht)->type->keyDestructor) \
(ht)->type->keyDestructor((ht)->privdata, (entry)->key)
#define Jim_SetHashKey(ht, entry, _key_) do { \
if ((ht)->type->keyDup) \
entry->key = (ht)->type->keyDup((ht)->privdata, _key_); \
else \
entry->key = (_key_); \
} while(0)
#define Jim_CompareHashKeys(ht, key1, key2) \
(((ht)->type->keyCompare) ? \
(ht)->type->keyCompare((ht)->privdata, key1, key2) : \
(key1) == (key2))
#define Jim_HashKey(ht, key) (ht)->type->hashFunction(key)
#define Jim_GetHashEntryKey(he) ((he)->key)
#define Jim_GetHashEntryVal(he) ((he)->val)
#define Jim_GetHashTableCollisions(ht) ((ht)->collisions)
#define Jim_GetHashTableSize(ht) ((ht)->size)
#define Jim_GetHashTableUsed(ht) ((ht)->used)
/* -----------------------------------------------------------------------------
* Jim_Obj structure
* ---------------------------------------------------------------------------*/
/* -----------------------------------------------------------------------------
* Jim object. This is mostly the same as Tcl_Obj itself,
* with the addition of the 'prev' and 'next' pointers.
* In Jim all the objects are stored into a linked list for GC purposes,
* so that it's possible to access every object living in a given interpreter
* sequentially. When an object is freed, it's moved into a different
* linked list, used as object pool.
*
* The refcount of a freed object is always -1.
* ---------------------------------------------------------------------------*/
typedef struct Jim_Obj {
int refCount; /* reference count */
char *bytes; /* string representation buffer. NULL = no string repr. */
int length; /* number of bytes in 'bytes', not including the numterm. */
const struct Jim_ObjType *typePtr; /* object type. */
/* Internal representation union */
union {
/* integer number type */
jim_wide wideValue;
/* hashed object type value */
int hashValue;
/* index type */
int indexValue;
/* return code type */
int returnCode;
/* double number type */
double doubleValue;
/* Generic pointer */
void *ptr;
/* Generic two pointers value */
struct {
void *ptr1;
void *ptr2;
} twoPtrValue;
/* Variable object */
struct {
unsigned jim_wide callFrameId;
struct Jim_Var *varPtr;
} varValue;
/* Command object */
struct {
unsigned jim_wide procEpoch;
struct Jim_Cmd *cmdPtr;
} cmdValue;
/* List object */
struct {
struct Jim_Obj **ele; /* Elements vector */
int len; /* Length */
int maxLen; /* Allocated 'ele' length */
} listValue;
/* String type */
struct {
int maxLength;
int charLength; /* utf-8 char length. -1 if unknown */
} strValue;
/* Reference type */
struct {
jim_wide id;
struct Jim_Reference *refPtr;
} refValue;
/* Source type */
struct {
const char *fileName;
int lineNumber;
} sourceValue;
/* Dict substitution type */
struct {
struct Jim_Obj *varNameObjPtr;
struct Jim_Obj *indexObjPtr;
} dictSubstValue;
/* tagged binary type */
struct {
unsigned char *data;
size_t len;
} binaryValue;
/* Regular expression pattern */
struct {
unsigned flags;
void *compre; /* really an allocated (regex_t *) */
} regexpValue;
struct {
int line;
int argc;
} scriptLineValue;
} internalRep;
/* This are 8 or 16 bytes more for every object
* but this is required for efficient garbage collection
* of Jim references. */
struct Jim_Obj *prevObjPtr; /* pointer to the prev object. */
struct Jim_Obj *nextObjPtr; /* pointer to the next object. */
} Jim_Obj;
/* Jim_Obj related macros */
#define Jim_IncrRefCount(objPtr) \
++(objPtr)->refCount
#define Jim_DecrRefCount(interp, objPtr) \
if (--(objPtr)->refCount <= 0) Jim_FreeObj(interp, objPtr)
#define Jim_IsShared(objPtr) \
((objPtr)->refCount > 1)
/* This macro is used when we allocate a new object using
* Jim_New...Obj(), but for some error we need to destroy it.
* Instead to use Jim_IncrRefCount() + Jim_DecrRefCount() we
* can just call Jim_FreeNewObj. To call Jim_Free directly
* seems too raw, the object handling may change and we want
* that Jim_FreeNewObj() can be called only against objects
* that are belived to have refcount == 0. */
#define Jim_FreeNewObj Jim_FreeObj
/* Free the internal representation of the object. */
#define Jim_FreeIntRep(i,o) \
if ((o)->typePtr && (o)->typePtr->freeIntRepProc) \
(o)->typePtr->freeIntRepProc(i, o)
/* Get the internal representation pointer */
#define Jim_GetIntRepPtr(o) (o)->internalRep.ptr
/* Set the internal representation pointer */
#define Jim_SetIntRepPtr(o, p) \
(o)->internalRep.ptr = (p)
/* The object type structure.
* There are four methods.
*
* - FreeIntRep is used to free the internal representation of the object.
* Can be NULL if there is nothing to free.
* - DupIntRep is used to duplicate the internal representation of the object.
* If NULL, when an object is duplicated, the internalRep union is
* directly copied from an object to another.
* Note that it's up to the caller to free the old internal repr of the
* object before to call the Dup method.
* - UpdateString is used to create the string from the internal repr.
* - setFromAny is used to convert the current object into one of this type.
*/
struct Jim_Interp;
typedef void (Jim_FreeInternalRepProc)(struct Jim_Interp *interp,
struct Jim_Obj *objPtr);
typedef void (Jim_DupInternalRepProc)(struct Jim_Interp *interp,
struct Jim_Obj *srcPtr, Jim_Obj *dupPtr);
typedef void (Jim_UpdateStringProc)(struct Jim_Obj *objPtr);
typedef struct Jim_ObjType {
const char *name; /* The name of the type. */
Jim_FreeInternalRepProc *freeIntRepProc;
Jim_DupInternalRepProc *dupIntRepProc;
Jim_UpdateStringProc *updateStringProc;
int flags;
} Jim_ObjType;
/* Jim_ObjType flags */
#define JIM_TYPE_NONE 0 /* No flags */
#define JIM_TYPE_REFERENCES 1 /* The object may contain referneces. */
/* Starting from 1 << 20 flags are reserved for private uses of
* different calls. This way the same 'flags' argument may be used
* to pass both global flags and private flags. */
#define JIM_PRIV_FLAG_SHIFT 20
/* -----------------------------------------------------------------------------
* Call frame, vars, commands structures
* ---------------------------------------------------------------------------*/
/* Call frame */
typedef struct Jim_CallFrame {
unsigned jim_wide id; /* Call Frame ID. Used for caching. */
int level; /* Level of this call frame. 0 = global */
struct Jim_HashTable vars; /* Where local vars are stored */
struct Jim_HashTable *staticVars; /* pointer to procedure static vars */
struct Jim_CallFrame *parentCallFrame;
Jim_Obj *const *argv; /* object vector of the current procedure call. */
int argc; /* number of args of the current procedure call. */
Jim_Obj *procArgsObjPtr; /* arglist object of the running procedure */
Jim_Obj *procBodyObjPtr; /* body object of the running procedure */
struct Jim_CallFrame *nextFramePtr;
const char *filename; /* file and line of caller of this proc (if available) */
int line;
} Jim_CallFrame;
/* The var structure. It just holds the pointer of the referenced
* object. If linkFramePtr is not NULL the variable is a link
* to a variable of name store on objPtr living on the given callframe
* (this happens when the [global] or [upvar] command is used).
* The interp in order to always know how to free the Jim_Obj associated
* with a given variable because In Jim objects memory managment is
* bound to interpreters. */
typedef struct Jim_Var {
Jim_Obj *objPtr;
struct Jim_CallFrame *linkFramePtr;
} Jim_Var;
/* The cmd structure. */
typedef int (*Jim_CmdProc)(struct Jim_Interp *interp, int argc,
Jim_Obj *const *argv);
typedef void (*Jim_DelCmdProc)(struct Jim_Interp *interp, void *privData);
/* A command is implemented in C if funcPtr is != NULL, otherwise
* it's a Tcl procedure with the arglist and body represented by the
* two objects referenced by arglistObjPtr and bodyoObjPtr. */
typedef struct Jim_Cmd {
int inUse; /* Reference count */
int isproc; /* Is this a procedure? */
union {
struct {
/* native (C) command */
Jim_CmdProc cmdProc; /* The command implementation */
Jim_DelCmdProc delProc; /* Called when the command is deleted if != NULL */
void *privData; /* command-private data available via Jim_CmdPrivData() */
} native;
struct {
/* Tcl procedure */
Jim_Obj *argListObjPtr;
Jim_Obj *bodyObjPtr;
Jim_HashTable *staticVars; /* Static vars hash table. NULL if no statics. */
int leftArity; /* Required args assigned from the left */
int optionalArgs; /* Number of optional args (default values) */
int rightArity; /* Required args assigned from the right */
int args; /* True if 'args' specified */
struct Jim_Cmd *prevCmd; /* Previous command defn if proc created 'local' */
int upcall; /* True if proc is currently in upcall */
} proc;
} u;
} Jim_Cmd;
/* Pseudo Random Number Generator State structure */
typedef struct Jim_PrngState {
unsigned char sbox[256];
unsigned int i, j;
} Jim_PrngState;
/* -----------------------------------------------------------------------------
* Jim interpreter structure.
* Fields similar to the real Tcl interpreter structure have the same names.
* ---------------------------------------------------------------------------*/
typedef struct Jim_Interp {
Jim_Obj *result; /* object returned by the last command called. */
int errorLine; /* Error line where an error occurred. */
char *errorFileName; /* Error file where an error occurred. */
int addStackTrace; /* > 0 If a level should be added to the stack trace */
int maxNestingDepth; /* Used for infinite loop detection. */
int returnCode; /* Completion code to return on JIM_RETURN. */
int returnLevel; /* Current level of 'return -level' */
int exitCode; /* Code to return to the OS on JIM_EXIT. */
long id; /* Hold unique id for various purposes */
int signal_level; /* A nesting level of catch -signal */
jim_wide sigmask; /* Bit mask of caught signals, or 0 if none */
int (*signal_set_result)(struct Jim_Interp *interp, jim_wide sigmask); /* Set a result for the sigmask */
Jim_CallFrame *framePtr; /* Pointer to the current call frame */
Jim_CallFrame *topFramePtr; /* toplevel/global frame pointer. */
struct Jim_HashTable commands; /* Commands hash table */
unsigned jim_wide procEpoch; /* Incremented every time the result
of procedures names lookup caching
may no longer be valid. */
unsigned jim_wide callFrameEpoch; /* Incremented every time a new
callframe is created. This id is used for the
'ID' field contained in the Jim_CallFrame
structure. */
int local; /* If 'local' is in effect, newly defined procs keep a reference to the old defn */
Jim_Obj *liveList; /* Linked list of all the live objects. */
Jim_Obj *freeList; /* Linked list of all the unused objects. */
Jim_Obj *currentScriptObj; /* Script currently in execution. */
Jim_Obj *emptyObj; /* Shared empty string object. */
Jim_Obj *trueObj; /* Shared true int object. */
Jim_Obj *falseObj; /* Shared false int object. */
unsigned jim_wide referenceNextId; /* Next id for reference. */
struct Jim_HashTable references; /* References hash table. */
jim_wide lastCollectId; /* reference max Id of the last GC
execution. It's set to -1 while the collection
is running as sentinel to avoid to recursive
calls via the [collect] command inside
finalizers. */
time_t lastCollectTime; /* unix time of the last GC execution */
struct Jim_HashTable sharedStrings; /* Shared Strings hash table */
Jim_Obj *stackTrace; /* Stack trace object. */
Jim_Obj *errorProc; /* Name of last procedure which returned an error */
Jim_Obj *unknown; /* Unknown command cache */
int unknown_called; /* The unknown command has been invoked */
int errorFlag; /* Set if an error occurred during execution. */
void *cmdPrivData; /* Used to pass the private data pointer to
a command. It is set to what the user specified
via Jim_CreateCommand(). */
struct Jim_CallFrame *freeFramesList; /* list of CallFrame structures. */
struct Jim_HashTable assocData; /* per-interp storage for use by packages */
Jim_PrngState *prngState; /* per interpreter Random Number Gen. state. */
struct Jim_HashTable packages; /* Provided packages hash table */
Jim_Stack *localProcs; /* procs to be destroyed on end of evaluation */
Jim_Stack *loadHandles; /* handles of loaded modules [load] */
} Jim_Interp;
/* Currently provided as macro that performs the increment.
* At some point may be a real function doing more work.
* The proc epoch is used in order to know when a command lookup
* cached can no longer considered valid. */
#define Jim_InterpIncrProcEpoch(i) (i)->procEpoch++
#define Jim_SetResultString(i,s,l) Jim_SetResult(i, Jim_NewStringObj(i,s,l))
#define Jim_SetResultInt(i,intval) Jim_SetResult(i, Jim_NewIntObj(i,intval))
/* Note: Using trueObj and falseObj here makes some things slower...*/
#define Jim_SetResultBool(i,b) Jim_SetResultInt(i, b)
#define Jim_SetEmptyResult(i) Jim_SetResult(i, (i)->emptyObj)
#define Jim_GetResult(i) ((i)->result)
#define Jim_CmdPrivData(i) ((i)->cmdPrivData)
#define Jim_String(o) Jim_GetString((o), NULL)
/* Note that 'o' is expanded only one time inside this macro,
* so it's safe to use side effects. */
#define Jim_SetResult(i,o) do { \
Jim_Obj *_resultObjPtr_ = (o); \
Jim_IncrRefCount(_resultObjPtr_); \
Jim_DecrRefCount(i,(i)->result); \
(i)->result = _resultObjPtr_; \
} while(0)
/* Use this for filehandles, etc. which need a unique id */
#define Jim_GetId(i) (++(i)->id)
/* Reference structure. The interpreter pointer is held within privdata member in HashTable */
#define JIM_REFERENCE_TAGLEN 7 /* The tag is fixed-length, because the reference
string representation must be fixed length. */
typedef struct Jim_Reference {
Jim_Obj *objPtr;
Jim_Obj *finalizerCmdNamePtr;
char tag[JIM_REFERENCE_TAGLEN+1];
} Jim_Reference;
/* -----------------------------------------------------------------------------
* Exported API prototypes.
* ---------------------------------------------------------------------------*/
/* Macros that are common for extensions and core. */
#define Jim_NewEmptyStringObj(i) Jim_NewStringObj(i, "", 0)
/* The core includes real prototypes, extensions instead
* include a global function pointer for every function exported.
* Once the extension calls Jim_InitExtension(), the global
* functon pointers are set to the value of the STUB table
* contained in the Jim_Interp structure.
*
* This makes Jim able to load extensions even if it is statically
* linked itself, and to load extensions compiled with different
* versions of Jim (as long as the API is still compatible.) */
/* Macros are common for core and extensions */
#define Jim_FreeHashTableIterator(iter) Jim_Free(iter)
#define JIM_EXPORT
/* Memory allocation */
JIM_EXPORT void *Jim_Alloc (int size);
JIM_EXPORT void *Jim_Realloc(void *ptr, int size);
JIM_EXPORT void Jim_Free (void *ptr);
JIM_EXPORT char * Jim_StrDup (const char *s);
JIM_EXPORT char *Jim_StrDupLen(const char *s, int l);
/* environment */
JIM_EXPORT char **Jim_GetEnviron(void);
JIM_EXPORT void Jim_SetEnviron(char **env);
/* evaluation */
JIM_EXPORT int Jim_Eval(Jim_Interp *interp, const char *script);
/* in C code, you can do this and get better error messages */
/* Jim_Eval_Named( interp, "some tcl commands", __FILE__, __LINE__ ); */
JIM_EXPORT int Jim_Eval_Named(Jim_Interp *interp, const char *script,const char *filename, int lineno);
JIM_EXPORT int Jim_EvalGlobal(Jim_Interp *interp, const char *script);
JIM_EXPORT int Jim_EvalFile(Jim_Interp *interp, const char *filename);
JIM_EXPORT int Jim_EvalFileGlobal(Jim_Interp *interp, const char *filename);
JIM_EXPORT int Jim_EvalObj (Jim_Interp *interp, Jim_Obj *scriptObjPtr);
JIM_EXPORT int Jim_EvalObjVector (Jim_Interp *interp, int objc,
Jim_Obj *const *objv);
JIM_EXPORT int Jim_EvalObjPrefix(Jim_Interp *interp, const char *prefix,
int objc, Jim_Obj *const *objv);
JIM_EXPORT int Jim_SubstObj (Jim_Interp *interp, Jim_Obj *substObjPtr,
Jim_Obj **resObjPtrPtr, int flags);
/* stack */
JIM_EXPORT void Jim_InitStack(Jim_Stack *stack);
JIM_EXPORT void Jim_FreeStack(Jim_Stack *stack);
JIM_EXPORT int Jim_StackLen(Jim_Stack *stack);
JIM_EXPORT void Jim_StackPush(Jim_Stack *stack, void *element);
JIM_EXPORT void * Jim_StackPop(Jim_Stack *stack);
JIM_EXPORT void * Jim_StackPeek(Jim_Stack *stack);
JIM_EXPORT void Jim_FreeStackElements(Jim_Stack *stack, void (*freeFunc)(void *ptr));
/* hash table */
JIM_EXPORT int Jim_InitHashTable (Jim_HashTable *ht,
const Jim_HashTableType *type, void *privdata);
JIM_EXPORT int Jim_ExpandHashTable (Jim_HashTable *ht,
unsigned int size);
JIM_EXPORT int Jim_AddHashEntry (Jim_HashTable *ht, const void *key,
void *val);
JIM_EXPORT int Jim_ReplaceHashEntry (Jim_HashTable *ht,
const void *key, void *val);
JIM_EXPORT int Jim_DeleteHashEntry (Jim_HashTable *ht,
const void *key);
JIM_EXPORT int Jim_FreeHashTable (Jim_HashTable *ht);
JIM_EXPORT Jim_HashEntry * Jim_FindHashEntry (Jim_HashTable *ht,
const void *key);
JIM_EXPORT int Jim_ResizeHashTable (Jim_HashTable *ht);
JIM_EXPORT Jim_HashTableIterator *Jim_GetHashTableIterator
(Jim_HashTable *ht);
JIM_EXPORT Jim_HashEntry * Jim_NextHashEntry
(Jim_HashTableIterator *iter);
/* objects */
JIM_EXPORT Jim_Obj * Jim_NewObj (Jim_Interp *interp);
JIM_EXPORT void Jim_FreeObj (Jim_Interp *interp, Jim_Obj *objPtr);
JIM_EXPORT void Jim_InvalidateStringRep (Jim_Obj *objPtr);
JIM_EXPORT void Jim_InitStringRep (Jim_Obj *objPtr, const char *bytes,
int length);
JIM_EXPORT Jim_Obj * Jim_DuplicateObj (Jim_Interp *interp,
Jim_Obj *objPtr);
JIM_EXPORT const char * Jim_GetString(Jim_Obj *objPtr,
int *lenPtr);
JIM_EXPORT int Jim_Length(Jim_Obj *objPtr);
/* string object */
JIM_EXPORT Jim_Obj * Jim_NewStringObj (Jim_Interp *interp,
const char *s, int len);
JIM_EXPORT Jim_Obj *Jim_NewStringObjUtf8(Jim_Interp *interp,
const char *s, int charlen);
JIM_EXPORT Jim_Obj * Jim_NewStringObjNoAlloc (Jim_Interp *interp,
char *s, int len);
JIM_EXPORT void Jim_AppendString (Jim_Interp *interp, Jim_Obj *objPtr,
const char *str, int len);
JIM_EXPORT void Jim_AppendObj (Jim_Interp *interp, Jim_Obj *objPtr,
Jim_Obj *appendObjPtr);
JIM_EXPORT void Jim_AppendStrings (Jim_Interp *interp,
Jim_Obj *objPtr, ...);
JIM_EXPORT int Jim_StringEqObj(Jim_Obj *aObjPtr, Jim_Obj *bObjPtr);
JIM_EXPORT int Jim_StringMatchObj (Jim_Interp *interp, Jim_Obj *patternObjPtr,
Jim_Obj *objPtr, int nocase);
JIM_EXPORT Jim_Obj * Jim_StringRangeObj (Jim_Interp *interp,
Jim_Obj *strObjPtr, Jim_Obj *firstObjPtr,
Jim_Obj *lastObjPtr);
JIM_EXPORT Jim_Obj * Jim_FormatString (Jim_Interp *interp,
Jim_Obj *fmtObjPtr, int objc, Jim_Obj *const *objv);
JIM_EXPORT Jim_Obj * Jim_ScanString (Jim_Interp *interp, Jim_Obj *strObjPtr,
Jim_Obj *fmtObjPtr, int flags);
JIM_EXPORT int Jim_CompareStringImmediate (Jim_Interp *interp,
Jim_Obj *objPtr, const char *str);
JIM_EXPORT int Jim_StringCompareObj(Jim_Interp *interp, Jim_Obj *firstObjPtr,
Jim_Obj *secondObjPtr, int nocase);
JIM_EXPORT int Jim_Utf8Length(Jim_Interp *interp, Jim_Obj *objPtr);
/* reference object */
JIM_EXPORT Jim_Obj * Jim_NewReference (Jim_Interp *interp,
Jim_Obj *objPtr, Jim_Obj *tagPtr, Jim_Obj *cmdNamePtr);
JIM_EXPORT Jim_Reference * Jim_GetReference (Jim_Interp *interp,
Jim_Obj *objPtr);
JIM_EXPORT int Jim_SetFinalizer (Jim_Interp *interp, Jim_Obj *objPtr, Jim_Obj *cmdNamePtr);
JIM_EXPORT int Jim_GetFinalizer (Jim_Interp *interp, Jim_Obj *objPtr, Jim_Obj **cmdNamePtrPtr);
/* interpreter */
JIM_EXPORT Jim_Interp * Jim_CreateInterp (void);
JIM_EXPORT void Jim_FreeInterp (Jim_Interp *i);
JIM_EXPORT int Jim_GetExitCode (Jim_Interp *interp);
JIM_EXPORT const char *Jim_ReturnCode(int code);
JIM_EXPORT void Jim_SetResultFormatted(Jim_Interp *interp, const char *format, ...);
/* commands */
JIM_EXPORT void Jim_RegisterCoreCommands (Jim_Interp *interp);
JIM_EXPORT int Jim_CreateCommand (Jim_Interp *interp,
const char *cmdName, Jim_CmdProc cmdProc, void *privData,
Jim_DelCmdProc delProc);
JIM_EXPORT int Jim_DeleteCommand (Jim_Interp *interp,
const char *cmdName);
JIM_EXPORT int Jim_RenameCommand (Jim_Interp *interp,
const char *oldName, const char *newName);
JIM_EXPORT Jim_Cmd * Jim_GetCommand (Jim_Interp *interp,
Jim_Obj *objPtr, int flags);
JIM_EXPORT int Jim_SetVariable (Jim_Interp *interp,
Jim_Obj *nameObjPtr, Jim_Obj *valObjPtr);
JIM_EXPORT int Jim_SetVariableStr (Jim_Interp *interp,
const char *name, Jim_Obj *objPtr);
JIM_EXPORT int Jim_SetGlobalVariableStr (Jim_Interp *interp,
const char *name, Jim_Obj *objPtr);
JIM_EXPORT int Jim_SetVariableStrWithStr (Jim_Interp *interp,
const char *name, const char *val);
JIM_EXPORT int Jim_SetVariableLink (Jim_Interp *interp,
Jim_Obj *nameObjPtr, Jim_Obj *targetNameObjPtr,
Jim_CallFrame *targetCallFrame);
JIM_EXPORT Jim_Obj * Jim_GetVariable (Jim_Interp *interp,
Jim_Obj *nameObjPtr, int flags);
JIM_EXPORT Jim_Obj * Jim_GetGlobalVariable (Jim_Interp *interp,
Jim_Obj *nameObjPtr, int flags);
JIM_EXPORT Jim_Obj * Jim_GetVariableStr (Jim_Interp *interp,
const char *name, int flags);
JIM_EXPORT Jim_Obj * Jim_GetGlobalVariableStr (Jim_Interp *interp,
const char *name, int flags);
JIM_EXPORT int Jim_UnsetVariable (Jim_Interp *interp,
Jim_Obj *nameObjPtr, int flags);
/* call frame */
JIM_EXPORT Jim_CallFrame *Jim_GetCallFrameByLevel(Jim_Interp *interp,
Jim_Obj *levelObjPtr);
/* garbage collection */
JIM_EXPORT int Jim_Collect (Jim_Interp *interp);
JIM_EXPORT void Jim_CollectIfNeeded (Jim_Interp *interp);
/* index object */
JIM_EXPORT int Jim_GetIndex (Jim_Interp *interp, Jim_Obj *objPtr,
int *indexPtr);
/* list object */
JIM_EXPORT Jim_Obj * Jim_NewListObj (Jim_Interp *interp,
Jim_Obj *const *elements, int len);
JIM_EXPORT void Jim_ListInsertElements (Jim_Interp *interp,
Jim_Obj *listPtr, int listindex, int objc, Jim_Obj *const *objVec);
JIM_EXPORT void Jim_ListAppendElement (Jim_Interp *interp,
Jim_Obj *listPtr, Jim_Obj *objPtr);
JIM_EXPORT void Jim_ListAppendList (Jim_Interp *interp,
Jim_Obj *listPtr, Jim_Obj *appendListPtr);
JIM_EXPORT int Jim_ListLength (Jim_Interp *interp, Jim_Obj *objPtr);
JIM_EXPORT int Jim_ListIndex (Jim_Interp *interp, Jim_Obj *listPrt,
int listindex, Jim_Obj **objPtrPtr, int seterr);
JIM_EXPORT int Jim_SetListIndex (Jim_Interp *interp,
Jim_Obj *varNamePtr, Jim_Obj *const *indexv, int indexc,
Jim_Obj *newObjPtr);
JIM_EXPORT Jim_Obj * Jim_ConcatObj (Jim_Interp *interp, int objc,
Jim_Obj *const *objv);
/* dict object */
JIM_EXPORT Jim_Obj * Jim_NewDictObj (Jim_Interp *interp,
Jim_Obj *const *elements, int len);
JIM_EXPORT int Jim_DictKey (Jim_Interp *interp, Jim_Obj *dictPtr,
Jim_Obj *keyPtr, Jim_Obj **objPtrPtr, int flags);
JIM_EXPORT int Jim_DictKeysVector (Jim_Interp *interp,
Jim_Obj *dictPtr, Jim_Obj *const *keyv, int keyc,
Jim_Obj **objPtrPtr, int flags);
JIM_EXPORT int Jim_SetDictKeysVector (Jim_Interp *interp,
Jim_Obj *varNamePtr, Jim_Obj *const *keyv, int keyc,
Jim_Obj *newObjPtr);
JIM_EXPORT int Jim_DictPairs(Jim_Interp *interp,
Jim_Obj *dictPtr, Jim_Obj ***objPtrPtr, int *len);
JIM_EXPORT int Jim_DictAddElement(Jim_Interp *interp, Jim_Obj *objPtr,
Jim_Obj *keyObjPtr, Jim_Obj *valueObjPtr);
JIM_EXPORT int Jim_DictKeys(Jim_Interp *interp, Jim_Obj *objPtr, Jim_Obj *patternObj);
JIM_EXPORT int Jim_DictSize(Jim_Interp *interp, Jim_Obj *objPtr);
/* return code object */
JIM_EXPORT int Jim_GetReturnCode (Jim_Interp *interp, Jim_Obj *objPtr,
int *intPtr);
/* expression object */
JIM_EXPORT int Jim_EvalExpression (Jim_Interp *interp,
Jim_Obj *exprObjPtr, Jim_Obj **exprResultPtrPtr);
JIM_EXPORT int Jim_GetBoolFromExpr (Jim_Interp *interp,
Jim_Obj *exprObjPtr, int *boolPtr);
/* integer object */
JIM_EXPORT int Jim_GetWide (Jim_Interp *interp, Jim_Obj *objPtr,
jim_wide *widePtr);
JIM_EXPORT int Jim_GetLong (Jim_Interp *interp, Jim_Obj *objPtr,
long *longPtr);
#define Jim_NewWideObj Jim_NewIntObj
JIM_EXPORT Jim_Obj * Jim_NewIntObj (Jim_Interp *interp,
jim_wide wideValue);
/* double object */
JIM_EXPORT int Jim_GetDouble(Jim_Interp *interp, Jim_Obj *objPtr,
double *doublePtr);
JIM_EXPORT void Jim_SetDouble(Jim_Interp *interp, Jim_Obj *objPtr,
double doubleValue);
JIM_EXPORT Jim_Obj * Jim_NewDoubleObj(Jim_Interp *interp, double doubleValue);
/* shared strings */
JIM_EXPORT const char * Jim_GetSharedString (Jim_Interp *interp,
const char *str);
JIM_EXPORT void Jim_ReleaseSharedString (Jim_Interp *interp,
const char *str);
/* commands utilities */
JIM_EXPORT void Jim_WrongNumArgs (Jim_Interp *interp, int argc,
Jim_Obj *const *argv, const char *msg);
JIM_EXPORT int Jim_GetEnum (Jim_Interp *interp, Jim_Obj *objPtr,
const char * const *tablePtr, int *indexPtr, const char *name, int flags);
JIM_EXPORT int Jim_ScriptIsComplete (const char *s, int len,
char *stateCharPtr);
/**
* Find a matching name in the array of the given length.
*
* NULL entries are ignored.
*
* Returns the matching index if found, or -1 if not.
*/
JIM_EXPORT int Jim_FindByName(const char *name, const char * const array[], size_t len);
/* package utilities */
typedef void (Jim_InterpDeleteProc)(Jim_Interp *interp, void *data);
JIM_EXPORT void * Jim_GetAssocData(Jim_Interp *interp, const char *key);
JIM_EXPORT int Jim_SetAssocData(Jim_Interp *interp, const char *key,
Jim_InterpDeleteProc *delProc, void *data);
JIM_EXPORT int Jim_DeleteAssocData(Jim_Interp *interp, const char *key);
/* Packages C API */
/* jim-package.c */
JIM_EXPORT int Jim_PackageProvide (Jim_Interp *interp,
const char *name, const char *ver, int flags);
JIM_EXPORT int Jim_PackageRequire (Jim_Interp *interp,
const char *name, int flags);
/* error messages */
JIM_EXPORT void Jim_MakeErrorMessage (Jim_Interp *interp);
/* interactive mode */
JIM_EXPORT int Jim_InteractivePrompt (Jim_Interp *interp);
/* Misc */
JIM_EXPORT int Jim_InitStaticExtensions(Jim_Interp *interp);
JIM_EXPORT int Jim_StringToWide(const char *str, jim_wide *widePtr, int base);
/* jim-load.c */
JIM_EXPORT int Jim_LoadLibrary(Jim_Interp *interp, const char *pathName);
JIM_EXPORT void Jim_FreeLoadHandles(Jim_Interp *interp);
/* jim-aio.c */
JIM_EXPORT FILE *Jim_AioFilehandle(Jim_Interp *interp, Jim_Obj *command);
/* type inspection - avoid where possible */
JIM_EXPORT int Jim_IsDict(Jim_Obj *objPtr);
JIM_EXPORT int Jim_IsList(Jim_Obj *objPtr);
#ifdef __cplusplus
}
#endif
#endif /* __JIM__H */
/*
* Local Variables: ***
* c-basic-offset: 4 ***
* tab-width: 4 ***
* End: ***
*/
/* Provides a common approach to implementing Tcl commands
* which implement subcommands
*/
#ifndef JIM_SUBCMD_H
#define JIM_SUBCMD_H
#define JIM_MODFLAG_HIDDEN 0x0001 /* Don't show the subcommand in usage or commands */
#define JIM_MODFLAG_FULLARGV 0x0002 /* Subcmd proc gets called with full argv */
/* Custom flags start at 0x0100 */
/**
* Returns JIM_OK if OK, JIM_ERR (etc.) on error, break, continue, etc.
* Returns -1 if invalid args.
*/
typedef int tclmod_cmd_function(Jim_Interp *interp, int argc, Jim_Obj *const *argv);
typedef struct {
const char *cmd; /* Name of the (sub)command */
const char *args; /* Textual description of allowed args */
tclmod_cmd_function *function; /* Function implementing the subcommand */
short minargs; /* Minimum required arguments */
short maxargs; /* Maximum allowed arguments or -1 if no limit */
unsigned flags; /* JIM_MODFLAG_... plus custom flags */
const char *description; /* Description of the subcommand */
} jim_subcmd_type;
/**
* Looks up the appropriate subcommand in the given command table and return
* the command function which implements the subcommand.
* NULL will be returned and an appropriate error will be set if the subcommand or
* arguments are invalid.
*
* Typical usage is:
* {
* const jim_subcmd_type *ct = Jim_ParseSubCmd(interp, command_table, argc, argv);
*
* return Jim_CallSubCmd(interp, ct, argc, argv);
* }
*
*/
const jim_subcmd_type *
Jim_ParseSubCmd(Jim_Interp *interp, const jim_subcmd_type *command_table, int argc, Jim_Obj *const *argv);
/**
* Parses the args against the given command table and executes the subcommand if found
* or sets an appropriate error if the subcommand or arguments is invalid.
*
* Can be used directly with Jim_CreateCommand() where the ClientData is the command table.
*
* e.g. Jim_CreateCommand(interp, "mycmd", Jim_SubCmdProc, command_table, NULL);
*/
int Jim_SubCmdProc(Jim_Interp *interp, int argc, Jim_Obj *const *argv);
/**
* Invokes the given subcmd with the given args as returned
* by Jim_ParseSubCmd()
*
* If ct is NULL, returns JIM_ERR, leaving any message.
* Otherwise invokes ct->function
*
* If ct->function returns -1, sets an error message and returns JIM_ERR.
* Otherwise returns the result of ct->function.
*/
int Jim_CallSubCmd(Jim_Interp *interp, const jim_subcmd_type *ct, int argc, Jim_Obj *const *argv);
/**
* Standard processing for a command.
*
* This does the '-help' and '-usage' check and the number of args checks.
* for a top level command against a single 'jim_subcmd_type' structure.
*
* Additionally, if command_table->function is set, it should point to a sub command table
* and '-subhelp ?subcmd?', '-subusage' and '-subcommands' are then also recognised.
*
* Returns 0 if user requested usage, -1 on arg error, 1 if OK to process.
*/
int
Jim_CheckCmdUsage(Jim_Interp *interp, const jim_subcmd_type *command_table, int argc, Jim_Obj *const *argv);
#endif
#ifndef JIMREGEXP_H
#define JIMREGEXP_H
#ifndef _JIMAUTOCONF_H
#error Need jimautoconf.h
#endif
#if defined(HAVE_REGCOMP) && !defined(JIM_REGEXP)
/* Use POSIX regex */
#include <regex.h>
#else
#include <stdlib.h>
/*
* Definitions etc. for regexp(3) routines.
*
* Caveat: this is V8 regexp(3) [actually, a reimplementation thereof],
* not the System V one.
*
* 11/04/02 (seiwald) - const-ing for string literals
*/
typedef struct {
int rm_so;
int rm_eo;
} regmatch_t;
/*
* The "internal use only" fields in regexp.h are present to pass info from
* compile to execute that permits the execute phase to run lots faster on
* simple cases. They are:
*
* regstart char that must begin a match; '\0' if none obvious
* reganch is the match anchored (at beginning-of-line only)?
* regmust string (pointer into program) that match must include, or NULL
* regmlen length of regmust string
*
* Regstart and reganch permit very fast decisions on suitable starting points
* for a match, cutting down the work a lot. Regmust permits fast rejection
* of lines that cannot possibly match. The regmust tests are costly enough
* that regcomp() supplies a regmust only if the r.e. contains something
* potentially expensive (at present, the only such thing detected is * or +
* at the start of the r.e., which can involve a lot of backup). Regmlen is
* supplied because the test in regexec() needs it and regcomp() is computing
* it anyway.
*/
typedef struct regexp {
/* -- public -- */
int re_nsub; /* number of parenthesized subexpressions */
/* -- private -- */
int cflags; /* Flags used when compiling */
int err; /* Any error which occurred during compile */
int regstart; /* Internal use only. */
int reganch; /* Internal use only. */
int regmust; /* Internal use only. */
int regmlen; /* Internal use only. */
int *program; /* Allocated */
/* working state - compile */
const char *regparse; /* Input-scan pointer. */
int p; /* Current output pos in program */
int proglen; /* Allocated program size */
/* working state - exec */
int eflags; /* Flags used when executing */
const char *start; /* Initial string pointer. */
const char *reginput; /* Current input pointer. */
const char *regbol; /* Beginning of input, for ^ check. */
/* Input to regexec() */
regmatch_t *pmatch; /* submatches will be stored here */
int nmatch; /* size of pmatch[] */
} regexp;
typedef regexp regex_t;
#define REG_EXTENDED 0
#define REG_NEWLINE 1
#define REG_ICASE 2
#define REG_NOTBOL 16
enum {
REG_NOERROR, /* Success. */
REG_NOMATCH, /* Didn't find a match (for regexec). */
REG_BADPAT, /* >= REG_BADPAT is an error */
REG_ERR_NULL_ARGUMENT,
REG_ERR_UNKNOWN,
REG_ERR_TOO_BIG,
REG_ERR_NOMEM,
REG_ERR_TOO_MANY_PAREN,
REG_ERR_UNMATCHED_PAREN,
REG_ERR_UNMATCHED_BRACES,
REG_ERR_BAD_COUNT,
REG_ERR_JUNK_ON_END,
REG_ERR_OPERAND_COULD_BE_EMPTY,
REG_ERR_NESTED_COUNT,
REG_ERR_INTERNAL,
REG_ERR_COUNT_FOLLOWS_NOTHING,
REG_ERR_TRAILING_BACKSLASH,
REG_ERR_CORRUPTED,
REG_ERR_NULL_CHAR,
REG_ERR_NUM
};
int regcomp(regex_t *preg, const char *regex, int cflags);
int regexec(regex_t *preg, const char *string, size_t nmatch, regmatch_t pmatch[], int eflags);
size_t regerror(int errcode, const regex_t *preg, char *errbuf, size_t errbuf_size);
void regfree(regex_t *preg);
#endif
#endif
int Jim_bootstrapInit(Jim_Interp *interp)
{
if (Jim_PackageProvide(interp, "bootstrap", "1.0", JIM_ERRMSG))
return JIM_ERR;
return Jim_Eval_Named(interp,
"\n"
"\n"
"proc package {args} {}\n"
,"bootstrap.tcl", 1);
}
int Jim_globInit(Jim_Interp *interp)
{
if (Jim_PackageProvide(interp, "glob", "1.0", JIM_ERRMSG))
return JIM_ERR;
return Jim_Eval_Named(interp,
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"package require readdir\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"proc glob {args} {\n"
"\n"
"\n"
"\n"
"\n"
" local proc glob.readdir_pattern {dir pattern} {\n"
" set result {}\n"
"\n"
"\n"
" if {$pattern in {. ..}} {\n"
" return $pattern\n"
" }\n"
"\n"
"\n"
" if {[string match {*[*?]*} $pattern]} {\n"
"\n"
" set files [readdir -nocomplain $dir]\n"
" } elseif {[file isdir $dir] && [file exists $dir/$pattern]} {\n"
" set files [list $pattern]\n"
" } else {\n"
" set files \"\"\n"
" }\n"
"\n"
" foreach name $files {\n"
" if {[string match $pattern $name]} {\n"
"\n"
" if {[string index $name 0] eq \".\" && [string index $pattern 0] ne \".\"} {\n"
" continue\n"
" }\n"
" lappend result $name\n"
" }\n"
" }\n"
"\n"
" return $result\n"
" }\n"
"\n"
"\n"
"\n"
"\n"
"\n"
" proc glob.expandbraces {pattern} {\n"
"\n"
"\n"
" if {[set fb [string first \"\\{\" $pattern]] < 0} {\n"
" return $pattern\n"
" }\n"
" if {[set nb [string first \"\\}\" $pattern $fb]] < 0} {\n"
" return $pattern\n"
" }\n"
" set before [string range $pattern 0 $fb-1]\n"
" set braced [string range $pattern $fb+1 $nb-1]\n"
" set after [string range $pattern $nb+1 end]\n"
"\n"
" lmap part [split $braced ,] {\n"
" set pat $before$part$after\n"
" }\n"
" }\n"
"\n"
"\n"
" proc glob.glob {pattern} {\n"
" set dir [file dirname $pattern]\n"
" if {$dir eq $pattern} {\n"
"\n"
" return [list $dir]\n"
" }\n"
"\n"
"\n"
" set dirlist [glob.glob $dir]\n"
" set pattern [file tail $pattern]\n"
"\n"
"\n"
" set result {}\n"
" foreach dir $dirlist {\n"
" set globdir $dir\n"
" if {[string match \"*/\" $dir]} {\n"
" set sep \"\"\n"
" } elseif {$dir eq \".\"} {\n"
" set globdir \"\"\n"
" set sep \"\"\n"
" } else {\n"
" set sep /\n"
" }\n"
" foreach pat [glob.expandbraces $pattern] {\n"
" foreach name [glob.readdir_pattern $dir $pat] {\n"
" lappend result $globdir$sep$name\n"
" }\n"
" }\n"
" }\n"
" return $result\n"
" }\n"
"\n"
"\n"
" set nocomplain 0\n"
"\n"
" if {[lindex $args 0] eq \"-nocomplain\"} {\n"
" set nocomplain 1\n"
" set args [lrange $args 1 end]\n"
" }\n"
"\n"
" set result {}\n"
" foreach pattern $args {\n"
" lappend result {*}[glob.glob $pattern]\n"
" }\n"
"\n"
" if {$nocomplain == 0 && [llength $result] == 0} {\n"
" return -code error \"no files matched glob patterns\"\n"
" }\n"
"\n"
" return $result\n"
"}\n"
,"glob.tcl", 1);
}
int Jim_stdlibInit(Jim_Interp *interp)
{
if (Jim_PackageProvide(interp, "stdlib", "1.0", JIM_ERRMSG))
return JIM_ERR;
return Jim_Eval_Named(interp,
"\n"
"\n"
"\n"
"proc alias {name args} {\n"
" set prefix $args\n"
" proc $name args prefix {\n"
" tailcall {*}$prefix {*}$args\n"
" }\n"
"}\n"
"\n"
"\n"
"proc lambda {arglist args} {\n"
" set name [ref {} function lambda.finalizer]\n"
" tailcall proc $name $arglist {*}$args\n"
"}\n"
"\n"
"proc lambda.finalizer {name val} {\n"
" rename $name {}\n"
"}\n"
"\n"
"\n"
"proc curry {args} {\n"
" set prefix $args\n"
" lambda args prefix {\n"
" tailcall {*}$prefix {*}$args\n"
" }\n"
"}\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"proc function {value} {\n"
" return $value\n"
"}\n"
"\n"
"\n"
"proc lassign {list args} {\n"
"\n"
" lappend list {}\n"
" uplevel 1 [list foreach $args $list break]\n"
" lrange $list [llength $args] end-1\n"
"}\n"
"\n"
"\n"
"\n"
"\n"
"proc stacktrace {} {\n"
" set trace {}\n"
" foreach level [range 1 [info level]] {\n"
" lassign [info frame -$level] p f l\n"
" lappend trace $p $f $l\n"
" }\n"
" return $trace\n"
"}\n"
"\n"
"\n"
"proc stackdump {stacktrace} {\n"
" set result {}\n"
" set count 0\n"
" foreach {l f p} [lreverse $stacktrace] {\n"
" if {$count} {\n"
" append result \\n\n"
" }\n"
" incr count\n"
" if {$p ne \"\"} {\n"
" append result \"in procedure '$p' \"\n"
" if {$f ne \"\"} {\n"
" append result \"called \"\n"
" }\n"
" }\n"
" if {$f ne \"\"} {\n"
" append result \"at file \\\"$f\\\", line $l\"\n"
" }\n"
" }\n"
" return $result\n"
"}\n"
"\n"
"\n"
"\n"
"proc errorInfo {msg {stacktrace \"\"}} {\n"
" if {$stacktrace eq \"\"} {\n"
" set stacktrace [info stacktrace]\n"
" }\n"
" lassign $stacktrace p f l\n"
" if {$f ne \"\"} {\n"
" set result \"Runtime Error: $f:$l: \"\n"
" }\n"
" append result \"$msg\\n\"\n"
" append result [stackdump $stacktrace]\n"
"\n"
"\n"
" string trim $result\n"
"}\n"
"\n"
"\n"
"\n"
"proc {info nameofexecutable} {} {\n"
" if {[info exists ::jim_argv0]} {\n"
" if {[string first \"/\" $::jim_argv0] >= 0} {\n"
" return $::jim_argv0\n"
" }\n"
" foreach path [split [env PATH \"\"] :] {\n"
" set exec [file join $path $::jim_argv0]\n"
" if {[file executable $exec]} {\n"
" return $exec\n"
" }\n"
" }\n"
" }\n"
" return \"\"\n"
"}\n"
"\n"
"\n"
"proc {dict with} {dictVar args script} {\n"
" upvar $dictVar dict\n"
" set keys {}\n"
" foreach {n v} [dict get $dict {*}$args] {\n"
" upvar $n var_$n\n"
" set var_$n $v\n"
" lappend keys $n\n"
" }\n"
" catch {uplevel 1 $script} msg opts\n"
" if {[info exists dict] && [dict exists $dict {*}$args]} {\n"
" foreach n $keys {\n"
" if {[info exists var_$n]} {\n"
" dict set dict {*}$args $n [set var_$n]\n"
" } else {\n"
" dict unset dict {*}$args $n\n"
" }\n"
" }\n"
" }\n"
" return {*}$opts $msg\n"
"}\n"
"\n"
"\n"
"\n"
"proc {dict merge} {dict args} {\n"
" foreach d $args {\n"
"\n"
" dict size $d\n"
" foreach {k v} $d {\n"
" dict set dict $k $v\n"
" }\n"
" }\n"
" return $dict\n"
"}\n"
,"stdlib.tcl", 1);
}
int Jim_tclcompatInit(Jim_Interp *interp)
{
if (Jim_PackageProvide(interp, "tclcompat", "1.0", JIM_ERRMSG))
return JIM_ERR;
return Jim_Eval_Named(interp,
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"set env [env]\n"
"\n"
"if {[info commands stdout] ne \"\"} {\n"
"\n"
" foreach p {gets flush close eof seek tell} {\n"
" proc $p {chan args} {p} {\n"
" tailcall $chan $p {*}$args\n"
" }\n"
" }\n"
" unset p\n"
"\n"
"\n"
"\n"
" proc puts {{-nonewline {}} {chan stdout} msg} {\n"
" if {${-nonewline} ni {-nonewline {}}} {\n"
" tailcall ${-nonewline} puts $msg\n"
" }\n"
" tailcall $chan puts {*}${-nonewline} $msg\n"
" }\n"
"\n"
"\n"
"\n"
"\n"
"\n"
" proc read {{-nonewline {}} chan} {\n"
" if {${-nonewline} ni {-nonewline {}}} {\n"
" tailcall ${-nonewline} read {*}${chan}\n"
" }\n"
" tailcall $chan read {*}${-nonewline}\n"
" }\n"
"\n"
" proc fconfigure {f args} {\n"
" foreach {n v} $args {\n"
" switch -glob -- $n {\n"
" -bl* {\n"
" $f ndelay $v\n"
" }\n"
" -bu* {\n"
" $f buffering $v\n"
" }\n"
" -tr* {\n"
"\n"
" }\n"
" default {\n"
" return -code error \"fconfigure: unknown option $n\"\n"
" }\n"
" }\n"
" }\n"
" }\n"
"}\n"
"\n"
"\n"
"proc case {var args} {\n"
"\n"
" if {[lindex $args 0] eq \"in\"} {\n"
" set args [lrange $args 1 end]\n"
" }\n"
"\n"
"\n"
" if {[llength $args] == 1} {\n"
" set args [lindex $args 0]\n"
" }\n"
"\n"
"\n"
" if {[llength $args] % 2 != 0} {\n"
" return -code error \"extra case pattern with no body\"\n"
" }\n"
"\n"
"\n"
" local proc case.checker {value pattern} {\n"
" string match $pattern $value\n"
" }\n"
"\n"
" foreach {value action} $args {\n"
" if {$value eq \"default\"} {\n"
" set do_action $action\n"
" continue\n"
" } elseif {[lsearch -bool -command case.checker $value $var]} {\n"
" set do_action $action\n"
" break\n"
" }\n"
" }\n"
"\n"
" if {[info exists do_action]} {\n"
" set rc [catch [list uplevel 1 $do_action] result opts]\n"
" if {$rc} {\n"
" incr opts(-level)\n"
" }\n"
" return {*}$opts $result\n"
" }\n"
"}\n"
"\n"
"\n"
"proc fileevent {args} {\n"
" tailcall {*}$args\n"
"}\n"
"\n"
"\n"
"\n"
"\n"
"proc parray {arrayname {pattern *} {puts puts}} {\n"
" upvar $arrayname a\n"
"\n"
" set max 0\n"
" foreach name [array names a $pattern]] {\n"
" if {[string length $name] > $max} {\n"
" set max [string length $name]\n"
" }\n"
" }\n"
" incr max [string length $arrayname]\n"
" incr max 2\n"
" foreach name [lsort [array names a $pattern]] {\n"
" $puts [format \"%-${max}s = %s\" $arrayname\\($name\\) $a($name)]\n"
" }\n"
"}\n"
"\n"
"\n"
"proc {file copy} {{force {}} source target} {\n"
" try {\n"
" if {$force ni {{} -force}} {\n"
" error \"bad option \\\"$force\\\": should be -force\"\n"
" }\n"
"\n"
" set in [open $source]\n"
"\n"
" if {$force eq \"\" && [file exists $target]} {\n"
" $in close\n"
" error \"error copying \\\"$source\\\" to \\\"$target\\\": file already exists\"\n"
" }\n"
" set out [open $target w]\n"
" $in copyto $out\n"
" $out close\n"
" } on error {msg opts} {\n"
" incr opts(-level)\n"
" return {*}$opts $msg\n"
" } finally {\n"
" catch {$in close}\n"
" }\n"
"}\n"
"\n"
"\n"
"\n"
"proc popen {cmd {mode r}} {\n"
" lassign [socket pipe] r w\n"
" try {\n"
" if {[string match \"w*\" $mode]} {\n"
" lappend cmd <@$r &\n"
" set pids [exec {*}$cmd]\n"
" $r close\n"
" set f $w\n"
" } else {\n"
" lappend cmd >@$w &\n"
" set pids [exec {*}$cmd]\n"
" $w close\n"
" set f $r\n"
" }\n"
" lambda {cmd args} {f pids} {\n"
" if {$cmd eq \"pid\"} {\n"
" return $pids\n"
" }\n"
" if {$cmd eq \"close\"} {\n"
" $f close\n"
"\n"
" foreach p $pids { os.wait $p }\n"
" return\n"
" }\n"
" tailcall $f $cmd {*}$args\n"
" }\n"
" } on error {error opts} {\n"
" $r close\n"
" $w close\n"
" error $error\n"
" }\n"
"}\n"
"\n"
"\n"
"local proc pid {{chan {}}} {\n"
" if {$chan eq \"\"} {\n"
" tailcall upcall pid\n"
" }\n"
" if {[catch {$chan tell}]} {\n"
" return -code error \"can not find channel named \\\"$chan\\\"\"\n"
" }\n"
" if {[catch {$chan pid} pids]} {\n"
" return \"\"\n"
" }\n"
" return $pids\n"
"}\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"proc try {args} {\n"
" set catchopts {}\n"
" while {[string match -* [lindex $args 0]]} {\n"
" set args [lassign $args opt]\n"
" if {$opt eq \"--\"} {\n"
" break\n"
" }\n"
" lappend catchopts $opt\n"
" }\n"
" if {[llength $args] == 0} {\n"
" return -code error {wrong # args: should be \"try ?options? script ?argument ...?\"}\n"
" }\n"
" set args [lassign $args script]\n"
" set code [catch -eval {*}$catchopts [list uplevel 1 $script] msg opts]\n"
"\n"
" set handled 0\n"
"\n"
" foreach {on codes vars script} $args {\n"
" switch -- $on \\\n"
" on {\n"
" if {!$handled && ($codes eq \"*\" || [info returncode $code] in $codes)} {\n"
" lassign $vars msgvar optsvar\n"
" if {$msgvar ne \"\"} {\n"
" upvar $msgvar hmsg\n"
" set hmsg $msg\n"
" }\n"
" if {$optsvar ne \"\"} {\n"
" upvar $optsvar hopts\n"
" set hopts $opts\n"
" }\n"
"\n"
" set code [catch [list uplevel 1 $script] msg opts]\n"
" incr handled\n"
" }\n"
" } \\\n"
" finally {\n"
" set finalcode [catch [list uplevel 1 $codes] finalmsg finalopts]\n"
" if {$finalcode} {\n"
"\n"
" set code $finalcode\n"
" set msg $finalmsg\n"
" set opts $finalopts\n"
" }\n"
" break\n"
" } \\\n"
" default {\n"
" return -code error \"try: expected 'on' or 'finally', got '$on'\"\n"
" }\n"
" }\n"
"\n"
" if {$code} {\n"
" incr opts(-level)\n"
" return {*}$opts $msg\n"
" }\n"
" return $msg\n"
"}\n"
"\n"
"\n"
"\n"
"proc throw {code {msg \"\"}} {\n"
" return -code $code $msg\n"
"}\n"
"\n"
"\n"
"proc {file delete force} {path} {\n"
" foreach e [readdir $path] {\n"
" file delete -force $path/$e\n"
" }\n"
" file delete $path\n"
"}\n"
,"tclcompat.tcl", 1);
}
/* Jim - A small embeddable Tcl interpreter
*
* Copyright 2005 Salvatore Sanfilippo <antirez@invece.org>
* Copyright 2005 Clemens Hintze <c.hintze@gmx.net>
* Copyright 2005 patthoyts - Pat Thoyts <patthoyts@users.sf.net>
* Copyright 2008 oharboe - Øyvind Harboe - oyvind.harboe@zylin.com
* Copyright 2008 Andrew Lunn <andrew@lunn.ch>
* Copyright 2008 Duane Ellis <openocd@duaneellis.com>
* Copyright 2008 Uwe Klein <uklein@klein-messgeraete.de>
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials
* provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE JIM TCL PROJECT ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
* PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* JIM TCL PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* The views and conclusions contained in the software and documentation
* are those of the authors and should not be interpreted as representing
* official policies, either expressed or implied, of the Jim Tcl Project.
**/
#include <unistd.h>
#include <stdio.h>
#include <string.h>
#include <errno.h>
#include <fcntl.h>
#if defined(HAVE_SYS_SOCKET_H) && defined(HAVE_SELECT) && defined(HAVE_NETINET_IN_H) && defined(HAVE_NETDB_H) && defined(HAVE_ARPA_INET_H)
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <netdb.h>
#ifdef HAVE_SYS_UN_H
#include <sys/un.h>
#endif
#else
#define JIM_ANSIC
#endif
#define AIO_CMD_LEN 32 /* e.g. aio.handleXXXXXX */
#define AIO_BUF_LEN 256 /* Can keep this small and rely on stdio buffering */
#define AIO_KEEPOPEN 1
#if defined(JIM_IPV6)
#define IPV6 1
#else
#define IPV6 0
#ifndef PF_INET6
#define PF_INET6 0
#endif
#endif
#ifndef JIM_ANSIC
union sockaddr_any {
struct sockaddr sa;
struct sockaddr_in sin;
#if IPV6
struct sockaddr_in6 sin6;
#endif
};
#ifndef HAVE_INET_NTOP
const char *inet_ntop(int af, const void *src, char *dst, int size)
{
if (af != PF_INET) {
return NULL;
}
snprintf(dst, size, "%s", inet_ntoa(((struct sockaddr_in *)src)->sin_addr));
return dst;
}
#endif
#endif
typedef struct AioFile
{
FILE *fp;
Jim_Obj *filename;
int type;
int OpenFlags; /* AIO_KEEPOPEN? keep FILE* */
int fd;
#ifdef O_NDELAY
int flags;
#endif
Jim_Obj *rEvent;
Jim_Obj *wEvent;
Jim_Obj *eEvent;
#ifndef JIM_ANSIC
int addr_family;
#endif
} AioFile;
static int JimAioSubCmdProc(Jim_Interp *interp, int argc, Jim_Obj *const *argv);
#ifndef JIM_ANSIC
static int JimParseIPv6Address(Jim_Interp *interp, const char *hostport, union sockaddr_any *sa, int *salen)
{
#if IPV6
/*
* An IPv6 addr/port looks like:
* [::1]
* [::1]:2000
* [fe80::223:6cff:fe95:bdc0%en1]:2000
* [::]:2000
* 2000
*
* Note that the "any" address is ::, which is the same as when no address is specified.
*/
char *sthost = NULL;
const char *stport;
int ret = JIM_OK;
struct addrinfo req;
struct addrinfo *ai;
stport = strrchr(hostport, ':');
if (!stport) {
/* No : so, the whole thing is the port */
stport = hostport;
hostport = "::";
sthost = Jim_StrDup(hostport);
}
else {
stport++;
}
if (*hostport == '[') {
/* This is a numeric ipv6 address */
char *pt = strchr(++hostport, ']');
if (pt) {
sthost = Jim_StrDupLen(hostport, pt - hostport);
}
}
if (!sthost) {
sthost = Jim_StrDupLen(hostport, stport - hostport - 1);
}
memset(&req, '\0', sizeof(req));
req.ai_family = PF_INET6;
if (getaddrinfo(sthost, NULL, &req, &ai)) {
Jim_SetResultFormatted(interp, "Not a valid address: %s", hostport);
ret = JIM_ERR;
}
else {
memcpy(&sa->sin, ai->ai_addr, ai->ai_addrlen);
*salen = ai->ai_addrlen;
sa->sin.sin_port = htons(atoi(stport));
freeaddrinfo(ai);
}
Jim_Free(sthost);
return ret;
#else
Jim_SetResultString(interp, "ipv6 not supported", -1);
return JIM_ERR;
#endif
}
static int JimParseIpAddress(Jim_Interp *interp, const char *hostport, union sockaddr_any *sa, int *salen)
{
/* An IPv4 addr/port looks like:
* 192.168.1.5
* 192.168.1.5:2000
* 2000
*
* If the address is missing, INADDR_ANY is used.
* If the port is missing, 0 is used (only useful for server sockets).
*/
char *sthost = NULL;
const char *stport;
int ret = JIM_OK;
stport = strrchr(hostport, ':');
if (!stport) {
/* No : so, the whole thing is the port */
stport = hostport;
sthost = Jim_StrDup("0.0.0.0");
}
else {
sthost = Jim_StrDupLen(hostport, stport - hostport);
stport++;
}
{
#ifdef HAVE_GETADDRINFO
struct addrinfo req;
struct addrinfo *ai;
memset(&req, '\0', sizeof(req));
req.ai_family = PF_INET;
if (getaddrinfo(sthost, NULL, &req, &ai)) {
ret = JIM_ERR;
}
else {
memcpy(&sa->sin, ai->ai_addr, ai->ai_addrlen);
*salen = ai->ai_addrlen;
freeaddrinfo(ai);
}
#else
struct hostent *he;
ret = JIM_ERR;
if ((he = gethostbyname(sthost)) != NULL) {
if (he->h_length == sizeof(sa->sin.sin_addr)) {
*salen = sizeof(sa->sin);
sa->sin.sin_family= he->h_addrtype;
memcpy(&sa->sin.sin_addr, he->h_addr, he->h_length); /* set address */
ret = JIM_OK;
}
}
#endif
sa->sin.sin_port = htons(atoi(stport));
}
Jim_Free(sthost);
if (ret != JIM_OK) {
Jim_SetResultFormatted(interp, "Not a valid address: %s", hostport);
}
return ret;
}
#ifdef HAVE_SYS_UN_H
static int JimParseDomainAddress(Jim_Interp *interp, const char *path, struct sockaddr_un *sa)
{
sa->sun_family = PF_UNIX;
snprintf(sa->sun_path, sizeof(sa->sun_path), "%s", path);
return JIM_OK;
}
#endif
#endif
static void JimAioSetError(Jim_Interp *interp, Jim_Obj *name)
{
if (name) {
Jim_SetResultFormatted(interp, "%#s: %s", name, strerror(errno));
}
else {
Jim_SetResultString(interp, strerror(errno), -1);
}
}
static void JimAioDelProc(Jim_Interp *interp, void *privData)
{
AioFile *af = privData;
JIM_NOTUSED(interp);
Jim_DecrRefCount(interp, af->filename);
if (!(af->OpenFlags & AIO_KEEPOPEN)) {
fclose(af->fp);
}
#ifdef jim_ext_eventloop
/* remove existing EventHandlers */
if (af->rEvent) {
Jim_DeleteFileHandler(interp, af->fp);
}
if (af->wEvent) {
Jim_DeleteFileHandler(interp, af->fp);
}
if (af->eEvent) {
Jim_DeleteFileHandler(interp, af->fp);
}
#endif
Jim_Free(af);
}
static int aio_cmd_read(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
AioFile *af = Jim_CmdPrivData(interp);
char buf[AIO_BUF_LEN];
Jim_Obj *objPtr;
int nonewline = 0;
int neededLen = -1; /* -1 is "read as much as possible" */
if (argc && Jim_CompareStringImmediate(interp, argv[0], "-nonewline")) {
nonewline = 1;
argv++;
argc--;
}
if (argc == 1) {
jim_wide wideValue;
if (Jim_GetWide(interp, argv[0], &wideValue) != JIM_OK)
return JIM_ERR;
if (wideValue < 0) {
Jim_SetResultString(interp, "invalid parameter: negative len", -1);
return JIM_ERR;
}
neededLen = (int)wideValue;
}
else if (argc) {
return -1;
}
objPtr = Jim_NewStringObj(interp, NULL, 0);
while (neededLen != 0) {
int retval;
int readlen;
if (neededLen == -1) {
readlen = AIO_BUF_LEN;
}
else {
readlen = (neededLen > AIO_BUF_LEN ? AIO_BUF_LEN : neededLen);
}
retval = fread(buf, 1, readlen, af->fp);
if (retval > 0) {
Jim_AppendString(interp, objPtr, buf, retval);
if (neededLen != -1) {
neededLen -= retval;
}
}
if (retval != readlen)
break;
}
/* Check for error conditions */
if (ferror(af->fp)) {
clearerr(af->fp);
/* eof and EAGAIN are not error conditions */
if (!feof(af->fp) && errno != EAGAIN) {
/* I/O error */
Jim_FreeNewObj(interp, objPtr);
JimAioSetError(interp, af->filename);
return JIM_ERR;
}
}
if (nonewline) {
int len;
const char *s = Jim_GetString(objPtr, &len);
if (len > 0 && s[len - 1] == '\n') {
objPtr->length--;
objPtr->bytes[objPtr->length] = '\0';
}
}
Jim_SetResult(interp, objPtr);
return JIM_OK;
}
static int aio_cmd_copy(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
AioFile *af = Jim_CmdPrivData(interp);
long count = 0;
long maxlen = LONG_MAX;
FILE *outfh = Jim_AioFilehandle(interp, argv[0]);
if (outfh == NULL) {
return JIM_ERR;
}
if (argc == 2) {
if (Jim_GetLong(interp, argv[1], &maxlen) != JIM_OK) {
return JIM_ERR;
}
}
while (count < maxlen) {
int ch = fgetc(af->fp);
if (ch == EOF || fputc(ch, outfh) == EOF) {
break;
}
count++;
}
if (ferror(af->fp)) {
Jim_SetResultFormatted(interp, "error while reading: %s", strerror(errno));
clearerr(af->fp);
return JIM_ERR;
}
if (ferror(outfh)) {
Jim_SetResultFormatted(interp, "error while writing: %s", strerror(errno));
clearerr(outfh);
return JIM_ERR;
}
Jim_SetResultInt(interp, count);
return JIM_OK;
}
static int aio_cmd_gets(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
AioFile *af = Jim_CmdPrivData(interp);
char buf[AIO_BUF_LEN];
Jim_Obj *objPtr;
errno = 0;
objPtr = Jim_NewStringObj(interp, NULL, 0);
while (1) {
int more = 0;
buf[AIO_BUF_LEN - 1] = '_';
if (fgets(buf, AIO_BUF_LEN, af->fp) == NULL)
break;
if (buf[AIO_BUF_LEN - 1] == '\0' && buf[AIO_BUF_LEN - 2] != '\n')
more = 1;
if (more) {
Jim_AppendString(interp, objPtr, buf, AIO_BUF_LEN - 1);
}
else {
int len = strlen(buf);
if (len) {
int hasnl = (buf[len - 1] == '\n');
/* strip "\n" */
Jim_AppendString(interp, objPtr, buf, strlen(buf) - hasnl);
}
}
if (!more)
break;
}
if (ferror(af->fp) && errno != EAGAIN && errno != EINTR) {
/* I/O error */
Jim_FreeNewObj(interp, objPtr);
JimAioSetError(interp, af->filename);
clearerr(af->fp);
return JIM_ERR;
}
/* On EOF returns -1 if varName was specified, or the empty string. */
if (feof(af->fp) && Jim_Length(objPtr) == 0) {
Jim_FreeNewObj(interp, objPtr);
if (argc) {
Jim_SetResultInt(interp, -1);
}
return JIM_OK;
}
if (argc) {
int totLen;
Jim_GetString(objPtr, &totLen);
if (Jim_SetVariable(interp, argv[0], objPtr) != JIM_OK) {
Jim_FreeNewObj(interp, objPtr);
return JIM_ERR;
}
Jim_SetResultInt(interp, totLen);
}
else {
Jim_SetResult(interp, objPtr);
}
return JIM_OK;
}
static int aio_cmd_puts(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
AioFile *af = Jim_CmdPrivData(interp);
int wlen;
const char *wdata;
Jim_Obj *strObj;
if (argc == 2) {
if (!Jim_CompareStringImmediate(interp, argv[0], "-nonewline")) {
return -1;
}
strObj = argv[1];
}
else {
strObj = argv[0];
}
wdata = Jim_GetString(strObj, &wlen);
if (fwrite(wdata, 1, wlen, af->fp) == (unsigned)wlen) {
if (argc == 2 || putc('\n', af->fp) != EOF) {
return JIM_OK;
}
}
JimAioSetError(interp, af->filename);
return JIM_ERR;
}
#ifndef JIM_ANSIC
static int aio_cmd_recvfrom(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
AioFile *af = Jim_CmdPrivData(interp);
char *buf;
union sockaddr_any sa;
long len;
socklen_t salen = sizeof(sa);
int rlen;
if (Jim_GetLong(interp, argv[0], &len) != JIM_OK) {
return JIM_ERR;
}
buf = Jim_Alloc(len + 1);
rlen = recvfrom(fileno(af->fp), buf, len, 0, &sa.sa, &salen);
if (rlen < 0) {
Jim_Free(buf);
JimAioSetError(interp, NULL);
return JIM_ERR;
}
buf[rlen] = 0;
Jim_SetResult(interp, Jim_NewStringObjNoAlloc(interp, buf, rlen));
if (argc > 1) {
/* INET6_ADDRSTRLEN is 46. Add some for [] and port */
char addrbuf[60];
#if IPV6
if (sa.sa.sa_family == PF_INET6) {
addrbuf[0] = '[';
/* Allow 9 for []:65535\0 */
inet_ntop(sa.sa.sa_family, &sa.sin6.sin6_addr, addrbuf + 1, sizeof(addrbuf) - 9);
snprintf(addrbuf + strlen(addrbuf), 8, "]:%d", ntohs(sa.sin.sin_port));
}
else
#endif
{
/* Allow 7 for :65535\0 */
inet_ntop(sa.sa.sa_family, &sa.sin.sin_addr, addrbuf, sizeof(addrbuf) - 7);
snprintf(addrbuf + strlen(addrbuf), 7, ":%d", ntohs(sa.sin.sin_port));
}
if (Jim_SetVariable(interp, argv[1], Jim_NewStringObj(interp, addrbuf, -1)) != JIM_OK) {
return JIM_ERR;
}
}
return JIM_OK;
}
static int aio_cmd_sendto(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
AioFile *af = Jim_CmdPrivData(interp);
int wlen;
int len;
const char *wdata;
union sockaddr_any sa;
const char *addr = Jim_String(argv[1]);
int salen;
if (IPV6 && af->addr_family == PF_INET6) {
if (JimParseIPv6Address(interp, addr, &sa, &salen) != JIM_OK) {
return JIM_ERR;
}
}
else if (JimParseIpAddress(interp, addr, &sa, &salen) != JIM_OK) {
return JIM_ERR;
}
wdata = Jim_GetString(argv[0], &wlen);
/* Note that we don't validate the socket type. Rely on sendto() failing if appropriate */
len = sendto(fileno(af->fp), wdata, wlen, 0, &sa.sa, salen);
if (len < 0) {
JimAioSetError(interp, NULL);
return JIM_ERR;
}
Jim_SetResultInt(interp, len);
return JIM_OK;
}
static int aio_cmd_accept(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
AioFile *serv_af = Jim_CmdPrivData(interp);
int sock;
union sockaddr_any sa;
socklen_t addrlen = sizeof(sa);
AioFile *af;
char buf[AIO_CMD_LEN];
sock = accept(serv_af->fd, &sa.sa, &addrlen);
if (sock < 0)
return JIM_ERR;
/* Create the file command */
af = Jim_Alloc(sizeof(*af));
af->fd = sock;
#ifdef FD_CLOEXEC
fcntl(af->fd, F_SETFD, FD_CLOEXEC);
#endif
af->filename = Jim_NewStringObj(interp, "accept", -1);
Jim_IncrRefCount(af->filename);
af->fp = fdopen(sock, "r+");
af->OpenFlags = 0;
#ifdef O_NDELAY
af->flags = fcntl(af->fd, F_GETFL);
#endif
af->rEvent = NULL;
af->wEvent = NULL;
af->eEvent = NULL;
af->addr_family = serv_af->addr_family;
snprintf(buf, sizeof(buf), "aio.sockstream%ld", Jim_GetId(interp));
Jim_CreateCommand(interp, buf, JimAioSubCmdProc, af, JimAioDelProc);
Jim_SetResultString(interp, buf, -1);
return JIM_OK;
}
#endif
static int aio_cmd_flush(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
AioFile *af = Jim_CmdPrivData(interp);
if (fflush(af->fp) == EOF) {
JimAioSetError(interp, af->filename);
return JIM_ERR;
}
return JIM_OK;
}
static int aio_cmd_eof(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
AioFile *af = Jim_CmdPrivData(interp);
Jim_SetResultInt(interp, feof(af->fp));
return JIM_OK;
}
static int aio_cmd_close(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
Jim_DeleteCommand(interp, Jim_String(argv[0]));
return JIM_OK;
}
static int aio_cmd_seek(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
AioFile *af = Jim_CmdPrivData(interp);
int orig = SEEK_SET;
long offset;
if (argc == 2) {
if (Jim_CompareStringImmediate(interp, argv[1], "start"))
orig = SEEK_SET;
else if (Jim_CompareStringImmediate(interp, argv[1], "current"))
orig = SEEK_CUR;
else if (Jim_CompareStringImmediate(interp, argv[1], "end"))
orig = SEEK_END;
else {
return -1;
}
}
if (Jim_GetLong(interp, argv[0], &offset) != JIM_OK) {
return JIM_ERR;
}
if (fseek(af->fp, offset, orig) == -1) {
JimAioSetError(interp, af->filename);
return JIM_ERR;
}
return JIM_OK;
}
static int aio_cmd_tell(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
AioFile *af = Jim_CmdPrivData(interp);
Jim_SetResultInt(interp, ftell(af->fp));
return JIM_OK;
}
static int aio_cmd_filename(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
AioFile *af = Jim_CmdPrivData(interp);
Jim_SetResult(interp, af->filename);
return JIM_OK;
}
#ifdef O_NDELAY
static int aio_cmd_ndelay(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
AioFile *af = Jim_CmdPrivData(interp);
int fmode = af->flags;
if (argc) {
long nb;
if (Jim_GetLong(interp, argv[0], &nb) != JIM_OK) {
return JIM_ERR;
}
if (nb) {
fmode |= O_NDELAY;
}
else {
fmode &= ~O_NDELAY;
}
fcntl(af->fd, F_SETFL, fmode);
af->flags = fmode;
}
Jim_SetResultInt(interp, (fmode & O_NONBLOCK) ? 1 : 0);
return JIM_OK;
}
#endif
static int aio_cmd_buffering(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
AioFile *af = Jim_CmdPrivData(interp);
static const char *options[] = {
"none",
"line",
"full",
NULL
};
enum
{
OPT_NONE,
OPT_LINE,
OPT_FULL,
};
int option;
if (Jim_GetEnum(interp, argv[0], options, &option, NULL, JIM_ERRMSG) != JIM_OK) {
return JIM_ERR;
}
switch (option) {
case OPT_NONE:
setvbuf(af->fp, NULL, _IONBF, 0);
break;
case OPT_LINE:
setvbuf(af->fp, NULL, _IOLBF, BUFSIZ);
break;
case OPT_FULL:
setvbuf(af->fp, NULL, _IOFBF, BUFSIZ);
break;
}
return JIM_OK;
}
#ifdef jim_ext_eventloop
static void JimAioFileEventFinalizer(Jim_Interp *interp, void *clientData)
{
Jim_Obj *objPtr = clientData;
Jim_DecrRefCount(interp, objPtr);
}
static int JimAioFileEventHandler(Jim_Interp *interp, void *clientData, int mask)
{
Jim_Obj *objPtr = clientData;
return Jim_EvalObjBackground(interp, objPtr);
}
static int aio_eventinfo(Jim_Interp *interp, AioFile * af, unsigned mask, Jim_Obj **scriptHandlerObj,
int argc, Jim_Obj * const *argv)
{
int scriptlen = 0;
if (argc == 0) {
/* Return current script */
if (*scriptHandlerObj) {
Jim_SetResult(interp, *scriptHandlerObj);
}
return JIM_OK;
}
if (*scriptHandlerObj) {
/* Delete old handler */
Jim_DeleteFileHandler(interp, af->fp);
*scriptHandlerObj = NULL;
}
/* Now possibly add the new script(s) */
Jim_GetString(argv[0], &scriptlen);
if (scriptlen == 0) {
/* Empty script, so done */
return JIM_OK;
}
/* A new script to add */
Jim_IncrRefCount(argv[0]);
*scriptHandlerObj = argv[0];
Jim_CreateFileHandler(interp, af->fp, mask,
JimAioFileEventHandler, *scriptHandlerObj, JimAioFileEventFinalizer);
return JIM_OK;
}
static int aio_cmd_readable(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
AioFile *af = Jim_CmdPrivData(interp);
return aio_eventinfo(interp, af, JIM_EVENT_READABLE, &af->rEvent, argc, argv);
}
static int aio_cmd_writable(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
AioFile *af = Jim_CmdPrivData(interp);
return aio_eventinfo(interp, af, JIM_EVENT_WRITABLE, &af->wEvent, argc, argv);
}
static int aio_cmd_onexception(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
AioFile *af = Jim_CmdPrivData(interp);
return aio_eventinfo(interp, af, JIM_EVENT_EXCEPTION, &af->wEvent, argc, argv);
}
#endif
static const jim_subcmd_type aio_command_table[] = {
{ .cmd = "read",
.args = "?-nonewline? ?len?",
.function = aio_cmd_read,
.minargs = 0,
.maxargs = 2,
.description = "Read and return bytes from the stream. To eof if no len."
},
{ .cmd = "copyto",
.args = "handle ?size?",
.function = aio_cmd_copy,
.minargs = 1,
.maxargs = 2,
.description = "Copy up to 'size' bytes to the given filehandle, or to eof if no size."
},
{ .cmd = "gets",
.args = "?var?",
.function = aio_cmd_gets,
.minargs = 0,
.maxargs = 1,
.description = "Read one line and return it or store it in the var"
},
{ .cmd = "puts",
.args = "?-nonewline? str",
.function = aio_cmd_puts,
.minargs = 1,
.maxargs = 2,
.description = "Write the string, with newline unless -nonewline"
},
#ifndef JIM_ANSIC
{ .cmd = "recvfrom",
.args = "len ?addrvar?",
.function = aio_cmd_recvfrom,
.minargs = 1,
.maxargs = 2,
.description = "Receive up to 'len' bytes on the socket. Sets 'addrvar' with receive address, if set"
},
{ .cmd = "sendto",
.args = "str address",
.function = aio_cmd_sendto,
.minargs = 2,
.maxargs = 2,
.description = "Send 'str' to the given address (dgram only)"
},
{ .cmd = "accept",
.function = aio_cmd_accept,
.description = "Server socket only: Accept a connection and return stream"
},
#endif
{ .cmd = "flush",
.function = aio_cmd_flush,
.description = "Flush the stream"
},
{ .cmd = "eof",
.function = aio_cmd_eof,
.description = "Returns 1 if stream is at eof"
},
{ .cmd = "close",
.flags = JIM_MODFLAG_FULLARGV,
.function = aio_cmd_close,
.description = "Closes the stream"
},
{ .cmd = "seek",
.args = "offset ?start|current|end",
.function = aio_cmd_seek,
.minargs = 1,
.maxargs = 2,
.description = "Seeks in the stream (default 'current')"
},
{ .cmd = "tell",
.function = aio_cmd_tell,
.description = "Returns the current seek position"
},
{ .cmd = "filename",
.function = aio_cmd_filename,
.description = "Returns the original filename"
},
#ifdef O_NDELAY
{ .cmd = "ndelay",
.args = "?0|1?",
.function = aio_cmd_ndelay,
.minargs = 0,
.maxargs = 1,
.description = "Set O_NDELAY (if arg). Returns current/new setting."
},
#endif
{ .cmd = "buffering",
.args = "none|line|full",
.function = aio_cmd_buffering,
.minargs = 1,
.maxargs = 1,
.description = "Sets buffering"
},
#ifdef jim_ext_eventloop
{ .cmd = "readable",
.args = "?readable-script?",
.minargs = 0,
.maxargs = 1,
.function = aio_cmd_readable,
.description = "Returns script, or invoke readable-script when readable, {} to remove",
},
{ .cmd = "writable",
.args = "?writable-script?",
.minargs = 0,
.maxargs = 1,
.function = aio_cmd_writable,
.description = "Returns script, or invoke writable-script when writable, {} to remove",
},
{ .cmd = "onexception",
.args = "?exception-script?",
.minargs = 0,
.maxargs = 1,
.function = aio_cmd_onexception,
.description = "Returns script, or invoke exception-script when oob data, {} to remove",
},
#endif
{ 0 }
};
static int JimAioSubCmdProc(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
return Jim_CallSubCmd(interp, Jim_ParseSubCmd(interp, aio_command_table, argc, argv), argc, argv);
}
static int JimAioOpenCommand(Jim_Interp *interp, int argc,
Jim_Obj *const *argv)
{
FILE *fp;
AioFile *af;
char buf[AIO_CMD_LEN];
int OpenFlags = 0;
const char *cmdname;
if (argc != 2 && argc != 3) {
Jim_WrongNumArgs(interp, 1, argv, "filename ?mode?");
return JIM_ERR;
}
cmdname = Jim_String(argv[1]);
if (Jim_CompareStringImmediate(interp, argv[1], "stdin")) {
OpenFlags |= AIO_KEEPOPEN;
fp = stdin;
}
else if (Jim_CompareStringImmediate(interp, argv[1], "stdout")) {
OpenFlags |= AIO_KEEPOPEN;
fp = stdout;
}
else if (Jim_CompareStringImmediate(interp, argv[1], "stderr")) {
OpenFlags |= AIO_KEEPOPEN;
fp = stderr;
}
else {
const char *mode = (argc == 3) ? Jim_String(argv[2]) : "r";
const char *filename = Jim_String(argv[1]);
#ifdef jim_ext_tclcompat
/* If the filename starts with '|', use popen instead */
if (*filename == '|') {
Jim_Obj *evalObj[3];
evalObj[0] = Jim_NewStringObj(interp, "popen", -1);
evalObj[1] = Jim_NewStringObj(interp, filename + 1, -1);
evalObj[2] = Jim_NewStringObj(interp, mode, -1);
return Jim_EvalObjVector(interp, 3, evalObj);
}
#endif
fp = fopen(filename, mode);
if (fp == NULL) {
JimAioSetError(interp, argv[1]);
return JIM_ERR;
}
/* Get the next file id */
snprintf(buf, sizeof(buf), "aio.handle%ld", Jim_GetId(interp));
cmdname = buf;
}
/* Create the file command */
af = Jim_Alloc(sizeof(*af));
af->fp = fp;
af->fd = fileno(fp);
#ifdef FD_CLOEXEC
if ((OpenFlags & AIO_KEEPOPEN) == 0) {
fcntl(af->fd, F_SETFD, FD_CLOEXEC);
}
#endif
#ifdef O_NDELAY
af->flags = fcntl(af->fd, F_GETFL);
#endif
af->filename = argv[1];
Jim_IncrRefCount(af->filename);
af->OpenFlags = OpenFlags;
af->rEvent = NULL;
af->wEvent = NULL;
af->eEvent = NULL;
Jim_CreateCommand(interp, cmdname, JimAioSubCmdProc, af, JimAioDelProc);
Jim_SetResultString(interp, cmdname, -1);
return JIM_OK;
}
#ifndef JIM_ANSIC
/**
* Creates a channel for fd.
*
* hdlfmt is a sprintf format for the filehandle. Anything with %ld at the end will do.
* mode is usual "r+", but may be another fdopen() mode as required.
*
* Creates the command and lappends the name of the command to the current result.
*
*/
static int JimMakeChannel(Jim_Interp *interp, Jim_Obj *filename, const char *hdlfmt, int fd, int family,
const char *mode)
{
AioFile *af;
char buf[AIO_CMD_LEN];
FILE *fp = fdopen(fd, mode);
if (fp == NULL) {
close(fd);
JimAioSetError(interp, NULL);
return JIM_ERR;
}
/* Create the file command */
af = Jim_Alloc(sizeof(*af));
af->fp = fp;
af->fd = fd;
fcntl(af->fd, F_SETFD, FD_CLOEXEC);
af->OpenFlags = 0;
af->filename = filename;
Jim_IncrRefCount(af->filename);
#ifdef O_NDELAY
af->flags = fcntl(af->fd, F_GETFL);
#endif
af->rEvent = NULL;
af->wEvent = NULL;
af->eEvent = NULL;
af->addr_family = family;
snprintf(buf, sizeof(buf), hdlfmt, Jim_GetId(interp));
Jim_CreateCommand(interp, buf, JimAioSubCmdProc, af, JimAioDelProc);
Jim_ListAppendElement(interp, Jim_GetResult(interp), Jim_NewStringObj(interp, buf, -1));
return JIM_OK;
}
static int JimAioSockCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
const char *hdlfmt = "aio.unknown%ld";
const char *socktypes[] = {
"unix",
"unix.server",
"dgram",
"dgram.server",
"stream",
"stream.server",
"pipe",
NULL
};
enum
{
SOCK_UNIX,
SOCK_UNIX_SERVER,
SOCK_DGRAM_CLIENT,
SOCK_DGRAM_SERVER,
SOCK_STREAM_CLIENT,
SOCK_STREAM_SERVER,
SOCK_STREAM_PIPE,
SOCK_DGRAM6_CLIENT,
SOCK_DGRAM6_SERVER,
SOCK_STREAM6_CLIENT,
SOCK_STREAM6_SERVER,
};
int socktype;
int sock;
const char *hostportarg = NULL;
int res;
int on = 1;
const char *mode = "r+";
int family = PF_INET;
Jim_Obj *argv0 = argv[0];
int ipv6 = 0;
if (argc > 1 && Jim_CompareStringImmediate(interp, argv[1], "-ipv6")) {
if (!IPV6) {
Jim_SetResultString(interp, "ipv6 not supported", -1);
return JIM_ERR;
}
ipv6 = 1;
family = PF_INET6;
}
argc -= ipv6;
argv += ipv6;
if (argc < 2) {
wrongargs:
Jim_WrongNumArgs(interp, 1, &argv0, "?-ipv6? type ?address?");
return JIM_ERR;
}
if (Jim_GetEnum(interp, argv[1], socktypes, &socktype, "socket type", JIM_ERRMSG) != JIM_OK)
return JIM_ERR;
Jim_SetResultString(interp, "", 0);
hdlfmt = "aio.sock%ld";
if (argc > 2) {
hostportarg = Jim_String(argv[2]);
}
switch (socktype) {
case SOCK_DGRAM_CLIENT:
if (argc == 2) {
/* No address, so an unconnected dgram socket */
sock = socket(family, SOCK_DGRAM, 0);
if (sock < 0) {
JimAioSetError(interp, NULL);
return JIM_ERR;
}
break;
}
/* fall through */
case SOCK_STREAM_CLIENT:
{
union sockaddr_any sa;
int salen;
if (argc != 3) {
goto wrongargs;
}
if (ipv6) {
if (JimParseIPv6Address(interp, hostportarg, &sa, &salen) != JIM_OK) {
return JIM_ERR;
}
}
else if (JimParseIpAddress(interp, hostportarg, &sa, &salen) != JIM_OK) {
return JIM_ERR;
}
sock = socket(family, (socktype == SOCK_DGRAM_CLIENT) ? SOCK_DGRAM : SOCK_STREAM, 0);
if (sock < 0) {
JimAioSetError(interp, NULL);
return JIM_ERR;
}
res = connect(sock, &sa.sa, salen);
if (res) {
JimAioSetError(interp, argv[2]);
close(sock);
return JIM_ERR;
}
}
break;
case SOCK_STREAM_SERVER:
case SOCK_DGRAM_SERVER:
{
union sockaddr_any sa;
int salen;
if (argc != 3) {
goto wrongargs;
}
if (ipv6) {
if (JimParseIPv6Address(interp, hostportarg, &sa, &salen) != JIM_OK) {
return JIM_ERR;
}
}
else if (JimParseIpAddress(interp, hostportarg, &sa, &salen) != JIM_OK) {
return JIM_ERR;
}
sock = socket(family, (socktype == SOCK_DGRAM_SERVER) ? SOCK_DGRAM : SOCK_STREAM, 0);
if (sock < 0) {
JimAioSetError(interp, NULL);
return JIM_ERR;
}
/* Enable address reuse */
setsockopt(sock, SOL_SOCKET, SO_REUSEADDR, (void *)&on, sizeof(on));
res = bind(sock, &sa.sa, salen);
if (res) {
JimAioSetError(interp, argv[2]);
close(sock);
return JIM_ERR;
}
if (socktype == SOCK_STREAM_SERVER) {
res = listen(sock, 5);
if (res) {
JimAioSetError(interp, NULL);
close(sock);
return JIM_ERR;
}
}
hdlfmt = "aio.socksrv%ld";
}
break;
#ifdef HAVE_SYS_UN_H
case SOCK_UNIX:
{
struct sockaddr_un sa;
socklen_t len;
if (argc != 3 || ipv6) {
goto wrongargs;
}
if (JimParseDomainAddress(interp, hostportarg, &sa) != JIM_OK) {
JimAioSetError(interp, argv[2]);
return JIM_ERR;
}
family = PF_UNIX;
sock = socket(PF_UNIX, SOCK_STREAM, 0);
if (sock < 0) {
JimAioSetError(interp, NULL);
return JIM_ERR;
}
len = strlen(sa.sun_path) + 1 + sizeof(sa.sun_family);
res = connect(sock, (struct sockaddr *)&sa, len);
if (res) {
JimAioSetError(interp, argv[2]);
close(sock);
return JIM_ERR;
}
hdlfmt = "aio.sockunix%ld";
break;
}
case SOCK_UNIX_SERVER:
{
struct sockaddr_un sa;
socklen_t len;
if (argc != 3 || ipv6) {
goto wrongargs;
}
if (JimParseDomainAddress(interp, hostportarg, &sa) != JIM_OK) {
JimAioSetError(interp, argv[2]);
return JIM_ERR;
}
family = PF_UNIX;
sock = socket(PF_UNIX, SOCK_STREAM, 0);
if (sock < 0) {
JimAioSetError(interp, NULL);
return JIM_ERR;
}
len = strlen(sa.sun_path) + 1 + sizeof(sa.sun_family);
res = bind(sock, (struct sockaddr *)&sa, len);
if (res) {
JimAioSetError(interp, argv[2]);
close(sock);
return JIM_ERR;
}
res = listen(sock, 5);
if (res) {
JimAioSetError(interp, NULL);
close(sock);
return JIM_ERR;
}
hdlfmt = "aio.sockunixsrv%ld";
break;
}
#endif
#ifdef HAVE_PIPE
case SOCK_STREAM_PIPE:
{
int p[2];
if (argc != 2 || ipv6) {
goto wrongargs;
}
if (pipe(p) < 0) {
JimAioSetError(interp, NULL);
return JIM_ERR;
}
hdlfmt = "aio.pipe%ld";
if (JimMakeChannel(interp, argv[1], hdlfmt, p[0], family, "r") != JIM_OK) {
close(p[0]);
close(p[1]);
JimAioSetError(interp, NULL);
return JIM_ERR;
}
/* Note, if this fails it will leave p[0] open, but this should never happen */
mode = "w";
sock = p[1];
}
break;
#endif
default:
Jim_SetResultString(interp, "Unsupported socket type", -1);
return JIM_ERR;
}
return JimMakeChannel(interp, argv[1], hdlfmt, sock, family, mode);
}
#endif
FILE *Jim_AioFilehandle(Jim_Interp *interp, Jim_Obj *command)
{
Jim_Cmd *cmdPtr = Jim_GetCommand(interp, command, JIM_ERRMSG);
if (cmdPtr && !cmdPtr->isproc && cmdPtr->u.native.cmdProc == JimAioSubCmdProc) {
return ((AioFile *) cmdPtr->u.native.privData)->fp;
}
Jim_SetResultFormatted(interp, "Not a filehandle: \"%#s\"", command);
return NULL;
}
int Jim_aioInit(Jim_Interp *interp)
{
if (Jim_PackageProvide(interp, "aio", "1.0", JIM_ERRMSG))
return JIM_ERR;
Jim_CreateCommand(interp, "open", JimAioOpenCommand, NULL, NULL);
#ifndef JIM_ANSIC
Jim_CreateCommand(interp, "socket", JimAioSockCommand, NULL, NULL);
#endif
/* Takeover stdin, stdout and stderr */
Jim_EvalGlobal(interp, "open stdin; open stdout; open stderr");
return JIM_OK;
}
/*
* Tcl readdir command.
*
* (c) 2008 Steve Bennett <steveb@worware.net.au>
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials
* provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE JIM TCL PROJECT ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
* PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* JIM TCL PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* The views and conclusions contained in the software and documentation
* are those of the authors and should not be interpreted as representing
* official policies, either expressed or implied, of the Jim Tcl Project.
*
* Based on original work by:
*-----------------------------------------------------------------------------
* Copyright 1991-1994 Karl Lehenbauer and Mark Diekhans.
*
* Permission to use, copy, modify, and distribute this software and its
* documentation for any purpose and without fee is hereby granted, provided
* that the above copyright notice appear in all copies. Karl Lehenbauer and
* Mark Diekhans make no representations about the suitability of this
* software for any purpose. It is provided "as is" without express or
* implied warranty.
*-----------------------------------------------------------------------------
*/
#include <errno.h>
#include <stdio.h>
#include <string.h>
#include <dirent.h>
/*
*-----------------------------------------------------------------------------
*
* Jim_ReaddirCmd --
* Implements the rename TCL command:
* readdir ?-nocomplain? dirPath
*
* Results:
* Standard TCL result.
*-----------------------------------------------------------------------------
*/
int Jim_ReaddirCmd(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
const char *dirPath;
DIR *dirPtr;
struct dirent *entryPtr;
int nocomplain = 0;
if (argc == 3 && Jim_CompareStringImmediate(interp, argv[1], "-nocomplain")) {
nocomplain = 1;
}
if (argc != 2 && !nocomplain) {
Jim_WrongNumArgs(interp, 1, argv, "?-nocomplain? dirPath");
return JIM_ERR;
}
dirPath = Jim_String(argv[1 + nocomplain]);
dirPtr = opendir(dirPath);
if (dirPtr == NULL) {
if (nocomplain) {
return JIM_OK;
}
Jim_SetResultString(interp, strerror(errno), -1);
return JIM_ERR;
}
Jim_SetResultString(interp, strerror(errno), -1);
Jim_SetResult(interp, Jim_NewListObj(interp, NULL, 0));
while ((entryPtr = readdir(dirPtr)) != NULL) {
if (entryPtr->d_name[0] == '.') {
if (entryPtr->d_name[1] == '\0') {
continue;
}
if ((entryPtr->d_name[1] == '.') && (entryPtr->d_name[2] == '\0'))
continue;
}
Jim_ListAppendElement(interp, Jim_GetResult(interp), Jim_NewStringObj(interp,
entryPtr->d_name, -1));
}
closedir(dirPtr);
return JIM_OK;
}
int Jim_readdirInit(Jim_Interp *interp)
{
if (Jim_PackageProvide(interp, "readdir", "1.0", JIM_ERRMSG))
return JIM_ERR;
Jim_CreateCommand(interp, "readdir", Jim_ReaddirCmd, NULL, NULL);
return JIM_OK;
}
/*
* Implements the regexp and regsub commands for Jim
*
* (c) 2008 Steve Bennett <steveb@workware.net.au>
*
* Uses C library regcomp()/regexec() for the matching.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials
* provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE JIM TCL PROJECT ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
* PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* JIM TCL PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* The views and conclusions contained in the software and documentation
* are those of the authors and should not be interpreted as representing
* official policies, either expressed or implied, of the Jim Tcl Project.
*
* Based on code originally from Tcl 6.7:
*
* Copyright 1987-1991 Regents of the University of California
* Permission to use, copy, modify, and distribute this
* software and its documentation for any purpose and without
* fee is hereby granted, provided that the above copyright
* notice appear in all copies. The University of California
* makes no representations about the suitability of this
* software for any purpose. It is provided "as is" without
* express or implied warranty.
*/
#include <stdlib.h>
#include <string.h>
static void FreeRegexpInternalRep(Jim_Interp *interp, Jim_Obj *objPtr)
{
regfree(objPtr->internalRep.regexpValue.compre);
Jim_Free(objPtr->internalRep.regexpValue.compre);
}
static const Jim_ObjType regexpObjType = {
"regexp",
FreeRegexpInternalRep,
NULL,
NULL,
JIM_TYPE_NONE
};
static regex_t *SetRegexpFromAny(Jim_Interp *interp, Jim_Obj *objPtr, unsigned flags)
{
regex_t *compre;
const char *pattern;
int ret;
/* Check if the object is already an uptodate variable */
if (objPtr->typePtr == ®expObjType &&
objPtr->internalRep.regexpValue.compre && objPtr->internalRep.regexpValue.flags == flags) {
/* nothing to do */
return objPtr->internalRep.regexpValue.compre;
}
/* Not a regexp or the flags do not match */
if (objPtr->typePtr == ®expObjType) {
FreeRegexpInternalRep(interp, objPtr);
objPtr->typePtr = NULL;
}
/* Get the string representation */
pattern = Jim_String(objPtr);
compre = Jim_Alloc(sizeof(regex_t));
if ((ret = regcomp(compre, pattern, REG_EXTENDED | flags)) != 0) {
char buf[100];
regerror(ret, compre, buf, sizeof(buf));
Jim_SetResultFormatted(interp, "couldn't compile regular expression pattern: %s", buf);
regfree(compre);
Jim_Free(compre);
return NULL;
}
objPtr->typePtr = ®expObjType;
objPtr->internalRep.regexpValue.flags = flags;
objPtr->internalRep.regexpValue.compre = compre;
return compre;
}
int Jim_RegexpCmd(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int opt_indices = 0;
int opt_all = 0;
int opt_inline = 0;
regex_t *regex;
int match, i, j;
int offset = 0;
regmatch_t *pmatch = NULL;
int source_len;
int result = JIM_OK;
const char *pattern;
const char *source_str;
int num_matches = 0;
int num_vars;
Jim_Obj *resultListObj = NULL;
int regcomp_flags = 0;
int eflags = 0;
int option;
enum {
OPT_INDICES, OPT_NOCASE, OPT_LINE, OPT_ALL, OPT_INLINE, OPT_START, OPT_END
};
static const char * const options[] = {
"-indices", "-nocase", "-line", "-all", "-inline", "-start", "--", NULL
};
if (argc < 3) {
wrongNumArgs:
Jim_WrongNumArgs(interp, 1, argv,
"?switches? exp string ?matchVar? ?subMatchVar subMatchVar ...?");
return JIM_ERR;
}
for (i = 1; i < argc; i++) {
const char *opt = Jim_String(argv[i]);
if (*opt != '-') {
break;
}
if (Jim_GetEnum(interp, argv[i], options, &option, "switch", JIM_ERRMSG | JIM_ENUM_ABBREV) != JIM_OK) {
return JIM_ERR;
}
if (option == OPT_END) {
i++;
break;
}
switch (option) {
case OPT_INDICES:
opt_indices = 1;
break;
case OPT_NOCASE:
regcomp_flags |= REG_ICASE;
break;
case OPT_LINE:
regcomp_flags |= REG_NEWLINE;
break;
case OPT_ALL:
opt_all = 1;
break;
case OPT_INLINE:
opt_inline = 1;
break;
case OPT_START:
if (++i == argc) {
goto wrongNumArgs;
}
if (Jim_GetIndex(interp, argv[i], &offset) != JIM_OK) {
return JIM_ERR;
}
break;
}
}
if (argc - i < 2) {
goto wrongNumArgs;
}
regex = SetRegexpFromAny(interp, argv[i], regcomp_flags);
if (!regex) {
return JIM_ERR;
}
pattern = Jim_String(argv[i]);
source_str = Jim_GetString(argv[i + 1], &source_len);
num_vars = argc - i - 2;
if (opt_inline) {
if (num_vars) {
Jim_SetResultString(interp, "regexp match variables not allowed when using -inline",
-1);
result = JIM_ERR;
goto done;
}
num_vars = regex->re_nsub + 1;
}
pmatch = Jim_Alloc((num_vars + 1) * sizeof(*pmatch));
/* If an offset has been specified, adjust for that now.
* If it points past the end of the string, point to the terminating null
*/
if (offset) {
if (offset < 0) {
offset += source_len + 1;
}
if (offset > source_len) {
source_str += source_len;
}
else if (offset > 0) {
source_str += offset;
}
eflags |= REG_NOTBOL;
}
if (opt_inline) {
resultListObj = Jim_NewListObj(interp, NULL, 0);
}
next_match:
match = regexec(regex, source_str, num_vars + 1, pmatch, eflags);
if (match >= REG_BADPAT) {
char buf[100];
regerror(match, regex, buf, sizeof(buf));
Jim_SetResultFormatted(interp, "error while matching pattern: %s", buf);
result = JIM_ERR;
goto done;
}
if (match == REG_NOMATCH) {
goto done;
}
num_matches++;
if (opt_all && !opt_inline) {
/* Just count the number of matches, so skip the substitution h */
goto try_next_match;
}
/*
* If additional variable names have been specified, return
* index information in those variables.
*/
j = 0;
for (i += 2; opt_inline ? j < num_vars : i < argc; i++, j++) {
Jim_Obj *resultObj;
if (opt_indices) {
resultObj = Jim_NewListObj(interp, NULL, 0);
}
else {
resultObj = Jim_NewStringObj(interp, "", 0);
}
if (pmatch[j].rm_so == -1) {
if (opt_indices) {
Jim_ListAppendElement(interp, resultObj, Jim_NewIntObj(interp, -1));
Jim_ListAppendElement(interp, resultObj, Jim_NewIntObj(interp, -1));
}
}
else {
int len = pmatch[j].rm_eo - pmatch[j].rm_so;
if (opt_indices) {
Jim_ListAppendElement(interp, resultObj, Jim_NewIntObj(interp,
offset + pmatch[j].rm_so));
Jim_ListAppendElement(interp, resultObj, Jim_NewIntObj(interp,
offset + pmatch[j].rm_so + len - 1));
}
else {
Jim_AppendString(interp, resultObj, source_str + pmatch[j].rm_so, len);
}
}
if (opt_inline) {
Jim_ListAppendElement(interp, resultListObj, resultObj);
}
else {
/* And now set the result variable */
result = Jim_SetVariable(interp, argv[i], resultObj);
if (result != JIM_OK) {
Jim_FreeObj(interp, resultObj);
break;
}
}
}
try_next_match:
if (opt_all && (pattern[0] != '^' || (regcomp_flags & REG_NEWLINE)) && *source_str) {
if (pmatch[0].rm_eo) {
offset += pmatch[0].rm_eo;
source_str += pmatch[0].rm_eo;
}
else {
source_str++;
offset++;
}
if (*source_str) {
eflags = REG_NOTBOL;
goto next_match;
}
}
done:
if (result == JIM_OK) {
if (opt_inline) {
Jim_SetResult(interp, resultListObj);
}
else {
Jim_SetResultInt(interp, num_matches);
}
}
Jim_Free(pmatch);
return result;
}
#define MAX_SUB_MATCHES 50
int Jim_RegsubCmd(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int regcomp_flags = 0;
int regexec_flags = 0;
int opt_all = 0;
int offset = 0;
regex_t *regex;
const char *p;
int result;
regmatch_t pmatch[MAX_SUB_MATCHES + 1];
int num_matches = 0;
int i, j, n;
Jim_Obj *varname;
Jim_Obj *resultObj;
const char *source_str;
int source_len;
const char *replace_str;
int replace_len;
const char *pattern;
int option;
enum {
OPT_NOCASE, OPT_LINE, OPT_ALL, OPT_START, OPT_END
};
static const char * const options[] = {
"-nocase", "-line", "-all", "-start", "--", NULL
};
if (argc < 4) {
wrongNumArgs:
Jim_WrongNumArgs(interp, 1, argv,
"?switches? exp string subSpec ?varName?");
return JIM_ERR;
}
for (i = 1; i < argc; i++) {
const char *opt = Jim_String(argv[i]);
if (*opt != '-') {
break;
}
if (Jim_GetEnum(interp, argv[i], options, &option, "switch", JIM_ERRMSG | JIM_ENUM_ABBREV) != JIM_OK) {
return JIM_ERR;
}
if (option == OPT_END) {
i++;
break;
}
switch (option) {
case OPT_NOCASE:
regcomp_flags |= REG_ICASE;
break;
case OPT_LINE:
regcomp_flags |= REG_NEWLINE;
break;
case OPT_ALL:
opt_all = 1;
break;
case OPT_START:
if (++i == argc) {
goto wrongNumArgs;
}
if (Jim_GetIndex(interp, argv[i], &offset) != JIM_OK) {
return JIM_ERR;
}
break;
}
}
if (argc - i != 3 && argc - i != 4) {
goto wrongNumArgs;
}
regex = SetRegexpFromAny(interp, argv[i], regcomp_flags);
if (!regex) {
return JIM_ERR;
}
pattern = Jim_String(argv[i]);
source_str = Jim_GetString(argv[i + 1], &source_len);
replace_str = Jim_GetString(argv[i + 2], &replace_len);
varname = argv[i + 3];
/* Create the result string */
resultObj = Jim_NewStringObj(interp, "", 0);
/* If an offset has been specified, adjust for that now.
* If it points past the end of the string, point to the terminating null
*/
if (offset) {
if (offset < 0) {
offset += source_len + 1;
}
if (offset > source_len) {
offset = source_len;
}
else if (offset < 0) {
offset = 0;
}
}
/* Copy the part before -start */
Jim_AppendString(interp, resultObj, source_str, offset);
/*
* The following loop is to handle multiple matches within the
* same source string; each iteration handles one match and its
* corresponding substitution. If "-all" hasn't been specified
* then the loop body only gets executed once.
*/
n = source_len - offset;
p = source_str + offset;
do {
int match = regexec(regex, p, MAX_SUB_MATCHES, pmatch, regexec_flags);
if (match >= REG_BADPAT) {
char buf[100];
regerror(match, regex, buf, sizeof(buf));
Jim_SetResultFormatted(interp, "error while matching pattern: %s", buf);
return JIM_ERR;
}
if (match == REG_NOMATCH) {
break;
}
num_matches++;
/*
* Copy the portion of the source string before the match to the
* result variable.
*/
Jim_AppendString(interp, resultObj, p, pmatch[0].rm_so);
/*
* Append the subSpec (replace_str) argument to the variable, making appropriate
* substitutions. This code is a bit hairy because of the backslash
* conventions and because the code saves up ranges of characters in
* subSpec to reduce the number of calls to Jim_SetVar.
*/
for (j = 0; j < replace_len; j++) {
int idx;
int c = replace_str[j];
if (c == '&') {
idx = 0;
}
else if (c == '\\' && j < replace_len) {
c = replace_str[++j];
if ((c >= '0') && (c <= '9')) {
idx = c - '0';
}
else if ((c == '\\') || (c == '&')) {
Jim_AppendString(interp, resultObj, replace_str + j, 1);
continue;
}
else {
Jim_AppendString(interp, resultObj, replace_str + j - 1, 2);
continue;
}
}
else {
Jim_AppendString(interp, resultObj, replace_str + j, 1);
continue;
}
if ((idx < MAX_SUB_MATCHES) && pmatch[idx].rm_so != -1 && pmatch[idx].rm_eo != -1) {
Jim_AppendString(interp, resultObj, p + pmatch[idx].rm_so,
pmatch[idx].rm_eo - pmatch[idx].rm_so);
}
}
p += pmatch[0].rm_eo;
n -= pmatch[0].rm_eo;
/* If -all is not specified, or there is no source left, we are done */
if (!opt_all || n == 0) {
break;
}
/* An anchored pattern without -line must be done */
if ((regcomp_flags & REG_NEWLINE) == 0 && pattern[0] == '^') {
break;
}
/* If the pattern is empty, need to step forwards */
if (pattern[0] == '\0' && n) {
/* Need to copy the char we are moving over */
Jim_AppendString(interp, resultObj, p, 1);
p++;
n--;
}
regexec_flags |= REG_NOTBOL;
} while (n);
/*
* Copy the portion of the string after the last match to the
* result variable.
*/
Jim_AppendString(interp, resultObj, p, -1);
/* And now set or return the result variable */
if (argc - i == 4) {
result = Jim_SetVariable(interp, varname, resultObj);
if (result == JIM_OK) {
Jim_SetResultInt(interp, num_matches);
}
else {
Jim_FreeObj(interp, resultObj);
}
}
else {
Jim_SetResult(interp, resultObj);
result = JIM_OK;
}
return result;
}
int Jim_regexpInit(Jim_Interp *interp)
{
if (Jim_PackageProvide(interp, "regexp", "1.0", JIM_ERRMSG))
return JIM_ERR;
Jim_CreateCommand(interp, "regexp", Jim_RegexpCmd, NULL, NULL);
Jim_CreateCommand(interp, "regsub", Jim_RegsubCmd, NULL, NULL);
return JIM_OK;
}
/*
* Implements the file command for jim
*
* (c) 2008 Steve Bennett <steveb@workware.net.au>
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials
* provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE JIM TCL PROJECT ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
* PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* JIM TCL PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* The views and conclusions contained in the software and documentation
* are those of the authors and should not be interpreted as representing
* official policies, either expressed or implied, of the Jim Tcl Project.
*
* Based on code originally from Tcl 6.7:
*
* Copyright 1987-1991 Regents of the University of California
* Permission to use, copy, modify, and distribute this
* software and its documentation for any purpose and without
* fee is hereby granted, provided that the above copyright
* notice appear in all copies. The University of California
* makes no representations about the suitability of this
* software for any purpose. It is provided "as is" without
* express or implied warranty.
*/
#include <limits.h>
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <unistd.h>
#include <errno.h>
#include <sys/stat.h>
#include <sys/param.h>
# ifndef MAXPATHLEN
# define MAXPATHLEN JIM_PATH_LEN
# endif
/*
*----------------------------------------------------------------------
*
* JimGetFileType --
*
* Given a mode word, returns a string identifying the type of a
* file.
*
* Results:
* A static text string giving the file type from mode.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
static const char *JimGetFileType(int mode)
{
if (S_ISREG(mode)) {
return "file";
}
else if (S_ISDIR(mode)) {
return "directory";
}
else if (S_ISCHR(mode)) {
return "characterSpecial";
}
else if (S_ISBLK(mode)) {
return "blockSpecial";
}
else if (S_ISFIFO(mode)) {
return "fifo";
#ifdef S_ISLNK
}
else if (S_ISLNK(mode)) {
return "link";
#endif
#ifdef S_ISSOCK
}
else if (S_ISSOCK(mode)) {
return "socket";
#endif
}
return "unknown";
}
/*
*----------------------------------------------------------------------
*
* StoreStatData --
*
* This is a utility procedure that breaks out the fields of a
* "stat" structure and stores them in textual form into the
* elements of an associative array.
*
* Results:
* Returns a standard Tcl return value. If an error occurs then
* a message is left in interp->result.
*
* Side effects:
* Elements of the associative array given by "varName" are modified.
*
*----------------------------------------------------------------------
*/
static int set_array_int_value(Jim_Interp *interp, Jim_Obj *container, const char *key,
jim_wide value)
{
Jim_Obj *nameobj = Jim_NewStringObj(interp, key, -1);
Jim_Obj *valobj = Jim_NewWideObj(interp, value);
if (Jim_SetDictKeysVector(interp, container, &nameobj, 1, valobj) != JIM_OK) {
Jim_FreeObj(interp, nameobj);
Jim_FreeObj(interp, valobj);
return JIM_ERR;
}
return JIM_OK;
}
static int set_array_string_value(Jim_Interp *interp, Jim_Obj *container, const char *key,
const char *value)
{
Jim_Obj *nameobj = Jim_NewStringObj(interp, key, -1);
Jim_Obj *valobj = Jim_NewStringObj(interp, value, -1);
if (Jim_SetDictKeysVector(interp, container, &nameobj, 1, valobj) != JIM_OK) {
Jim_FreeObj(interp, nameobj);
Jim_FreeObj(interp, valobj);
return JIM_ERR;
}
return JIM_OK;
}
static int StoreStatData(Jim_Interp *interp, Jim_Obj *varName, const struct stat *sb)
{
if (set_array_int_value(interp, varName, "dev", sb->st_dev) != JIM_OK) {
Jim_SetResultFormatted(interp, "can't set \"%#s(dev)\": variables isn't array", varName);
return JIM_ERR;
}
set_array_int_value(interp, varName, "ino", sb->st_ino);
set_array_int_value(interp, varName, "mode", sb->st_mode);
set_array_int_value(interp, varName, "nlink", sb->st_nlink);
set_array_int_value(interp, varName, "uid", sb->st_uid);
set_array_int_value(interp, varName, "gid", sb->st_gid);
set_array_int_value(interp, varName, "size", sb->st_size);
set_array_int_value(interp, varName, "atime", sb->st_atime);
set_array_int_value(interp, varName, "mtime", sb->st_mtime);
set_array_int_value(interp, varName, "ctime", sb->st_ctime);
set_array_string_value(interp, varName, "type", JimGetFileType((int)sb->st_mode));
/* And also return the value */
Jim_SetResult(interp, Jim_GetVariable(interp, varName, 0));
return JIM_OK;
}
static int file_cmd_dirname(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
const char *path = Jim_String(argv[0]);
const char *p = strrchr(path, '/');
if (!p) {
Jim_SetResultString(interp, ".", -1);
}
else if (p == path) {
Jim_SetResultString(interp, "/", -1);
}
#if defined(__MINGW32__)
else if (p[-1] == ':') {
/* z:/dir => z:/ */
Jim_SetResultString(interp, path, p - path + 1);
}
#endif
else {
Jim_SetResultString(interp, path, p - path);
}
return JIM_OK;
}
static int file_cmd_rootname(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
const char *path = Jim_String(argv[0]);
const char *lastSlash = strrchr(path, '/');
const char *p = strrchr(path, '.');
if (p == NULL || (lastSlash != NULL && lastSlash > p)) {
Jim_SetResult(interp, argv[0]);
}
else {
Jim_SetResultString(interp, path, p - path);
}
return JIM_OK;
}
static int file_cmd_extension(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
const char *path = Jim_String(argv[0]);
const char *lastSlash = strrchr(path, '/');
const char *p = strrchr(path, '.');
if (p == NULL || (lastSlash != NULL && lastSlash >= p)) {
p = "";
}
Jim_SetResultString(interp, p, -1);
return JIM_OK;
}
static int file_cmd_tail(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
const char *path = Jim_String(argv[0]);
const char *lastSlash = strrchr(path, '/');
if (lastSlash) {
Jim_SetResultString(interp, lastSlash + 1, -1);
}
else {
Jim_SetResult(interp, argv[0]);
}
return JIM_OK;
}
static int file_cmd_normalize(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
#ifdef HAVE_REALPATH
const char *path = Jim_String(argv[0]);
char *newname = Jim_Alloc(MAXPATHLEN + 1);
if (realpath(path, newname)) {
Jim_SetResult(interp, Jim_NewStringObjNoAlloc(interp, newname, -1));
}
else {
Jim_Free(newname);
Jim_SetResult(interp, argv[0]);
}
return JIM_OK;
#else
Jim_SetResultString(interp, "Not implemented", -1);
return JIM_ERR;
#endif
}
static int file_cmd_join(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int i;
char *newname = Jim_Alloc(MAXPATHLEN + 1);
char *last = newname;
*newname = 0;
/* Simple implementation for now */
for (i = 0; i < argc; i++) {
int len;
const char *part = Jim_GetString(argv[i], &len);
if (*part == '/') {
/* Absolute component, so go back to the start */
last = newname;
}
#if defined(__MINGW32__)
else if (strchr(part, ':')) {
/* Absolute compontent on mingw, so go back to the start */
last = newname;
}
#endif
/* Add a slash if needed */
if (last != newname) {
*last++ = '/';
}
if (len) {
if (last + len - newname >= MAXPATHLEN) {
Jim_Free(newname);
Jim_SetResultString(interp, "Path too long", -1);
return JIM_ERR;
}
memcpy(last, part, len);
last += len;
}
/* Remove a slash if needed */
if (last != newname && last[-1] == '/') {
*--last = 0;
}
}
*last = 0;
/* Probably need to handle some special cases ... */
Jim_SetResult(interp, Jim_NewStringObjNoAlloc(interp, newname, last - newname));
return JIM_OK;
}
static int file_access(Jim_Interp *interp, Jim_Obj *filename, int mode)
{
const char *path = Jim_String(filename);
int rc = access(path, mode);
Jim_SetResultBool(interp, rc != -1);
return JIM_OK;
}
static int file_cmd_readable(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
return file_access(interp, argv[0], R_OK);
}
static int file_cmd_writable(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
return file_access(interp, argv[0], W_OK);
}
static int file_cmd_executable(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
return file_access(interp, argv[0], X_OK);
}
static int file_cmd_exists(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
return file_access(interp, argv[0], F_OK);
}
static int file_cmd_delete(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int force = Jim_CompareStringImmediate(interp, argv[0], "-force");
if (force || Jim_CompareStringImmediate(interp, argv[0], "--")) {
argc++;
argv--;
}
while (argc--) {
const char *path = Jim_String(argv[0]);
if (unlink(path) == -1 && errno != ENOENT) {
if (rmdir(path) == -1) {
/* Maybe try using the script helper */
if (!force || Jim_EvalObjPrefix(interp, "file delete force", 1, argv) != JIM_OK) {
Jim_SetResultFormatted(interp, "couldn't delete file \"%s\": %s", path,
strerror(errno));
return JIM_ERR;
}
}
}
argv++;
}
return JIM_OK;
}
#ifdef HAVE_MKDIR_ONE_ARG
#define MKDIR_DEFAULT(PATHNAME) mkdir(PATHNAME)
#else
#define MKDIR_DEFAULT(PATHNAME) mkdir(PATHNAME, 0755)
#endif
/**
* Create directory, creating all intermediate paths if necessary.
*
* Returns 0 if OK or -1 on failure (and sets errno)
*
* Note: The path may be modified.
*/
static int mkdir_all(char *path)
{
int ok = 1;
/* First time just try to make the dir */
goto first;
while (ok--) {
/* Must have failed the first time, so recursively make the parent and try again */
char *slash = strrchr(path, '/');
if (slash && slash != path) {
*slash = 0;
if (mkdir_all(path) != 0) {
return -1;
}
*slash = '/';
}
first:
if (MKDIR_DEFAULT(path) == 0) {
return 0;
}
if (errno == ENOENT) {
/* Create the parent and try again */
continue;
}
/* Maybe it already exists as a directory */
if (errno == EEXIST) {
struct stat sb;
if (stat(path, &sb) == 0 && S_ISDIR(sb.st_mode)) {
return 0;
}
/* Restore errno */
errno = EEXIST;
}
/* Failed */
break;
}
return -1;
}
static int file_cmd_mkdir(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
while (argc--) {
char *path = Jim_StrDup(Jim_String(argv[0]));
int rc = mkdir_all(path);
Jim_Free(path);
if (rc != 0) {
Jim_SetResultFormatted(interp, "can't create directory \"%#s\": %s", argv[0],
strerror(errno));
return JIM_ERR;
}
argv++;
}
return JIM_OK;
}
#ifdef HAVE_MKSTEMP
static int file_cmd_tempfile(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int fd;
char *filename;
const char *template = "/tmp/tcl.tmp.XXXXXX";
if (argc >= 1) {
template = Jim_String(argv[0]);
}
filename = Jim_StrDup(template);
fd = mkstemp(filename);
if (fd < 0) {
Jim_SetResultString(interp, "Failed to create tempfile", -1);
return JIM_ERR;
}
close(fd);
Jim_SetResult(interp, Jim_NewStringObjNoAlloc(interp, filename, -1));
return JIM_OK;
}
#endif
static int file_cmd_rename(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
const char *source;
const char *dest;
int force = 0;
if (argc == 3) {
if (!Jim_CompareStringImmediate(interp, argv[0], "-force")) {
return -1;
}
force++;
argv++;
argc--;
}
source = Jim_String(argv[0]);
dest = Jim_String(argv[1]);
if (!force && access(dest, F_OK) == 0) {
Jim_SetResultFormatted(interp, "error renaming \"%#s\" to \"%#s\": target exists", argv[0],
argv[1]);
return JIM_ERR;
}
if (rename(source, dest) != 0) {
Jim_SetResultFormatted(interp, "error renaming \"%#s\" to \"%#s\": %s", argv[0], argv[1],
strerror(errno));
return JIM_ERR;
}
return JIM_OK;
}
static int file_stat(Jim_Interp *interp, Jim_Obj *filename, struct stat *sb)
{
const char *path = Jim_String(filename);
if (stat(path, sb) == -1) {
Jim_SetResultFormatted(interp, "could not read \"%#s\": %s", filename, strerror(errno));
return JIM_ERR;
}
return JIM_OK;
}
#ifndef HAVE_LSTAT
#define lstat stat
#endif
static int file_lstat(Jim_Interp *interp, Jim_Obj *filename, struct stat *sb)
{
const char *path = Jim_String(filename);
if (lstat(path, sb) == -1) {
Jim_SetResultFormatted(interp, "could not read \"%#s\": %s", filename, strerror(errno));
return JIM_ERR;
}
return JIM_OK;
}
static int file_cmd_atime(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
struct stat sb;
if (file_stat(interp, argv[0], &sb) != JIM_OK) {
return JIM_ERR;
}
Jim_SetResultInt(interp, sb.st_atime);
return JIM_OK;
}
static int file_cmd_mtime(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
struct stat sb;
if (file_stat(interp, argv[0], &sb) != JIM_OK) {
return JIM_ERR;
}
Jim_SetResultInt(interp, sb.st_mtime);
return JIM_OK;
}
static int file_cmd_copy(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
return Jim_EvalObjPrefix(interp, "file copy", argc, argv);
}
static int file_cmd_size(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
struct stat sb;
if (file_stat(interp, argv[0], &sb) != JIM_OK) {
return JIM_ERR;
}
Jim_SetResultInt(interp, sb.st_size);
return JIM_OK;
}
static int file_cmd_isdirectory(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
struct stat sb;
int ret = 0;
if (file_stat(interp, argv[0], &sb) == JIM_OK) {
ret = S_ISDIR(sb.st_mode);
}
Jim_SetResultInt(interp, ret);
return JIM_OK;
}
static int file_cmd_isfile(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
struct stat sb;
int ret = 0;
if (file_stat(interp, argv[0], &sb) == JIM_OK) {
ret = S_ISREG(sb.st_mode);
}
Jim_SetResultInt(interp, ret);
return JIM_OK;
}
#ifdef HAVE_GETEUID
static int file_cmd_owned(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
struct stat sb;
int ret = 0;
if (file_stat(interp, argv[0], &sb) == JIM_OK) {
ret = (geteuid() == sb.st_uid);
}
Jim_SetResultInt(interp, ret);
return JIM_OK;
}
#endif
#if defined(HAVE_READLINK)
static int file_cmd_readlink(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
const char *path = Jim_String(argv[0]);
char *linkValue = Jim_Alloc(MAXPATHLEN + 1);
int linkLength = readlink(path, linkValue, MAXPATHLEN);
if (linkLength == -1) {
Jim_Free(linkValue);
Jim_SetResultFormatted(interp, "couldn't readlink \"%s\": %s", argv[0], strerror(errno));
return JIM_ERR;
}
linkValue[linkLength] = 0;
Jim_SetResult(interp, Jim_NewStringObjNoAlloc(interp, linkValue, linkLength));
return JIM_OK;
}
#endif
static int file_cmd_type(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
struct stat sb;
if (file_lstat(interp, argv[0], &sb) != JIM_OK) {
return JIM_ERR;
}
Jim_SetResultString(interp, JimGetFileType((int)sb.st_mode), -1);
return JIM_OK;
}
static int file_cmd_lstat(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
struct stat sb;
if (file_lstat(interp, argv[0], &sb) != JIM_OK) {
return JIM_ERR;
}
return StoreStatData(interp, argv[1], &sb);
}
static int file_cmd_stat(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
struct stat sb;
if (file_stat(interp, argv[0], &sb) != JIM_OK) {
return JIM_ERR;
}
return StoreStatData(interp, argv[1], &sb);
}
static const jim_subcmd_type file_command_table[] = {
{ .cmd = "atime",
.args = "name",
.function = file_cmd_atime,
.minargs = 1,
.maxargs = 1,
.description = "Last access time"
},
{ .cmd = "mtime",
.args = "name",
.function = file_cmd_mtime,
.minargs = 1,
.maxargs = 1,
.description = "Last modification time"
},
{ .cmd = "copy",
.args = "?-force? source dest",
.function = file_cmd_copy,
.minargs = 2,
.maxargs = 3,
.description = "Copy source file to destination file"
},
{ .cmd = "dirname",
.args = "name",
.function = file_cmd_dirname,
.minargs = 1,
.maxargs = 1,
.description = "Directory part of the name"
},
{ .cmd = "rootname",
.args = "name",
.function = file_cmd_rootname,
.minargs = 1,
.maxargs = 1,
.description = "Name without any extension"
},
{ .cmd = "extension",
.args = "name",
.function = file_cmd_extension,
.minargs = 1,
.maxargs = 1,
.description = "Last extension including the dot"
},
{ .cmd = "tail",
.args = "name",
.function = file_cmd_tail,
.minargs = 1,
.maxargs = 1,
.description = "Last component of the name"
},
{ .cmd = "normalize",
.args = "name",
.function = file_cmd_normalize,
.minargs = 1,
.maxargs = 1,
.description = "Normalized path of name"
},
{ .cmd = "join",
.args = "name ?name ...?",
.function = file_cmd_join,
.minargs = 1,
.maxargs = -1,
.description = "Join multiple path components"
},
{ .cmd = "readable",
.args = "name",
.function = file_cmd_readable,
.minargs = 1,
.maxargs = 1,
.description = "Is file readable"
},
{ .cmd = "writable",
.args = "name",
.function = file_cmd_writable,
.minargs = 1,
.maxargs = 1,
.description = "Is file writable"
},
{ .cmd = "executable",
.args = "name",
.function = file_cmd_executable,
.minargs = 1,
.maxargs = 1,
.description = "Is file executable"
},
{ .cmd = "exists",
.args = "name",
.function = file_cmd_exists,
.minargs = 1,
.maxargs = 1,
.description = "Does file exist"
},
{ .cmd = "delete",
.args = "?-force|--? name ...",
.function = file_cmd_delete,
.minargs = 1,
.maxargs = -1,
.description = "Deletes the files or directories (must be empty unless -force)"
},
{ .cmd = "mkdir",
.args = "dir ...",
.function = file_cmd_mkdir,
.minargs = 1,
.maxargs = -1,
.description = "Creates the directories"
},
#ifdef HAVE_MKSTEMP
{ .cmd = "tempfile",
.args = "?template?",
.function = file_cmd_tempfile,
.minargs = 0,
.maxargs = 1,
.description = "Creates a temporary filename"
},
#endif
{ .cmd = "rename",
.args = "?-force? source dest",
.function = file_cmd_rename,
.minargs = 2,
.maxargs = 3,
.description = "Renames a file"
},
#if defined(HAVE_READLINK)
{ .cmd = "readlink",
.args = "name",
.function = file_cmd_readlink,
.minargs = 1,
.maxargs = 1,
.description = "Value of the symbolic link"
},
#endif
{ .cmd = "size",
.args = "name",
.function = file_cmd_size,
.minargs = 1,
.maxargs = 1,
.description = "Size of file"
},
{ .cmd = "stat",
.args = "name var",
.function = file_cmd_stat,
.minargs = 2,
.maxargs = 2,
.description = "Stores results of stat in var array"
},
{ .cmd = "lstat",
.args = "name var",
.function = file_cmd_lstat,
.minargs = 2,
.maxargs = 2,
.description = "Stores results of lstat in var array"
},
{ .cmd = "type",
.args = "name",
.function = file_cmd_type,
.minargs = 1,
.maxargs = 1,
.description = "Returns type of the file"
},
#ifdef HAVE_GETEUID
{ .cmd = "owned",
.args = "name",
.function = file_cmd_owned,
.minargs = 1,
.maxargs = 1,
.description = "Returns 1 if owned by the current owner"
},
#endif
{ .cmd = "isdirectory",
.args = "name",
.function = file_cmd_isdirectory,
.minargs = 1,
.maxargs = 1,
.description = "Returns 1 if name is a directory"
},
{ .cmd = "isfile",
.args = "name",
.function = file_cmd_isfile,
.minargs = 1,
.maxargs = 1,
.description = "Returns 1 if name is a file"
},
{
.cmd = 0
}
};
static int Jim_CdCmd(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
const char *path;
if (argc != 2) {
Jim_WrongNumArgs(interp, 1, argv, "dirname");
return JIM_ERR;
}
path = Jim_String(argv[1]);
if (chdir(path) != 0) {
Jim_SetResultFormatted(interp, "couldn't change working directory to \"%s\": %s", path,
strerror(errno));
return JIM_ERR;
}
return JIM_OK;
}
static int Jim_PwdCmd(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
const int cwd_len = 2048;
char *cwd = malloc(cwd_len);
if (getcwd(cwd, cwd_len) == NULL) {
Jim_SetResultString(interp, "Failed to get pwd", -1);
return JIM_ERR;
}
#if defined(__MINGW32__)
{
/* Try to keep backlashes out of paths */
char *p = cwd;
while ((p = strchr(p, '\\')) != NULL) {
*p++ = '/';
}
}
#endif
Jim_SetResultString(interp, cwd, -1);
free(cwd);
return JIM_OK;
}
int Jim_fileInit(Jim_Interp *interp)
{
if (Jim_PackageProvide(interp, "file", "1.0", JIM_ERRMSG))
return JIM_ERR;
Jim_CreateCommand(interp, "file", Jim_SubCmdProc, (void *)file_command_table, NULL);
Jim_CreateCommand(interp, "pwd", Jim_PwdCmd, NULL, NULL);
Jim_CreateCommand(interp, "cd", Jim_CdCmd, NULL, NULL);
return JIM_OK;
}
/*
* (c) 2008 Steve Bennett <steveb@workware.net.au>
*
* Implements the exec command for Jim
*
* Based on code originally from Tcl 6.7 by John Ousterhout.
* From that code:
*
* The Tcl_Fork and Tcl_WaitPids procedures are based on code
* contributed by Karl Lehenbauer, Mark Diekhans and Peter
* da Silva.
*
* Copyright 1987-1991 Regents of the University of California
* Permission to use, copy, modify, and distribute this
* software and its documentation for any purpose and without
* fee is hereby granted, provided that the above copyright
* notice appear in all copies. The University of California
* makes no representations about the suitability of this
* software for any purpose. It is provided "as is" without
* express or implied warranty.
*/
#include <string.h>
#include <signal.h>
#if defined(HAVE_VFORK) && defined(HAVE_WAITPID)
#include <unistd.h>
#include <fcntl.h>
#include <errno.h>
#include <sys/wait.h>
#if defined(__GNUC__) && !defined(__clang__)
#define IGNORE_RC(EXPR) ((EXPR) < 0 ? -1 : 0)
#else
#define IGNORE_RC(EXPR) EXPR
#endif
/* These two could be moved into the Tcl core */
static void Jim_SetResultErrno(Jim_Interp *interp, const char *msg)
{
Jim_SetResultFormatted(interp, "%s: %s", msg, strerror(errno));
}
static void Jim_RemoveTrailingNewline(Jim_Obj *objPtr)
{
int len;
const char *s = Jim_GetString(objPtr, &len);
if (len > 0 && s[len - 1] == '\n') {
objPtr->length--;
objPtr->bytes[objPtr->length] = '\0';
}
}
/**
* Read from 'fd' and append the data to strObj
* Returns JIM_OK if OK, or JIM_ERR on error.
*/
static int JimAppendStreamToString(Jim_Interp *interp, int fd, Jim_Obj *strObj)
{
while (1) {
char buffer[256];
int count;
count = read(fd, buffer, sizeof(buffer));
if (count == 0) {
Jim_RemoveTrailingNewline(strObj);
return JIM_OK;
}
if (count < 0) {
return JIM_ERR;
}
Jim_AppendString(interp, strObj, buffer, count);
}
}
/*
* If the last character of the result is a newline, then remove
* the newline character (the newline would just confuse things).
*
* Note: Ideally we could do this by just reducing the length of stringrep
* by 1, but there is no API for this :-(
*/
static void JimTrimTrailingNewline(Jim_Interp *interp)
{
int len;
const char *p = Jim_GetString(Jim_GetResult(interp), &len);
if (len > 0 && p[len - 1] == '\n') {
Jim_SetResultString(interp, p, len - 1);
}
}
/**
* Builds the environment array from $::env
*
* If $::env is not set, simply returns environ.
*
* Otherwise allocates the environ array from the contents of $::env
*
* If the exec fails, memory can be freed via JimFreeEnv()
*/
static char **JimBuildEnv(Jim_Interp *interp)
{
#ifdef jim_ext_tclcompat
int i;
int len;
int n;
char **env;
Jim_Obj *objPtr = Jim_GetGlobalVariableStr(interp, "env", JIM_NONE);
if (!objPtr) {
return Jim_GetEnviron();
}
/* Calculate the required size */
len = Jim_ListLength(interp, objPtr);
if (len % 2) {
len--;
}
env = Jim_Alloc(sizeof(*env) * (len / 2 + 1));
n = 0;
for (i = 0; i < len; i += 2) {
int l1, l2;
const char *s1, *s2;
Jim_Obj *elemObj;
Jim_ListIndex(interp, objPtr, i, &elemObj, JIM_NONE);
s1 = Jim_GetString(elemObj, &l1);
Jim_ListIndex(interp, objPtr, i + 1, &elemObj, JIM_NONE);
s2 = Jim_GetString(elemObj, &l2);
env[n] = Jim_Alloc(l1 + l2 + 2);
sprintf(env[n], "%s=%s", s1, s2);
n++;
}
env[n] = NULL;
return env;
#else
return Jim_GetEnviron();
#endif
}
/**
* Frees the environment allocated by JimBuildEnv()
*
* Must pass original_environ.
*/
static void JimFreeEnv(Jim_Interp *interp, char **env, char **original_environ)
{
#ifdef jim_ext_tclcompat
if (env != original_environ) {
int i;
for (i = 0; env[i]; i++) {
Jim_Free(env[i]);
}
Jim_Free(env);
}
#endif
}
/*
* Create error messages for unusual process exits. An
* extra newline gets appended to each error message, but
* it gets removed below (in the same fashion that an
* extra newline in the command's output is removed).
*/
static int JimCheckWaitStatus(Jim_Interp *interp, int pid, int waitStatus)
{
Jim_Obj *errorCode = Jim_NewListObj(interp, NULL, 0);
int rc = JIM_ERR;
if (WIFEXITED(waitStatus)) {
if (WEXITSTATUS(waitStatus) == 0) {
Jim_ListAppendElement(interp, errorCode, Jim_NewStringObj(interp, "NONE", -1));
rc = JIM_OK;
}
else {
Jim_ListAppendElement(interp, errorCode, Jim_NewStringObj(interp, "CHILDSTATUS", -1));
Jim_ListAppendElement(interp, errorCode, Jim_NewIntObj(interp, pid));
Jim_ListAppendElement(interp, errorCode, Jim_NewIntObj(interp, WEXITSTATUS(waitStatus)));
}
}
else {
const char *type;
const char *action;
if (WIFSIGNALED(waitStatus)) {
type = "CHILDKILLED";
action = "killed";
}
else {
type = "CHILDSUSP";
action = "suspended";
}
Jim_ListAppendElement(interp, errorCode, Jim_NewStringObj(interp, type, -1));
#ifdef jim_ext_signal
Jim_SetResultFormatted(interp, "child %s by signal %s", action, Jim_SignalId(WTERMSIG(waitStatus)));
Jim_ListAppendElement(interp, errorCode, Jim_NewStringObj(interp, Jim_SignalId(WTERMSIG(waitStatus)), -1));
Jim_ListAppendElement(interp, errorCode, Jim_NewIntObj(interp, pid));
Jim_ListAppendElement(interp, errorCode, Jim_NewStringObj(interp, Jim_SignalName(WTERMSIG(waitStatus)), -1));
#else
Jim_SetResultFormatted(interp, "child %s by signal %d", action, WTERMSIG(waitStatus));
Jim_ListAppendElement(interp, errorCode, Jim_NewIntObj(interp, WTERMSIG(waitStatus)));
Jim_ListAppendElement(interp, errorCode, Jim_NewIntObj(interp, pid));
Jim_ListAppendElement(interp, errorCode, Jim_NewIntObj(interp, WTERMSIG(waitStatus)));
#endif
}
Jim_SetGlobalVariableStr(interp, "errorCode", errorCode);
return rc;
}
/*
* Data structures of the following type are used by JimFork and
* JimWaitPids to keep track of child processes.
*/
struct WaitInfo
{
int pid; /* Process id of child. */
int status; /* Status returned when child exited or suspended. */
int flags; /* Various flag bits; see below for definitions. */
};
struct WaitInfoTable {
struct WaitInfo *info;
int size;
int used;
};
/*
* Flag bits in WaitInfo structures:
*
* WI_DETACHED - Non-zero means no-one cares about the
* process anymore. Ignore it until it
* exits, then forget about it.
*/
#define WI_DETACHED 2
#define WAIT_TABLE_GROW_BY 4
static void JimFreeWaitInfoTable(struct Jim_Interp *interp, void *privData)
{
struct WaitInfoTable *table = privData;
Jim_Free(table->info);
Jim_Free(table);
}
static struct WaitInfoTable *JimAllocWaitInfoTable(void)
{
struct WaitInfoTable *table = Jim_Alloc(sizeof(*table));
table->info = NULL;
table->size = table->used = 0;
return table;
}
static int Jim_CreatePipeline(Jim_Interp *interp, int argc, Jim_Obj *const *argv,
int **pidArrayPtr, int *inPipePtr, int *outPipePtr, int *errFilePtr);
static void JimDetachPids(Jim_Interp *interp, int numPids, const int *pidPtr);
static int Jim_CleanupChildren(Jim_Interp *interp, int numPids, int *pidPtr, int errorId);
static int Jim_ExecCmd(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int outputId; /* File id for output pipe. -1
* means command overrode. */
int errorId; /* File id for temporary file
* containing error output. */
int *pidPtr;
int numPids, result;
/*
* See if the command is to be run in background; if so, create
* the command, detach it, and return.
*/
if (argc > 1 && Jim_CompareStringImmediate(interp, argv[argc - 1], "&")) {
Jim_Obj *listObj;
int i;
argc--;
numPids = Jim_CreatePipeline(interp, argc - 1, argv + 1, &pidPtr, NULL, NULL, NULL);
if (numPids < 0) {
return JIM_ERR;
}
/* The return value is a list of the pids */
listObj = Jim_NewListObj(interp, NULL, 0);
for (i = 0; i < numPids; i++) {
Jim_ListAppendElement(interp, listObj, Jim_NewIntObj(interp, pidPtr[i]));
}
Jim_SetResult(interp, listObj);
JimDetachPids(interp, numPids, pidPtr);
Jim_Free(pidPtr);
return JIM_OK;
}
/*
* Create the command's pipeline.
*/
numPids =
Jim_CreatePipeline(interp, argc - 1, argv + 1, &pidPtr, (int *)NULL, &outputId, &errorId);
if (numPids < 0) {
return JIM_ERR;
}
/*
* Read the child's output (if any) and put it into the result.
*/
Jim_SetResultString(interp, "", 0);
result = JIM_OK;
if (outputId != -1) {
result = JimAppendStreamToString(interp, outputId, Jim_GetResult(interp));
if (result < 0) {
Jim_SetResultErrno(interp, "error reading from output pipe");
}
close(outputId);
}
if (Jim_CleanupChildren(interp, numPids, pidPtr, errorId) != JIM_OK) {
result = JIM_ERR;
}
return result;
}
void Jim_ReapDetachedPids(struct WaitInfoTable *table)
{
if (!table) {
return;
}
struct WaitInfo *waitPtr;
int count;
for (waitPtr = table->info, count = table->used; count > 0; waitPtr++, count--) {
if (waitPtr->flags & WI_DETACHED) {
int status;
int pid = waitpid(waitPtr->pid, &status, WNOHANG);
if (pid > 0) {
if (waitPtr != &table->info[table->used - 1]) {
*waitPtr = table->info[table->used - 1];
}
table->used--;
}
}
}
}
/**
* Does waitpid() on the given pid, and then removes the
* entry from the wait table.
*
* Returns the pid if OK and updates *statusPtr with the status,
* or -1 if the pid was not in the table.
*/
static int JimWaitPid(struct WaitInfoTable *table, int pid, int *statusPtr)
{
int i;
/* Find it in the table */
for (i = 0; i < table->used; i++) {
if (pid == table->info[i].pid) {
/* wait for it */
waitpid(pid, statusPtr, 0);
/* Remove it from the table */
if (i != table->used - 1) {
table->info[i] = table->info[table->used - 1];
}
table->used--;
return pid;
}
}
/* Not found */
return -1;
}
/*
*----------------------------------------------------------------------
*
* JimDetachPids --
*
* This procedure is called to indicate that one or more child
* processes have been placed in background and are no longer
* cared about. These children can be cleaned up with JimReapDetachedPids().
*
* Results:
* None.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
static void JimDetachPids(Jim_Interp *interp, int numPids, const int *pidPtr)
{
int j;
struct WaitInfoTable *table = Jim_CmdPrivData(interp);
for (j = 0; j < numPids; j++) {
/* Find it in the table */
int i;
for (i = 0; i < table->used; i++) {
if (pidPtr[j] == table->info[i].pid) {
table->info[i].flags |= WI_DETACHED;
break;
}
}
}
}
/*
*----------------------------------------------------------------------
*
* Jim_CreatePipeline --
*
* Given an argc/argv array, instantiate a pipeline of processes
* as described by the argv.
*
* Results:
* The return value is a count of the number of new processes
* created, or -1 if an error occurred while creating the pipeline.
* *pidArrayPtr is filled in with the address of a dynamically
* allocated array giving the ids of all of the processes. It
* is up to the caller to free this array when it isn't needed
* anymore. If inPipePtr is non-NULL, *inPipePtr is filled in
* with the file id for the input pipe for the pipeline (if any):
* the caller must eventually close this file. If outPipePtr
* isn't NULL, then *outPipePtr is filled in with the file id
* for the output pipe from the pipeline: the caller must close
* this file. If errFilePtr isn't NULL, then *errFilePtr is filled
* with a file id that may be used to read error output after the
* pipeline completes.
*
* Side effects:
* Processes and pipes are created.
*
*----------------------------------------------------------------------
*/
static int
Jim_CreatePipeline(Jim_Interp *interp, int argc, Jim_Obj *const *argv, int **pidArrayPtr,
int *inPipePtr, int *outPipePtr, int *errFilePtr)
{
int *pidPtr = NULL; /* Points to malloc-ed array holding all
* the pids of child processes. */
int numPids = 0; /* Actual number of processes that exist
* at *pidPtr right now. */
int cmdCount; /* Count of number of distinct commands
* found in argc/argv. */
const char *input = NULL; /* Describes input for pipeline, depending
* on "inputFile". NULL means take input
* from stdin/pipe. */
#define FILE_NAME 0 /* input/output: filename */
#define FILE_APPEND 1 /* output only: filename, append */
#define FILE_HANDLE 2 /* input/output: filehandle */
#define FILE_TEXT 3 /* input only: input is actual text */
int inputFile = FILE_NAME; /* 1 means input is name of input file.
* 2 means input is filehandle name.
* 0 means input holds actual
* text to be input to command. */
int outputFile = FILE_NAME; /* 0 means output is the name of output file.
* 1 means output is the name of output file, and append.
* 2 means output is filehandle name.
* All this is ignored if output is NULL
*/
int errorFile = FILE_NAME; /* 0 means error is the name of error file.
* 1 means error is the name of error file, and append.
* 2 means error is filehandle name.
* All this is ignored if error is NULL
*/
const char *output = NULL; /* Holds name of output file to pipe to,
* or NULL if output goes to stdout/pipe. */
const char *error = NULL; /* Holds name of stderr file to pipe to,
* or NULL if stderr goes to stderr/pipe. */
int inputId = -1; /* Readable file id input to current command in
* pipeline (could be file or pipe). -1
* means use stdin. */
int outputId = -1; /* Writable file id for output from current
* command in pipeline (could be file or pipe).
* -1 means use stdout. */
int errorId = -1; /* Writable file id for all standard error
* output from all commands in pipeline. -1
* means use stderr. */
int lastOutputId = -1; /* Write file id for output from last command
* in pipeline (could be file or pipe).
* -1 means use stdout. */
int pipeIds[2]; /* File ids for pipe that's being created. */
int firstArg, lastArg; /* Indexes of first and last arguments in
* current command. */
int lastBar;
char *execName;
int i, pid;
char **orig_environ;
struct WaitInfoTable *table = Jim_CmdPrivData(interp);
/* Holds the args which will be used to exec */
char **arg_array = Jim_Alloc(sizeof(*arg_array) * (argc + 1));
int arg_count = 0;
Jim_ReapDetachedPids(table);
if (inPipePtr != NULL) {
*inPipePtr = -1;
}
if (outPipePtr != NULL) {
*outPipePtr = -1;
}
if (errFilePtr != NULL) {
*errFilePtr = -1;
}
pipeIds[0] = pipeIds[1] = -1;
/*
* First, scan through all the arguments to figure out the structure
* of the pipeline. Count the number of distinct processes (it's the
* number of "|" arguments). If there are "<", "<<", or ">" arguments
* then make note of input and output redirection and remove these
* arguments and the arguments that follow them.
*/
cmdCount = 1;
lastBar = -1;
for (i = 0; i < argc; i++) {
const char *arg = Jim_String(argv[i]);
if (arg[0] == '<') {
inputFile = FILE_NAME;
input = arg + 1;
if (*input == '<') {
inputFile = FILE_TEXT;
input++;
}
else if (*input == '@') {
inputFile = FILE_HANDLE;
input++;
}
if (!*input && ++i < argc) {
input = Jim_String(argv[i]);
}
}
else if (arg[0] == '>') {
int dup_error = 0;
outputFile = FILE_NAME;
output = arg + 1;
if (*output == '>') {
outputFile = FILE_APPEND;
output++;
}
if (*output == '&') {
/* Redirect stderr too */
output++;
dup_error = 1;
}
if (*output == '@') {
outputFile = FILE_HANDLE;
output++;
}
if (!*output && ++i < argc) {
output = Jim_String(argv[i]);
}
if (dup_error) {
errorFile = outputFile;
error = output;
}
}
else if (arg[0] == '2' && arg[1] == '>') {
error = arg + 2;
errorFile = FILE_NAME;
if (*error == '@') {
errorFile = FILE_HANDLE;
error++;
}
else if (*error == '>') {
errorFile = FILE_APPEND;
error++;
}
if (!*error && ++i < argc) {
error = Jim_String(argv[i]);
}
}
else {
if (strcmp(arg, "|") == 0 || strcmp(arg, "|&") == 0) {
if (i == lastBar + 1 || i == argc - 1) {
Jim_SetResultString(interp, "illegal use of | or |& in command", -1);
goto badargs;
}
lastBar = i;
cmdCount++;
}
/* Either |, |& or a "normal" arg, so store it in the arg array */
arg_array[arg_count++] = (char *)arg;
continue;
}
if (i >= argc) {
Jim_SetResultFormatted(interp, "can't specify \"%s\" as last word in command", arg);
goto badargs;
}
}
if (arg_count == 0) {
Jim_SetResultString(interp, "didn't specify command to execute", -1);
badargs:
Jim_Free(arg_array);
return -1;
}
/* Must do this before vfork(), so do it now */
orig_environ = Jim_GetEnviron();
Jim_SetEnviron(JimBuildEnv(interp));
/*
* Set up the redirected input source for the pipeline, if
* so requested.
*/
if (input != NULL) {
if (inputFile == FILE_TEXT) {
/*
* Immediate data in command. Create temporary file and
* put data into file.
*/
#define TMP_STDIN_NAME "/tmp/tcl.in.XXXXXX"
char inName[sizeof(TMP_STDIN_NAME) + 1];
int length;
strcpy(inName, TMP_STDIN_NAME);
inputId = mkstemp(inName);
if (inputId < 0) {
Jim_SetResultErrno(interp, "couldn't create input file for command");
goto error;
}
length = strlen(input);
if (write(inputId, input, length) != length) {
Jim_SetResultErrno(interp, "couldn't write file input for command");
goto error;
}
if (lseek(inputId, 0L, SEEK_SET) == -1 || unlink(inName) == -1) {
Jim_SetResultErrno(interp, "couldn't reset or remove input file for command");
goto error;
}
}
else if (inputFile == FILE_HANDLE) {
/* Should be a file descriptor */
Jim_Obj *fhObj = Jim_NewStringObj(interp, input, -1);
FILE *fh = Jim_AioFilehandle(interp, fhObj);
Jim_FreeNewObj(interp, fhObj);
if (fh == NULL) {
goto error;
}
inputId = dup(fileno(fh));
}
else {
/*
* File redirection. Just open the file.
*/
inputId = open(input, O_RDONLY, 0);
if (inputId < 0) {
Jim_SetResultFormatted(interp, "couldn't read file \"%s\": %s", input,
strerror(errno));
goto error;
}
}
}
else if (inPipePtr != NULL) {
if (pipe(pipeIds) != 0) {
Jim_SetResultErrno(interp, "couldn't create input pipe for command");
goto error;
}
inputId = pipeIds[0];
*inPipePtr = pipeIds[1];
pipeIds[0] = pipeIds[1] = -1;
}
/*
* Set up the redirected output sink for the pipeline from one
* of two places, if requested.
*/
if (output != NULL) {
if (outputFile == FILE_HANDLE) {
Jim_Obj *fhObj = Jim_NewStringObj(interp, output, -1);
FILE *fh = Jim_AioFilehandle(interp, fhObj);
Jim_FreeNewObj(interp, fhObj);
if (fh == NULL) {
goto error;
}
fflush(fh);
lastOutputId = dup(fileno(fh));
}
else {
/*
* Output is to go to a file.
*/
int mode = O_WRONLY | O_CREAT | O_TRUNC;
if (outputFile == FILE_APPEND) {
mode = O_WRONLY | O_CREAT | O_APPEND;
}
lastOutputId = open(output, mode, 0666);
if (lastOutputId < 0) {
Jim_SetResultFormatted(interp, "couldn't write file \"%s\": %s", output,
strerror(errno));
goto error;
}
}
}
else if (outPipePtr != NULL) {
/*
* Output is to go to a pipe.
*/
if (pipe(pipeIds) != 0) {
Jim_SetResultErrno(interp, "couldn't create output pipe");
goto error;
}
lastOutputId = pipeIds[1];
*outPipePtr = pipeIds[0];
pipeIds[0] = pipeIds[1] = -1;
}
/* If we are redirecting stderr with 2>filename or 2>@fileId, then we ignore errFilePtr */
if (error != NULL) {
if (errorFile == FILE_HANDLE) {
if (strcmp(error, "1") == 0) {
/* Special 2>@1 */
if (lastOutputId >= 0) {
errorId = dup(lastOutputId);
}
else {
/* No redirection of stdout, so just use 2>@stdout */
error = "stdout";
}
}
if (errorId < 0) {
Jim_Obj *fhObj = Jim_NewStringObj(interp, error, -1);
FILE *fh = Jim_AioFilehandle(interp, fhObj);
Jim_FreeNewObj(interp, fhObj);
if (fh == NULL) {
goto error;
}
fflush(fh);
errorId = dup(fileno(fh));
}
}
else {
/*
* Output is to go to a file.
*/
int mode = O_WRONLY | O_CREAT | O_TRUNC;
if (errorFile == FILE_APPEND) {
mode = O_WRONLY | O_CREAT | O_APPEND;
}
errorId = open(error, mode, 0666);
if (errorId < 0) {
Jim_SetResultFormatted(interp, "couldn't write file \"%s\": %s", error,
strerror(errno));
}
}
}
else if (errFilePtr != NULL) {
/*
* Set up the standard error output sink for the pipeline, if
* requested. Use a temporary file which is opened, then deleted.
* Could potentially just use pipe, but if it filled up it could
* cause the pipeline to deadlock: we'd be waiting for processes
* to complete before reading stderr, and processes couldn't complete
* because stderr was backed up.
*/
#define TMP_STDERR_NAME "/tmp/tcl.err.XXXXXX"
char errName[sizeof(TMP_STDERR_NAME) + 1];
strcpy(errName, TMP_STDERR_NAME);
errorId = mkstemp(errName);
if (errorId < 0) {
errFileError:
Jim_SetResultErrno(interp, "couldn't create error file for command");
goto error;
}
*errFilePtr = open(errName, O_RDONLY, 0);
if (*errFilePtr < 0) {
goto errFileError;
}
if (unlink(errName) == -1) {
Jim_SetResultErrno(interp, "couldn't remove error file for command");
goto error;
}
}
/*
* Scan through the argc array, forking off a process for each
* group of arguments between "|" arguments.
*/
pidPtr = (int *)Jim_Alloc(cmdCount * sizeof(*pidPtr));
for (i = 0; i < numPids; i++) {
pidPtr[i] = -1;
}
for (firstArg = 0; firstArg < arg_count; numPids++, firstArg = lastArg + 1) {
int pipe_dup_err = 0;
int origErrorId = errorId;
char execerr[64];
int execerrlen;
for (lastArg = firstArg; lastArg < arg_count; lastArg++) {
if (arg_array[lastArg][0] == '|') {
if (arg_array[lastArg][1] == '&') {
pipe_dup_err = 1;
}
break;
}
}
/* Replace | with NULL for execv() */
arg_array[lastArg] = NULL;
if (lastArg == arg_count) {
outputId = lastOutputId;
}
else {
if (pipe(pipeIds) != 0) {
Jim_SetResultErrno(interp, "couldn't create pipe");
goto error;
}
outputId = pipeIds[1];
}
execName = arg_array[firstArg];
/* Now fork the child */
/*
* Disable SIGPIPE signals: if they were allowed, this process
* might go away unexpectedly if children misbehave. This code
* can potentially interfere with other application code that
* expects to handle SIGPIPEs; what's really needed is an
* arbiter for signals to allow them to be "shared".
*/
if (table->info == NULL) {
(void)signal(SIGPIPE, SIG_IGN);
}
/* Need to do this befor vfork() */
if (pipe_dup_err) {
errorId = outputId;
}
/* Need to prep an error message before vfork(), just in case */
snprintf(execerr, sizeof(execerr), "couldn't exec \"%s\"", execName);
execerrlen = strlen(execerr);
/*
* Make a new process and enter it into the table if the fork
* is successful.
*/
pid = vfork();
if (pid < 0) {
Jim_SetResultErrno(interp, "couldn't fork child process");
goto error;
}
if (pid == 0) {
/* Child */
if (inputId != -1) dup2(inputId, 0);
if (outputId != -1) dup2(outputId, 1);
if (errorId != -1) dup2(errorId, 2);
for (i = 3; (i <= outputId) || (i <= inputId) || (i <= errorId); i++) {
close(i);
}
execvp(execName, &arg_array[firstArg]);
/* we really can ignore the error here! */
IGNORE_RC(write(2, execerr, execerrlen));
_exit(127);
}
/* parent */
/*
* Enlarge the wait table if there isn't enough space for a new
* entry.
*/
if (table->used == table->size) {
table->size += WAIT_TABLE_GROW_BY;
table->info = Jim_Realloc(table->info, table->size * sizeof(*table->info));
}
table->info[table->used].pid = pid;
table->info[table->used].flags = 0;
table->used++;
pidPtr[numPids] = pid;
/* Restore in case of pipe_dup_err */
errorId = origErrorId;
/*
* Close off our copies of file descriptors that were set up for
* this child, then set up the input for the next child.
*/
if (inputId != -1) {
close(inputId);
}
if (outputId != -1) {
close(outputId);
}
inputId = pipeIds[0];
pipeIds[0] = pipeIds[1] = -1;
}
*pidArrayPtr = pidPtr;
/*
* All done. Cleanup open files lying around and then return.
*/
cleanup:
if (inputId != -1) {
close(inputId);
}
if (lastOutputId != -1) {
close(lastOutputId);
}
if (errorId != -1) {
close(errorId);
}
Jim_Free(arg_array);
JimFreeEnv(interp, Jim_GetEnviron(), orig_environ);
Jim_SetEnviron(orig_environ);
return numPids;
/*
* An error occurred. There could have been extra files open, such
* as pipes between children. Clean them all up. Detach any child
* processes that have been created.
*/
error:
if ((inPipePtr != NULL) && (*inPipePtr != -1)) {
close(*inPipePtr);
*inPipePtr = -1;
}
if ((outPipePtr != NULL) && (*outPipePtr != -1)) {
close(*outPipePtr);
*outPipePtr = -1;
}
if ((errFilePtr != NULL) && (*errFilePtr != -1)) {
close(*errFilePtr);
*errFilePtr = -1;
}
if (pipeIds[0] != -1) {
close(pipeIds[0]);
}
if (pipeIds[1] != -1) {
close(pipeIds[1]);
}
if (pidPtr != NULL) {
for (i = 0; i < numPids; i++) {
if (pidPtr[i] != -1) {
JimDetachPids(interp, 1, &pidPtr[i]);
}
}
Jim_Free(pidPtr);
}
numPids = -1;
goto cleanup;
}
/*
*----------------------------------------------------------------------
*
* CleanupChildren --
*
* This is a utility procedure used to wait for child processes
* to exit, record information about abnormal exits, and then
* collect any stderr output generated by them.
*
* Results:
* The return value is a standard Tcl result. If anything at
* weird happened with the child processes, JIM_ERROR is returned
* and a message is left in interp->result.
*
* Side effects:
* If the last character of interp->result is a newline, then it
* is removed. File errorId gets closed, and pidPtr is freed
* back to the storage allocator.
*
*----------------------------------------------------------------------
*/
static int Jim_CleanupChildren(Jim_Interp *interp, int numPids, int *pidPtr, int errorId)
{
struct WaitInfoTable *table = Jim_CmdPrivData(interp);
int result = JIM_OK;
int i;
for (i = 0; i < numPids; i++) {
int waitStatus = 0;
if (JimWaitPid(table, pidPtr[i], &waitStatus) > 0) {
if (JimCheckWaitStatus(interp, pidPtr[i], waitStatus) != JIM_OK) {
result = JIM_ERR;
}
}
}
Jim_Free(pidPtr);
/*
* Read the standard error file. If there's anything there,
* then add the file's contents to the result
* string.
*/
if (errorId >= 0) {
if (JimAppendStreamToString(interp, errorId, Jim_GetResult(interp)) != JIM_OK) {
Jim_SetResultErrno(interp, "error reading from stderr output file");
result = JIM_ERR;
}
close(errorId);
}
JimTrimTrailingNewline(interp);
return result;
}
int Jim_execInit(Jim_Interp *interp)
{
if (Jim_PackageProvide(interp, "exec", "1.0", JIM_ERRMSG))
return JIM_ERR;
Jim_CreateCommand(interp, "exec", Jim_ExecCmd, JimAllocWaitInfoTable(), JimFreeWaitInfoTable);
return JIM_OK;
}
#else
/* e.g. Windows. Poor mans implementation of exec with system()
* The system() call *may* do command line redirection, etc.
* The standard output is not available.
* Can't redirect filehandles.
*/
static int Jim_ExecCmd(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
Jim_Obj *cmdlineObj = Jim_NewEmptyStringObj(interp);
int i, j;
int rc;
/* Create a quoted command line */
for (i = 1; i < argc; i++) {
int len;
const char *arg = Jim_GetString(argv[i], &len);
if (i > 1) {
Jim_AppendString(interp, cmdlineObj, " ", 1);
}
if (strpbrk(arg, "\\\" ") == NULL) {
/* No quoting required */
Jim_AppendString(interp, cmdlineObj, arg, len);
continue;
}
Jim_AppendString(interp, cmdlineObj, "\"", 1);
for (j = 0; j < len; j++) {
if (arg[j] == '\\' || arg[j] == '"') {
Jim_AppendString(interp, cmdlineObj, "\\", 1);
}
Jim_AppendString(interp, cmdlineObj, &arg[j], 1);
}
Jim_AppendString(interp, cmdlineObj, "\"", 1);
}
rc = system(Jim_String(cmdlineObj));
Jim_FreeNewObj(interp, cmdlineObj);
if (rc) {
Jim_Obj *errorCode = Jim_NewListObj(interp, NULL, 0);
Jim_ListAppendElement(interp, errorCode, Jim_NewStringObj(interp, "CHILDSTATUS", -1));
Jim_ListAppendElement(interp, errorCode, Jim_NewIntObj(interp, 0));
Jim_ListAppendElement(interp, errorCode, Jim_NewIntObj(interp, rc));
Jim_SetGlobalVariableStr(interp, "errorCode", errorCode);
return JIM_ERR;
}
return JIM_OK;
}
int Jim_execInit(Jim_Interp *interp)
{
if (Jim_PackageProvide(interp, "exec", "1.0", JIM_ERRMSG))
return JIM_ERR;
Jim_CreateCommand(interp, "exec", Jim_ExecCmd, NULL, NULL);
return JIM_OK;
}
#endif
/*
* tcl_clock.c
*
* Implements the clock command
*/
/* For strptime() */
#ifndef _XOPEN_SOURCE
#define _XOPEN_SOURCE 500
#endif
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <time.h>
#include <sys/time.h>
static int clock_cmd_format(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
/* How big is big enough? */
char buf[100];
time_t t;
long seconds;
const char *format = "%a %b %d %H:%M:%S %Z %Y";
if (argc == 2 || (argc == 3 && !Jim_CompareStringImmediate(interp, argv[1], "-format"))) {
return -1;
}
if (argc == 3) {
format = Jim_String(argv[2]);
}
if (Jim_GetLong(interp, argv[0], &seconds) != JIM_OK) {
return JIM_ERR;
}
t = seconds;
strftime(buf, sizeof(buf), format, localtime(&t));
Jim_SetResultString(interp, buf, -1);
return JIM_OK;
}
#ifdef HAVE_STRPTIME
static int clock_cmd_scan(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
char *pt;
struct tm tm;
time_t now = time(0);
if (!Jim_CompareStringImmediate(interp, argv[1], "-format")) {
return -1;
}
/* Initialise with the current date/time */
localtime_r(&now, &tm);
pt = strptime(Jim_String(argv[0]), Jim_String(argv[2]), &tm);
if (pt == 0 || *pt != 0) {
Jim_SetResultString(interp, "Failed to parse time according to format", -1);
return JIM_ERR;
}
/* Now convert into a time_t */
Jim_SetResultInt(interp, mktime(&tm));
return JIM_OK;
}
#endif
static int clock_cmd_seconds(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
Jim_SetResultInt(interp, time(NULL));
return JIM_OK;
}
static int clock_cmd_micros(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
struct timeval tv;
gettimeofday(&tv, NULL);
Jim_SetResultInt(interp, (jim_wide) tv.tv_sec * 1000000 + tv.tv_usec);
return JIM_OK;
}
static int clock_cmd_millis(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
struct timeval tv;
gettimeofday(&tv, NULL);
Jim_SetResultInt(interp, (jim_wide) tv.tv_sec * 1000 + tv.tv_usec / 1000);
return JIM_OK;
}
static const jim_subcmd_type clock_command_table[] = {
{ .cmd = "seconds",
.function = clock_cmd_seconds,
.minargs = 0,
.maxargs = 0,
.description = "Returns the current time as seconds since the epoch"
},
{ .cmd = "clicks",
.function = clock_cmd_micros,
.minargs = 0,
.maxargs = 0,
.description = "Returns the current time in 'clicks'"
},
{ .cmd = "microseconds",
.function = clock_cmd_micros,
.minargs = 0,
.maxargs = 0,
.description = "Returns the current time in microseconds"
},
{ .cmd = "milliseconds",
.function = clock_cmd_millis,
.minargs = 0,
.maxargs = 0,
.description = "Returns the current time in milliseconds"
},
{ .cmd = "format",
.args = "seconds ?-format format?",
.function = clock_cmd_format,
.minargs = 1,
.maxargs = 3,
.description = "Format the given time"
},
#ifdef HAVE_STRPTIME
{ .cmd = "scan",
.args = "str -format format",
.function = clock_cmd_scan,
.minargs = 3,
.maxargs = 3,
.description = "Determine the time according to the given format"
},
#endif
{ 0 }
};
int Jim_clockInit(Jim_Interp *interp)
{
if (Jim_PackageProvide(interp, "clock", "1.0", JIM_ERRMSG))
return JIM_ERR;
Jim_CreateCommand(interp, "clock", Jim_SubCmdProc, (void *)clock_command_table, NULL);
return JIM_OK;
}
/*
* Implements the array command for jim
*
* (c) 2008 Steve Bennett <steveb@workware.net.au>
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials
* provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE JIM TCL PROJECT ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
* PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* JIM TCL PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* The views and conclusions contained in the software and documentation
* are those of the authors and should not be interpreted as representing
* official policies, either expressed or implied, of the Jim Tcl Project.
*
* Based on code originally from Tcl 6.7:
*
* Copyright 1987-1991 Regents of the University of California
* Permission to use, copy, modify, and distribute this
* software and its documentation for any purpose and without
* fee is hereby granted, provided that the above copyright
* notice appear in all copies. The University of California
* makes no representations about the suitability of this
* software for any purpose. It is provided "as is" without
* express or implied warranty.
*/
#include <limits.h>
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <unistd.h>
#include <errno.h>
static int array_cmd_exists(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
/* Just a regular [info exists] */
Jim_SetResultInt(interp, Jim_GetVariable(interp, argv[0], 0) != 0);
return JIM_OK;
}
static int array_cmd_get(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int i;
int len;
int all = 0;
Jim_Obj *resultObj;
Jim_Obj *objPtr = Jim_GetVariable(interp, argv[0], JIM_NONE);
Jim_Obj *dictObj;
Jim_Obj **dictValuesObj;
if (!objPtr) {
return JIM_OK;
}
if (argc == 1 || Jim_CompareStringImmediate(interp, argv[1], "*")) {
all = 1;
}
/* If it is a dictionary or list with an even number of elements, nothing else to do */
if (all) {
if (Jim_IsDict(objPtr) || (Jim_IsList(objPtr) && Jim_ListLength(interp, objPtr) % 2 == 0)) {
Jim_SetResult(interp, objPtr);
return JIM_OK;
}
}
if (Jim_DictKeysVector(interp, objPtr, NULL, 0, &dictObj, JIM_ERRMSG) != JIM_OK) {
return JIM_ERR;
}
if (Jim_DictPairs(interp, dictObj, &dictValuesObj, &len) != JIM_OK) {
return JIM_ERR;
}
if (all) {
/* Return the whole array */
Jim_SetResult(interp, dictObj);
}
else {
/* Only return the matching values */
resultObj = Jim_NewListObj(interp, NULL, 0);
for (i = 0; i < len; i += 2) {
if (Jim_StringMatchObj(interp, argv[1], dictValuesObj[i], 0)) {
Jim_ListAppendElement(interp, resultObj, dictValuesObj[i]);
Jim_ListAppendElement(interp, resultObj, dictValuesObj[i + 1]);
}
}
Jim_SetResult(interp, resultObj);
}
Jim_Free(dictValuesObj);
return JIM_OK;
}
static int array_cmd_names(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
Jim_Obj *objPtr = Jim_GetVariable(interp, argv[0], JIM_NONE);
if (!objPtr) {
return JIM_OK;
}
return Jim_DictKeys(interp, objPtr, argc == 1 ? NULL : argv[1]);
}
static int array_cmd_unset(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int i;
int len;
Jim_Obj *resultObj;
Jim_Obj *objPtr;
Jim_Obj *dictObj;
Jim_Obj **dictValuesObj;
if (argc == 1 || Jim_CompareStringImmediate(interp, argv[1], "*")) {
/* Unset the whole array */
Jim_UnsetVariable(interp, argv[0], JIM_NONE);
return JIM_OK;
}
objPtr = Jim_GetVariable(interp, argv[0], JIM_NONE);
if (Jim_DictKeysVector(interp, objPtr, NULL, 0, &dictObj, JIM_ERRMSG) != JIM_OK) {
return JIM_ERR;
}
if (Jim_DictPairs(interp, dictObj, &dictValuesObj, &len) != JIM_OK) {
return JIM_ERR;
}
/* Create a new object with the values which don't match */
resultObj = Jim_NewDictObj(interp, NULL, 0);
for (i = 0; i < len; i += 2) {
if (!Jim_StringMatchObj(interp, argv[1], dictValuesObj[i], 0)) {
Jim_DictAddElement(interp, resultObj, dictValuesObj[i], dictValuesObj[i + 1]);
}
}
Jim_Free(dictValuesObj);
Jim_SetVariable(interp, argv[0], resultObj);
return JIM_OK;
}
static int array_cmd_size(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
Jim_Obj *objPtr;
int len = 0;
/* Not found means zero length */
objPtr = Jim_GetVariable(interp, argv[0], JIM_NONE);
if (objPtr) {
len = Jim_DictSize(interp, objPtr);
if (len < 0) {
return JIM_ERR;
}
}
Jim_SetResultInt(interp, len);
return JIM_OK;
}
static int array_cmd_set(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int i;
int len;
int rc = JIM_OK;
Jim_Obj *listObj = argv[1];
if (Jim_GetVariable(interp, argv[0], JIM_NONE) == NULL) {
/* Doesn't exist, so just set the list directly */
return Jim_SetVariable(interp, argv[0], listObj);
}
len = Jim_ListLength(interp, listObj);
if (len % 2) {
Jim_SetResultString(interp, "list must have an even number of elements", -1);
return JIM_ERR;
}
for (i = 0; i < len && rc == JIM_OK; i += 2) {
Jim_Obj *nameObj;
Jim_Obj *valueObj;
Jim_ListIndex(interp, listObj, i, &nameObj, JIM_NONE);
Jim_ListIndex(interp, listObj, i + 1, &valueObj, JIM_NONE);
rc = Jim_SetDictKeysVector(interp, argv[0], &nameObj, 1, valueObj);
}
return rc;
}
static const jim_subcmd_type array_command_table[] = {
{ .cmd = "exists",
.args = "arrayName",
.function = array_cmd_exists,
.minargs = 1,
.maxargs = 1,
.description = "Does array exist?"
},
{ .cmd = "get",
.args = "arrayName ?pattern?",
.function = array_cmd_get,
.minargs = 1,
.maxargs = 2,
.description = "Array contents as name value list"
},
{ .cmd = "names",
.args = "arrayName ?pattern?",
.function = array_cmd_names,
.minargs = 1,
.maxargs = 2,
.description = "Array keys as a list"
},
{ .cmd = "set",
.args = "arrayName list",
.function = array_cmd_set,
.minargs = 2,
.maxargs = 2,
.description = "Set array from list"
},
{ .cmd = "size",
.args = "arrayName",
.function = array_cmd_size,
.minargs = 1,
.maxargs = 1,
.description = "Number of elements in array"
},
{ .cmd = "unset",
.args = "arrayName ?pattern?",
.function = array_cmd_unset,
.minargs = 1,
.maxargs = 2,
.description = "Unset elements of an array"
},
{ .cmd = 0,
}
};
int Jim_arrayInit(Jim_Interp *interp)
{
if (Jim_PackageProvide(interp, "array", "1.0", JIM_ERRMSG))
return JIM_ERR;
Jim_CreateCommand(interp, "array", Jim_SubCmdProc, (void *)array_command_table, NULL);
return JIM_OK;
}
int Jim_InitStaticExtensions(Jim_Interp *interp)
{
extern int Jim_bootstrapInit(Jim_Interp *);
Jim_bootstrapInit(interp);
extern int Jim_aioInit(Jim_Interp *);
Jim_aioInit(interp);
extern int Jim_readdirInit(Jim_Interp *);
Jim_readdirInit(interp);
extern int Jim_globInit(Jim_Interp *);
Jim_globInit(interp);
extern int Jim_regexpInit(Jim_Interp *);
Jim_regexpInit(interp);
extern int Jim_fileInit(Jim_Interp *);
Jim_fileInit(interp);
extern int Jim_execInit(Jim_Interp *);
Jim_execInit(interp);
extern int Jim_clockInit(Jim_Interp *);
Jim_clockInit(interp);
extern int Jim_arrayInit(Jim_Interp *);
Jim_arrayInit(interp);
extern int Jim_stdlibInit(Jim_Interp *);
Jim_stdlibInit(interp);
extern int Jim_tclcompatInit(Jim_Interp *);
Jim_tclcompatInit(interp);
return JIM_OK;
}
/* Jim - A small embeddable Tcl interpreter
*
* Copyright 2005 Salvatore Sanfilippo <antirez@invece.org>
* Copyright 2005 Clemens Hintze <c.hintze@gmx.net>
* Copyright 2005 patthoyts - Pat Thoyts <patthoyts@users.sf.net>
* Copyright 2008,2009 oharboe - Øyvind Harboe - oyvind.harboe@zylin.com
* Copyright 2008 Andrew Lunn <andrew@lunn.ch>
* Copyright 2008 Duane Ellis <openocd@duaneellis.com>
* Copyright 2008 Uwe Klein <uklein@klein-messgeraete.de>
* Copyright 2008 Steve Bennett <steveb@workware.net.au>
* Copyright 2009 Nico Coesel <ncoesel@dealogic.nl>
* Copyright 2009 Zachary T Welch zw@superlucidity.net
* Copyright 2009 David Brownell
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials
* provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE JIM TCL PROJECT ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
* PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* JIM TCL PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* The views and conclusions contained in the software and documentation
* are those of the authors and should not be interpreted as representing
* official policies, either expressed or implied, of the Jim Tcl Project.
**/
#define JIM_OPTIMIZATION /* comment to avoid optimizations and reduce size */
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdarg.h>
#include <ctype.h>
#include <limits.h>
#include <assert.h>
#include <errno.h>
#include <time.h>
#include <setjmp.h>
#include <unistd.h>
#include <sys/time.h>
#ifdef HAVE_BACKTRACE
#include <execinfo.h>
#endif
#ifdef HAVE_CRT_EXTERNS_H
#include <crt_externs.h>
#endif
/* For INFINITY, even if math functions are not enabled */
#include <math.h>
/* For the no-autoconf case */
#ifndef TCL_LIBRARY
#define TCL_LIBRARY "."
#endif
#ifndef TCL_PLATFORM_OS
#define TCL_PLATFORM_OS "unknown"
#endif
#ifndef TCL_PLATFORM_PLATFORM
#define TCL_PLATFORM_PLATFORM "unknown"
#endif
/*#define DEBUG_SHOW_SCRIPT*/
/*#define DEBUG_SHOW_SCRIPT_TOKENS*/
/*#define DEBUG_SHOW_SUBST*/
/*#define DEBUG_SHOW_EXPR*/
/*#define DEBUG_SHOW_EXPR_TOKENS*/
/*#define JIM_DEBUG_GC*/
#ifdef JIM_MAINTAINER
#define JIM_DEBUG_COMMAND
#define JIM_DEBUG_PANIC
#endif
const char *jim_tt_name(int type);
#ifdef JIM_DEBUG_PANIC
static void JimPanicDump(int panic_condition, Jim_Interp *interp, const char *fmt, ...);
#define JimPanic(X) JimPanicDump X
#else
#define JimPanic(X)
#endif
/* -----------------------------------------------------------------------------
* Global variables
* ---------------------------------------------------------------------------*/
/* A shared empty string for the objects string representation.
* Jim_InvalidateStringRep knows about it and doesn't try to free it. */
static char JimEmptyStringRep[] = "";
/* -----------------------------------------------------------------------------
* Required prototypes of not exported functions
* ---------------------------------------------------------------------------*/
static void JimChangeCallFrameId(Jim_Interp *interp, Jim_CallFrame *cf);
static void JimFreeCallFrame(Jim_Interp *interp, Jim_CallFrame *cf, int flags);
static int ListSetIndex(Jim_Interp *interp, Jim_Obj *listPtr, int listindex, Jim_Obj *newObjPtr,
int flags);
static Jim_Obj *JimExpandDictSugar(Jim_Interp *interp, Jim_Obj *objPtr);
static void SetDictSubstFromAny(Jim_Interp *interp, Jim_Obj *objPtr);
static void JimSetFailedEnumResult(Jim_Interp *interp, const char *arg, const char *badtype,
const char *prefix, const char *const *tablePtr, const char *name);
static void JimDeleteLocalProcs(Jim_Interp *interp);
static int JimCallProcedure(Jim_Interp *interp, Jim_Cmd *cmd, const char *filename, int linenr,
int argc, Jim_Obj *const *argv);
static int JimEvalObjVector(Jim_Interp *interp, int objc, Jim_Obj *const *objv,
const char *filename, int linenr);
static int JimGetWideNoErr(Jim_Interp *interp, Jim_Obj *objPtr, jim_wide * widePtr);
static int JimSign(jim_wide w);
static int JimValidName(Jim_Interp *interp, const char *type, Jim_Obj *nameObjPtr);
static void JimPrngSeed(Jim_Interp *interp, unsigned char *seed, int seedLen);
static void JimRandomBytes(Jim_Interp *interp, void *dest, unsigned int len);
static const Jim_HashTableType JimVariablesHashTableType;
/* Fast access to the int (wide) value of an object which is known to be of int type */
#define JimWideValue(objPtr) (objPtr)->internalRep.wideValue
#define JimObjTypeName(O) (objPtr->typePtr ? objPtr->typePtr->name : "none")
static int utf8_tounicode_case(const char *s, int *uc, int upper)
{
int l = utf8_tounicode(s, uc);
if (upper) {
*uc = utf8_upper(*uc);
}
return l;
}
/* These can be used in addition to JIM_CASESENS/JIM_NOCASE */
#define JIM_CHARSET_SCAN 2
#define JIM_CHARSET_GLOB 0
/**
* pattern points to a string like "[^a-z\ub5]"
*
* The pattern may contain trailing chars, which are ignored.
*
* The pattern is matched against unicode char 'c'.
*
* If (flags & JIM_NOCASE), case is ignored when matching.
* If (flags & JIM_CHARSET_SCAN), the considers ^ and ] special at the start
* of the charset, per scan, rather than glob/string match.
*
* If the unicode char 'c' matches that set, returns a pointer to the ']' character,
* or the null character if the ']' is missing.
*
* Returns NULL on no match.
*/
static const char *JimCharsetMatch(const char *pattern, int c, int flags)
{
int not = 0;
int pchar;
int match = 0;
int nocase = 0;
if (flags & JIM_NOCASE) {
nocase++;
c = utf8_upper(c);
}
if (flags & JIM_CHARSET_SCAN) {
if (*pattern == '^') {
not++;
pattern++;
}
/* Special case. If the first char is ']', it is part of the set */
if (*pattern == ']') {
goto first;
}
}
while (*pattern && *pattern != ']') {
/* Exact match */
if (pattern[0] == '\\') {
first:
pattern += utf8_tounicode_case(pattern, &pchar, nocase);
}
else {
/* Is this a range? a-z */
int start;
int end;
pattern += utf8_tounicode_case(pattern, &start, nocase);
if (pattern[0] == '-' && pattern[1]) {
/* skip '-' */
pattern += utf8_tounicode(pattern, &pchar);
pattern += utf8_tounicode_case(pattern, &end, nocase);
/* Handle reversed range too */
if ((c >= start && c <= end) || (c >= end && c <= start)) {
match = 1;
}
continue;
}
pchar = start;
}
if (pchar == c) {
match = 1;
}
}
if (not) {
match = !match;
}
return match ? pattern : NULL;
}
/* Glob-style pattern matching. */
/* Note: string *must* be valid UTF-8 sequences
* slen is a char length, not byte counts.
*/
static int GlobMatch(const char *pattern, const char *string, int nocase)
{
int c;
int pchar;
while (*pattern) {
switch (pattern[0]) {
case '*':
while (pattern[1] == '*') {
pattern++;
}
pattern++;
if (!pattern[0]) {
return 1; /* match */
}
while (*string) {
/* Recursive call - Does the remaining pattern match anywhere? */
if (GlobMatch(pattern, string, nocase))
return 1; /* match */
string += utf8_tounicode(string, &c);
}
return 0; /* no match */
case '?':
string += utf8_tounicode(string, &c);
break;
case '[': {
string += utf8_tounicode(string, &c);
pattern = JimCharsetMatch(pattern + 1, c, nocase ? JIM_NOCASE : 0);
if (!pattern) {
return 0;
}
if (!*pattern) {
/* Ran out of pattern (no ']') */
continue;
}
break;
}
case '\\':
if (pattern[1]) {
pattern++;
}
/* fall through */
default:
string += utf8_tounicode_case(string, &c, nocase);
utf8_tounicode_case(pattern, &pchar, nocase);
if (pchar != c) {
return 0;
}
break;
}
pattern += utf8_tounicode_case(pattern, &pchar, nocase);
if (!*string) {
while (*pattern == '*') {
pattern++;
}
break;
}
}
if (!*pattern && !*string) {
return 1;
}
return 0;
}
static int JimStringMatch(Jim_Interp *interp, Jim_Obj *patternObj, const char *string, int nocase)
{
return GlobMatch(Jim_String(patternObj), string, nocase);
}
/**
* string comparison works on binary data.
*
* Note that the lengths are byte lengths, not char lengths.
*/
static int JimStringCompare(const char *s1, int l1, const char *s2, int l2)
{
if (l1 < l2) {
return memcmp(s1, s2, l1) <= 0 ? -1 : 1;
}
else if (l2 < l1) {
return memcmp(s1, s2, l2) >= 0 ? 1 : -1;
}
else {
return JimSign(memcmp(s1, s2, l1));
}
}
/**
* No-case version.
*
* If maxchars is -1, compares to end of string.
* Otherwise compares at most 'maxchars' characters.
*/
static int JimStringCompareNoCase(const char *s1, const char *s2, int maxchars)
{
while (*s1 && *s2 && maxchars) {
int c1, c2;
s1 += utf8_tounicode_case(s1, &c1, 1);
s2 += utf8_tounicode_case(s2, &c2, 1);
if (c1 != c2) {
return JimSign(c1 - c2);
}
maxchars--;
}
if (!maxchars) {
return 0;
}
/* One string or both terminated */
if (*s1) {
return 1;
}
if (*s2) {
return -1;
}
return 0;
}
/* Search 's1' inside 's2', starting to search from char 'index' of 's2'.
* The index of the first occurrence of s1 in s2 is returned.
* If s1 is not found inside s2, -1 is returned. */
static int JimStringFirst(const char *s1, int l1, const char *s2, int l2, int idx)
{
int i;
int l1bytelen;
if (!l1 || !l2 || l1 > l2) {
return -1;
}
if (idx < 0)
idx = 0;
s2 += utf8_index(s2, idx);
l1bytelen = utf8_index(s1, l1);
for (i = idx; i <= l2 - l1; i++) {
int c;
if (memcmp(s2, s1, l1bytelen) == 0) {
return i;
}
s2 += utf8_tounicode(s2, &c);
}
return -1;
}
/**
* Note: Lengths and return value are in bytes, not chars.
*/
static int JimStringLast(const char *s1, int l1, const char *s2, int l2)
{
const char *p;
if (!l1 || !l2 || l1 > l2)
return -1;
/* Now search for the needle */
for (p = s2 + l2 - 1; p != s2 - 1; p--) {
if (*p == *s1 && memcmp(s1, p, l1) == 0) {
return p - s2;
}
}
return -1;
}
#ifdef JIM_UTF8
/**
* Note: Lengths and return value are in chars.
*/
static int JimStringLastUtf8(const char *s1, int l1, const char *s2, int l2)
{
int n = JimStringLast(s1, utf8_index(s1, l1), s2, utf8_index(s2, l2));
if (n > 0) {
n = utf8_strlen(s2, n);
}
return n;
}
#endif
int Jim_WideToString(char *buf, jim_wide wideValue)
{
const char *fmt = "%" JIM_WIDE_MODIFIER;
return sprintf(buf, fmt, wideValue);
}
/**
* After an strtol()/strtod()-like conversion,
* check whether something was converted and that
* the only thing left is white space.
*
* Returns JIM_OK or JIM_ERR.
*/
static int JimCheckConversion(const char *str, const char *endptr)
{
if (str[0] == '\0' || str == endptr) {
return JIM_ERR;
}
if (endptr[0] != '\0') {
while (*endptr) {
if (!isspace(UCHAR(*endptr))) {
return JIM_ERR;
}
endptr++;
}
}
return JIM_OK;
}
int Jim_StringToWide(const char *str, jim_wide * widePtr, int base)
{
char *endptr;
*widePtr = strtoull(str, &endptr, base);
return JimCheckConversion(str, endptr);
}
int Jim_DoubleToString(char *buf, double doubleValue)
{
int len;
char *buf0 = buf;
len = sprintf(buf, "%.12g", doubleValue);
/* Add a final ".0" if it's a number. But not
* for NaN or InF */
while (*buf) {
if (*buf == '.' || isalpha(UCHAR(*buf))) {
/* inf -> Inf, nan -> Nan */
if (*buf == 'i' || *buf == 'n') {
*buf = toupper(UCHAR(*buf));
}
if (*buf == 'I') {
/* Infinity -> Inf */
buf[3] = '\0';
len = buf - buf0 + 3;
}
return len;
}
buf++;
}
*buf++ = '.';
*buf++ = '0';
*buf = '\0';
return len + 2;
}
int Jim_StringToDouble(const char *str, double *doublePtr)
{
char *endptr;
/* Callers can check for underflow via ERANGE */
errno = 0;
*doublePtr = strtod(str, &endptr);
return JimCheckConversion(str, endptr);
}
static jim_wide JimPowWide(jim_wide b, jim_wide e)
{
jim_wide i, res = 1;
if ((b == 0 && e != 0) || (e < 0))
return 0;
for (i = 0; i < e; i++) {
res *= b;
}
return res;
}
/* -----------------------------------------------------------------------------
* Special functions
* ---------------------------------------------------------------------------*/
#ifdef JIM_DEBUG_PANIC
/* Note that 'interp' may be NULL if not available in the
* context of the panic. It's only useful to get the error
* file descriptor, it will default to stderr otherwise. */
void JimPanicDump(int condition, Jim_Interp *interp, const char *fmt, ...)
{
va_list ap;
if (!condition) {
return;
}
va_start(ap, fmt);
/*
* Send it here first.. Assuming STDIO still works
*/
fprintf(stderr, JIM_NL "JIM INTERPRETER PANIC: ");
vfprintf(stderr, fmt, ap);
fprintf(stderr, JIM_NL JIM_NL);
va_end(ap);
#ifdef HAVE_BACKTRACE
{
void *array[40];
int size, i;
char **strings;
size = backtrace(array, 40);
strings = backtrace_symbols(array, size);
for (i = 0; i < size; i++)
fprintf(stderr, "[backtrace] %s" JIM_NL, strings[i]);
fprintf(stderr, "[backtrace] Include the above lines and the output" JIM_NL);
fprintf(stderr, "[backtrace] of 'nm <executable>' in the bug report." JIM_NL);
}
#endif
abort();
}
#endif
/* -----------------------------------------------------------------------------
* Memory allocation
* ---------------------------------------------------------------------------*/
void *Jim_Alloc(int size)
{
return malloc(size);
}
void Jim_Free(void *ptr)
{
free(ptr);
}
void *Jim_Realloc(void *ptr, int size)
{
return realloc(ptr, size);
}
char *Jim_StrDup(const char *s)
{
return strdup(s);
}
char *Jim_StrDupLen(const char *s, int l)
{
char *copy = Jim_Alloc(l + 1);
memcpy(copy, s, l + 1);
copy[l] = 0; /* Just to be sure, original could be substring */
return copy;
}
/* -----------------------------------------------------------------------------
* Time related functions
* ---------------------------------------------------------------------------*/
/* Returns microseconds of CPU used since start. */
static jim_wide JimClock(void)
{
struct timeval tv;
gettimeofday(&tv, NULL);
return (jim_wide) tv.tv_sec * 1000000 + tv.tv_usec;
}
/* -----------------------------------------------------------------------------
* Hash Tables
* ---------------------------------------------------------------------------*/
/* -------------------------- private prototypes ---------------------------- */
static int JimExpandHashTableIfNeeded(Jim_HashTable *ht);
static unsigned int JimHashTableNextPower(unsigned int size);
static int JimInsertHashEntry(Jim_HashTable *ht, const void *key);
/* -------------------------- hash functions -------------------------------- */
/* Thomas Wang's 32 bit Mix Function */
unsigned int Jim_IntHashFunction(unsigned int key)
{
key += ~(key << 15);
key ^= (key >> 10);
key += (key << 3);
key ^= (key >> 6);
key += ~(key << 11);
key ^= (key >> 16);
return key;
}
/* Generic hash function (we are using to multiply by 9 and add the byte
* as Tcl) */
unsigned int Jim_GenHashFunction(const unsigned char *buf, int len)
{
unsigned int h = 0;
while (len--)
h += (h << 3) + *buf++;
return h;
}
/* ----------------------------- API implementation ------------------------- */
/* reset a hashtable already initialized with ht_init().
* NOTE: This function should only called by ht_destroy(). */
static void JimResetHashTable(Jim_HashTable *ht)
{
ht->table = NULL;
ht->size = 0;
ht->sizemask = 0;
ht->used = 0;
ht->collisions = 0;
}
/* Initialize the hash table */
int Jim_InitHashTable(Jim_HashTable *ht, const Jim_HashTableType *type, void *privDataPtr)
{
JimResetHashTable(ht);
ht->type = type;
ht->privdata = privDataPtr;
return JIM_OK;
}
/* Resize the table to the minimal size that contains all the elements,
* but with the invariant of a USER/BUCKETS ration near to <= 1 */
int Jim_ResizeHashTable(Jim_HashTable *ht)
{
int minimal = ht->used;
if (minimal < JIM_HT_INITIAL_SIZE)
minimal = JIM_HT_INITIAL_SIZE;
return Jim_ExpandHashTable(ht, minimal);
}
/* Expand or create the hashtable */
int Jim_ExpandHashTable(Jim_HashTable *ht, unsigned int size)
{
Jim_HashTable n; /* the new hashtable */
unsigned int realsize = JimHashTableNextPower(size), i;
/* the size is invalid if it is smaller than the number of
* elements already inside the hashtable */
if (ht->used >= size)
return JIM_ERR;
Jim_InitHashTable(&n, ht->type, ht->privdata);
n.size = realsize;
n.sizemask = realsize - 1;
n.table = Jim_Alloc(realsize * sizeof(Jim_HashEntry *));
/* Initialize all the pointers to NULL */
memset(n.table, 0, realsize * sizeof(Jim_HashEntry *));
/* Copy all the elements from the old to the new table:
* note that if the old hash table is empty ht->size is zero,
* so Jim_ExpandHashTable just creates an hash table. */
n.used = ht->used;
for (i = 0; i < ht->size && ht->used > 0; i++) {
Jim_HashEntry *he, *nextHe;
if (ht->table[i] == NULL)
continue;
/* For each hash entry on this slot... */
he = ht->table[i];
while (he) {
unsigned int h;
nextHe = he->next;
/* Get the new element index */
h = Jim_HashKey(ht, he->key) & n.sizemask;
he->next = n.table[h];
n.table[h] = he;
ht->used--;
/* Pass to the next element */
he = nextHe;
}
}
assert(ht->used == 0);
Jim_Free(ht->table);
/* Remap the new hashtable in the old */
*ht = n;
return JIM_OK;
}
/* Add an element to the target hash table */
int Jim_AddHashEntry(Jim_HashTable *ht, const void *key, void *val)
{
int idx;
Jim_HashEntry *entry;
/* Get the index of the new element, or -1 if
* the element already exists. */
if ((idx = JimInsertHashEntry(ht, key)) == -1)
return JIM_ERR;
/* Allocates the memory and stores key */
entry = Jim_Alloc(sizeof(*entry));
entry->next = ht->table[idx];
ht->table[idx] = entry;
/* Set the hash entry fields. */
Jim_SetHashKey(ht, entry, key);
Jim_SetHashVal(ht, entry, val);
ht->used++;
return JIM_OK;
}
/* Add an element, discarding the old if the key already exists */
int Jim_ReplaceHashEntry(Jim_HashTable *ht, const void *key, void *val)
{
Jim_HashEntry *entry;
/* Try to add the element. If the key
* does not exists Jim_AddHashEntry will suceed. */
if (Jim_AddHashEntry(ht, key, val) == JIM_OK)
return JIM_OK;
/* It already exists, get the entry */
entry = Jim_FindHashEntry(ht, key);
/* Free the old value and set the new one */
Jim_FreeEntryVal(ht, entry);
Jim_SetHashVal(ht, entry, val);
return JIM_OK;
}
/* Search and remove an element */
int Jim_DeleteHashEntry(Jim_HashTable *ht, const void *key)
{
unsigned int h;
Jim_HashEntry *he, *prevHe;
if (ht->size == 0)
return JIM_ERR;
h = Jim_HashKey(ht, key) & ht->sizemask;
he = ht->table[h];
prevHe = NULL;
while (he) {
if (Jim_CompareHashKeys(ht, key, he->key)) {
/* Unlink the element from the list */
if (prevHe)
prevHe->next = he->next;
else
ht->table[h] = he->next;
Jim_FreeEntryKey(ht, he);
Jim_FreeEntryVal(ht, he);
Jim_Free(he);
ht->used--;
return JIM_OK;
}
prevHe = he;
he = he->next;
}
return JIM_ERR; /* not found */
}
/* Destroy an entire hash table */
int Jim_FreeHashTable(Jim_HashTable *ht)
{
unsigned int i;
/* Free all the elements */
for (i = 0; i < ht->size && ht->used > 0; i++) {
Jim_HashEntry *he, *nextHe;
if ((he = ht->table[i]) == NULL)
continue;
while (he) {
nextHe = he->next;
Jim_FreeEntryKey(ht, he);
Jim_FreeEntryVal(ht, he);
Jim_Free(he);
ht->used--;
he = nextHe;
}
}
/* Free the table and the allocated cache structure */
Jim_Free(ht->table);
/* Re-initialize the table */
JimResetHashTable(ht);
return JIM_OK; /* never fails */
}
Jim_HashEntry *Jim_FindHashEntry(Jim_HashTable *ht, const void *key)
{
Jim_HashEntry *he;
unsigned int h;
if (ht->size == 0)
return NULL;
h = Jim_HashKey(ht, key) & ht->sizemask;
he = ht->table[h];
while (he) {
if (Jim_CompareHashKeys(ht, key, he->key))
return he;
he = he->next;
}
return NULL;
}
Jim_HashTableIterator *Jim_GetHashTableIterator(Jim_HashTable *ht)
{
Jim_HashTableIterator *iter = Jim_Alloc(sizeof(*iter));
iter->ht = ht;
iter->index = -1;
iter->entry = NULL;
iter->nextEntry = NULL;
return iter;
}
Jim_HashEntry *Jim_NextHashEntry(Jim_HashTableIterator *iter)
{
while (1) {
if (iter->entry == NULL) {
iter->index++;
if (iter->index >= (signed)iter->ht->size)
break;
iter->entry = iter->ht->table[iter->index];
}
else {
iter->entry = iter->nextEntry;
}
if (iter->entry) {
/* We need to save the 'next' here, the iterator user
* may delete the entry we are returning. */
iter->nextEntry = iter->entry->next;
return iter->entry;
}
}
return NULL;
}
/* ------------------------- private functions ------------------------------ */
/* Expand the hash table if needed */
static int JimExpandHashTableIfNeeded(Jim_HashTable *ht)
{
/* If the hash table is empty expand it to the intial size,
* if the table is "full" dobule its size. */
if (ht->size == 0)
return Jim_ExpandHashTable(ht, JIM_HT_INITIAL_SIZE);
if (ht->size == ht->used)
return Jim_ExpandHashTable(ht, ht->size * 2);
return JIM_OK;
}
/* Our hash table capability is a power of two */
static unsigned int JimHashTableNextPower(unsigned int size)
{
unsigned int i = JIM_HT_INITIAL_SIZE;
if (size >= 2147483648U)
return 2147483648U;
while (1) {
if (i >= size)
return i;
i *= 2;
}
}
/* Returns the index of a free slot that can be populated with
* an hash entry for the given 'key'.
* If the key already exists, -1 is returned. */
static int JimInsertHashEntry(Jim_HashTable *ht, const void *key)
{
unsigned int h;
Jim_HashEntry *he;
/* Expand the hashtable if needed */
if (JimExpandHashTableIfNeeded(ht) == JIM_ERR)
return -1;
/* Compute the key hash value */
h = Jim_HashKey(ht, key) & ht->sizemask;
/* Search if this slot does not already contain the given key */
he = ht->table[h];
while (he) {
if (Jim_CompareHashKeys(ht, key, he->key))
return -1;
he = he->next;
}
return h;
}
/* ----------------------- StringCopy Hash Table Type ------------------------*/
static unsigned int JimStringCopyHTHashFunction(const void *key)
{
return Jim_GenHashFunction(key, strlen(key));
}
static const void *JimStringCopyHTKeyDup(void *privdata, const void *key)
{
int len = strlen(key);
char *copy = Jim_Alloc(len + 1);
JIM_NOTUSED(privdata);
memcpy(copy, key, len);
copy[len] = '\0';
return copy;
}
static void *JimStringKeyValCopyHTValDup(void *privdata, const void *val)
{
int len = strlen(val);
char *copy = Jim_Alloc(len + 1);
JIM_NOTUSED(privdata);
memcpy(copy, val, len);
copy[len] = '\0';
return copy;
}
static int JimStringCopyHTKeyCompare(void *privdata, const void *key1, const void *key2)
{
JIM_NOTUSED(privdata);
return strcmp(key1, key2) == 0;
}
static void JimStringCopyHTKeyDestructor(void *privdata, const void *key)
{
JIM_NOTUSED(privdata);
Jim_Free((void *)key); /* ATTENTION: const cast */
}
static void JimStringKeyValCopyHTValDestructor(void *privdata, void *val)
{
JIM_NOTUSED(privdata);
Jim_Free((void *)val); /* ATTENTION: const cast */
}
#if 0
static Jim_HashTableType JimStringCopyHashTableType = {
JimStringCopyHTHashFunction, /* hash function */
JimStringCopyHTKeyDup, /* key dup */
NULL, /* val dup */
JimStringCopyHTKeyCompare, /* key compare */
JimStringCopyHTKeyDestructor, /* key destructor */
NULL /* val destructor */
};
#endif
/* This is like StringCopy but does not auto-duplicate the key.
* It's used for intepreter's shared strings. */
static const Jim_HashTableType JimSharedStringsHashTableType = {
JimStringCopyHTHashFunction, /* hash function */
NULL, /* key dup */
NULL, /* val dup */
JimStringCopyHTKeyCompare, /* key compare */
JimStringCopyHTKeyDestructor, /* key destructor */
NULL /* val destructor */
};
/* This is like StringCopy but also automatically handle dynamic
* allocated C strings as values. */
static const Jim_HashTableType JimStringKeyValCopyHashTableType = {
JimStringCopyHTHashFunction, /* hash function */
JimStringCopyHTKeyDup, /* key dup */
JimStringKeyValCopyHTValDup, /* val dup */
JimStringCopyHTKeyCompare, /* key compare */
JimStringCopyHTKeyDestructor, /* key destructor */
JimStringKeyValCopyHTValDestructor, /* val destructor */
};
typedef struct AssocDataValue
{
Jim_InterpDeleteProc *delProc;
void *data;
} AssocDataValue;
static void JimAssocDataHashTableValueDestructor(void *privdata, void *data)
{
AssocDataValue *assocPtr = (AssocDataValue *) data;
if (assocPtr->delProc != NULL)
assocPtr->delProc((Jim_Interp *)privdata, assocPtr->data);
Jim_Free(data);
}
static const Jim_HashTableType JimAssocDataHashTableType = {
JimStringCopyHTHashFunction, /* hash function */
JimStringCopyHTKeyDup, /* key dup */
NULL, /* val dup */
JimStringCopyHTKeyCompare, /* key compare */
JimStringCopyHTKeyDestructor, /* key destructor */
JimAssocDataHashTableValueDestructor /* val destructor */
};
/* -----------------------------------------------------------------------------
* Stack - This is a simple generic stack implementation. It is used for
* example in the 'expr' expression compiler.
* ---------------------------------------------------------------------------*/
void Jim_InitStack(Jim_Stack *stack)
{
stack->len = 0;
stack->maxlen = 0;
stack->vector = NULL;
}
void Jim_FreeStack(Jim_Stack *stack)
{
Jim_Free(stack->vector);
}
int Jim_StackLen(Jim_Stack *stack)
{
return stack->len;
}
void Jim_StackPush(Jim_Stack *stack, void *element)
{
int neededLen = stack->len + 1;
if (neededLen > stack->maxlen) {
stack->maxlen = neededLen < 20 ? 20 : neededLen * 2;
stack->vector = Jim_Realloc(stack->vector, sizeof(void *) * stack->maxlen);
}
stack->vector[stack->len] = element;
stack->len++;
}
void *Jim_StackPop(Jim_Stack *stack)
{
if (stack->len == 0)
return NULL;
stack->len--;
return stack->vector[stack->len];
}
void *Jim_StackPeek(Jim_Stack *stack)
{
if (stack->len == 0)
return NULL;
return stack->vector[stack->len - 1];
}
void Jim_FreeStackElements(Jim_Stack *stack, void (*freeFunc) (void *ptr))
{
int i;
for (i = 0; i < stack->len; i++)
freeFunc(stack->vector[i]);
}
/* -----------------------------------------------------------------------------
* Parser
* ---------------------------------------------------------------------------*/
/* Token types */
#define JIM_TT_NONE 0 /* No token returned */
#define JIM_TT_STR 1 /* simple string */
#define JIM_TT_ESC 2 /* string that needs escape chars conversion */
#define JIM_TT_VAR 3 /* var substitution */
#define JIM_TT_DICTSUGAR 4 /* Syntax sugar for [dict get], $foo(bar) */
#define JIM_TT_CMD 5 /* command substitution */
/* Note: Keep these three together for TOKEN_IS_SEP() */
#define JIM_TT_SEP 6 /* word separator. arg is # of tokens. -ve if {*} */
#define JIM_TT_EOL 7 /* line separator */
#define JIM_TT_EOF 8 /* end of script */
#define JIM_TT_LINE 9 /* special 'start-of-line' token. arg is # of arguments to the command. -ve if {*} */
#define JIM_TT_WORD 10 /* special 'start-of-word' token. arg is # of tokens to combine. -ve if {*} */
/* Additional token types needed for expressions */
#define JIM_TT_SUBEXPR_START 11
#define JIM_TT_SUBEXPR_END 12
#define JIM_TT_EXPR_INT 13
#define JIM_TT_EXPR_DOUBLE 14
#define JIM_TT_EXPRSUGAR 15 /* $(expression) */
/* Operator token types start here */
#define JIM_TT_EXPR_OP 20
#define TOKEN_IS_SEP(type) (type >= JIM_TT_SEP && type <= JIM_TT_EOF)
/* Parser states */
#define JIM_PS_DEF 0 /* Default state */
#define JIM_PS_QUOTE 1 /* Inside "" */
#define JIM_PS_DICTSUGAR 2 /* Tokenising abc(def) into 4 separate tokens */
/* Parser context structure. The same context is used both to parse
* Tcl scripts and lists. */
struct JimParserCtx
{
const char *p; /* Pointer to the point of the program we are parsing */
int len; /* Remaining length */
int linenr; /* Current line number */
const char *tstart;
const char *tend; /* Returned token is at tstart-tend in 'prg'. */
int tline; /* Line number of the returned token */
int tt; /* Token type */
int eof; /* Non zero if EOF condition is true. */
int state; /* Parser state */
int comment; /* Non zero if the next chars may be a comment. */
char missing; /* At end of parse, ' ' if complete, '{' if braces incomplete, '"' if quotes incomplete */
int missingline; /* Line number starting the missing token */
};
/**
* Results of missing quotes, braces, etc. from parsing.
*/
struct JimParseResult {
char missing; /* From JimParserCtx.missing */
int line; /* From JimParserCtx.missingline */
};
static int JimParseScript(struct JimParserCtx *pc);
static int JimParseSep(struct JimParserCtx *pc);
static int JimParseEol(struct JimParserCtx *pc);
static int JimParseCmd(struct JimParserCtx *pc);
static int JimParseQuote(struct JimParserCtx *pc);
static int JimParseVar(struct JimParserCtx *pc);
static int JimParseBrace(struct JimParserCtx *pc);
static int JimParseStr(struct JimParserCtx *pc);
static int JimParseComment(struct JimParserCtx *pc);
static void JimParseSubCmd(struct JimParserCtx *pc);
static int JimParseSubQuote(struct JimParserCtx *pc);
static void JimParseSubCmd(struct JimParserCtx *pc);
static Jim_Obj *JimParserGetTokenObj(Jim_Interp *interp, struct JimParserCtx *pc);
/* Initialize a parser context.
* 'prg' is a pointer to the program text, linenr is the line
* number of the first line contained in the program. */
static void JimParserInit(struct JimParserCtx *pc, const char *prg, int len, int linenr)
{
pc->p = prg;
pc->len = len;
pc->tstart = NULL;
pc->tend = NULL;
pc->tline = 0;
pc->tt = JIM_TT_NONE;
pc->eof = 0;
pc->state = JIM_PS_DEF;
pc->linenr = linenr;
pc->comment = 1;
pc->missing = ' ';
pc->missingline = linenr;
}
static int JimParseScript(struct JimParserCtx *pc)
{
while (1) { /* the while is used to reiterate with continue if needed */
if (!pc->len) {
pc->tstart = pc->p;
pc->tend = pc->p - 1;
pc->tline = pc->linenr;
pc->tt = JIM_TT_EOL;
pc->eof = 1;
return JIM_OK;
}
switch (*(pc->p)) {
case '\\':
if (*(pc->p + 1) == '\n' && pc->state == JIM_PS_DEF) {
return JimParseSep(pc);
}
else {
pc->comment = 0;
return JimParseStr(pc);
}
break;
case ' ':
case '\t':
case '\r':
if (pc->state == JIM_PS_DEF)
return JimParseSep(pc);
else {
pc->comment = 0;
return JimParseStr(pc);
}
break;
case '\n':
case ';':
pc->comment = 1;
if (pc->state == JIM_PS_DEF)
return JimParseEol(pc);
else
return JimParseStr(pc);
break;
case '[':
pc->comment = 0;
return JimParseCmd(pc);
break;
case '$':
pc->comment = 0;
if (JimParseVar(pc) == JIM_ERR) {
pc->tstart = pc->tend = pc->p++;
pc->len--;
pc->tline = pc->linenr;
pc->tt = JIM_TT_STR;
return JIM_OK;
}
else
return JIM_OK;
break;
case '#':
if (pc->comment) {
JimParseComment(pc);
continue;
}
else {
return JimParseStr(pc);
}
default:
pc->comment = 0;
return JimParseStr(pc);
break;
}
return JIM_OK;
}
}
static int JimParseSep(struct JimParserCtx *pc)
{
pc->tstart = pc->p;
pc->tline = pc->linenr;
while (*pc->p == ' ' || *pc->p == '\t' || *pc->p == '\r' ||
(*pc->p == '\\' && *(pc->p + 1) == '\n')) {
if (*pc->p == '\\') {
pc->p++;
pc->len--;
pc->linenr++;
}
pc->p++;
pc->len--;
}
pc->tend = pc->p - 1;
pc->tt = JIM_TT_SEP;
return JIM_OK;
}
static int JimParseEol(struct JimParserCtx *pc)
{
pc->tstart = pc->p;
pc->tline = pc->linenr;
while (*pc->p == ' ' || *pc->p == '\n' || *pc->p == '\t' || *pc->p == '\r' || *pc->p == ';') {
if (*pc->p == '\n')
pc->linenr++;
pc->p++;
pc->len--;
}
pc->tend = pc->p - 1;
pc->tt = JIM_TT_EOL;
return JIM_OK;
}
/*
** Here are the rules for parsing:
** {braced expression}
** - Count open and closing braces
** - Backslash escapes meaning of braces
**
** "quoted expression"
** - First double quote at start of word terminates the expression
** - Backslash escapes quote and bracket
** - [commands brackets] are counted/nested
** - command rules apply within [brackets], not quoting rules (i.e. quotes have their own rules)
**
** [command expression]
** - Count open and closing brackets
** - Backslash escapes quote, bracket and brace
** - [commands brackets] are counted/nested
** - "quoted expressions" are parsed according to quoting rules
** - {braced expressions} are parsed according to brace rules
**
** For everything, backslash escapes the next char, newline increments current line
*/
/**
* Parses a braced expression starting at pc->p.
*
* Positions the parser at the end of the braced expression,
* sets pc->tend and possibly pc->missing.
*/
static void JimParseSubBrace(struct JimParserCtx *pc)
{
int level = 1;
/* Skip the brace */
pc->p++;
pc->len--;
while (pc->len) {
switch (*pc->p) {
case '\\':
if (pc->len > 1) {
if (*++pc->p == '\n') {
pc->linenr++;
}
pc->len--;
}
break;
case '{':
level++;
break;
case '}':
if (--level == 0) {
pc->tend = pc->p - 1;
pc->p++;
pc->len--;
return;
}
break;
case '\n':
pc->linenr++;
break;
}
pc->p++;
pc->len--;
}
pc->missing = '{';
pc->missingline = pc->tline;
pc->tend = pc->p - 1;
}
/**
* Parses a quoted expression starting at pc->p.
*
* Positions the parser at the end of the quoted expression,
* sets pc->tend and possibly pc->missing.
*
* Returns the type of the token of the string,
* either JIM_TT_ESC (if it contains values which need to be [subst]ed)
* or JIM_TT_STR.
*/
static int JimParseSubQuote(struct JimParserCtx *pc)
{
int tt = JIM_TT_STR;
int line = pc->tline;
/* Skip the quote */
pc->p++;
pc->len--;
while (pc->len) {
switch (*pc->p) {
case '\\':
if (pc->len > 1) {
if (*++pc->p == '\n') {
pc->linenr++;
}
pc->len--;
tt = JIM_TT_ESC;
}
break;
case '"':
pc->tend = pc->p - 1;
pc->p++;
pc->len--;
return tt;
case '[':
JimParseSubCmd(pc);
tt = JIM_TT_ESC;
continue;
case '\n':
pc->linenr++;
break;
case '$':
tt = JIM_TT_ESC;
break;
}
pc->p++;
pc->len--;
}
pc->missing = '"';
pc->missingline = line;
pc->tend = pc->p - 1;
return tt;
}
/**
* Parses a [command] expression starting at pc->p.
*
* Positions the parser at the end of the command expression,
* sets pc->tend and possibly pc->missing.
*/
static void JimParseSubCmd(struct JimParserCtx *pc)
{
int level = 1;
int startofword = 1;
int line = pc->tline;
/* Skip the bracket */
pc->p++;
pc->len--;
while (pc->len) {
switch (*pc->p) {
case '\\':
if (pc->len > 1) {
if (*++pc->p == '\n') {
pc->linenr++;
}
pc->len--;
}
break;
case '[':
level++;
break;
case ']':
if (--level == 0) {
pc->tend = pc->p - 1;
pc->p++;
pc->len--;
return;
}
break;
case '"':
if (startofword) {
JimParseSubQuote(pc);
continue;
}
break;
case '{':
JimParseSubBrace(pc);
startofword = 0;
continue;
case '\n':
pc->linenr++;
break;
}
startofword = isspace(UCHAR(*pc->p));
pc->p++;
pc->len--;
}
pc->missing = '[';
pc->missingline = line;
pc->tend = pc->p - 1;
}
static int JimParseBrace(struct JimParserCtx *pc)
{
pc->tstart = pc->p + 1;
pc->tline = pc->linenr;
pc->tt = JIM_TT_STR;
JimParseSubBrace(pc);
return JIM_OK;
}
static int JimParseCmd(struct JimParserCtx *pc)
{
pc->tstart = pc->p + 1;
pc->tline = pc->linenr;
pc->tt = JIM_TT_CMD;
JimParseSubCmd(pc);
return JIM_OK;
}
static int JimParseQuote(struct JimParserCtx *pc)
{
pc->tstart = pc->p + 1;
pc->tline = pc->linenr;
pc->tt = JimParseSubQuote(pc);
return JIM_OK;
}
static int JimParseVar(struct JimParserCtx *pc)
{
int brace = 0, stop = 0;
int ttype = JIM_TT_VAR;
pc->tstart = ++pc->p;
pc->len--; /* skip the $ */
pc->tline = pc->linenr;
if (*pc->p == '{') {
pc->tstart = ++pc->p;
pc->len--;
brace = 1;
}
if (brace) {
while (!stop) {
if (*pc->p == '}' || pc->len == 0) {
pc->tend = pc->p - 1;
stop = 1;
if (pc->len == 0)
break;
}
else if (*pc->p == '\n')
pc->linenr++;
pc->p++;
pc->len--;
}
}
else {
while (!stop) {
/* Skip double colon, but not single colon! */
if (pc->p[0] == ':' && pc->len > 1 && pc->p[1] == ':') {
pc->p += 2;
pc->len -= 2;
continue;
}
if (!((*pc->p >= 'a' && *pc->p <= 'z') ||
(*pc->p >= 'A' && *pc->p <= 'Z') ||
(*pc->p >= '0' && *pc->p <= '9') || *pc->p == '_'))
stop = 1;
else {
pc->p++;
pc->len--;
}
}
/* Parse [dict get] syntax sugar. */
if (*pc->p == '(') {
int count = 1;
const char *paren = NULL;
while (count && pc->len) {
pc->p++;
pc->len--;
if (*pc->p == '\\' && pc->len >= 1) {
pc->p++;
pc->len--;
}
else if (*pc->p == '(') {
count++;
}
else if (*pc->p == ')') {
paren = pc->p;
count--;
}
}
if (count == 0) {
pc->p++;
pc->len--;
}
else if (paren) {
/* Did not find a matching paren. Back up */
paren++;
pc->len += (pc->p - paren);
pc->p = paren;
}
ttype = (*pc->tstart == '(') ? JIM_TT_EXPRSUGAR : JIM_TT_DICTSUGAR;
}
pc->tend = pc->p - 1;
}
/* Check if we parsed just the '$' character.
* That's not a variable so an error is returned
* to tell the state machine to consider this '$' just
* a string. */
if (pc->tstart == pc->p) {
pc->p--;
pc->len++;
return JIM_ERR;
}
pc->tt = ttype;
return JIM_OK;
}
static int JimParseStr(struct JimParserCtx *pc)
{
int newword = (pc->tt == JIM_TT_SEP || pc->tt == JIM_TT_EOL ||
pc->tt == JIM_TT_NONE || pc->tt == JIM_TT_STR);
if (newword && *pc->p == '{') {
return JimParseBrace(pc);
}
else if (newword && *pc->p == '"') {
pc->state = JIM_PS_QUOTE;
pc->p++;
pc->len--;
/* In case the end quote is missing */
pc->missingline = pc->tline;
}
pc->tstart = pc->p;
pc->tline = pc->linenr;
while (1) {
if (pc->len == 0) {
if (pc->state == JIM_PS_QUOTE) {
pc->missing = '"';
}
pc->tend = pc->p - 1;
pc->tt = JIM_TT_ESC;
return JIM_OK;
}
switch (*pc->p) {
case '\\':
if (pc->state == JIM_PS_DEF && *(pc->p + 1) == '\n') {
pc->tend = pc->p - 1;
pc->tt = JIM_TT_ESC;
return JIM_OK;
}
if (pc->len >= 2) {
if (*(pc->p + 1) == '\n') {
pc->linenr++;
}
pc->p++;
pc->len--;
}
break;
case '(':
/* If the following token is not '$' just keep going */
if (pc->len > 1 && pc->p[1] != '$') {
break;
}
case ')':
/* Only need a separate ')' token if the previous was a var */
if (*pc->p == '(' || pc->tt == JIM_TT_VAR) {
if (pc->p == pc->tstart) {
/* At the start of the token, so just return this char */
pc->p++;
pc->len--;
}
pc->tend = pc->p - 1;
pc->tt = JIM_TT_ESC;
return JIM_OK;
}
break;
case '$':
case '[':
pc->tend = pc->p - 1;
pc->tt = JIM_TT_ESC;
return JIM_OK;
case ' ':
case '\t':
case '\n':
case '\r':
case ';':
if (pc->state == JIM_PS_DEF) {
pc->tend = pc->p - 1;
pc->tt = JIM_TT_ESC;
return JIM_OK;
}
else if (*pc->p == '\n') {
pc->linenr++;
}
break;
case '"':
if (pc->state == JIM_PS_QUOTE) {
pc->tend = pc->p - 1;
pc->tt = JIM_TT_ESC;
pc->p++;
pc->len--;
pc->state = JIM_PS_DEF;
return JIM_OK;
}
break;
}
pc->p++;
pc->len--;
}
return JIM_OK; /* unreached */
}
static int JimParseComment(struct JimParserCtx *pc)
{
while (*pc->p) {
if (*pc->p == '\n') {
pc->linenr++;
if (*(pc->p - 1) != '\\') {
pc->p++;
pc->len--;
return JIM_OK;
}
}
pc->p++;
pc->len--;
}
return JIM_OK;
}
/* xdigitval and odigitval are helper functions for JimEscape() */
static int xdigitval(int c)
{
if (c >= '0' && c <= '9')
return c - '0';
if (c >= 'a' && c <= 'f')
return c - 'a' + 10;
if (c >= 'A' && c <= 'F')
return c - 'A' + 10;
return -1;
}
static int odigitval(int c)
{
if (c >= '0' && c <= '7')
return c - '0';
return -1;
}
/* Perform Tcl escape substitution of 's', storing the result
* string into 'dest'. The escaped string is guaranteed to
* be the same length or shorted than the source string.
* Slen is the length of the string at 's', if it's -1 the string
* length will be calculated by the function.
*
* The function returns the length of the resulting string. */
static int JimEscape(char *dest, const char *s, int slen)
{
char *p = dest;
int i, len;
if (slen == -1)
slen = strlen(s);
for (i = 0; i < slen; i++) {
switch (s[i]) {
case '\\':
switch (s[i + 1]) {
case 'a':
*p++ = 0x7;
i++;
break;
case 'b':
*p++ = 0x8;
i++;
break;
case 'f':
*p++ = 0xc;
i++;
break;
case 'n':
*p++ = 0xa;
i++;
break;
case 'r':
*p++ = 0xd;
i++;
break;
case 't':
*p++ = 0x9;
i++;
break;
case 'u':
case 'x':
/* A unicode or hex sequence.
* \u Expect 1-4 hex chars and convert to utf-8.
* \x Expect 1-2 hex chars and convert to hex.
* An invalid sequence means simply the escaped char.
*/
{
int val = 0;
int k;
i++;
for (k = 0; k < (s[i] == 'u' ? 4 : 2); k++) {
int c = xdigitval(s[i + k + 1]);
if (c == -1) {
break;
}
val = (val << 4) | c;
}
if (k) {
/* Got a valid sequence, so convert */
if (s[i] == 'u') {
p += utf8_fromunicode(p, val);
}
else {
*p++ = val;
}
i += k;
break;
}
/* Not a valid codepoint, just an escaped char */
*p++ = s[i];
}
break;
case 'v':
*p++ = 0xb;
i++;
break;
case '\0':
*p++ = '\\';
i++;
break;
case '\n':
/* Replace all spaces and tabs after backslash newline with a single space*/
*p++ = ' ';
do {
i++;
} while (s[i + 1] == ' ' || s[i + 1] == '\t');
break;
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
/* octal escape */
{
int val = 0;
int c = odigitval(s[i + 1]);
val = c;
c = odigitval(s[i + 2]);
if (c == -1) {
*p++ = val;
i++;
break;
}
val = (val * 8) + c;
c = odigitval(s[i + 3]);
if (c == -1) {
*p++ = val;
i += 2;
break;
}
val = (val * 8) + c;
*p++ = val;
i += 3;
}
break;
default:
*p++ = s[i + 1];
i++;
break;
}
break;
default:
*p++ = s[i];
break;
}
}
len = p - dest;
*p = '\0';
return len;
}
/* Returns a dynamically allocated copy of the current token in the
* parser context. The function performs conversion of escapes if
* the token is of type JIM_TT_ESC.
*
* Note that after the conversion, tokens that are grouped with
* braces in the source code, are always recognizable from the
* identical string obtained in a different way from the type.
*
* For example the string:
*
* {*}$a
*
* will return as first token "*", of type JIM_TT_STR
*
* While the string:
*
* *$a
*
* will return as first token "*", of type JIM_TT_ESC
*/
static Jim_Obj *JimParserGetTokenObj(Jim_Interp *interp, struct JimParserCtx *pc)
{
const char *start, *end;
char *token;
int len;
start = pc->tstart;
end = pc->tend;
if (start > end) {
len = 0;
token = Jim_Alloc(1);
token[0] = '\0';
}
else {
len = (end - start) + 1;
token = Jim_Alloc(len + 1);
if (pc->tt != JIM_TT_ESC) {
/* No escape conversion needed? Just copy it. */
memcpy(token, start, len);
token[len] = '\0';
}
else {
/* Else convert the escape chars. */
len = JimEscape(token, start, len);
}
}
return Jim_NewStringObjNoAlloc(interp, token, len);
}
/* Parses the given string to determine if it represents a complete script.
*
* This is useful for interactive shells implementation, for [info complete].
*
* If 'stateCharPtr' != NULL, the function stores ' ' on complete script,
* '{' on scripts incomplete missing one or more '}' to be balanced.
* '[' on scripts incomplete missing one or more ']' to be balanced.
* '"' on scripts incomplete missing a '"' char.
*
* If the script is complete, 1 is returned, otherwise 0.
*/
int Jim_ScriptIsComplete(const char *s, int len, char *stateCharPtr)
{
struct JimParserCtx parser;
JimParserInit(&parser, s, len, 1);
while (!parser.eof) {
JimParseScript(&parser);
}
if (stateCharPtr) {
*stateCharPtr = parser.missing;
}
return parser.missing == ' ';
}
/* -----------------------------------------------------------------------------
* Tcl Lists parsing
* ---------------------------------------------------------------------------*/
static int JimParseListSep(struct JimParserCtx *pc);
static int JimParseListStr(struct JimParserCtx *pc);
static int JimParseListQuote(struct JimParserCtx *pc);
static int JimParseList(struct JimParserCtx *pc)
{
switch (*pc->p) {
case ' ':
case '\n':
case '\t':
case '\r':
return JimParseListSep(pc);
case '"':
return JimParseListQuote(pc);
case '{':
return JimParseBrace(pc);
default:
if (pc->len) {
return JimParseListStr(pc);
}
break;
}
pc->tstart = pc->tend = pc->p;
pc->tline = pc->linenr;
pc->tt = JIM_TT_EOL;
pc->eof = 1;
return JIM_OK;
}
static int JimParseListSep(struct JimParserCtx *pc)
{
pc->tstart = pc->p;
pc->tline = pc->linenr;
while (*pc->p == ' ' || *pc->p == '\t' || *pc->p == '\r' || *pc->p == '\n') {
if (*pc->p == '\n') {
pc->linenr++;
}
pc->p++;
pc->len--;
}
pc->tend = pc->p - 1;
pc->tt = JIM_TT_SEP;
return JIM_OK;
}
static int JimParseListQuote(struct JimParserCtx *pc)
{
pc->p++;
pc->len--;
pc->tstart = pc->p;
pc->tline = pc->linenr;
pc->tt = JIM_TT_STR;
while (pc->len) {
switch (*pc->p) {
case '\\':
pc->tt = JIM_TT_ESC;
if (--pc->len == 0) {
/* Trailing backslash */
pc->tend = pc->p;
return JIM_OK;
}
pc->p++;
break;
case '\n':
pc->linenr++;
break;
case '"':
pc->tend = pc->p - 1;
pc->p++;
pc->len--;
return JIM_OK;
}
pc->p++;
pc->len--;
}
pc->tend = pc->p - 1;
return JIM_OK;
}
static int JimParseListStr(struct JimParserCtx *pc)
{
pc->tstart = pc->p;
pc->tline = pc->linenr;
pc->tt = JIM_TT_STR;
while (pc->len) {
switch (*pc->p) {
case '\\':
if (--pc->len == 0) {
/* Trailing backslash */
pc->tend = pc->p;
return JIM_OK;
}
pc->tt = JIM_TT_ESC;
pc->p++;
break;
case ' ':
case '\t':
case '\n':
case '\r':
pc->tend = pc->p - 1;
return JIM_OK;
}
pc->p++;
pc->len--;
}
pc->tend = pc->p - 1;
return JIM_OK;
}
/* -----------------------------------------------------------------------------
* Jim_Obj related functions
* ---------------------------------------------------------------------------*/
/* Return a new initialized object. */
Jim_Obj *Jim_NewObj(Jim_Interp *interp)
{
Jim_Obj *objPtr;
/* -- Check if there are objects in the free list -- */
if (interp->freeList != NULL) {
/* -- Unlink the object from the free list -- */
objPtr = interp->freeList;
interp->freeList = objPtr->nextObjPtr;
}
else {
/* -- No ready to use objects: allocate a new one -- */
objPtr = Jim_Alloc(sizeof(*objPtr));
}
/* Object is returned with refCount of 0. Every
* kind of GC implemented should take care to don't try
* to scan objects with refCount == 0. */
objPtr->refCount = 0;
/* All the other fields are left not initialized to save time.
* The caller will probably want to set them to the right
* value anyway. */
/* -- Put the object into the live list -- */
objPtr->prevObjPtr = NULL;
objPtr->nextObjPtr = interp->liveList;
if (interp->liveList)
interp->liveList->prevObjPtr = objPtr;
interp->liveList = objPtr;
return objPtr;
}
/* Free an object. Actually objects are never freed, but
* just moved to the free objects list, where they will be
* reused by Jim_NewObj(). */
void Jim_FreeObj(Jim_Interp *interp, Jim_Obj *objPtr)
{
/* Check if the object was already freed, panic. */
JimPanic((objPtr->refCount != 0, interp, "!!!Object %p freed with bad refcount %d, type=%s", objPtr,
objPtr->refCount, objPtr->typePtr ? objPtr->typePtr->name : "<none>"));
/* Free the internal representation */
Jim_FreeIntRep(interp, objPtr);
/* Free the string representation */
if (objPtr->bytes != NULL) {
if (objPtr->bytes != JimEmptyStringRep)
Jim_Free(objPtr->bytes);
}
/* Unlink the object from the live objects list */
if (objPtr->prevObjPtr)
objPtr->prevObjPtr->nextObjPtr = objPtr->nextObjPtr;
if (objPtr->nextObjPtr)
objPtr->nextObjPtr->prevObjPtr = objPtr->prevObjPtr;
if (interp->liveList == objPtr)
interp->liveList = objPtr->nextObjPtr;
/* Link the object into the free objects list */
objPtr->prevObjPtr = NULL;
objPtr->nextObjPtr = interp->freeList;
if (interp->freeList)
interp->freeList->prevObjPtr = objPtr;
interp->freeList = objPtr;
objPtr->refCount = -1;
}
/* Invalidate the string representation of an object. */
void Jim_InvalidateStringRep(Jim_Obj *objPtr)
{
if (objPtr->bytes != NULL) {
if (objPtr->bytes != JimEmptyStringRep)
Jim_Free(objPtr->bytes);
}
objPtr->bytes = NULL;
}
#define Jim_SetStringRep(o, b, l) \
do { (o)->bytes = b; (o)->length = l; } while (0)
/* Set the initial string representation for an object.
* Does not try to free an old one. */
void Jim_InitStringRep(Jim_Obj *objPtr, const char *bytes, int length)
{
if (length == 0) {
objPtr->bytes = JimEmptyStringRep;
objPtr->length = 0;
}
else {
objPtr->bytes = Jim_Alloc(length + 1);
objPtr->length = length;
memcpy(objPtr->bytes, bytes, length);
objPtr->bytes[length] = '\0';
}
}
/* Duplicate an object. The returned object has refcount = 0. */
Jim_Obj *Jim_DuplicateObj(Jim_Interp *interp, Jim_Obj *objPtr)
{
Jim_Obj *dupPtr;
dupPtr = Jim_NewObj(interp);
if (objPtr->bytes == NULL) {
/* Object does not have a valid string representation. */
dupPtr->bytes = NULL;
}
else {
Jim_InitStringRep(dupPtr, objPtr->bytes, objPtr->length);
}
/* By default, the new object has the same type as the old object */
dupPtr->typePtr = objPtr->typePtr;
if (objPtr->typePtr != NULL) {
if (objPtr->typePtr->dupIntRepProc == NULL) {
dupPtr->internalRep = objPtr->internalRep;
}
else {
/* The dup proc may set a different type, e.g. NULL */
objPtr->typePtr->dupIntRepProc(interp, objPtr, dupPtr);
}
}
return dupPtr;
}
/* Return the string representation for objPtr. If the object
* string representation is invalid, calls the method to create
* a new one starting from the internal representation of the object. */
const char *Jim_GetString(Jim_Obj *objPtr, int *lenPtr)
{
if (objPtr->bytes == NULL) {
/* Invalid string repr. Generate it. */
JimPanic((objPtr->typePtr->updateStringProc == NULL, NULL, "UpdateStringProc called against '%s' type.", objPtr->typePtr->name));
objPtr->typePtr->updateStringProc(objPtr);
}
if (lenPtr)
*lenPtr = objPtr->length;
return objPtr->bytes;
}
/* Just returns the length of the object's string rep */
int Jim_Length(Jim_Obj *objPtr)
{
int len;
Jim_GetString(objPtr, &len);
return len;
}
static void FreeDictSubstInternalRep(Jim_Interp *interp, Jim_Obj *objPtr);
static void DupDictSubstInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr);
static const Jim_ObjType dictSubstObjType = {
"dict-substitution",
FreeDictSubstInternalRep,
DupDictSubstInternalRep,
NULL,
JIM_TYPE_NONE,
};
static void FreeInterpolatedInternalRep(Jim_Interp *interp, Jim_Obj *objPtr)
{
Jim_DecrRefCount(interp, (Jim_Obj *)objPtr->internalRep.twoPtrValue.ptr2);
}
static const Jim_ObjType interpolatedObjType = {
"interpolated",
FreeInterpolatedInternalRep,
NULL,
NULL,
JIM_TYPE_NONE,
};
/* -----------------------------------------------------------------------------
* String Object
* ---------------------------------------------------------------------------*/
static void DupStringInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr);
static int SetStringFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr);
static const Jim_ObjType stringObjType = {
"string",
NULL,
DupStringInternalRep,
NULL,
JIM_TYPE_REFERENCES,
};
static void DupStringInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr)
{
JIM_NOTUSED(interp);
/* This is a bit subtle: the only caller of this function
* should be Jim_DuplicateObj(), that will copy the
* string representaion. After the copy, the duplicated
* object will not have more room in teh buffer than
* srcPtr->length bytes. So we just set it to length. */
dupPtr->internalRep.strValue.maxLength = srcPtr->length;
dupPtr->internalRep.strValue.charLength = srcPtr->internalRep.strValue.charLength;
}
static int SetStringFromAny(Jim_Interp *interp, Jim_Obj *objPtr)
{
/* Get a fresh string representation. */
(void)Jim_String(objPtr);
/* Free any other internal representation. */
Jim_FreeIntRep(interp, objPtr);
/* Set it as string, i.e. just set the maxLength field. */
objPtr->typePtr = &stringObjType;
objPtr->internalRep.strValue.maxLength = objPtr->length;
/* Don't know the utf-8 length yet */
objPtr->internalRep.strValue.charLength = -1;
return JIM_OK;
}
/**
* Returns the length of the object string in chars, not bytes.
*
* These may be different for a utf-8 string.
*/
int Jim_Utf8Length(Jim_Interp *interp, Jim_Obj *objPtr)
{
#ifdef JIM_UTF8
if (objPtr->typePtr != &stringObjType)
SetStringFromAny(interp, objPtr);
if (objPtr->internalRep.strValue.charLength < 0) {
objPtr->internalRep.strValue.charLength = utf8_strlen(objPtr->bytes, objPtr->length);
}
return objPtr->internalRep.strValue.charLength;
#else
return Jim_Length(objPtr);
#endif
}
/* len is in bytes -- see also Jim_NewStringObjUtf8() */
Jim_Obj *Jim_NewStringObj(Jim_Interp *interp, const char *s, int len)
{
Jim_Obj *objPtr = Jim_NewObj(interp);
/* Need to find out how many bytes the string requires */
if (len == -1)
len = strlen(s);
/* Alloc/Set the string rep. */
if (len == 0) {
objPtr->bytes = JimEmptyStringRep;
objPtr->length = 0;
}
else {
objPtr->bytes = Jim_Alloc(len + 1);
objPtr->length = len;
memcpy(objPtr->bytes, s, len);
objPtr->bytes[len] = '\0';
}
/* No typePtr field for the vanilla string object. */
objPtr->typePtr = NULL;
return objPtr;
}
/* charlen is in characters -- see also Jim_NewStringObj() */
Jim_Obj *Jim_NewStringObjUtf8(Jim_Interp *interp, const char *s, int charlen)
{
#ifdef JIM_UTF8
/* Need to find out how many bytes the string requires */
int bytelen = utf8_index(s, charlen);
Jim_Obj *objPtr = Jim_NewStringObj(interp, s, bytelen);
/* Remember the utf8 length, so set the type */
objPtr->typePtr = &stringObjType;
objPtr->internalRep.strValue.maxLength = bytelen;
objPtr->internalRep.strValue.charLength = charlen;
return objPtr;
#else
return Jim_NewStringObj(interp, s, charlen);
#endif
}
/* This version does not try to duplicate the 's' pointer, but
* use it directly. */
Jim_Obj *Jim_NewStringObjNoAlloc(Jim_Interp *interp, char *s, int len)
{
Jim_Obj *objPtr = Jim_NewObj(interp);
if (len == -1)
len = strlen(s);
Jim_SetStringRep(objPtr, s, len);
objPtr->typePtr = NULL;
return objPtr;
}
/* Low-level string append. Use it only against objects
* of type "string". */
static void StringAppendString(Jim_Obj *objPtr, const char *str, int len)
{
int needlen;
if (len == -1)
len = strlen(str);
needlen = objPtr->length + len;
if (objPtr->internalRep.strValue.maxLength < needlen ||
objPtr->internalRep.strValue.maxLength == 0) {
needlen *= 2;
/* Inefficient to malloc() for less than 8 bytes */
if (needlen < 7) {
needlen = 7;
}
if (objPtr->bytes == JimEmptyStringRep) {
objPtr->bytes = Jim_Alloc(needlen + 1);
}
else {
objPtr->bytes = Jim_Realloc(objPtr->bytes, needlen + 1);
}
objPtr->internalRep.strValue.maxLength = needlen;
}
memcpy(objPtr->bytes + objPtr->length, str, len);
objPtr->bytes[objPtr->length + len] = '\0';
if (objPtr->internalRep.strValue.charLength >= 0) {
/* Update the utf-8 char length */
objPtr->internalRep.strValue.charLength += utf8_strlen(objPtr->bytes + objPtr->length, len);
}
objPtr->length += len;
}
/* Higher level API to append strings to objects. */
void Jim_AppendString(Jim_Interp *interp, Jim_Obj *objPtr, const char *str, int len)
{
JimPanic((Jim_IsShared(objPtr), interp, "Jim_AppendString called with shared object"));
if (objPtr->typePtr != &stringObjType)
SetStringFromAny(interp, objPtr);
StringAppendString(objPtr, str, len);
}
void Jim_AppendObj(Jim_Interp *interp, Jim_Obj *objPtr, Jim_Obj *appendObjPtr)
{
int len;
const char *str;
str = Jim_GetString(appendObjPtr, &len);
Jim_AppendString(interp, objPtr, str, len);
}
void Jim_AppendStrings(Jim_Interp *interp, Jim_Obj *objPtr, ...)
{
va_list ap;
if (objPtr->typePtr != &stringObjType)
SetStringFromAny(interp, objPtr);
va_start(ap, objPtr);
while (1) {
char *s = va_arg(ap, char *);
if (s == NULL)
break;
Jim_AppendString(interp, objPtr, s, -1);
}
va_end(ap);
}
int Jim_StringEqObj(Jim_Obj *aObjPtr, Jim_Obj *bObjPtr)
{
const char *aStr, *bStr;
int aLen, bLen;
if (aObjPtr == bObjPtr)
return 1;
aStr = Jim_GetString(aObjPtr, &aLen);
bStr = Jim_GetString(bObjPtr, &bLen);
if (aLen != bLen)
return 0;
return JimStringCompare(aStr, aLen, bStr, bLen) == 0;
}
int Jim_StringMatchObj(Jim_Interp *interp, Jim_Obj *patternObjPtr, Jim_Obj *objPtr, int nocase)
{
return JimStringMatch(interp, patternObjPtr, Jim_String(objPtr), nocase);
}
int Jim_StringCompareObj(Jim_Interp *interp, Jim_Obj *firstObjPtr, Jim_Obj *secondObjPtr, int nocase)
{
const char *s1, *s2;
int l1, l2;
s1 = Jim_GetString(firstObjPtr, &l1);
s2 = Jim_GetString(secondObjPtr, &l2);
if (nocase) {
return JimStringCompareNoCase(s1, s2, -1);
}
return JimStringCompare(s1, l1, s2, l2);
}
/* Convert a range, as returned by Jim_GetRange(), into
* an absolute index into an object of the specified length.
* This function may return negative values, or values
* bigger or equal to the length of the list if the index
* is out of range. */
static int JimRelToAbsIndex(int len, int idx)
{
if (idx < 0)
return len + idx;
return idx;
}
/* Convert a pair of index as normalize by JimRelToAbsIndex(),
* into a range stored in *firstPtr, *lastPtr, *rangeLenPtr, suitable
* for implementation of commands like [string range] and [lrange].
*
* The resulting range is guaranteed to address valid elements of
* the structure. */
static void JimRelToAbsRange(int len, int first, int last,
int *firstPtr, int *lastPtr, int *rangeLenPtr)
{
int rangeLen;
if (first > last) {
rangeLen = 0;
}
else {
rangeLen = last - first + 1;
if (rangeLen) {
if (first < 0) {
rangeLen += first;
first = 0;
}
if (last >= len) {
rangeLen -= (last - (len - 1));
last = len - 1;
}
}
}
if (rangeLen < 0)
rangeLen = 0;
*firstPtr = first;
*lastPtr = last;
*rangeLenPtr = rangeLen;
}
Jim_Obj *Jim_StringByteRangeObj(Jim_Interp *interp,
Jim_Obj *strObjPtr, Jim_Obj *firstObjPtr, Jim_Obj *lastObjPtr)
{
int first, last;
const char *str;
int rangeLen;
int bytelen;
if (Jim_GetIndex(interp, firstObjPtr, &first) != JIM_OK ||
Jim_GetIndex(interp, lastObjPtr, &last) != JIM_OK)
return NULL;
str = Jim_GetString(strObjPtr, &bytelen);
first = JimRelToAbsIndex(bytelen, first);
last = JimRelToAbsIndex(bytelen, last);
JimRelToAbsRange(bytelen, first, last, &first, &last, &rangeLen);
if (first == 0 && rangeLen == bytelen) {
return strObjPtr;
}
return Jim_NewStringObj(interp, str + first, rangeLen);
}
Jim_Obj *Jim_StringRangeObj(Jim_Interp *interp,
Jim_Obj *strObjPtr, Jim_Obj *firstObjPtr, Jim_Obj *lastObjPtr)
{
#ifdef JIM_UTF8
int first, last;
const char *str;
int len, rangeLen;
int bytelen;
if (Jim_GetIndex(interp, firstObjPtr, &first) != JIM_OK ||
Jim_GetIndex(interp, lastObjPtr, &last) != JIM_OK)
return NULL;
str = Jim_GetString(strObjPtr, &bytelen);
len = Jim_Utf8Length(interp, strObjPtr);
first = JimRelToAbsIndex(len, first);
last = JimRelToAbsIndex(len, last);
JimRelToAbsRange(len, first, last, &first, &last, &rangeLen);
if (first == 0 && rangeLen == len) {
return strObjPtr;
}
if (len == bytelen) {
/* ASCII optimisation */
return Jim_NewStringObj(interp, str + first, rangeLen);
}
return Jim_NewStringObjUtf8(interp, str + utf8_index(str, first), rangeLen);
#else
return Jim_StringByteRangeObj(interp, strObjPtr, firstObjPtr, lastObjPtr);
#endif
}
static Jim_Obj *JimStringToLower(Jim_Interp *interp, Jim_Obj *strObjPtr)
{
char *buf, *p;
int len;
const char *str;
if (strObjPtr->typePtr != &stringObjType) {
SetStringFromAny(interp, strObjPtr);
}
str = Jim_GetString(strObjPtr, &len);
buf = p = Jim_Alloc(len + 1);
while (*str) {
int c;
str += utf8_tounicode(str, &c);
p += utf8_fromunicode(p, utf8_lower(c));
}
*p = 0;
return Jim_NewStringObjNoAlloc(interp, buf, len);
}
static Jim_Obj *JimStringToUpper(Jim_Interp *interp, Jim_Obj *strObjPtr)
{
char *buf, *p;
int len;
const char *str;
if (strObjPtr->typePtr != &stringObjType) {
SetStringFromAny(interp, strObjPtr);
}
str = Jim_GetString(strObjPtr, &len);
buf = p = Jim_Alloc(len + 1);
while (*str) {
int c;
str += utf8_tounicode(str, &c);
p += utf8_fromunicode(p, utf8_upper(c));
}
*p = 0;
return Jim_NewStringObjNoAlloc(interp, buf, len);
}
/* Similar to memchr() except searches a UTF-8 string 'str' of byte length 'len'
* for unicode character 'c'.
* Returns the position if found or NULL if not
*/
static const char *utf8_memchr(const char *str, int len, int c)
{
#ifdef JIM_UTF8
while (len) {
int sc;
int n = utf8_tounicode(str, &sc);
if (sc == c) {
return str;
}
str += n;
len -= n;
}
return NULL;
#else
return memchr(str, c, len);
#endif
}
/**
* Searches for the first non-trim char in string (str, len)
*
* If none is found, returns just past the last char.
*
* Lengths are in bytes.
*/
static const char *JimFindTrimLeft(const char *str, int len, const char *trimchars, int trimlen)
{
while (len) {
int c;
int n = utf8_tounicode(str, &c);
if (utf8_memchr(trimchars, trimlen, c) == NULL) {
/* Not a trim char, so stop */
break;
}
str += n;
len -= n;
}
return str;
}
/**
* Searches backwards for a non-trim char in string (str, len).
*
* Returns a pointer to just after the non-trim char, or NULL if not found.
*
* Lengths are in bytes.
*/
static const char *JimFindTrimRight(const char *str, int len, const char *trimchars, int trimlen)
{
str += len;
while (len) {
int c;
int n = utf8_prev_len(str, len);
len -= n;
str -= n;
n = utf8_tounicode(str, &c);
if (utf8_memchr(trimchars, trimlen, c) == NULL) {
return str + n;
}
}
return NULL;
}
static const char default_trim_chars[] = " \t\n\r";
/* sizeof() here includes the null byte */
static int default_trim_chars_len = sizeof(default_trim_chars);
static Jim_Obj *JimStringTrimLeft(Jim_Interp *interp, Jim_Obj *strObjPtr, Jim_Obj *trimcharsObjPtr)
{
int len;
const char *str = Jim_GetString(strObjPtr, &len);
const char *trimchars = default_trim_chars;
int trimcharslen = default_trim_chars_len;
const char *newstr;
if (trimcharsObjPtr) {
trimchars = Jim_GetString(trimcharsObjPtr, &trimcharslen);
}
newstr = JimFindTrimLeft(str, len, trimchars, trimcharslen);
if (newstr == str) {
return strObjPtr;
}
return Jim_NewStringObj(interp, newstr, len - (newstr - str));
}
static Jim_Obj *JimStringTrimRight(Jim_Interp *interp, Jim_Obj *strObjPtr, Jim_Obj *trimcharsObjPtr)
{
int len;
const char *trimchars = default_trim_chars;
int trimcharslen = default_trim_chars_len;
const char *nontrim;
if (trimcharsObjPtr) {
trimchars = Jim_GetString(trimcharsObjPtr, &trimcharslen);
}
if (strObjPtr->typePtr != &stringObjType) {
SetStringFromAny(interp, strObjPtr);
}
Jim_GetString(strObjPtr, &len);
nontrim = JimFindTrimRight(strObjPtr->bytes, len, trimchars, trimcharslen);
if (nontrim == NULL) {
/* All trim, so return a zero-length string */
return Jim_NewEmptyStringObj(interp);
}
if (nontrim == strObjPtr->bytes + len) {
return strObjPtr;
}
if (Jim_IsShared(strObjPtr)) {
strObjPtr = Jim_NewStringObj(interp, strObjPtr->bytes, (nontrim - strObjPtr->bytes));
}
else {
/* Can modify this string in place */
strObjPtr->bytes[nontrim - strObjPtr->bytes] = 0;
strObjPtr->length = (nontrim - strObjPtr->bytes);
}
return strObjPtr;
}
static Jim_Obj *JimStringTrim(Jim_Interp *interp, Jim_Obj *strObjPtr, Jim_Obj *trimcharsObjPtr)
{
/* First trim left. */
Jim_Obj *objPtr = JimStringTrimLeft(interp, strObjPtr, trimcharsObjPtr);
/* Now trim right */
strObjPtr = JimStringTrimRight(interp, objPtr, trimcharsObjPtr);
if (objPtr != strObjPtr) {
/* Note that we don't want this object to be leaked */
Jim_IncrRefCount(objPtr);
Jim_DecrRefCount(interp, objPtr);
}
return strObjPtr;
}
static int JimStringIs(Jim_Interp *interp, Jim_Obj *strObjPtr, Jim_Obj *strClass, int strict)
{
static const char * const strclassnames[] = {
"integer", "alpha", "alnum", "ascii", "digit",
"double", "lower", "upper", "space", "xdigit",
"control", "print", "graph", "punct",
NULL
};
enum {
STR_IS_INTEGER, STR_IS_ALPHA, STR_IS_ALNUM, STR_IS_ASCII, STR_IS_DIGIT,
STR_IS_DOUBLE, STR_IS_LOWER, STR_IS_UPPER, STR_IS_SPACE, STR_IS_XDIGIT,
STR_IS_CONTROL, STR_IS_PRINT, STR_IS_GRAPH, STR_IS_PUNCT
};
int strclass;
int len;
int i;
const char *str;
int (*isclassfunc)(int c) = NULL;
if (Jim_GetEnum(interp, strClass, strclassnames, &strclass, "class", JIM_ERRMSG | JIM_ENUM_ABBREV) != JIM_OK) {
return JIM_ERR;
}
str = Jim_GetString(strObjPtr, &len);
if (len == 0) {
Jim_SetResultInt(interp, !strict);
return JIM_OK;
}
switch (strclass) {
case STR_IS_INTEGER:
{
jim_wide w;
Jim_SetResultInt(interp, JimGetWideNoErr(interp, strObjPtr, &w) == JIM_OK);
return JIM_OK;
}
case STR_IS_DOUBLE:
{
double d;
Jim_SetResultInt(interp, Jim_GetDouble(interp, strObjPtr, &d) == JIM_OK && errno != ERANGE);
return JIM_OK;
}
case STR_IS_ALPHA: isclassfunc = isalpha; break;
case STR_IS_ALNUM: isclassfunc = isalnum; break;
case STR_IS_ASCII: isclassfunc = isascii; break;
case STR_IS_DIGIT: isclassfunc = isdigit; break;
case STR_IS_LOWER: isclassfunc = islower; break;
case STR_IS_UPPER: isclassfunc = isupper; break;
case STR_IS_SPACE: isclassfunc = isspace; break;
case STR_IS_XDIGIT: isclassfunc = isxdigit; break;
case STR_IS_CONTROL: isclassfunc = iscntrl; break;
case STR_IS_PRINT: isclassfunc = isprint; break;
case STR_IS_GRAPH: isclassfunc = isgraph; break;
case STR_IS_PUNCT: isclassfunc = ispunct; break;
default:
return JIM_ERR;
}
for (i = 0; i < len; i++) {
if (!isclassfunc(str[i])) {
Jim_SetResultInt(interp, 0);
return JIM_OK;
}
}
Jim_SetResultInt(interp, 1);
return JIM_OK;
}
/* -----------------------------------------------------------------------------
* Compared String Object
* ---------------------------------------------------------------------------*/
/* This is strange object that allows to compare a C literal string
* with a Jim object in very short time if the same comparison is done
* multiple times. For example every time the [if] command is executed,
* Jim has to check if a given argument is "else". This comparions if
* the code has no errors are true most of the times, so we can cache
* inside the object the pointer of the string of the last matching
* comparison. Because most C compilers perform literal sharing,
* so that: char *x = "foo", char *y = "foo", will lead to x == y,
* this works pretty well even if comparisons are at different places
* inside the C code. */
static const Jim_ObjType comparedStringObjType = {
"compared-string",
NULL,
NULL,
NULL,
JIM_TYPE_REFERENCES,
};
/* The only way this object is exposed to the API is via the following
* function. Returns true if the string and the object string repr.
* are the same, otherwise zero is returned.
*
* Note: this isn't binary safe, but it hardly needs to be.*/
int Jim_CompareStringImmediate(Jim_Interp *interp, Jim_Obj *objPtr, const char *str)
{
if (objPtr->typePtr == &comparedStringObjType && objPtr->internalRep.ptr == str)
return 1;
else {
const char *objStr = Jim_String(objPtr);
if (strcmp(str, objStr) != 0)
return 0;
if (objPtr->typePtr != &comparedStringObjType) {
Jim_FreeIntRep(interp, objPtr);
objPtr->typePtr = &comparedStringObjType;
}
objPtr->internalRep.ptr = (char *)str; /*ATTENTION: const cast */
return 1;
}
}
static int qsortCompareStringPointers(const void *a, const void *b)
{
char *const *sa = (char *const *)a;
char *const *sb = (char *const *)b;
return strcmp(*sa, *sb);
}
/* -----------------------------------------------------------------------------
* Source Object
*
* This object is just a string from the language point of view, but
* in the internal representation it contains the filename and line number
* where this given token was read. This information is used by
* Jim_EvalObj() if the object passed happens to be of type "source".
*
* This allows to propagate the information about line numbers and file
* names and give error messages with absolute line numbers.
*
* Note that this object uses shared strings for filenames, and the
* pointer to the filename together with the line number is taken into
* the space for the "inline" internal representation of the Jim_Object,
* so there is almost memory zero-overhead.
*
* Also the object will be converted to something else if the given
* token it represents in the source file is not something to be
* evaluated (not a script), and will be specialized in some other way,
* so the time overhead is also null.
* ---------------------------------------------------------------------------*/
static void FreeSourceInternalRep(Jim_Interp *interp, Jim_Obj *objPtr);
static void DupSourceInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr);
static const Jim_ObjType sourceObjType = {
"source",
FreeSourceInternalRep,
DupSourceInternalRep,
NULL,
JIM_TYPE_REFERENCES,
};
void FreeSourceInternalRep(Jim_Interp *interp, Jim_Obj *objPtr)
{
Jim_ReleaseSharedString(interp, objPtr->internalRep.sourceValue.fileName);
}
void DupSourceInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr)
{
dupPtr->internalRep.sourceValue.fileName =
Jim_GetSharedString(interp, srcPtr->internalRep.sourceValue.fileName);
dupPtr->internalRep.sourceValue.lineNumber = dupPtr->internalRep.sourceValue.lineNumber;
dupPtr->typePtr = &sourceObjType;
}
static void JimSetSourceInfo(Jim_Interp *interp, Jim_Obj *objPtr,
const char *fileName, int lineNumber)
{
if (fileName) {
JimPanic((Jim_IsShared(objPtr), interp, "JimSetSourceInfo called with shared object"));
JimPanic((objPtr->typePtr != NULL, interp, "JimSetSourceInfo called with typePtr != NULL"));
objPtr->internalRep.sourceValue.fileName = Jim_GetSharedString(interp, fileName);
objPtr->internalRep.sourceValue.lineNumber = lineNumber;
objPtr->typePtr = &sourceObjType;
}
}
/* -----------------------------------------------------------------------------
* Script Object
* ---------------------------------------------------------------------------*/
static const Jim_ObjType scriptLineObjType = {
"scriptline",
NULL,
NULL,
NULL,
0,
};
static Jim_Obj *JimNewScriptLineObj(Jim_Interp *interp, int argc, int line)
{
Jim_Obj *objPtr;
#ifdef DEBUG_SHOW_SCRIPT
char buf[100];
snprintf(buf, sizeof(buf), "line=%d, argc=%d", line, argc);
objPtr = Jim_NewStringObj(interp, buf, -1);
#else
objPtr = Jim_NewEmptyStringObj(interp);
#endif
objPtr->typePtr = &scriptLineObjType;
objPtr->internalRep.scriptLineValue.argc = argc;
objPtr->internalRep.scriptLineValue.line = line;
return objPtr;
}
#define JIM_CMDSTRUCT_EXPAND -1
static void FreeScriptInternalRep(Jim_Interp *interp, Jim_Obj *objPtr);
static void DupScriptInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr);
static int SetScriptFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr, struct JimParseResult *result);
static const Jim_ObjType scriptObjType = {
"script",
FreeScriptInternalRep,
DupScriptInternalRep,
NULL,
JIM_TYPE_REFERENCES,
};
/* The ScriptToken structure represents every token into a scriptObj.
* Every token contains an associated Jim_Obj that can be specialized
* by commands operating on it. */
typedef struct ScriptToken
{
int type;
Jim_Obj *objPtr;
} ScriptToken;
/* This is the script object internal representation. An array of
* ScriptToken structures, including a pre-computed representation of the
* command length and arguments.
*
* For example the script:
*
* puts hello
* set $i $x$y [foo]BAR
*
* will produce a ScriptObj with the following Tokens:
*
* LIN 2
* ESC puts
* ESC hello
* LIN 4
* ESC set
* VAR i
* WRD 2
* VAR x
* VAR y
* WRD 2
* CMD foo
* ESC BAR
*
* "puts hello" has two args (LIN 2), composed of single tokens.
* (Note that the WRD token is omitted for the common case of a single token.)
*
* "set $i $x$y [foo]BAR" has four (LIN 4) args, the first word
* has 1 token (ESC SET), and the last has two tokens (WRD 2 CMD foo ESC BAR)
*
* The precomputation of the command structure makes Jim_Eval() faster,
* and simpler because there aren't dynamic lengths / allocations.
*
* -- {expand}/{*} handling --
*
* Expand is handled in a special way.
*
* If a "word" begins with {*}, the word token count is -ve.
*
* For example the command:
*
* list {*}{a b}
*
* Will produce the following cmdstruct array:
*
* LIN 2
* ESC list
* WRD -1
* STR a b
*
* Note that the 'LIN' token also contains the source information for the
* first word of the line for error reporting purposes
*
* -- the substFlags field of the structure --
*
* The scriptObj structure is used to represent both "script" objects
* and "subst" objects. In the second case, the there are no LIN and WRD
* tokens. Instead SEP and EOL tokens are added as-is.
* In addition, the field 'substFlags' is used to represent the flags used to turn
* the string into the internal representation used to perform the
* substitution. If this flags are not what the application requires
* the scriptObj is created again. For example the script:
*
* subst -nocommands $string
* subst -novariables $string
*
* Will recreate the internal representation of the $string object
* two times.
*/
typedef struct ScriptObj
{
int len; /* Length as number of tokens. */
ScriptToken *token; /* Tokens array. */
int substFlags; /* flags used for the compilation of "subst" objects */
int inUse; /* Used to share a ScriptObj. Currently
only used by Jim_EvalObj() as protection against
shimmering of the currently evaluated object. */
const char *fileName;
int line; /* Line number of the first line */
} ScriptObj;
void FreeScriptInternalRep(Jim_Interp *interp, Jim_Obj *objPtr)
{
int i;
struct ScriptObj *script = (void *)objPtr->internalRep.ptr;
script->inUse--;
if (script->inUse != 0)
return;
for (i = 0; i < script->len; i++) {
Jim_DecrRefCount(interp, script->token[i].objPtr);
}
Jim_Free(script->token);
if (script->fileName) {
Jim_ReleaseSharedString(interp, script->fileName);
}
Jim_Free(script);
}
void DupScriptInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr)
{
JIM_NOTUSED(interp);
JIM_NOTUSED(srcPtr);
/* Just returns an simple string. */
dupPtr->typePtr = NULL;
}
/* A simple parser token.
* All the simple tokens for the script point into the same script string rep.
*/
typedef struct
{
const char *token; /* Pointer to the start of the token */
int len; /* Length of this token */
int type; /* Token type */
int line; /* Line number */
} ParseToken;
/* A list of parsed tokens representing a script.
* Tokens are added to this list as the script is parsed.
* It grows as needed.
*/
typedef struct
{
/* Start with a statically allocated list of tokens which will be expanded with realloc if needed */
ParseToken *list; /* Array of tokens */
int size; /* Current size of the list */
int count; /* Number of entries used */
ParseToken static_list[20]; /* Small initial token space to avoid allocation */
} ParseTokenList;
static void ScriptTokenListInit(ParseTokenList *tokenlist)
{
tokenlist->list = tokenlist->static_list;
tokenlist->size = sizeof(tokenlist->static_list) / sizeof(ParseToken);
tokenlist->count = 0;
}
static void ScriptTokenListFree(ParseTokenList *tokenlist)
{
if (tokenlist->list != tokenlist->static_list) {
Jim_Free(tokenlist->list);
}
}
/**
* Adds the new token to the tokenlist.
* The token has the given length, type and line number.
* The token list is resized as necessary.
*/
static void ScriptAddToken(ParseTokenList *tokenlist, const char *token, int len, int type,
int line)
{
ParseToken *t;
if (tokenlist->count == tokenlist->size) {
/* Resize the list */
tokenlist->size *= 2;
if (tokenlist->list != tokenlist->static_list) {
tokenlist->list =
Jim_Realloc(tokenlist->list, tokenlist->size * sizeof(*tokenlist->list));
}
else {
/* The list needs to become allocated */
tokenlist->list = Jim_Alloc(tokenlist->size * sizeof(*tokenlist->list));
memcpy(tokenlist->list, tokenlist->static_list,
tokenlist->count * sizeof(*tokenlist->list));
}
}
t = &tokenlist->list[tokenlist->count++];
t->token = token;
t->len = len;
t->type = type;
t->line = line;
}
/* Counts the number of adjoining non-separator.
*
* Returns -ve if the first token is the expansion
* operator (in which case the count doesn't include
* that token).
*/
static int JimCountWordTokens(ParseToken *t)
{
int expand = 1;
int count = 0;
/* Is the first word {*} or {expand}? */
if (t->type == JIM_TT_STR && !TOKEN_IS_SEP(t[1].type)) {
if ((t->len == 1 && *t->token == '*') || (t->len == 6 && strncmp(t->token, "expand", 6) == 0)) {
/* Create an expand token */
expand = -1;
t++;
}
}
/* Now count non-separator words */
while (!TOKEN_IS_SEP(t->type)) {
t++;
count++;
}
return count * expand;
}
/**
* Create a script/subst object from the given token.
*/
static Jim_Obj *JimMakeScriptObj(Jim_Interp *interp, const ParseToken *t)
{
Jim_Obj *objPtr;
if (t->type == JIM_TT_ESC && memchr(t->token, '\\', t->len) != NULL) {
/* Convert the backlash escapes . */
int len = t->len;
char *str = Jim_Alloc(len + 1);
len = JimEscape(str, t->token, len);
objPtr = Jim_NewStringObjNoAlloc(interp, str, len);
}
else {
/* REVIST: Strictly, JIM_TT_STR should replace <backslash><newline><whitespace>
* with a single space. This is currently not done.
*/
objPtr = Jim_NewStringObj(interp, t->token, t->len);
}
return objPtr;
}
/**
* Takes a tokenlist and creates the allocated list of script tokens
* in script->token, of length script->len.
*
* Unnecessary tokens are discarded, and LINE and WORD tokens are inserted
* as required.
*
* Also sets script->line to the line number of the first token
*/
static void ScriptObjAddTokens(Jim_Interp *interp, struct ScriptObj *script,
ParseTokenList *tokenlist)
{
int i;
struct ScriptToken *token;
/* Number of tokens so far for the current command */
int lineargs = 0;
/* This is the first token for the current command */
ScriptToken *linefirst;
int count;
int linenr;
#ifdef DEBUG_SHOW_SCRIPT_TOKENS
printf("==== Tokens ====\n");
for (i = 0; i < tokenlist->count; i++) {
printf("[%2d]@%d %s '%.*s'\n", i, tokenlist->list[i].line, jim_tt_name(tokenlist->list[i].type),
tokenlist->list[i].len, tokenlist->list[i].token);
}
#endif
/* May need up to one extra script token for each EOL in the worst case */
count = tokenlist->count;
for (i = 0; i < tokenlist->count; i++) {
if (tokenlist->list[i].type == JIM_TT_EOL) {
count++;
}
}
linenr = script->line = tokenlist->list[0].line;
token = script->token = Jim_Alloc(sizeof(ScriptToken) * count);
/* This is the first token for the current command */
linefirst = token++;
for (i = 0; i < tokenlist->count; ) {
/* Look ahead to find out how many tokens make up the next word */
int wordtokens;
/* Skip any leading separators */
while (tokenlist->list[i].type == JIM_TT_SEP) {
i++;
}
wordtokens = JimCountWordTokens(tokenlist->list + i);
if (wordtokens == 0) {
/* None, so at end of line */
if (lineargs) {
linefirst->type = JIM_TT_LINE;
linefirst->objPtr = JimNewScriptLineObj(interp, lineargs, linenr);
Jim_IncrRefCount(linefirst->objPtr);
/* Reset for new line */
lineargs = 0;
linefirst = token++;
}
i++;
continue;
}
else if (wordtokens != 1) {
/* More than 1, or {expand}, so insert a WORD token */
token->type = JIM_TT_WORD;
token->objPtr = Jim_NewIntObj(interp, wordtokens);
Jim_IncrRefCount(token->objPtr);
token++;
if (wordtokens < 0) {
/* Skip the expand token */
i++;
wordtokens = -wordtokens - 1;
lineargs--;
}
}
if (lineargs == 0) {
/* First real token on the line, so record the line number */
linenr = tokenlist->list[i].line;
}
lineargs++;
/* Add each non-separator word token to the line */
while (wordtokens--) {
const ParseToken *t = &tokenlist->list[i++];
token->type = t->type;
token->objPtr = JimMakeScriptObj(interp, t);
Jim_IncrRefCount(token->objPtr);
/* Every object is initially a string, but the
* internal type may be specialized during execution of the
* script. */
JimSetSourceInfo(interp, token->objPtr, script->fileName, t->line);
token++;
}
}
if (lineargs == 0) {
token--;
}
script->len = token - script->token;
assert(script->len < count);
#ifdef DEBUG_SHOW_SCRIPT
printf("==== Script (%s) ====\n", script->fileName);
for (i = 0; i < script->len; i++) {
const ScriptToken *t = &script->token[i];
printf("[%2d] %s %s\n", i, jim_tt_name(t->type), Jim_String(t->objPtr));
}
#endif
}
/**
* Similar to ScriptObjAddTokens(), but for subst objects.
*/
static void SubstObjAddTokens(Jim_Interp *interp, struct ScriptObj *script,
ParseTokenList *tokenlist)
{
int i;
struct ScriptToken *token;
token = script->token = Jim_Alloc(sizeof(ScriptToken) * tokenlist->count);
for (i = 0; i < tokenlist->count; i++) {
const ParseToken *t = &tokenlist->list[i];
/* Create a token for 't' */
token->type = t->type;
token->objPtr = JimMakeScriptObj(interp, t);
Jim_IncrRefCount(token->objPtr);
token++;
}
script->len = i;
}
/* This method takes the string representation of an object
* as a Tcl script, and generates the pre-parsed internal representation
* of the script. */
static int SetScriptFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr, struct JimParseResult *result)
{
int scriptTextLen;
const char *scriptText = Jim_GetString(objPtr, &scriptTextLen);
struct JimParserCtx parser;
struct ScriptObj *script;
ParseTokenList tokenlist;
int line = 1;
/* Try to get information about filename / line number */
if (objPtr->typePtr == &sourceObjType) {
line = objPtr->internalRep.sourceValue.lineNumber;
}
/* Initially parse the script into tokens (in tokenlist) */
ScriptTokenListInit(&tokenlist);
JimParserInit(&parser, scriptText, scriptTextLen, line);
while (!parser.eof) {
JimParseScript(&parser);
ScriptAddToken(&tokenlist, parser.tstart, parser.tend - parser.tstart + 1, parser.tt,
parser.tline);
}
if (result && parser.missing != ' ') {
ScriptTokenListFree(&tokenlist);
result->missing = parser.missing;
result->line = parser.missingline;
return JIM_ERR;
}
/* Add a final EOF token */
ScriptAddToken(&tokenlist, scriptText + scriptTextLen, 0, JIM_TT_EOF, 0);
/* Create the "real" script tokens from the initial token list */
script = Jim_Alloc(sizeof(*script));
memset(script, 0, sizeof(*script));
script->inUse = 1;
script->line = line;
if (objPtr->typePtr == &sourceObjType) {
script->fileName = Jim_GetSharedString(interp, objPtr->internalRep.sourceValue.fileName);
}
ScriptObjAddTokens(interp, script, &tokenlist);
/* No longer need the token list */
ScriptTokenListFree(&tokenlist);
if (!script->fileName) {
script->fileName = Jim_GetSharedString(interp, "");
}
/* Free the old internal rep and set the new one. */
Jim_FreeIntRep(interp, objPtr);
Jim_SetIntRepPtr(objPtr, script);
objPtr->typePtr = &scriptObjType;
return JIM_OK;
}
ScriptObj *Jim_GetScript(Jim_Interp *interp, Jim_Obj *objPtr)
{
struct ScriptObj *script = Jim_GetIntRepPtr(objPtr);
if (objPtr->typePtr != &scriptObjType || script->substFlags) {
SetScriptFromAny(interp, objPtr, NULL);
}
return (ScriptObj *) Jim_GetIntRepPtr(objPtr);
}
/* -----------------------------------------------------------------------------
* Commands
* ---------------------------------------------------------------------------*/
static void JimIncrCmdRefCount(Jim_Cmd *cmdPtr)
{
cmdPtr->inUse++;
}
static void JimDecrCmdRefCount(Jim_Interp *interp, Jim_Cmd *cmdPtr)
{
if (--cmdPtr->inUse == 0) {
if (cmdPtr->isproc) {
Jim_DecrRefCount(interp, cmdPtr->u.proc.argListObjPtr);
Jim_DecrRefCount(interp, cmdPtr->u.proc.bodyObjPtr);
if (cmdPtr->u.proc.staticVars) {
Jim_FreeHashTable(cmdPtr->u.proc.staticVars);
Jim_Free(cmdPtr->u.proc.staticVars);
}
if (cmdPtr->u.proc.prevCmd) {
/* Delete any pushed command too */
JimDecrCmdRefCount(interp, cmdPtr->u.proc.prevCmd);
}
}
else {
/* native (C) */
if (cmdPtr->u.native.delProc) {
cmdPtr->u.native.delProc(interp, cmdPtr->u.native.privData);
}
}
Jim_Free(cmdPtr);
}
}
/* Commands HashTable Type.
*
* Keys are dynamic allocated strings, Values are Jim_Cmd structures. */
static void JimCommandsHT_ValDestructor(void *interp, void *val)
{
JimDecrCmdRefCount(interp, val);
}
static const Jim_HashTableType JimCommandsHashTableType = {
JimStringCopyHTHashFunction, /* hash function */
JimStringCopyHTKeyDup, /* key dup */
NULL, /* val dup */
JimStringCopyHTKeyCompare, /* key compare */
JimStringCopyHTKeyDestructor, /* key destructor */
JimCommandsHT_ValDestructor /* val destructor */
};
/* ------------------------- Commands related functions --------------------- */
int Jim_CreateCommand(Jim_Interp *interp, const char *cmdName,
Jim_CmdProc cmdProc, void *privData, Jim_DelCmdProc delProc)
{
Jim_Cmd *cmdPtr;
if (Jim_DeleteHashEntry(&interp->commands, cmdName) != JIM_ERR) {
/* Command existed so incr proc epoch */
Jim_InterpIncrProcEpoch(interp);
}
cmdPtr = Jim_Alloc(sizeof(*cmdPtr));
/* Store the new details for this proc */
memset(cmdPtr, 0, sizeof(*cmdPtr));
cmdPtr->inUse = 1;
cmdPtr->u.native.delProc = delProc;
cmdPtr->u.native.cmdProc = cmdProc;
cmdPtr->u.native.privData = privData;
Jim_AddHashEntry(&interp->commands, cmdName, cmdPtr);
/* There is no need to increment the 'proc epoch' because
* creation of a new procedure can never affect existing
* cached commands. We don't do negative caching. */
return JIM_OK;
}
static int JimCreateProcedure(Jim_Interp *interp, const char *cmdName,
Jim_Obj *argListObjPtr, Jim_Obj *staticsListObjPtr, Jim_Obj *bodyObjPtr,
int leftArity, int optionalArgs, int args, int rightArity)
{
Jim_Cmd *cmdPtr;
Jim_HashEntry *he;
cmdPtr = Jim_Alloc(sizeof(*cmdPtr));
memset(cmdPtr, 0, sizeof(*cmdPtr));
cmdPtr->inUse = 1;
cmdPtr->isproc = 1;
cmdPtr->u.proc.argListObjPtr = argListObjPtr;
cmdPtr->u.proc.bodyObjPtr = bodyObjPtr;
Jim_IncrRefCount(argListObjPtr);
Jim_IncrRefCount(bodyObjPtr);
cmdPtr->u.proc.leftArity = leftArity;
cmdPtr->u.proc.optionalArgs = optionalArgs;
cmdPtr->u.proc.args = args;
cmdPtr->u.proc.rightArity = rightArity;
cmdPtr->u.proc.staticVars = NULL;
cmdPtr->u.proc.prevCmd = NULL;
cmdPtr->inUse = 1;
/* Create the statics hash table. */
if (staticsListObjPtr) {
int len, i;
len = Jim_ListLength(interp, staticsListObjPtr);
if (len != 0) {
cmdPtr->u.proc.staticVars = Jim_Alloc(sizeof(Jim_HashTable));
Jim_InitHashTable(cmdPtr->u.proc.staticVars, &JimVariablesHashTableType, interp);
for (i = 0; i < len; i++) {
Jim_Obj *objPtr = 0, *initObjPtr = 0, *nameObjPtr = 0;
Jim_Var *varPtr;
int subLen;
Jim_ListIndex(interp, staticsListObjPtr, i, &objPtr, JIM_NONE);
/* Check if it's composed of two elements. */
subLen = Jim_ListLength(interp, objPtr);
if (subLen == 1 || subLen == 2) {
/* Try to get the variable value from the current
* environment. */
Jim_ListIndex(interp, objPtr, 0, &nameObjPtr, JIM_NONE);
if (subLen == 1) {
initObjPtr = Jim_GetVariable(interp, nameObjPtr, JIM_NONE);
if (initObjPtr == NULL) {
Jim_SetResultFormatted(interp,
"variable for initialization of static \"%#s\" not found in the local context",
nameObjPtr);
goto err;
}
}
else {
Jim_ListIndex(interp, objPtr, 1, &initObjPtr, JIM_NONE);
}
if (JimValidName(interp, "static variable", nameObjPtr) != JIM_OK) {
goto err;
}
varPtr = Jim_Alloc(sizeof(*varPtr));
varPtr->objPtr = initObjPtr;
Jim_IncrRefCount(initObjPtr);
varPtr->linkFramePtr = NULL;
if (Jim_AddHashEntry(cmdPtr->u.proc.staticVars,
Jim_String(nameObjPtr), varPtr) != JIM_OK) {
Jim_SetResultFormatted(interp,
"static variable name \"%#s\" duplicated in statics list", nameObjPtr);
Jim_DecrRefCount(interp, initObjPtr);
Jim_Free(varPtr);
goto err;
}
}
else {
Jim_SetResultFormatted(interp, "too many fields in static specifier \"%#s\"",
objPtr);
goto err;
}
}
}
}
/* Add the new command */
/* It may already exist, so we try to delete the old one.
* Note that reference count means that it won't be deleted yet if
* it exists in the call stack.
*
* BUT, if 'local' is in force, instead of deleting the existing
* proc, we stash a reference to the old proc here.
*/
he = Jim_FindHashEntry(&interp->commands, cmdName);
if (he) {
/* There was an old procedure with the same name, this requires
* a 'proc epoch' update. */
/* If a procedure with the same name didn't existed there is no need
* to increment the 'proc epoch' because creation of a new procedure
* can never affect existing cached commands. We don't do
* negative caching. */
Jim_InterpIncrProcEpoch(interp);
}
if (he && interp->local) {
/* Just push this proc over the top of the previous one */
cmdPtr->u.proc.prevCmd = he->u.val;
he->u.val = cmdPtr;
}
else {
if (he) {
/* Replace the existing proc */
Jim_DeleteHashEntry(&interp->commands, cmdName);
}
Jim_AddHashEntry(&interp->commands, cmdName, cmdPtr);
}
/* Unlike Tcl, set the name of the proc as the result */
Jim_SetResultString(interp, cmdName, -1);
return JIM_OK;
err:
Jim_FreeHashTable(cmdPtr->u.proc.staticVars);
Jim_Free(cmdPtr->u.proc.staticVars);
Jim_DecrRefCount(interp, argListObjPtr);
Jim_DecrRefCount(interp, bodyObjPtr);
Jim_Free(cmdPtr);
return JIM_ERR;
}
int Jim_DeleteCommand(Jim_Interp *interp, const char *cmdName)
{
if (Jim_DeleteHashEntry(&interp->commands, cmdName) == JIM_ERR)
return JIM_ERR;
Jim_InterpIncrProcEpoch(interp);
return JIM_OK;
}
int Jim_RenameCommand(Jim_Interp *interp, const char *oldName, const char *newName)
{
Jim_HashEntry *he;
/* Does it exist? */
he = Jim_FindHashEntry(&interp->commands, oldName);
if (he == NULL) {
Jim_SetResultFormatted(interp, "can't %s \"%s\": command doesn't exist",
newName[0] ? "rename" : "delete", oldName);
return JIM_ERR;
}
if (newName[0] == '\0') /* Delete! */
return Jim_DeleteCommand(interp, oldName);
/* rename */
if (Jim_FindHashEntry(&interp->commands, newName)) {
Jim_SetResultFormatted(interp, "can't rename to \"%s\": command already exists", newName);
return JIM_ERR;
}
/* Add the new name first */
JimIncrCmdRefCount(he->u.val);
Jim_AddHashEntry(&interp->commands, newName, he->u.val);
/* Now remove the old name */
Jim_DeleteHashEntry(&interp->commands, oldName);
/* Increment the epoch */
Jim_InterpIncrProcEpoch(interp);
return JIM_OK;
}
/* -----------------------------------------------------------------------------
* Command object
* ---------------------------------------------------------------------------*/
static int SetCommandFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr);
static const Jim_ObjType commandObjType = {
"command",
NULL,
NULL,
NULL,
JIM_TYPE_REFERENCES,
};
int SetCommandFromAny(Jim_Interp *interp, Jim_Obj *objPtr)
{
Jim_HashEntry *he;
const char *cmdName;
/* Get the string representation */
cmdName = Jim_String(objPtr);
/* Lookup this name into the commands hash table */
he = Jim_FindHashEntry(&interp->commands, cmdName);
if (he == NULL)
return JIM_ERR;
/* Free the old internal repr and set the new one. */
Jim_FreeIntRep(interp, objPtr);
objPtr->typePtr = &commandObjType;
objPtr->internalRep.cmdValue.procEpoch = interp->procEpoch;
objPtr->internalRep.cmdValue.cmdPtr = (void *)he->u.val;
return JIM_OK;
}
/* This function returns the command structure for the command name
* stored in objPtr. It tries to specialize the objPtr to contain
* a cached info instead to perform the lookup into the hash table
* every time. The information cached may not be uptodate, in such
* a case the lookup is performed and the cache updated.
*
* Respects the 'upcall' setting
*/
Jim_Cmd *Jim_GetCommand(Jim_Interp *interp, Jim_Obj *objPtr, int flags)
{
Jim_Cmd *cmd;
if ((objPtr->typePtr != &commandObjType ||
objPtr->internalRep.cmdValue.procEpoch != interp->procEpoch) &&
SetCommandFromAny(interp, objPtr) == JIM_ERR) {
if (flags & JIM_ERRMSG) {
Jim_SetResultFormatted(interp, "invalid command name \"%#s\"", objPtr);
}
return NULL;
}
cmd = objPtr->internalRep.cmdValue.cmdPtr;
while (cmd->isproc && cmd->u.proc.upcall) {
cmd = cmd->u.proc.prevCmd;
}
return cmd;
}
/* -----------------------------------------------------------------------------
* Variables
* ---------------------------------------------------------------------------*/
/* Variables HashTable Type.
*
* Keys are dynamic allocated strings, Values are Jim_Var structures. */
static void JimVariablesHTValDestructor(void *interp, void *val)
{
Jim_Var *varPtr = (void *)val;
Jim_DecrRefCount(interp, varPtr->objPtr);
Jim_Free(val);
}
static const Jim_HashTableType JimVariablesHashTableType = {
JimStringCopyHTHashFunction, /* hash function */
JimStringCopyHTKeyDup, /* key dup */
NULL, /* val dup */
JimStringCopyHTKeyCompare, /* key compare */
JimStringCopyHTKeyDestructor, /* key destructor */
JimVariablesHTValDestructor /* val destructor */
};
/* -----------------------------------------------------------------------------
* Variable object
* ---------------------------------------------------------------------------*/
#define JIM_DICT_SUGAR 100 /* Only returned by SetVariableFromAny() */
static int SetVariableFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr);
static const Jim_ObjType variableObjType = {
"variable",
NULL,
NULL,
NULL,
JIM_TYPE_REFERENCES,
};
/* Return true if the string "str" looks like syntax sugar for [dict]. I.e.
* is in the form "varname(key)". */
static int JimNameIsDictSugar(const char *str, int len)
{
if (len && str[len - 1] == ')' && strchr(str, '(') != NULL)
return 1;
return 0;
}
/**
* Check that the name does not contain embedded nulls.
*
* Variable and procedure names are maniplated as null terminated strings, so
* don't allow names with embedded nulls.
*/
static int JimValidName(Jim_Interp *interp, const char *type, Jim_Obj *nameObjPtr)
{
/* Variable names and proc names can't contain embedded nulls */
if (nameObjPtr->typePtr != &variableObjType) {
int len;
const char *str = Jim_GetString(nameObjPtr, &len);
if (memchr(str, '\0', len)) {
Jim_SetResultFormatted(interp, "%s name contains embedded null", type);
return JIM_ERR;
}
}
return JIM_OK;
}
/* This method should be called only by the variable API.
* It returns JIM_OK on success (variable already exists),
* JIM_ERR if it does not exists, JIM_DICT_SUGAR if it's not
* a variable name, but syntax glue for [dict] i.e. the last
* character is ')' */
static int SetVariableFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr)
{
Jim_HashEntry *he;
const char *varName;
int len;
Jim_CallFrame *framePtr = interp->framePtr;
/* Check if the object is already an uptodate variable */
if (objPtr->typePtr == &variableObjType &&
objPtr->internalRep.varValue.callFrameId == framePtr->id) {
return JIM_OK; /* nothing to do */
}
if (objPtr->typePtr == &dictSubstObjType) {
return JIM_DICT_SUGAR;
}
if (JimValidName(interp, "variable", objPtr) != JIM_OK) {
return JIM_ERR;
}
/* Get the string representation */
varName = Jim_GetString(objPtr, &len);
/* Make sure it's not syntax glue to get/set dict. */
if (JimNameIsDictSugar(varName, len)) {
return JIM_DICT_SUGAR;
}
if (varName[0] == ':' && varName[1] == ':') {
framePtr = interp->topFramePtr;
he = Jim_FindHashEntry(&framePtr->vars, varName + 2);
if (he == NULL) {
return JIM_ERR;
}
}
else {
/* Lookup this name into the variables hash table */
he = Jim_FindHashEntry(&framePtr->vars, varName);
if (he == NULL) {
/* Try with static vars. */
if (framePtr->staticVars == NULL)
return JIM_ERR;
if (!(he = Jim_FindHashEntry(framePtr->staticVars, varName)))
return JIM_ERR;
}
}
/* Free the old internal repr and set the new one. */
Jim_FreeIntRep(interp, objPtr);
objPtr->typePtr = &variableObjType;
objPtr->internalRep.varValue.callFrameId = framePtr->id;
objPtr->internalRep.varValue.varPtr = (void *)he->u.val;
return JIM_OK;
}
/* -------------------- Variables related functions ------------------------- */
static int JimDictSugarSet(Jim_Interp *interp, Jim_Obj *ObjPtr, Jim_Obj *valObjPtr);
static Jim_Obj *JimDictSugarGet(Jim_Interp *interp, Jim_Obj *ObjPtr, int flags);
/* For now that's dummy. Variables lookup should be optimized
* in many ways, with caching of lookups, and possibly with
* a table of pre-allocated vars in every CallFrame for local vars.
* All the caching should also have an 'epoch' mechanism similar
* to the one used by Tcl for procedures lookup caching. */
int Jim_SetVariable(Jim_Interp *interp, Jim_Obj *nameObjPtr, Jim_Obj *valObjPtr)
{
const char *name;
Jim_Var *var;
int err;
if ((err = SetVariableFromAny(interp, nameObjPtr)) != JIM_OK) {
Jim_CallFrame *framePtr = interp->framePtr;
/* Check for [dict] syntax sugar. */
if (err == JIM_DICT_SUGAR)
return JimDictSugarSet(interp, nameObjPtr, valObjPtr);
if (JimValidName(interp, "variable", nameObjPtr) != JIM_OK) {
return JIM_ERR;
}
/* New variable to create */
name = Jim_String(nameObjPtr);
var = Jim_Alloc(sizeof(*var));
var->objPtr = valObjPtr;
Jim_IncrRefCount(valObjPtr);
var->linkFramePtr = NULL;
/* Insert the new variable */
if (name[0] == ':' && name[1] == ':') {
/* Into the top level frame */
framePtr = interp->topFramePtr;
Jim_AddHashEntry(&framePtr->vars, name + 2, var);
}
else {
Jim_AddHashEntry(&framePtr->vars, name, var);
}
/* Make the object int rep a variable */
Jim_FreeIntRep(interp, nameObjPtr);
nameObjPtr->typePtr = &variableObjType;
nameObjPtr->internalRep.varValue.callFrameId = framePtr->id;
nameObjPtr->internalRep.varValue.varPtr = var;
}
else {
var = nameObjPtr->internalRep.varValue.varPtr;
if (var->linkFramePtr == NULL) {
Jim_IncrRefCount(valObjPtr);
Jim_DecrRefCount(interp, var->objPtr);
var->objPtr = valObjPtr;
}
else { /* Else handle the link */
Jim_CallFrame *savedCallFrame;
savedCallFrame = interp->framePtr;
interp->framePtr = var->linkFramePtr;
err = Jim_SetVariable(interp, var->objPtr, valObjPtr);
interp->framePtr = savedCallFrame;
if (err != JIM_OK)
return err;
}
}
return JIM_OK;
}
int Jim_SetVariableStr(Jim_Interp *interp, const char *name, Jim_Obj *objPtr)
{
Jim_Obj *nameObjPtr;
int result;
nameObjPtr = Jim_NewStringObj(interp, name, -1);
Jim_IncrRefCount(nameObjPtr);
result = Jim_SetVariable(interp, nameObjPtr, objPtr);
Jim_DecrRefCount(interp, nameObjPtr);
return result;
}
int Jim_SetGlobalVariableStr(Jim_Interp *interp, const char *name, Jim_Obj *objPtr)
{
Jim_CallFrame *savedFramePtr;
int result;
savedFramePtr = interp->framePtr;
interp->framePtr = interp->topFramePtr;
result = Jim_SetVariableStr(interp, name, objPtr);
interp->framePtr = savedFramePtr;
return result;
}
int Jim_SetVariableStrWithStr(Jim_Interp *interp, const char *name, const char *val)
{
Jim_Obj *nameObjPtr, *valObjPtr;
int result;
nameObjPtr = Jim_NewStringObj(interp, name, -1);
valObjPtr = Jim_NewStringObj(interp, val, -1);
Jim_IncrRefCount(nameObjPtr);
Jim_IncrRefCount(valObjPtr);
result = Jim_SetVariable(interp, nameObjPtr, valObjPtr);
Jim_DecrRefCount(interp, nameObjPtr);
Jim_DecrRefCount(interp, valObjPtr);
return result;
}
int Jim_SetVariableLink(Jim_Interp *interp, Jim_Obj *nameObjPtr,
Jim_Obj *targetNameObjPtr, Jim_CallFrame *targetCallFrame)
{
const char *varName;
int len;
varName = Jim_GetString(nameObjPtr, &len);
if (varName[0] == ':' && varName[1] == ':') {
/* Linking a global var does nothing */
return JIM_OK;
}
if (JimNameIsDictSugar(varName, len)) {
Jim_SetResultString(interp, "Dict key syntax invalid as link source", -1);
return JIM_ERR;
}
/* Check for an existing variable or link */
if (SetVariableFromAny(interp, nameObjPtr) == JIM_OK) {
Jim_Var *varPtr = nameObjPtr->internalRep.varValue.varPtr;
if (varPtr->linkFramePtr == NULL) {
Jim_SetResultFormatted(interp, "variable \"%#s\" already exists", nameObjPtr);
return JIM_ERR;
}
/* It exists, but is a link, so delete the link */
varPtr->linkFramePtr = NULL;
}
/* Check for cycles. */
if (interp->framePtr == targetCallFrame) {
Jim_Obj *objPtr = targetNameObjPtr;
Jim_Var *varPtr;
/* Cycles are only possible with 'uplevel 0' */
while (1) {
if (Jim_StringEqObj(objPtr, nameObjPtr)) {
Jim_SetResultString(interp, "can't upvar from variable to itself", -1);
return JIM_ERR;
}
if (SetVariableFromAny(interp, objPtr) != JIM_OK)
break;
varPtr = objPtr->internalRep.varValue.varPtr;
if (varPtr->linkFramePtr != targetCallFrame)
break;
objPtr = varPtr->objPtr;
}
}
/* Perform the binding */
Jim_SetVariable(interp, nameObjPtr, targetNameObjPtr);
/* We are now sure 'nameObjPtr' type is variableObjType */
nameObjPtr->internalRep.varValue.varPtr->linkFramePtr = targetCallFrame;
return JIM_OK;
}
/* Return the Jim_Obj pointer associated with a variable name,
* or NULL if the variable was not found in the current context.
* The same optimization discussed in the comment to the
* 'SetVariable' function should apply here.
*
* If JIM_UNSHARED is set and the variable is an array element (dict sugar)
* in a dictionary which is shared, the array variable value is duplicated first.
* This allows the array element to be updated (e.g. append, lappend) without
* affecting other references to the dictionary.
*/
Jim_Obj *Jim_GetVariable(Jim_Interp *interp, Jim_Obj *nameObjPtr, int flags)
{
switch (SetVariableFromAny(interp, nameObjPtr)) {
case JIM_OK:{
Jim_Var *varPtr = nameObjPtr->internalRep.varValue.varPtr;
if (varPtr->linkFramePtr == NULL) {
return varPtr->objPtr;
}
else {
Jim_Obj *objPtr;
/* The variable is a link? Resolve it. */
Jim_CallFrame *savedCallFrame = interp->framePtr;
interp->framePtr = varPtr->linkFramePtr;
objPtr = Jim_GetVariable(interp, varPtr->objPtr, flags);
interp->framePtr = savedCallFrame;
if (objPtr) {
return objPtr;
}
/* Error, so fall through to the error message */
}
}
break;
case JIM_DICT_SUGAR:
/* [dict] syntax sugar. */
return JimDictSugarGet(interp, nameObjPtr, flags);
}
if (flags & JIM_ERRMSG) {
Jim_SetResultFormatted(interp, "can't read \"%#s\": no such variable", nameObjPtr);
}
return NULL;
}
Jim_Obj *Jim_GetGlobalVariable(Jim_Interp *interp, Jim_Obj *nameObjPtr, int flags)
{
Jim_CallFrame *savedFramePtr;
Jim_Obj *objPtr;
savedFramePtr = interp->framePtr;
interp->framePtr = interp->topFramePtr;
objPtr = Jim_GetVariable(interp, nameObjPtr, flags);
interp->framePtr = savedFramePtr;
return objPtr;
}
Jim_Obj *Jim_GetVariableStr(Jim_Interp *interp, const char *name, int flags)
{
Jim_Obj *nameObjPtr, *varObjPtr;
nameObjPtr = Jim_NewStringObj(interp, name, -1);
Jim_IncrRefCount(nameObjPtr);
varObjPtr = Jim_GetVariable(interp, nameObjPtr, flags);
Jim_DecrRefCount(interp, nameObjPtr);
return varObjPtr;
}
Jim_Obj *Jim_GetGlobalVariableStr(Jim_Interp *interp, const char *name, int flags)
{
Jim_CallFrame *savedFramePtr;
Jim_Obj *objPtr;
savedFramePtr = interp->framePtr;
interp->framePtr = interp->topFramePtr;
objPtr = Jim_GetVariableStr(interp, name, flags);
interp->framePtr = savedFramePtr;
return objPtr;
}
/* Unset a variable.
* Note: On success unset invalidates all the variable objects created
* in the current call frame incrementing. */
int Jim_UnsetVariable(Jim_Interp *interp, Jim_Obj *nameObjPtr, int flags)
{
const char *name;
Jim_Var *varPtr;
int retval;
retval = SetVariableFromAny(interp, nameObjPtr);
if (retval == JIM_DICT_SUGAR) {
/* [dict] syntax sugar. */
return JimDictSugarSet(interp, nameObjPtr, NULL);
}
else if (retval == JIM_OK) {
varPtr = nameObjPtr->internalRep.varValue.varPtr;
/* If it's a link call UnsetVariable recursively */
if (varPtr->linkFramePtr) {
Jim_CallFrame *savedCallFrame;
savedCallFrame = interp->framePtr;
interp->framePtr = varPtr->linkFramePtr;
retval = Jim_UnsetVariable(interp, varPtr->objPtr, JIM_NONE);
interp->framePtr = savedCallFrame;
}
else {
Jim_CallFrame *framePtr = interp->framePtr;
name = Jim_String(nameObjPtr);
if (name[0] == ':' && name[1] == ':') {
framePtr = interp->topFramePtr;
name += 2;
}
retval = Jim_DeleteHashEntry(&framePtr->vars, name);
if (retval == JIM_OK) {
/* Change the callframe id, invalidating var lookup caching */
JimChangeCallFrameId(interp, framePtr);
}
}
}
if (retval != JIM_OK && (flags & JIM_ERRMSG)) {
Jim_SetResultFormatted(interp, "can't unset \"%#s\": no such variable", nameObjPtr);
}
return retval;
}
/* ---------- Dict syntax sugar (similar to array Tcl syntax) -------------- */
/* Given a variable name for [dict] operation syntax sugar,
* this function returns two objects, the first with the name
* of the variable to set, and the second with the rispective key.
* For example "foo(bar)" will return objects with string repr. of
* "foo" and "bar".
*
* The returned objects have refcount = 1. The function can't fail. */
static void JimDictSugarParseVarKey(Jim_Interp *interp, Jim_Obj *objPtr,
Jim_Obj **varPtrPtr, Jim_Obj **keyPtrPtr)
{
const char *str, *p;
int len, keyLen;
Jim_Obj *varObjPtr, *keyObjPtr;
str = Jim_GetString(objPtr, &len);
p = strchr(str, '(');
JimPanic((p == NULL, interp, "JimDictSugarParseVarKey() called for non-dict-sugar (%s)", str));
varObjPtr = Jim_NewStringObj(interp, str, p - str);
p++;
keyLen = (str + len) - p;
if (str[len - 1] == ')') {
keyLen--;
}
/* Create the objects with the variable name and key. */
keyObjPtr = Jim_NewStringObj(interp, p, keyLen);
Jim_IncrRefCount(varObjPtr);
Jim_IncrRefCount(keyObjPtr);
*varPtrPtr = varObjPtr;
*keyPtrPtr = keyObjPtr;
}
/* Helper of Jim_SetVariable() to deal with dict-syntax variable names.
* Also used by Jim_UnsetVariable() with valObjPtr = NULL. */
static int JimDictSugarSet(Jim_Interp *interp, Jim_Obj *objPtr, Jim_Obj *valObjPtr)
{
int err;
SetDictSubstFromAny(interp, objPtr);
err = Jim_SetDictKeysVector(interp, objPtr->internalRep.dictSubstValue.varNameObjPtr,
&objPtr->internalRep.dictSubstValue.indexObjPtr, 1, valObjPtr);
if (err == JIM_OK) {
/* Don't keep an extra ref to the result */
Jim_SetEmptyResult(interp);
}
else {
if (!valObjPtr) {
/* Better error message for unset a(2) where a exists but a(2) doesn't */
if (Jim_GetVariable(interp, objPtr->internalRep.dictSubstValue.varNameObjPtr, JIM_NONE)) {
Jim_SetResultFormatted(interp, "can't unset \"%#s\": no such element in array",
objPtr);
return err;
}
}
/* Make the error more informative and Tcl-compatible */
Jim_SetResultFormatted(interp, "can't %s \"%#s\": variable isn't array",
(valObjPtr ? "set" : "unset"), objPtr);
}
return err;
}
/**
* Expands the array variable (dict sugar) and returns the result, or NULL on error.
*
* If JIM_UNSHARED is set and the dictionary is shared, it will be duplicated
* and stored back to the variable before expansion.
*/
static Jim_Obj *JimDictExpandArrayVariable(Jim_Interp *interp, Jim_Obj *varObjPtr,
Jim_Obj *keyObjPtr, int flags)
{
Jim_Obj *dictObjPtr;
Jim_Obj *resObjPtr = NULL;
int ret;
dictObjPtr = Jim_GetVariable(interp, varObjPtr, JIM_ERRMSG);
if (!dictObjPtr) {
return NULL;
}
ret = Jim_DictKey(interp, dictObjPtr, keyObjPtr, &resObjPtr, JIM_NONE);
if (ret != JIM_OK) {
resObjPtr = NULL;
if (ret < 0) {
Jim_SetResultFormatted(interp,
"can't read \"%#s(%#s)\": variable isn't array", varObjPtr, keyObjPtr);
}
else {
Jim_SetResultFormatted(interp,
"can't read \"%#s(%#s)\": no such element in array", varObjPtr, keyObjPtr);
}
}
else if ((flags & JIM_UNSHARED) && Jim_IsShared(dictObjPtr)) {
dictObjPtr = Jim_DuplicateObj(interp, dictObjPtr);
if (Jim_SetVariable(interp, varObjPtr, dictObjPtr) != JIM_OK) {
/* This can probably never happen */
JimPanic((1, interp, "SetVariable failed for JIM_UNSHARED"));
}
/* We know that the key exists. Get the result in the now-unshared dictionary */
Jim_DictKey(interp, dictObjPtr, keyObjPtr, &resObjPtr, JIM_NONE);
}
return resObjPtr;
}
/* Helper of Jim_GetVariable() to deal with dict-syntax variable names */
static Jim_Obj *JimDictSugarGet(Jim_Interp *interp, Jim_Obj *objPtr, int flags)
{
SetDictSubstFromAny(interp, objPtr);
return JimDictExpandArrayVariable(interp,
objPtr->internalRep.dictSubstValue.varNameObjPtr,
objPtr->internalRep.dictSubstValue.indexObjPtr, flags);
}
/* --------- $var(INDEX) substitution, using a specialized object ----------- */
void FreeDictSubstInternalRep(Jim_Interp *interp, Jim_Obj *objPtr)
{
Jim_DecrRefCount(interp, objPtr->internalRep.dictSubstValue.varNameObjPtr);
Jim_DecrRefCount(interp, objPtr->internalRep.dictSubstValue.indexObjPtr);
}
void DupDictSubstInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr)
{
JIM_NOTUSED(interp);
dupPtr->internalRep.dictSubstValue.varNameObjPtr =
srcPtr->internalRep.dictSubstValue.varNameObjPtr;
dupPtr->internalRep.dictSubstValue.indexObjPtr = srcPtr->internalRep.dictSubstValue.indexObjPtr;
dupPtr->typePtr = &dictSubstObjType;
}
/* Note: The object *must* be in dict-sugar format */
static void SetDictSubstFromAny(Jim_Interp *interp, Jim_Obj *objPtr)
{
if (objPtr->typePtr != &dictSubstObjType) {
Jim_Obj *varObjPtr, *keyObjPtr;
if (objPtr->typePtr == &interpolatedObjType) {
/* An interpolated object in dict-sugar form */
const ScriptToken *token = objPtr->internalRep.twoPtrValue.ptr1;
varObjPtr = token[0].objPtr;
keyObjPtr = objPtr->internalRep.twoPtrValue.ptr2;
Jim_IncrRefCount(varObjPtr);
Jim_IncrRefCount(keyObjPtr);
}
else {
JimDictSugarParseVarKey(interp, objPtr, &varObjPtr, &keyObjPtr);
}
Jim_FreeIntRep(interp, objPtr);
objPtr->typePtr = &dictSubstObjType;
objPtr->internalRep.dictSubstValue.varNameObjPtr = varObjPtr;
objPtr->internalRep.dictSubstValue.indexObjPtr = keyObjPtr;
}
}
/* This function is used to expand [dict get] sugar in the form
* of $var(INDEX). The function is mainly used by Jim_EvalObj()
* to deal with tokens of type JIM_TT_DICTSUGAR. objPtr points to an
* object that is *guaranteed* to be in the form VARNAME(INDEX).
* The 'index' part is [subst]ituted, and is used to lookup a key inside
* the [dict]ionary contained in variable VARNAME. */
static Jim_Obj *JimExpandDictSugar(Jim_Interp *interp, Jim_Obj *objPtr)
{
Jim_Obj *resObjPtr = NULL;
Jim_Obj *substKeyObjPtr = NULL;
SetDictSubstFromAny(interp, objPtr);
if (Jim_SubstObj(interp, objPtr->internalRep.dictSubstValue.indexObjPtr,
&substKeyObjPtr, JIM_NONE)
!= JIM_OK) {
return NULL;
}
Jim_IncrRefCount(substKeyObjPtr);
resObjPtr =
JimDictExpandArrayVariable(interp, objPtr->internalRep.dictSubstValue.varNameObjPtr,
substKeyObjPtr, 0);
Jim_DecrRefCount(interp, substKeyObjPtr);
return resObjPtr;
}
static Jim_Obj *JimExpandExprSugar(Jim_Interp *interp, Jim_Obj *objPtr)
{
Jim_Obj *resultObjPtr;
if (Jim_EvalExpression(interp, objPtr, &resultObjPtr) == JIM_OK) {
/* Note that the result has a ref count of 1, but we need a ref count of 0 */
resultObjPtr->refCount--;
return resultObjPtr;
}
return NULL;
}
/* -----------------------------------------------------------------------------
* CallFrame
* ---------------------------------------------------------------------------*/
static Jim_CallFrame *JimCreateCallFrame(Jim_Interp *interp, Jim_CallFrame *parent)
{
Jim_CallFrame *cf;
if (interp->freeFramesList) {
cf = interp->freeFramesList;
interp->freeFramesList = cf->nextFramePtr;
}
else {
cf = Jim_Alloc(sizeof(*cf));
cf->vars.table = NULL;
}
cf->id = interp->callFrameEpoch++;
cf->parentCallFrame = parent;
cf->level = parent ? parent->level + 1 : 0;
cf->argv = NULL;
cf->argc = 0;
cf->procArgsObjPtr = NULL;
cf->procBodyObjPtr = NULL;
cf->nextFramePtr = NULL;
cf->staticVars = NULL;
if (cf->vars.table == NULL)
Jim_InitHashTable(&cf->vars, &JimVariablesHashTableType, interp);
return cf;
}
/* Used to invalidate every caching related to callframe stability. */
static void JimChangeCallFrameId(Jim_Interp *interp, Jim_CallFrame *cf)
{
cf->id = interp->callFrameEpoch++;
}
#define JIM_FCF_NONE 0 /* no flags */
#define JIM_FCF_NOHT 1 /* don't free the hash table */
static void JimFreeCallFrame(Jim_Interp *interp, Jim_CallFrame *cf, int flags)
{
if (cf->procArgsObjPtr)
Jim_DecrRefCount(interp, cf->procArgsObjPtr);
if (cf->procBodyObjPtr)
Jim_DecrRefCount(interp, cf->procBodyObjPtr);
if (!(flags & JIM_FCF_NOHT))
Jim_FreeHashTable(&cf->vars);
else {
int i;
Jim_HashEntry **table = cf->vars.table, *he;
for (i = 0; i < JIM_HT_INITIAL_SIZE; i++) {
he = table[i];
while (he != NULL) {
Jim_HashEntry *nextEntry = he->next;
Jim_Var *varPtr = (void *)he->u.val;
Jim_DecrRefCount(interp, varPtr->objPtr);
Jim_Free(he->u.val);
Jim_Free((void *)he->key); /* ATTENTION: const cast */
Jim_Free(he);
table[i] = NULL;
he = nextEntry;
}
}
cf->vars.used = 0;
}
cf->nextFramePtr = interp->freeFramesList;
interp->freeFramesList = cf;
}
/* -----------------------------------------------------------------------------
* References
* ---------------------------------------------------------------------------*/
#ifdef JIM_REFERENCES
/* References HashTable Type.
*
* Keys are jim_wide integers, dynamically allocated for now but in the
* future it's worth to cache this 8 bytes objects. Values are poitners
* to Jim_References. */
static void JimReferencesHTValDestructor(void *interp, void *val)
{
Jim_Reference *refPtr = (void *)val;
Jim_DecrRefCount(interp, refPtr->objPtr);
if (refPtr->finalizerCmdNamePtr != NULL) {
Jim_DecrRefCount(interp, refPtr->finalizerCmdNamePtr);
}
Jim_Free(val);
}
static unsigned int JimReferencesHTHashFunction(const void *key)
{
/* Only the least significant bits are used. */
const jim_wide *widePtr = key;
unsigned int intValue = (unsigned int)*widePtr;
return Jim_IntHashFunction(intValue);
}
static const void *JimReferencesHTKeyDup(void *privdata, const void *key)
{
void *copy = Jim_Alloc(sizeof(jim_wide));
JIM_NOTUSED(privdata);
memcpy(copy, key, sizeof(jim_wide));
return copy;
}
static int JimReferencesHTKeyCompare(void *privdata, const void *key1, const void *key2)
{
JIM_NOTUSED(privdata);
return memcmp(key1, key2, sizeof(jim_wide)) == 0;
}
static void JimReferencesHTKeyDestructor(void *privdata, const void *key)
{
JIM_NOTUSED(privdata);
Jim_Free((void *)key);
}
static const Jim_HashTableType JimReferencesHashTableType = {
JimReferencesHTHashFunction, /* hash function */
JimReferencesHTKeyDup, /* key dup */
NULL, /* val dup */
JimReferencesHTKeyCompare, /* key compare */
JimReferencesHTKeyDestructor, /* key destructor */
JimReferencesHTValDestructor /* val destructor */
};
/* -----------------------------------------------------------------------------
* Reference object type and References API
* ---------------------------------------------------------------------------*/
/* The string representation of references has two features in order
* to make the GC faster. The first is that every reference starts
* with a non common character '<', in order to make the string matching
* faster. The second is that the reference string rep is 42 characters
* in length, this allows to avoid to check every object with a string
* repr < 42, and usually there aren't many of these objects. */
#define JIM_REFERENCE_SPACE (35+JIM_REFERENCE_TAGLEN)
static int JimFormatReference(char *buf, Jim_Reference *refPtr, jim_wide id)
{
const char *fmt = "<reference.<%s>.%020" JIM_WIDE_MODIFIER ">";
sprintf(buf, fmt, refPtr->tag, id);
return JIM_REFERENCE_SPACE;
}
static void UpdateStringOfReference(struct Jim_Obj *objPtr);
static const Jim_ObjType referenceObjType = {
"reference",
NULL,
NULL,
UpdateStringOfReference,
JIM_TYPE_REFERENCES,
};
void UpdateStringOfReference(struct Jim_Obj *objPtr)
{
int len;
char buf[JIM_REFERENCE_SPACE + 1];
Jim_Reference *refPtr;
refPtr = objPtr->internalRep.refValue.refPtr;
len = JimFormatReference(buf, refPtr, objPtr->internalRep.refValue.id);
objPtr->bytes = Jim_Alloc(len + 1);
memcpy(objPtr->bytes, buf, len + 1);
objPtr->length = len;
}
/* returns true if 'c' is a valid reference tag character.
* i.e. inside the range [_a-zA-Z0-9] */
static int isrefchar(int c)
{
return (c == '_' || isalnum(c));
}
static int SetReferenceFromAny(Jim_Interp *interp, Jim_Obj *objPtr)
{
jim_wide wideValue;
int i, len;
const char *str, *start, *end;
char refId[21];
Jim_Reference *refPtr;
Jim_HashEntry *he;
/* Get the string representation */
str = Jim_GetString(objPtr, &len);
/* Check if it looks like a reference */
if (len < JIM_REFERENCE_SPACE)
goto badformat;
/* Trim spaces */
start = str;
end = str + len - 1;
while (*start == ' ')
start++;
while (*end == ' ' && end > start)
end--;
if (end - start + 1 != JIM_REFERENCE_SPACE)
goto badformat;
/* <reference.<1234567>.%020> */
if (memcmp(start, "<reference.<", 12) != 0)
goto badformat;
if (start[12 + JIM_REFERENCE_TAGLEN] != '>' || end[0] != '>')
goto badformat;
/* The tag can't contain chars other than a-zA-Z0-9 + '_'. */
for (i = 0; i < JIM_REFERENCE_TAGLEN; i++) {
if (!isrefchar(start[12 + i]))
goto badformat;
}
/* Extract info from the reference. */
memcpy(refId, start + 14 + JIM_REFERENCE_TAGLEN, 20);
refId[20] = '\0';
/* Try to convert the ID into a jim_wide */
if (Jim_StringToWide(refId, &wideValue, 10) != JIM_OK)
goto badformat;
/* Check if the reference really exists! */
he = Jim_FindHashEntry(&interp->references, &wideValue);
if (he == NULL) {
Jim_SetResultFormatted(interp, "invalid reference id \"%#s\"", objPtr);
return JIM_ERR;
}
refPtr = he->u.val;
/* Free the old internal repr and set the new one. */
Jim_FreeIntRep(interp, objPtr);
objPtr->typePtr = &referenceObjType;
objPtr->internalRep.refValue.id = wideValue;
objPtr->internalRep.refValue.refPtr = refPtr;
return JIM_OK;
badformat:
Jim_SetResultFormatted(interp, "expected reference but got \"%#s\"", objPtr);
return JIM_ERR;
}
/* Returns a new reference pointing to objPtr, having cmdNamePtr
* as finalizer command (or NULL if there is no finalizer).
* The returned reference object has refcount = 0. */
Jim_Obj *Jim_NewReference(Jim_Interp *interp, Jim_Obj *objPtr, Jim_Obj *tagPtr, Jim_Obj *cmdNamePtr)
{
struct Jim_Reference *refPtr;
jim_wide wideValue = interp->referenceNextId;
Jim_Obj *refObjPtr;
const char *tag;
int tagLen, i;
/* Perform the Garbage Collection if needed. */
Jim_CollectIfNeeded(interp);
refPtr = Jim_Alloc(sizeof(*refPtr));
refPtr->objPtr = objPtr;
Jim_IncrRefCount(objPtr);
refPtr->finalizerCmdNamePtr = cmdNamePtr;
if (cmdNamePtr)
Jim_IncrRefCount(cmdNamePtr);
Jim_AddHashEntry(&interp->references, &wideValue, refPtr);
refObjPtr = Jim_NewObj(interp);
refObjPtr->typePtr = &referenceObjType;
refObjPtr->bytes = NULL;
refObjPtr->internalRep.refValue.id = interp->referenceNextId;
refObjPtr->internalRep.refValue.refPtr = refPtr;
interp->referenceNextId++;
/* Set the tag. Trimmed at JIM_REFERENCE_TAGLEN. Everything
* that does not pass the 'isrefchar' test is replaced with '_' */
tag = Jim_GetString(tagPtr, &tagLen);
if (tagLen > JIM_REFERENCE_TAGLEN)
tagLen = JIM_REFERENCE_TAGLEN;
for (i = 0; i < JIM_REFERENCE_TAGLEN; i++) {
if (i < tagLen && isrefchar(tag[i]))
refPtr->tag[i] = tag[i];
else
refPtr->tag[i] = '_';
}
refPtr->tag[JIM_REFERENCE_TAGLEN] = '\0';
return refObjPtr;
}
Jim_Reference *Jim_GetReference(Jim_Interp *interp, Jim_Obj *objPtr)
{
if (objPtr->typePtr != &referenceObjType && SetReferenceFromAny(interp, objPtr) == JIM_ERR)
return NULL;
return objPtr->internalRep.refValue.refPtr;
}
int Jim_SetFinalizer(Jim_Interp *interp, Jim_Obj *objPtr, Jim_Obj *cmdNamePtr)
{
Jim_Reference *refPtr;
if ((refPtr = Jim_GetReference(interp, objPtr)) == NULL)
return JIM_ERR;
Jim_IncrRefCount(cmdNamePtr);
if (refPtr->finalizerCmdNamePtr)
Jim_DecrRefCount(interp, refPtr->finalizerCmdNamePtr);
refPtr->finalizerCmdNamePtr = cmdNamePtr;
return JIM_OK;
}
int Jim_GetFinalizer(Jim_Interp *interp, Jim_Obj *objPtr, Jim_Obj **cmdNamePtrPtr)
{
Jim_Reference *refPtr;
if ((refPtr = Jim_GetReference(interp, objPtr)) == NULL)
return JIM_ERR;
*cmdNamePtrPtr = refPtr->finalizerCmdNamePtr;
return JIM_OK;
}
/* -----------------------------------------------------------------------------
* References Garbage Collection
* ---------------------------------------------------------------------------*/
/* This the hash table type for the "MARK" phase of the GC */
static const Jim_HashTableType JimRefMarkHashTableType = {
JimReferencesHTHashFunction, /* hash function */
JimReferencesHTKeyDup, /* key dup */
NULL, /* val dup */
JimReferencesHTKeyCompare, /* key compare */
JimReferencesHTKeyDestructor, /* key destructor */
NULL /* val destructor */
};
/* Performs the garbage collection. */
int Jim_Collect(Jim_Interp *interp)
{
Jim_HashTable marks;
Jim_HashTableIterator *htiter;
Jim_HashEntry *he;
Jim_Obj *objPtr;
int collected = 0;
/* Avoid recursive calls */
if (interp->lastCollectId == -1) {
/* Jim_Collect() already running. Return just now. */
return 0;
}
interp->lastCollectId = -1;
/* Mark all the references found into the 'mark' hash table.
* The references are searched in every live object that
* is of a type that can contain references. */
Jim_InitHashTable(&marks, &JimRefMarkHashTableType, NULL);
objPtr = interp->liveList;
while (objPtr) {
if (objPtr->typePtr == NULL || objPtr->typePtr->flags & JIM_TYPE_REFERENCES) {
const char *str, *p;
int len;
/* If the object is of type reference, to get the
* Id is simple... */
if (objPtr->typePtr == &referenceObjType) {
Jim_AddHashEntry(&marks, &objPtr->internalRep.refValue.id, NULL);
#ifdef JIM_DEBUG_GC
printf("MARK (reference): %d refcount: %d" JIM_NL,
(int)objPtr->internalRep.refValue.id, objPtr->refCount);
#endif
objPtr = objPtr->nextObjPtr;
continue;
}
/* Get the string repr of the object we want
* to scan for references. */
p = str = Jim_GetString(objPtr, &len);
/* Skip objects too little to contain references. */
if (len < JIM_REFERENCE_SPACE) {
objPtr = objPtr->nextObjPtr;
continue;
}
/* Extract references from the object string repr. */
while (1) {
int i;
jim_wide id;
char buf[21];
if ((p = strstr(p, "<reference.<")) == NULL)
break;
/* Check if it's a valid reference. */
if (len - (p - str) < JIM_REFERENCE_SPACE)
break;
if (p[41] != '>' || p[19] != '>' || p[20] != '.')
break;
for (i = 21; i <= 40; i++)
if (!isdigit(UCHAR(p[i])))
break;
/* Get the ID */
memcpy(buf, p + 21, 20);
buf[20] = '\0';
Jim_StringToWide(buf, &id, 10);
/* Ok, a reference for the given ID
* was found. Mark it. */
Jim_AddHashEntry(&marks, &id, NULL);
#ifdef JIM_DEBUG_GC
printf("MARK: %d" JIM_NL, (int)id);
#endif
p += JIM_REFERENCE_SPACE;
}
}
objPtr = objPtr->nextObjPtr;
}
/* Run the references hash table to destroy every reference that
* is not referenced outside (not present in the mark HT). */
htiter = Jim_GetHashTableIterator(&interp->references);
while ((he = Jim_NextHashEntry(htiter)) != NULL) {
const jim_wide *refId;
Jim_Reference *refPtr;
refId = he->key;
/* Check if in the mark phase we encountered
* this reference. */
if (Jim_FindHashEntry(&marks, refId) == NULL) {
#ifdef JIM_DEBUG_GC
printf("COLLECTING %d" JIM_NL, (int)*refId);
#endif
collected++;
/* Drop the reference, but call the
* finalizer first if registered. */
refPtr = he->u.val;
if (refPtr->finalizerCmdNamePtr) {
char *refstr = Jim_Alloc(JIM_REFERENCE_SPACE + 1);
Jim_Obj *objv[3], *oldResult;
JimFormatReference(refstr, refPtr, *refId);
objv[0] = refPtr->finalizerCmdNamePtr;
objv[1] = Jim_NewStringObjNoAlloc(interp, refstr, 32);
objv[2] = refPtr->objPtr;
Jim_IncrRefCount(objv[0]);
Jim_IncrRefCount(objv[1]);
Jim_IncrRefCount(objv[2]);
/* Drop the reference itself */
Jim_DeleteHashEntry(&interp->references, refId);
/* Call the finalizer. Errors ignored. */
oldResult = interp->result;
Jim_IncrRefCount(oldResult);
Jim_EvalObjVector(interp, 3, objv);
Jim_SetResult(interp, oldResult);
Jim_DecrRefCount(interp, oldResult);
Jim_DecrRefCount(interp, objv[0]);
Jim_DecrRefCount(interp, objv[1]);
Jim_DecrRefCount(interp, objv[2]);
}
else {
Jim_DeleteHashEntry(&interp->references, refId);
}
}
}
Jim_FreeHashTableIterator(htiter);
Jim_FreeHashTable(&marks);
interp->lastCollectId = interp->referenceNextId;
interp->lastCollectTime = time(NULL);
return collected;
}
#define JIM_COLLECT_ID_PERIOD 5000
#define JIM_COLLECT_TIME_PERIOD 300
void Jim_CollectIfNeeded(Jim_Interp *interp)
{
jim_wide elapsedId;
int elapsedTime;
elapsedId = interp->referenceNextId - interp->lastCollectId;
elapsedTime = time(NULL) - interp->lastCollectTime;
if (elapsedId > JIM_COLLECT_ID_PERIOD || elapsedTime > JIM_COLLECT_TIME_PERIOD) {
Jim_Collect(interp);
}
}
#endif
static int JimIsBigEndian(void)
{
union {
unsigned short s;
unsigned char c[2];
} uval = {0x0102};
return uval.c[0] == 1;
}
/* -----------------------------------------------------------------------------
* Interpreter related functions
* ---------------------------------------------------------------------------*/
Jim_Interp *Jim_CreateInterp(void)
{
Jim_Interp *i = Jim_Alloc(sizeof(*i));
memset(i, 0, sizeof(*i));
i->errorFileName = Jim_StrDup("");
i->maxNestingDepth = JIM_MAX_NESTING_DEPTH;
i->lastCollectTime = time(NULL);
/* Note that we can create objects only after the
* interpreter liveList and freeList pointers are
* initialized to NULL. */
Jim_InitHashTable(&i->commands, &JimCommandsHashTableType, i);
#ifdef JIM_REFERENCES
Jim_InitHashTable(&i->references, &JimReferencesHashTableType, i);
#endif
Jim_InitHashTable(&i->sharedStrings, &JimSharedStringsHashTableType, NULL);
Jim_InitHashTable(&i->assocData, &JimAssocDataHashTableType, i);
Jim_InitHashTable(&i->packages, &JimStringKeyValCopyHashTableType, NULL);
i->framePtr = i->topFramePtr = JimCreateCallFrame(i, NULL);
i->emptyObj = Jim_NewEmptyStringObj(i);
i->trueObj = Jim_NewIntObj(i, 1);
i->falseObj = Jim_NewIntObj(i, 0);
i->result = i->emptyObj;
i->stackTrace = Jim_NewListObj(i, NULL, 0);
i->unknown = Jim_NewStringObj(i, "unknown", -1);
i->errorProc = i->emptyObj;
i->currentScriptObj = Jim_NewEmptyStringObj(i);
Jim_IncrRefCount(i->emptyObj);
Jim_IncrRefCount(i->result);
Jim_IncrRefCount(i->stackTrace);
Jim_IncrRefCount(i->unknown);
Jim_IncrRefCount(i->currentScriptObj);
Jim_IncrRefCount(i->errorProc);
Jim_IncrRefCount(i->trueObj);
Jim_IncrRefCount(i->falseObj);
/* Initialize key variables every interpreter should contain */
Jim_SetVariableStrWithStr(i, JIM_LIBPATH, TCL_LIBRARY);
Jim_SetVariableStrWithStr(i, JIM_INTERACTIVE, "0");
Jim_SetVariableStrWithStr(i, "tcl_platform(os)", TCL_PLATFORM_OS);
Jim_SetVariableStrWithStr(i, "tcl_platform(platform)", TCL_PLATFORM_PLATFORM);
Jim_SetVariableStrWithStr(i, "tcl_platform(byteOrder)", JimIsBigEndian() ? "bigEndian" : "littleEndian");
Jim_SetVariableStrWithStr(i, "tcl_platform(threaded)", "0");
Jim_SetVariableStr(i, "tcl_platform(pointerSize)", Jim_NewIntObj(i, sizeof(void *)));
Jim_SetVariableStr(i, "tcl_platform(wordSize)", Jim_NewIntObj(i, sizeof(jim_wide)));
return i;
}
void Jim_FreeInterp(Jim_Interp *i)
{
Jim_CallFrame *cf = i->framePtr, *prevcf, *nextcf;
Jim_Obj *objPtr, *nextObjPtr;
Jim_DecrRefCount(i, i->emptyObj);
Jim_DecrRefCount(i, i->trueObj);
Jim_DecrRefCount(i, i->falseObj);
Jim_DecrRefCount(i, i->result);
Jim_DecrRefCount(i, i->stackTrace);
Jim_DecrRefCount(i, i->errorProc);
Jim_DecrRefCount(i, i->unknown);
Jim_Free((void *)i->errorFileName);
Jim_DecrRefCount(i, i->currentScriptObj);
Jim_FreeHashTable(&i->commands);
#ifdef JIM_REFERENCES
Jim_FreeHashTable(&i->references);
#endif
Jim_FreeHashTable(&i->packages);
Jim_Free(i->prngState);
Jim_FreeHashTable(&i->assocData);
JimDeleteLocalProcs(i);
/* Free the call frames list */
while (cf) {
prevcf = cf->parentCallFrame;
JimFreeCallFrame(i, cf, JIM_FCF_NONE);
cf = prevcf;
}
/* Check that the live object list is empty, otherwise
* there is a memory leak. */
if (i->liveList != NULL) {
objPtr = i->liveList;
printf(JIM_NL "-------------------------------------" JIM_NL);
printf("Objects still in the free list:" JIM_NL);
while (objPtr) {
const char *type = objPtr->typePtr ? objPtr->typePtr->name : "string";
printf("%p (%d) %-10s: '%.20s'" JIM_NL,
(void *)objPtr, objPtr->refCount, type, objPtr->bytes ? objPtr->bytes : "(null)");
if (objPtr->typePtr == &sourceObjType) {
printf("FILE %s LINE %d" JIM_NL,
objPtr->internalRep.sourceValue.fileName,
objPtr->internalRep.sourceValue.lineNumber);
}
objPtr = objPtr->nextObjPtr;
}
printf("-------------------------------------" JIM_NL JIM_NL);
JimPanic((1, i, "Live list non empty freeing the interpreter! Leak?"));
}
/* Free all the freed objects. */
objPtr = i->freeList;
while (objPtr) {
nextObjPtr = objPtr->nextObjPtr;
Jim_Free(objPtr);
objPtr = nextObjPtr;
}
/* Free cached CallFrame structures */
cf = i->freeFramesList;
while (cf) {
nextcf = cf->nextFramePtr;
if (cf->vars.table != NULL)
Jim_Free(cf->vars.table);
Jim_Free(cf);
cf = nextcf;
}
#ifdef jim_ext_load
Jim_FreeLoadHandles(i);
#endif
/* Free the sharedString hash table. Make sure to free it
* after every other Jim_Object was freed. */
Jim_FreeHashTable(&i->sharedStrings);
/* Free the interpreter structure. */
Jim_Free(i);
}
/* Returns the call frame relative to the level represented by
* levelObjPtr. If levelObjPtr == NULL, the * level is assumed to be '1'.
*
* This function accepts the 'level' argument in the form
* of the commands [uplevel] and [upvar].
*
* For a function accepting a relative integer as level suitable
* for implementation of [info level ?level?] check the
* JimGetCallFrameByInteger() function.
*
* Returns NULL on error.
*/
Jim_CallFrame *Jim_GetCallFrameByLevel(Jim_Interp *interp, Jim_Obj *levelObjPtr)
{
long level;
const char *str;
Jim_CallFrame *framePtr;
if (levelObjPtr) {
str = Jim_String(levelObjPtr);
if (str[0] == '#') {
char *endptr;
level = strtol(str + 1, &endptr, 0);
if (str[1] == '\0' || endptr[0] != '\0') {
level = -1;
}
}
else {
if (Jim_GetLong(interp, levelObjPtr, &level) != JIM_OK || level < 0) {
level = -1;
}
else {
/* Convert from a relative to an absolute level */
level = interp->framePtr->level - level;
}
}
}
else {
str = "1"; /* Needed to format the error message. */
level = interp->framePtr->level - 1;
}
if (level == 0) {
return interp->topFramePtr;
}
if (level > 0) {
/* Lookup */
for (framePtr = interp->framePtr; framePtr; framePtr = framePtr->parentCallFrame) {
if (framePtr->level == level) {
return framePtr;
}
}
}
Jim_SetResultFormatted(interp, "bad level \"%s\"", str);
return NULL;
}
/* Similar to Jim_GetCallFrameByLevel() but the level is specified
* as a relative integer like in the [info level ?level?] command.
**/
static Jim_CallFrame *JimGetCallFrameByInteger(Jim_Interp *interp, Jim_Obj *levelObjPtr)
{
long level;
Jim_CallFrame *framePtr;
if (Jim_GetLong(interp, levelObjPtr, &level) == JIM_OK) {
if (level <= 0) {
/* Convert from a relative to an absolute level */
level = interp->framePtr->level + level;
}
if (level == 0) {
return interp->topFramePtr;
}
/* Lookup */
for (framePtr = interp->framePtr; framePtr; framePtr = framePtr->parentCallFrame) {
if (framePtr->level == level) {
return framePtr;
}
}
}
Jim_SetResultFormatted(interp, "bad level \"%#s\"", levelObjPtr);
return NULL;
}
static void JimSetErrorFileName(Jim_Interp *interp, const char *filename)
{
Jim_Free((void *)interp->errorFileName);
interp->errorFileName = Jim_StrDup(filename);
}
static void JimSetErrorLineNumber(Jim_Interp *interp, int linenr)
{
interp->errorLine = linenr;
}
static void JimResetStackTrace(Jim_Interp *interp)
{
Jim_DecrRefCount(interp, interp->stackTrace);
interp->stackTrace = Jim_NewListObj(interp, NULL, 0);
Jim_IncrRefCount(interp->stackTrace);
}
static void JimSetStackTrace(Jim_Interp *interp, Jim_Obj *stackTraceObj)
{
int len;
/* Increment reference first in case these are the same object */
Jim_IncrRefCount(stackTraceObj);
Jim_DecrRefCount(interp, interp->stackTrace);
interp->stackTrace = stackTraceObj;
interp->errorFlag = 1;
/* This is a bit ugly.
* If the filename of the last entry of the stack trace is empty,
* the next stack level should be added.
*/
len = Jim_ListLength(interp, interp->stackTrace);
if (len >= 3) {
Jim_Obj *filenameObj;
Jim_ListIndex(interp, interp->stackTrace, len - 2, &filenameObj, JIM_NONE);
Jim_GetString(filenameObj, &len);
if (len == 0) {
interp->addStackTrace = 1;
}
}
}
/* Returns 1 if the stack trace information was used or 0 if not */
static void JimAppendStackTrace(Jim_Interp *interp, const char *procname,
const char *filename, int linenr)
{
if (strcmp(procname, "unknown") == 0) {
procname = "";
}
if (!*procname && !*filename) {
/* No useful info here */
return;
}
if (Jim_IsShared(interp->stackTrace)) {
Jim_DecrRefCount(interp, interp->stackTrace);
interp->stackTrace = Jim_DuplicateObj(interp, interp->stackTrace);
Jim_IncrRefCount(interp->stackTrace);
}
/* If we have no procname but the previous element did, merge with that frame */
if (!*procname && *filename) {
/* Just a filename. Check the previous entry */
int len = Jim_ListLength(interp, interp->stackTrace);
if (len >= 3) {
Jim_Obj *procnameObj;
Jim_Obj *filenameObj;
if (Jim_ListIndex(interp, interp->stackTrace, len - 3, &procnameObj, JIM_NONE) == JIM_OK
&& Jim_ListIndex(interp, interp->stackTrace, len - 2, &filenameObj,
JIM_NONE) == JIM_OK) {
const char *prev_procname = Jim_String(procnameObj);
const char *prev_filename = Jim_String(filenameObj);
if (*prev_procname && !*prev_filename) {
ListSetIndex(interp, interp->stackTrace, len - 2, Jim_NewStringObj(interp,
filename, -1), 0);
ListSetIndex(interp, interp->stackTrace, len - 1, Jim_NewIntObj(interp, linenr),
0);
return;
}
}
}
}
Jim_ListAppendElement(interp, interp->stackTrace, Jim_NewStringObj(interp, procname, -1));
Jim_ListAppendElement(interp, interp->stackTrace, Jim_NewStringObj(interp, filename, -1));
Jim_ListAppendElement(interp, interp->stackTrace, Jim_NewIntObj(interp, linenr));
}
int Jim_SetAssocData(Jim_Interp *interp, const char *key, Jim_InterpDeleteProc * delProc,
void *data)
{
AssocDataValue *assocEntryPtr = (AssocDataValue *) Jim_Alloc(sizeof(AssocDataValue));
assocEntryPtr->delProc = delProc;
assocEntryPtr->data = data;
return Jim_AddHashEntry(&interp->assocData, key, assocEntryPtr);
}
void *Jim_GetAssocData(Jim_Interp *interp, const char *key)
{
Jim_HashEntry *entryPtr = Jim_FindHashEntry(&interp->assocData, key);
if (entryPtr != NULL) {
AssocDataValue *assocEntryPtr = (AssocDataValue *) entryPtr->u.val;
return assocEntryPtr->data;
}
return NULL;
}
int Jim_DeleteAssocData(Jim_Interp *interp, const char *key)
{
return Jim_DeleteHashEntry(&interp->assocData, key);
}
int Jim_GetExitCode(Jim_Interp *interp)
{
return interp->exitCode;
}
/* -----------------------------------------------------------------------------
* Shared strings.
* Every interpreter has an hash table where to put shared dynamically
* allocate strings that are likely to be used a lot of times.
* For example, in the 'source' object type, there is a pointer to
* the filename associated with that object. Every script has a lot
* of this objects with the identical file name, so it is wise to share
* this info.
*
* The API is trivial: Jim_GetSharedString(interp, "foobar")
* returns the pointer to the shared string. Every time a reference
* to the string is no longer used, the user should call
* Jim_ReleaseSharedString(interp, stringPointer). Once no one is using
* a given string, it is removed from the hash table.
* ---------------------------------------------------------------------------*/
const char *Jim_GetSharedString(Jim_Interp *interp, const char *str)
{
Jim_HashEntry *he = Jim_FindHashEntry(&interp->sharedStrings, str);
if (he == NULL) {
char *strCopy = Jim_StrDup(str);
Jim_AddHashEntry(&interp->sharedStrings, strCopy, NULL);
he = Jim_FindHashEntry(&interp->sharedStrings, strCopy);
he->u.intval = 1;
return strCopy;
}
else {
he->u.intval++;
return he->key;
}
}
void Jim_ReleaseSharedString(Jim_Interp *interp, const char *str)
{
Jim_HashEntry *he = Jim_FindHashEntry(&interp->sharedStrings, str);
JimPanic((he == NULL, interp, "Jim_ReleaseSharedString called with " "unknown shared string '%s'", str));
if (--he->u.intval == 0) {
Jim_DeleteHashEntry(&interp->sharedStrings, str);
}
}
/* -----------------------------------------------------------------------------
* Integer object
* ---------------------------------------------------------------------------*/
#define JIM_INTEGER_SPACE 24
static void UpdateStringOfInt(struct Jim_Obj *objPtr);
static int SetIntFromAny(Jim_Interp *interp, Jim_Obj *objPtr, int flags);
static const Jim_ObjType intObjType = {
"int",
NULL,
NULL,
UpdateStringOfInt,
JIM_TYPE_NONE,
};
/* A coerced double is closer to an int than a double.
* It is an int value temporarily masquerading as a double value.
* i.e. it has the same string value as an int and Jim_GetWide()
* succeeds, but also Jim_GetDouble() returns the value directly.
*/
static const Jim_ObjType coercedDoubleObjType = {
"coerced-double",
NULL,
NULL,
UpdateStringOfInt,
JIM_TYPE_NONE,
};
void UpdateStringOfInt(struct Jim_Obj *objPtr)
{
int len;
char buf[JIM_INTEGER_SPACE + 1];
len = Jim_WideToString(buf, JimWideValue(objPtr));
objPtr->bytes = Jim_Alloc(len + 1);
memcpy(objPtr->bytes, buf, len + 1);
objPtr->length = len;
}
int SetIntFromAny(Jim_Interp *interp, Jim_Obj *objPtr, int flags)
{
jim_wide wideValue;
const char *str;
if (objPtr->typePtr == &coercedDoubleObjType) {
/* Simple switcheroo */
objPtr->typePtr = &intObjType;
return JIM_OK;
}
/* Get the string representation */
str = Jim_String(objPtr);
/* Try to convert into a jim_wide */
if (Jim_StringToWide(str, &wideValue, 0) != JIM_OK) {
if (flags & JIM_ERRMSG) {
Jim_SetResultFormatted(interp, "expected integer but got \"%#s\"", objPtr);
}
return JIM_ERR;
}
if ((wideValue == JIM_WIDE_MIN || wideValue == JIM_WIDE_MAX) && errno == ERANGE) {
Jim_SetResultString(interp, "Integer value too big to be represented", -1);
return JIM_ERR;
}
/* Free the old internal repr and set the new one. */
Jim_FreeIntRep(interp, objPtr);
objPtr->typePtr = &intObjType;
objPtr->internalRep.wideValue = wideValue;
return JIM_OK;
}
#ifdef JIM_OPTIMIZATION
static int JimIsWide(Jim_Obj *objPtr)
{
return objPtr->typePtr == &intObjType;
}
#endif
int Jim_GetWide(Jim_Interp *interp, Jim_Obj *objPtr, jim_wide * widePtr)
{
if (objPtr->typePtr != &intObjType && SetIntFromAny(interp, objPtr, JIM_ERRMSG) == JIM_ERR)
return JIM_ERR;
*widePtr = JimWideValue(objPtr);
return JIM_OK;
}
/* Get a wide but does not set an error if the format is bad. */
static int JimGetWideNoErr(Jim_Interp *interp, Jim_Obj *objPtr, jim_wide * widePtr)
{
if (objPtr->typePtr != &intObjType && SetIntFromAny(interp, objPtr, JIM_NONE) == JIM_ERR)
return JIM_ERR;
*widePtr = JimWideValue(objPtr);
return JIM_OK;
}
int Jim_GetLong(Jim_Interp *interp, Jim_Obj *objPtr, long *longPtr)
{
jim_wide wideValue;
int retval;
retval = Jim_GetWide(interp, objPtr, &wideValue);
if (retval == JIM_OK) {
*longPtr = (long)wideValue;
return JIM_OK;
}
return JIM_ERR;
}
Jim_Obj *Jim_NewIntObj(Jim_Interp *interp, jim_wide wideValue)
{
Jim_Obj *objPtr;
objPtr = Jim_NewObj(interp);
objPtr->typePtr = &intObjType;
objPtr->bytes = NULL;
objPtr->internalRep.wideValue = wideValue;
return objPtr;
}
/* -----------------------------------------------------------------------------
* Double object
* ---------------------------------------------------------------------------*/
#define JIM_DOUBLE_SPACE 30
static void UpdateStringOfDouble(struct Jim_Obj *objPtr);
static int SetDoubleFromAny(Jim_Interp *interp, Jim_Obj *objPtr);
static const Jim_ObjType doubleObjType = {
"double",
NULL,
NULL,
UpdateStringOfDouble,
JIM_TYPE_NONE,
};
void UpdateStringOfDouble(struct Jim_Obj *objPtr)
{
int len;
char buf[JIM_DOUBLE_SPACE + 1];
len = Jim_DoubleToString(buf, objPtr->internalRep.doubleValue);
objPtr->bytes = Jim_Alloc(len + 1);
memcpy(objPtr->bytes, buf, len + 1);
objPtr->length = len;
}
int SetDoubleFromAny(Jim_Interp *interp, Jim_Obj *objPtr)
{
double doubleValue;
jim_wide wideValue;
const char *str;
/* Preserve the string representation.
* Needed so we can convert back to int without loss
*/
str = Jim_String(objPtr);
#ifdef HAVE_LONG_LONG
/* Assume a 53 bit mantissa */
#define MIN_INT_IN_DOUBLE -(1LL << 53)
#define MAX_INT_IN_DOUBLE -(MIN_INT_IN_DOUBLE + 1)
if (objPtr->typePtr == &intObjType
&& JimWideValue(objPtr) >= MIN_INT_IN_DOUBLE
&& JimWideValue(objPtr) <= MAX_INT_IN_DOUBLE) {
/* Direct conversion to coerced double */
objPtr->typePtr = &coercedDoubleObjType;
return JIM_OK;
}
else
#endif
if (Jim_StringToWide(str, &wideValue, 10) == JIM_OK) {
/* Managed to convert to an int, so we can use this as a cooerced double */
Jim_FreeIntRep(interp, objPtr);
objPtr->typePtr = &coercedDoubleObjType;
objPtr->internalRep.wideValue = wideValue;
return JIM_OK;
}
else {
/* Try to convert into a double */
if (Jim_StringToDouble(str, &doubleValue) != JIM_OK) {
Jim_SetResultFormatted(interp, "expected number but got \"%#s\"", objPtr);
return JIM_ERR;
}
/* Free the old internal repr and set the new one. */
Jim_FreeIntRep(interp, objPtr);
}
objPtr->typePtr = &doubleObjType;
objPtr->internalRep.doubleValue = doubleValue;
return JIM_OK;
}
int Jim_GetDouble(Jim_Interp *interp, Jim_Obj *objPtr, double *doublePtr)
{
if (objPtr->typePtr == &coercedDoubleObjType) {
*doublePtr = JimWideValue(objPtr);
return JIM_OK;
}
if (objPtr->typePtr != &doubleObjType && SetDoubleFromAny(interp, objPtr) == JIM_ERR)
return JIM_ERR;
if (objPtr->typePtr == &coercedDoubleObjType) {
*doublePtr = JimWideValue(objPtr);
}
else {
*doublePtr = objPtr->internalRep.doubleValue;
}
return JIM_OK;
}
Jim_Obj *Jim_NewDoubleObj(Jim_Interp *interp, double doubleValue)
{
Jim_Obj *objPtr;
objPtr = Jim_NewObj(interp);
objPtr->typePtr = &doubleObjType;
objPtr->bytes = NULL;
objPtr->internalRep.doubleValue = doubleValue;
return objPtr;
}
/* -----------------------------------------------------------------------------
* List object
* ---------------------------------------------------------------------------*/
static void ListAppendElement(Jim_Obj *listPtr, Jim_Obj *objPtr);
static void FreeListInternalRep(Jim_Interp *interp, Jim_Obj *objPtr);
static void DupListInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr);
static void UpdateStringOfList(struct Jim_Obj *objPtr);
static int SetListFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr);
/* Note that while the elements of the list may contain references,
* the list object itself can't. This basically means that the
* list object string representation as a whole can't contain references
* that are not presents in the single elements. */
static const Jim_ObjType listObjType = {
"list",
FreeListInternalRep,
DupListInternalRep,
UpdateStringOfList,
JIM_TYPE_NONE,
};
void FreeListInternalRep(Jim_Interp *interp, Jim_Obj *objPtr)
{
int i;
for (i = 0; i < objPtr->internalRep.listValue.len; i++) {
Jim_DecrRefCount(interp, objPtr->internalRep.listValue.ele[i]);
}
Jim_Free(objPtr->internalRep.listValue.ele);
}
void DupListInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr)
{
int i;
JIM_NOTUSED(interp);
dupPtr->internalRep.listValue.len = srcPtr->internalRep.listValue.len;
dupPtr->internalRep.listValue.maxLen = srcPtr->internalRep.listValue.maxLen;
dupPtr->internalRep.listValue.ele =
Jim_Alloc(sizeof(Jim_Obj *) * srcPtr->internalRep.listValue.maxLen);
memcpy(dupPtr->internalRep.listValue.ele, srcPtr->internalRep.listValue.ele,
sizeof(Jim_Obj *) * srcPtr->internalRep.listValue.len);
for (i = 0; i < dupPtr->internalRep.listValue.len; i++) {
Jim_IncrRefCount(dupPtr->internalRep.listValue.ele[i]);
}
dupPtr->typePtr = &listObjType;
}
/* The following function checks if a given string can be encoded
* into a list element without any kind of quoting, surrounded by braces,
* or using escapes to quote. */
#define JIM_ELESTR_SIMPLE 0
#define JIM_ELESTR_BRACE 1
#define JIM_ELESTR_QUOTE 2
static int ListElementQuotingType(const char *s, int len)
{
int i, level, trySimple = 1;
/* Try with the SIMPLE case */
if (len == 0)
return JIM_ELESTR_BRACE;
if (s[0] == '#')
return JIM_ELESTR_BRACE;
if (s[0] == '"' || s[0] == '{') {
trySimple = 0;
goto testbrace;
}
for (i = 0; i < len; i++) {
switch (s[i]) {
case ' ':
case '$':
case '"':
case '[':
case ']':
case ';':
case '\\':
case '\r':
case '\n':
case '\t':
case '\f':
case '\v':
trySimple = 0;
case '{':
case '}':
goto testbrace;
}
}
return JIM_ELESTR_SIMPLE;
testbrace:
/* Test if it's possible to do with braces */
if (s[len - 1] == '\\' || s[len - 1] == ']')
return JIM_ELESTR_QUOTE;
level = 0;
for (i = 0; i < len; i++) {
switch (s[i]) {
case '{':
level++;
break;
case '}':
level--;
if (level < 0)
return JIM_ELESTR_QUOTE;
break;
case '\\':
if (s[i + 1] == '\n')
return JIM_ELESTR_QUOTE;
else if (s[i + 1] != '\0')
i++;
break;
}
}
if (level == 0) {
if (!trySimple)
return JIM_ELESTR_BRACE;
for (i = 0; i < len; i++) {
switch (s[i]) {
case ' ':
case '$':
case '"':
case '[':
case ']':
case ';':
case '\\':
case '\r':
case '\n':
case '\t':
case '\f':
case '\v':
return JIM_ELESTR_BRACE;
break;
}
}
return JIM_ELESTR_SIMPLE;
}
return JIM_ELESTR_QUOTE;
}
/* Returns the malloc-ed representation of a string
* using backslash to quote special chars. */
static char *BackslashQuoteString(const char *s, int len, int *qlenPtr)
{
char *q = Jim_Alloc(len * 2 + 1), *p;
p = q;
while (*s) {
switch (*s) {
case ' ':
case '$':
case '"':
case '[':
case ']':
case '{':
case '}':
case ';':
case '\\':
*p++ = '\\';
*p++ = *s++;
break;
case '\n':
*p++ = '\\';
*p++ = 'n';
s++;
break;
case '\r':
*p++ = '\\';
*p++ = 'r';
s++;
break;
case '\t':
*p++ = '\\';
*p++ = 't';
s++;
break;
case '\f':
*p++ = '\\';
*p++ = 'f';
s++;
break;
case '\v':
*p++ = '\\';
*p++ = 'v';
s++;
break;
default:
*p++ = *s++;
break;
}
}
*p = '\0';
*qlenPtr = p - q;
return q;
}
void UpdateStringOfList(struct Jim_Obj *objPtr)
{
int i, bufLen, realLength;
const char *strRep;
char *p;
int *quotingType;
Jim_Obj **ele = objPtr->internalRep.listValue.ele;
/* (Over) Estimate the space needed. */
quotingType = Jim_Alloc(sizeof(int) * objPtr->internalRep.listValue.len + 1);
bufLen = 0;
for (i = 0; i < objPtr->internalRep.listValue.len; i++) {
int len;
strRep = Jim_GetString(ele[i], &len);
quotingType[i] = ListElementQuotingType(strRep, len);
switch (quotingType[i]) {
case JIM_ELESTR_SIMPLE:
bufLen += len;
break;
case JIM_ELESTR_BRACE:
bufLen += len + 2;
break;
case JIM_ELESTR_QUOTE:
bufLen += len * 2;
break;
}
bufLen++; /* elements separator. */
}
bufLen++;
/* Generate the string rep. */
p = objPtr->bytes = Jim_Alloc(bufLen + 1);
realLength = 0;
for (i = 0; i < objPtr->internalRep.listValue.len; i++) {
int len, qlen;
char *q;
strRep = Jim_GetString(ele[i], &len);
switch (quotingType[i]) {
case JIM_ELESTR_SIMPLE:
memcpy(p, strRep, len);
p += len;
realLength += len;
break;
case JIM_ELESTR_BRACE:
*p++ = '{';
memcpy(p, strRep, len);
p += len;
*p++ = '}';
realLength += len + 2;
break;
case JIM_ELESTR_QUOTE:
q = BackslashQuoteString(strRep, len, &qlen);
memcpy(p, q, qlen);
Jim_Free(q);
p += qlen;
realLength += qlen;
break;
}
/* Add a separating space */
if (i + 1 != objPtr->internalRep.listValue.len) {
*p++ = ' ';
realLength++;
}
}
*p = '\0'; /* nul term. */
objPtr->length = realLength;
Jim_Free(quotingType);
}
int SetListFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr)
{
struct JimParserCtx parser;
const char *str;
int strLen;
const char *filename = NULL;
int linenr = 1;
/* Try to preserve information about filename / line number */
if (objPtr->typePtr == &sourceObjType) {
filename = Jim_GetSharedString(interp, objPtr->internalRep.sourceValue.fileName);
linenr = objPtr->internalRep.sourceValue.lineNumber;
}
/* Get the string representation */
str = Jim_GetString(objPtr, &strLen);
/* Free the old internal repr just now and initialize the
* new one just now. The string->list conversion can't fail. */
Jim_FreeIntRep(interp, objPtr);
objPtr->typePtr = &listObjType;
objPtr->internalRep.listValue.len = 0;
objPtr->internalRep.listValue.maxLen = 0;
objPtr->internalRep.listValue.ele = NULL;
/* Convert into a list */
JimParserInit(&parser, str, strLen, linenr);
while (!parser.eof) {
Jim_Obj *elementPtr;
JimParseList(&parser);
if (parser.tt != JIM_TT_STR && parser.tt != JIM_TT_ESC)
continue;
elementPtr = JimParserGetTokenObj(interp, &parser);
JimSetSourceInfo(interp, elementPtr, filename, parser.tline);
ListAppendElement(objPtr, elementPtr);
}
if (filename) {
Jim_ReleaseSharedString(interp, filename);
}
return JIM_OK;
}
Jim_Obj *Jim_NewListObj(Jim_Interp *interp, Jim_Obj *const *elements, int len)
{
Jim_Obj *objPtr;
int i;
objPtr = Jim_NewObj(interp);
objPtr->typePtr = &listObjType;
objPtr->bytes = NULL;
objPtr->internalRep.listValue.ele = NULL;
objPtr->internalRep.listValue.len = 0;
objPtr->internalRep.listValue.maxLen = 0;
for (i = 0; i < len; i++) {
ListAppendElement(objPtr, elements[i]);
}
return objPtr;
}
/* Return a vector of Jim_Obj with the elements of a Jim list, and the
* length of the vector. Note that the user of this function should make
* sure that the list object can't shimmer while the vector returned
* is in use, this vector is the one stored inside the internal representation
* of the list object. This function is not exported, extensions should
* always access to the List object elements using Jim_ListIndex(). */
static void JimListGetElements(Jim_Interp *interp, Jim_Obj *listObj, int *listLen,
Jim_Obj ***listVec)
{
*listLen = Jim_ListLength(interp, listObj);
*listVec = listObj->internalRep.listValue.ele;
}
/* Sorting uses ints, but commands may return wide */
static int JimSign(jim_wide w)
{
if (w == 0) {
return 0;
}
else if (w < 0) {
return -1;
}
return 1;
}
/* ListSortElements type values */
struct lsort_info {
jmp_buf jmpbuf;
Jim_Obj *command;
Jim_Interp *interp;
enum {
JIM_LSORT_ASCII,
JIM_LSORT_NOCASE,
JIM_LSORT_INTEGER,
JIM_LSORT_COMMAND
} type;
int order;
int index;
int indexed;
int (*subfn)(Jim_Obj **, Jim_Obj **);
};
static struct lsort_info *sort_info;
static int ListSortIndexHelper(Jim_Obj **lhsObj, Jim_Obj **rhsObj)
{
Jim_Obj *lObj, *rObj;
if (Jim_ListIndex(sort_info->interp, *lhsObj, sort_info->index, &lObj, JIM_ERRMSG) != JIM_OK ||
Jim_ListIndex(sort_info->interp, *rhsObj, sort_info->index, &rObj, JIM_ERRMSG) != JIM_OK) {
longjmp(sort_info->jmpbuf, JIM_ERR);
}
return sort_info->subfn(&lObj, &rObj);
}
/* Sort the internal rep of a list. */
static int ListSortString(Jim_Obj **lhsObj, Jim_Obj **rhsObj)
{
return Jim_StringCompareObj(sort_info->interp, *lhsObj, *rhsObj, 0) * sort_info->order;
}
static int ListSortStringNoCase(Jim_Obj **lhsObj, Jim_Obj **rhsObj)
{
return Jim_StringCompareObj(sort_info->interp, *lhsObj, *rhsObj, 1) * sort_info->order;
}
static int ListSortInteger(Jim_Obj **lhsObj, Jim_Obj **rhsObj)
{
jim_wide lhs = 0, rhs = 0;
if (Jim_GetWide(sort_info->interp, *lhsObj, &lhs) != JIM_OK ||
Jim_GetWide(sort_info->interp, *rhsObj, &rhs) != JIM_OK) {
longjmp(sort_info->jmpbuf, JIM_ERR);
}
return JimSign(lhs - rhs) * sort_info->order;
}
static int ListSortCommand(Jim_Obj **lhsObj, Jim_Obj **rhsObj)
{
Jim_Obj *compare_script;
int rc;
jim_wide ret = 0;
/* This must be a valid list */
compare_script = Jim_DuplicateObj(sort_info->interp, sort_info->command);
Jim_ListAppendElement(sort_info->interp, compare_script, *lhsObj);
Jim_ListAppendElement(sort_info->interp, compare_script, *rhsObj);
rc = Jim_EvalObj(sort_info->interp, compare_script);
if (rc != JIM_OK || Jim_GetWide(sort_info->interp, Jim_GetResult(sort_info->interp), &ret) != JIM_OK) {
longjmp(sort_info->jmpbuf, rc);
}
return JimSign(ret) * sort_info->order;
}
/* Sort a list *in place*. MUST be called with non-shared objects. */
static int ListSortElements(Jim_Interp *interp, Jim_Obj *listObjPtr, struct lsort_info *info)
{
struct lsort_info *prev_info;
typedef int (qsort_comparator) (const void *, const void *);
int (*fn) (Jim_Obj **, Jim_Obj **);
Jim_Obj **vector;
int len;
int rc;
JimPanic((Jim_IsShared(listObjPtr), interp, "Jim_ListSortElements called with shared object"));
if (!Jim_IsList(listObjPtr))
SetListFromAny(interp, listObjPtr);
/* Allow lsort to be called reentrantly */
prev_info = sort_info;
sort_info = info;
vector = listObjPtr->internalRep.listValue.ele;
len = listObjPtr->internalRep.listValue.len;
switch (info->type) {
case JIM_LSORT_ASCII:
fn = ListSortString;
break;
case JIM_LSORT_NOCASE:
fn = ListSortStringNoCase;
break;
case JIM_LSORT_INTEGER:
fn = ListSortInteger;
break;
case JIM_LSORT_COMMAND:
fn = ListSortCommand;
break;
default:
fn = NULL; /* avoid warning */
JimPanic((1, interp, "ListSort called with invalid sort type"));
}
if (info->indexed) {
/* Need to interpose a "list index" function */
info->subfn = fn;
fn = ListSortIndexHelper;
}
if ((rc = setjmp(info->jmpbuf)) == 0) {
qsort(vector, len, sizeof(Jim_Obj *), (qsort_comparator *) fn);
}
Jim_InvalidateStringRep(listObjPtr);
sort_info = prev_info;
return rc;
}
/* This is the low-level function to insert elements into a list.
* The higher-level Jim_ListInsertElements() performs shared object
* check and invalidate the string repr. This version is used
* in the internals of the List Object and is not exported.
*
* NOTE: this function can be called only against objects
* with internal type of List. */
static void ListInsertElements(Jim_Obj *listPtr, int idx, int elemc, Jim_Obj *const *elemVec)
{
int currentLen = listPtr->internalRep.listValue.len;
int requiredLen = currentLen + elemc;
int i;
Jim_Obj **point;
if (requiredLen > listPtr->internalRep.listValue.maxLen) {
int maxLen = requiredLen * 2;
listPtr->internalRep.listValue.ele =
Jim_Realloc(listPtr->internalRep.listValue.ele, sizeof(Jim_Obj *) * maxLen);
listPtr->internalRep.listValue.maxLen = maxLen;
}
point = listPtr->internalRep.listValue.ele + idx;
memmove(point + elemc, point, (currentLen - idx) * sizeof(Jim_Obj *));
for (i = 0; i < elemc; ++i) {
point[i] = elemVec[i];
Jim_IncrRefCount(point[i]);
}
listPtr->internalRep.listValue.len += elemc;
}
/* Convenience call to ListInsertElements() to append a single element.
*/
static void ListAppendElement(Jim_Obj *listPtr, Jim_Obj *objPtr)
{
ListInsertElements(listPtr, listPtr->internalRep.listValue.len, 1, &objPtr);
}
/* Appends every element of appendListPtr into listPtr.
* Both have to be of the list type.
* Convenience call to ListInsertElements()
*/
static void ListAppendList(Jim_Obj *listPtr, Jim_Obj *appendListPtr)
{
ListInsertElements(listPtr, listPtr->internalRep.listValue.len,
appendListPtr->internalRep.listValue.len, appendListPtr->internalRep.listValue.ele);
}
void Jim_ListAppendElement(Jim_Interp *interp, Jim_Obj *listPtr, Jim_Obj *objPtr)
{
JimPanic((Jim_IsShared(listPtr), interp, "Jim_ListAppendElement called with shared object"));
if (!Jim_IsList(listPtr))
SetListFromAny(interp, listPtr);
Jim_InvalidateStringRep(listPtr);
ListAppendElement(listPtr, objPtr);
}
void Jim_ListAppendList(Jim_Interp *interp, Jim_Obj *listPtr, Jim_Obj *appendListPtr)
{
JimPanic((Jim_IsShared(listPtr), interp, "Jim_ListAppendList called with shared object"));
if (!Jim_IsList(listPtr))
SetListFromAny(interp, listPtr);
Jim_InvalidateStringRep(listPtr);
ListAppendList(listPtr, appendListPtr);
}
int Jim_ListLength(Jim_Interp *interp, Jim_Obj *objPtr)
{
if (!Jim_IsList(objPtr))
SetListFromAny(interp, objPtr);
return objPtr->internalRep.listValue.len;
}
void Jim_ListInsertElements(Jim_Interp *interp, Jim_Obj *listPtr, int idx,
int objc, Jim_Obj *const *objVec)
{
JimPanic((Jim_IsShared(listPtr), interp, "Jim_ListInsertElement called with shared object"));
if (!Jim_IsList(listPtr))
SetListFromAny(interp, listPtr);
if (idx >= 0 && idx > listPtr->internalRep.listValue.len)
idx = listPtr->internalRep.listValue.len;
else if (idx < 0)
idx = 0;
Jim_InvalidateStringRep(listPtr);
ListInsertElements(listPtr, idx, objc, objVec);
}
int Jim_ListIndex(Jim_Interp *interp, Jim_Obj *listPtr, int idx, Jim_Obj **objPtrPtr, int flags)
{
if (!Jim_IsList(listPtr))
SetListFromAny(interp, listPtr);
if ((idx >= 0 && idx >= listPtr->internalRep.listValue.len) ||
(idx < 0 && (-idx - 1) >= listPtr->internalRep.listValue.len)) {
if (flags & JIM_ERRMSG) {
Jim_SetResultString(interp, "list index out of range", -1);
}
*objPtrPtr = NULL;
return JIM_ERR;
}
if (idx < 0)
idx = listPtr->internalRep.listValue.len + idx;
*objPtrPtr = listPtr->internalRep.listValue.ele[idx];
return JIM_OK;
}
static int ListSetIndex(Jim_Interp *interp, Jim_Obj *listPtr, int idx,
Jim_Obj *newObjPtr, int flags)
{
if (!Jim_IsList(listPtr))
SetListFromAny(interp, listPtr);
if ((idx >= 0 && idx >= listPtr->internalRep.listValue.len) ||
(idx < 0 && (-idx - 1) >= listPtr->internalRep.listValue.len)) {
if (flags & JIM_ERRMSG) {
Jim_SetResultString(interp, "list index out of range", -1);
}
return JIM_ERR;
}
if (idx < 0)
idx = listPtr->internalRep.listValue.len + idx;
Jim_DecrRefCount(interp, listPtr->internalRep.listValue.ele[idx]);
listPtr->internalRep.listValue.ele[idx] = newObjPtr;
Jim_IncrRefCount(newObjPtr);
return JIM_OK;
}
/* Modify the list stored into the variable named 'varNamePtr'
* setting the element specified by the 'indexc' indexes objects in 'indexv',
* with the new element 'newObjptr'. */
int Jim_SetListIndex(Jim_Interp *interp, Jim_Obj *varNamePtr,
Jim_Obj *const *indexv, int indexc, Jim_Obj *newObjPtr)
{
Jim_Obj *varObjPtr, *objPtr, *listObjPtr;
int shared, i, idx;
varObjPtr = objPtr = Jim_GetVariable(interp, varNamePtr, JIM_ERRMSG | JIM_UNSHARED);
if (objPtr == NULL)
return JIM_ERR;
if ((shared = Jim_IsShared(objPtr)))
varObjPtr = objPtr = Jim_DuplicateObj(interp, objPtr);
for (i = 0; i < indexc - 1; i++) {
listObjPtr = objPtr;
if (Jim_GetIndex(interp, indexv[i], &idx) != JIM_OK)
goto err;
if (Jim_ListIndex(interp, listObjPtr, idx, &objPtr, JIM_ERRMSG) != JIM_OK) {
goto err;
}
if (Jim_IsShared(objPtr)) {
objPtr = Jim_DuplicateObj(interp, objPtr);
ListSetIndex(interp, listObjPtr, idx, objPtr, JIM_NONE);
}
Jim_InvalidateStringRep(listObjPtr);
}
if (Jim_GetIndex(interp, indexv[indexc - 1], &idx) != JIM_OK)
goto err;
if (ListSetIndex(interp, objPtr, idx, newObjPtr, JIM_ERRMSG) == JIM_ERR)
goto err;
Jim_InvalidateStringRep(objPtr);
Jim_InvalidateStringRep(varObjPtr);
if (Jim_SetVariable(interp, varNamePtr, varObjPtr) != JIM_OK)
goto err;
Jim_SetResult(interp, varObjPtr);
return JIM_OK;
err:
if (shared) {
Jim_FreeNewObj(interp, varObjPtr);
}
return JIM_ERR;
}
Jim_Obj *Jim_ConcatObj(Jim_Interp *interp, int objc, Jim_Obj *const *objv)
{
int i;
/* If all the objects in objv are lists,
* it's possible to return a list as result, that's the
* concatenation of all the lists. */
for (i = 0; i < objc; i++) {
if (!Jim_IsList(objv[i]))
break;
}
if (i == objc) {
Jim_Obj *objPtr = Jim_NewListObj(interp, NULL, 0);
for (i = 0; i < objc; i++)
Jim_ListAppendList(interp, objPtr, objv[i]);
return objPtr;
}
else {
/* Else... we have to glue strings together */
int len = 0, objLen;
char *bytes, *p;
/* Compute the length */
for (i = 0; i < objc; i++) {
Jim_GetString(objv[i], &objLen);
len += objLen;
}
if (objc)
len += objc - 1;
/* Create the string rep, and a string object holding it. */
p = bytes = Jim_Alloc(len + 1);
for (i = 0; i < objc; i++) {
const char *s = Jim_GetString(objv[i], &objLen);
/* Remove leading space */
while (objLen && (*s == ' ' || *s == '\t' || *s == '\n')) {
s++;
objLen--;
len--;
}
/* And trailing space */
while (objLen && (s[objLen - 1] == ' ' ||
s[objLen - 1] == '\n' || s[objLen - 1] == '\t')) {
/* Handle trailing backslash-space case */
if (objLen > 1 && s[objLen - 2] == '\\') {
break;
}
objLen--;
len--;
}
memcpy(p, s, objLen);
p += objLen;
if (objLen && i + 1 != objc) {
*p++ = ' ';
}
else if (i + 1 != objc) {
/* Drop the space calcuated for this
* element that is instead null. */
len--;
}
}
*p = '\0';
return Jim_NewStringObjNoAlloc(interp, bytes, len);
}
}
/* Returns a list composed of the elements in the specified range.
* first and start are directly accepted as Jim_Objects and
* processed for the end?-index? case. */
Jim_Obj *Jim_ListRange(Jim_Interp *interp, Jim_Obj *listObjPtr, Jim_Obj *firstObjPtr,
Jim_Obj *lastObjPtr)
{
int first, last;
int len, rangeLen;
if (Jim_GetIndex(interp, firstObjPtr, &first) != JIM_OK ||
Jim_GetIndex(interp, lastObjPtr, &last) != JIM_OK)
return NULL;
len = Jim_ListLength(interp, listObjPtr); /* will convert into list */
first = JimRelToAbsIndex(len, first);
last = JimRelToAbsIndex(len, last);
JimRelToAbsRange(len, first, last, &first, &last, &rangeLen);
if (first == 0 && last == len) {
return listObjPtr;
}
return Jim_NewListObj(interp, listObjPtr->internalRep.listValue.ele + first, rangeLen);
}
/* -----------------------------------------------------------------------------
* Dict object
* ---------------------------------------------------------------------------*/
static void FreeDictInternalRep(Jim_Interp *interp, Jim_Obj *objPtr);
static void DupDictInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr);
static void UpdateStringOfDict(struct Jim_Obj *objPtr);
static int SetDictFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr);
/* Dict HashTable Type.
*
* Keys and Values are Jim objects. */
static unsigned int JimObjectHTHashFunction(const void *key)
{
const char *str;
Jim_Obj *objPtr = (Jim_Obj *)key;
int len, h;
str = Jim_GetString(objPtr, &len);
h = Jim_GenHashFunction((unsigned char *)str, len);
return h;
}
static int JimObjectHTKeyCompare(void *privdata, const void *key1, const void *key2)
{
JIM_NOTUSED(privdata);
return Jim_StringEqObj((Jim_Obj *)key1, (Jim_Obj *)key2);
}
static void JimObjectHTKeyValDestructor(void *interp, void *val)
{
Jim_Obj *objPtr = val;
Jim_DecrRefCount(interp, objPtr);
}
static const Jim_HashTableType JimDictHashTableType = {
JimObjectHTHashFunction, /* hash function */
NULL, /* key dup */
NULL, /* val dup */
JimObjectHTKeyCompare, /* key compare */
(void (*)(void *, const void *)) /* ATTENTION: const cast */
JimObjectHTKeyValDestructor, /* key destructor */
JimObjectHTKeyValDestructor /* val destructor */
};
/* Note that while the elements of the dict may contain references,
* the list object itself can't. This basically means that the
* dict object string representation as a whole can't contain references
* that are not presents in the single elements. */
static const Jim_ObjType dictObjType = {
"dict",
FreeDictInternalRep,
DupDictInternalRep,
UpdateStringOfDict,
JIM_TYPE_NONE,
};
void FreeDictInternalRep(Jim_Interp *interp, Jim_Obj *objPtr)
{
JIM_NOTUSED(interp);
Jim_FreeHashTable(objPtr->internalRep.ptr);
Jim_Free(objPtr->internalRep.ptr);
}
void DupDictInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr)
{
Jim_HashTable *ht, *dupHt;
Jim_HashTableIterator *htiter;
Jim_HashEntry *he;
/* Create a new hash table */
ht = srcPtr->internalRep.ptr;
dupHt = Jim_Alloc(sizeof(*dupHt));
Jim_InitHashTable(dupHt, &JimDictHashTableType, interp);
if (ht->size != 0)
Jim_ExpandHashTable(dupHt, ht->size);
/* Copy every element from the source to the dup hash table */
htiter = Jim_GetHashTableIterator(ht);
while ((he = Jim_NextHashEntry(htiter)) != NULL) {
const Jim_Obj *keyObjPtr = he->key;
Jim_Obj *valObjPtr = he->u.val;
Jim_IncrRefCount((Jim_Obj *)keyObjPtr); /* ATTENTION: const cast */
Jim_IncrRefCount(valObjPtr);
Jim_AddHashEntry(dupHt, keyObjPtr, valObjPtr);
}
Jim_FreeHashTableIterator(htiter);
dupPtr->internalRep.ptr = dupHt;
dupPtr->typePtr = &dictObjType;
}
void UpdateStringOfDict(struct Jim_Obj *objPtr)
{
int i, bufLen, realLength;
const char *strRep;
char *p;
int *quotingType, objc;
Jim_HashTable *ht;
Jim_HashTableIterator *htiter;
Jim_HashEntry *he;
Jim_Obj **objv;
/* Trun the hash table into a flat vector of Jim_Objects. */
ht = objPtr->internalRep.ptr;
objc = ht->used * 2;
objv = Jim_Alloc(objc * sizeof(Jim_Obj *));
htiter = Jim_GetHashTableIterator(ht);
i = 0;
while ((he = Jim_NextHashEntry(htiter)) != NULL) {
objv[i++] = (Jim_Obj *)he->key; /* ATTENTION: const cast */
objv[i++] = he->u.val;
}
Jim_FreeHashTableIterator(htiter);
/* (Over) Estimate the space needed. */
quotingType = Jim_Alloc(sizeof(int) * objc);
bufLen = 0;
for (i = 0; i < objc; i++) {
int len;
strRep = Jim_GetString(objv[i], &len);
quotingType[i] = ListElementQuotingType(strRep, len);
switch (quotingType[i]) {
case JIM_ELESTR_SIMPLE:
bufLen += len;
break;
case JIM_ELESTR_BRACE:
bufLen += len + 2;
break;
case JIM_ELESTR_QUOTE:
bufLen += len * 2;
break;
}
bufLen++; /* elements separator. */
}
bufLen++;
/* Generate the string rep. */
p = objPtr->bytes = Jim_Alloc(bufLen + 1);
realLength = 0;
for (i = 0; i < objc; i++) {
int len, qlen;
char *q;
strRep = Jim_GetString(objv[i], &len);
switch (quotingType[i]) {
case JIM_ELESTR_SIMPLE:
memcpy(p, strRep, len);
p += len;
realLength += len;
break;
case JIM_ELESTR_BRACE:
*p++ = '{';
memcpy(p, strRep, len);
p += len;
*p++ = '}';
realLength += len + 2;
break;
case JIM_ELESTR_QUOTE:
q = BackslashQuoteString(strRep, len, &qlen);
memcpy(p, q, qlen);
Jim_Free(q);
p += qlen;
realLength += qlen;
break;
}
/* Add a separating space */
if (i + 1 != objc) {
*p++ = ' ';
realLength++;
}
}
*p = '\0'; /* nul term. */
objPtr->length = realLength;
Jim_Free(quotingType);
Jim_Free(objv);
}
static int SetDictFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr)
{
int listlen;
/* Get the string representation. Do this first so we don't
* change order in case of fast conversion to dict.
*/
Jim_String(objPtr);
/* For simplicity, convert a non-list object to a list and then to a dict */
listlen = Jim_ListLength(interp, objPtr);
if (listlen % 2) {
Jim_SetResultString(interp,
"invalid dictionary value: must be a list with an even number of elements", -1);
return JIM_ERR;
}
else {
/* Now it is easy to convert to a dict from a list, and it can't fail */
Jim_HashTable *ht;
int i;
ht = Jim_Alloc(sizeof(*ht));
Jim_InitHashTable(ht, &JimDictHashTableType, interp);
for (i = 0; i < listlen; i += 2) {
Jim_Obj *keyObjPtr;
Jim_Obj *valObjPtr;
Jim_ListIndex(interp, objPtr, i, &keyObjPtr, JIM_NONE);
Jim_ListIndex(interp, objPtr, i + 1, &valObjPtr, JIM_NONE);
Jim_IncrRefCount(keyObjPtr);
Jim_IncrRefCount(valObjPtr);
if (Jim_AddHashEntry(ht, keyObjPtr, valObjPtr) != JIM_OK) {
Jim_HashEntry *he;
he = Jim_FindHashEntry(ht, keyObjPtr);
Jim_DecrRefCount(interp, keyObjPtr);
/* ATTENTION: const cast */
Jim_DecrRefCount(interp, (Jim_Obj *)he->u.val);
he->u.val = valObjPtr;
}
}
Jim_FreeIntRep(interp, objPtr);
objPtr->typePtr = &dictObjType;
objPtr->internalRep.ptr = ht;
return JIM_OK;
}
}
/* Dict object API */
/* Add an element to a dict. objPtr must be of the "dict" type.
* The higer-level exported function is Jim_DictAddElement().
* If an element with the specified key already exists, the value
* associated is replaced with the new one.
*
* if valueObjPtr == NULL, the key is instead removed if it exists. */
static int DictAddElement(Jim_Interp *interp, Jim_Obj *objPtr,
Jim_Obj *keyObjPtr, Jim_Obj *valueObjPtr)
{
Jim_HashTable *ht = objPtr->internalRep.ptr;
if (valueObjPtr == NULL) { /* unset */
return Jim_DeleteHashEntry(ht, keyObjPtr);
}
Jim_IncrRefCount(keyObjPtr);
Jim_IncrRefCount(valueObjPtr);
if (Jim_AddHashEntry(ht, keyObjPtr, valueObjPtr) != JIM_OK) {
Jim_HashEntry *he = Jim_FindHashEntry(ht, keyObjPtr);
Jim_DecrRefCount(interp, keyObjPtr);
/* ATTENTION: const cast */
Jim_DecrRefCount(interp, (Jim_Obj *)he->u.val);
he->u.val = valueObjPtr;
}
return JIM_OK;
}
/* Add an element, higher-level interface for DictAddElement().
* If valueObjPtr == NULL, the key is removed if it exists. */
int Jim_DictAddElement(Jim_Interp *interp, Jim_Obj *objPtr,
Jim_Obj *keyObjPtr, Jim_Obj *valueObjPtr)
{
int retcode;
JimPanic((Jim_IsShared(objPtr), interp, "Jim_DictAddElement called with shared object"));
if (objPtr->typePtr != &dictObjType) {
if (SetDictFromAny(interp, objPtr) != JIM_OK)
return JIM_ERR;
}
retcode = DictAddElement(interp, objPtr, keyObjPtr, valueObjPtr);
Jim_InvalidateStringRep(objPtr);
return retcode;
}
Jim_Obj *Jim_NewDictObj(Jim_Interp *interp, Jim_Obj *const *elements, int len)
{
Jim_Obj *objPtr;
int i;
JimPanic((len % 2, interp, "Jim_NewDictObj() 'len' argument must be even"));
objPtr = Jim_NewObj(interp);
objPtr->typePtr = &dictObjType;
objPtr->bytes = NULL;
objPtr->internalRep.ptr = Jim_Alloc(sizeof(Jim_HashTable));
Jim_InitHashTable(objPtr->internalRep.ptr, &JimDictHashTableType, interp);
for (i = 0; i < len; i += 2)
DictAddElement(interp, objPtr, elements[i], elements[i + 1]);
return objPtr;
}
/* Return the value associated to the specified dict key
* Note: Returns JIM_OK if OK, JIM_ERR if entry not found or -1 if can't create dict value
*/
int Jim_DictKey(Jim_Interp *interp, Jim_Obj *dictPtr, Jim_Obj *keyPtr,
Jim_Obj **objPtrPtr, int flags)
{
Jim_HashEntry *he;
Jim_HashTable *ht;
if (dictPtr->typePtr != &dictObjType) {
if (SetDictFromAny(interp, dictPtr) != JIM_OK)
return -1;
}
ht = dictPtr->internalRep.ptr;
if ((he = Jim_FindHashEntry(ht, keyPtr)) == NULL) {
if (flags & JIM_ERRMSG) {
Jim_SetResultFormatted(interp, "key \"%#s\" not found in dictionary", keyPtr);
}
return JIM_ERR;
}
*objPtrPtr = he->u.val;
return JIM_OK;
}
/* Return an allocated array of key/value pairs for the dictionary. Stores the length in *len */
int Jim_DictPairs(Jim_Interp *interp, Jim_Obj *dictPtr, Jim_Obj ***objPtrPtr, int *len)
{
Jim_HashTable *ht;
Jim_HashTableIterator *htiter;
Jim_HashEntry *he;
Jim_Obj **objv;
int i;
if (dictPtr->typePtr != &dictObjType) {
if (SetDictFromAny(interp, dictPtr) != JIM_OK)
return JIM_ERR;
}
ht = dictPtr->internalRep.ptr;
/* Turn the hash table into a flat vector of Jim_Objects. */
objv = Jim_Alloc((ht->used * 2) * sizeof(Jim_Obj *));
htiter = Jim_GetHashTableIterator(ht);
i = 0;
while ((he = Jim_NextHashEntry(htiter)) != NULL) {
objv[i++] = (Jim_Obj *)he->key; /* ATTENTION: const cast */
objv[i++] = he->u.val;
}
*len = i;
Jim_FreeHashTableIterator(htiter);
*objPtrPtr = objv;
return JIM_OK;
}
/* Return the value associated to the specified dict keys */
int Jim_DictKeysVector(Jim_Interp *interp, Jim_Obj *dictPtr,
Jim_Obj *const *keyv, int keyc, Jim_Obj **objPtrPtr, int flags)
{
int i;
if (keyc == 0) {
*objPtrPtr = dictPtr;
return JIM_OK;
}
for (i = 0; i < keyc; i++) {
Jim_Obj *objPtr;
if (Jim_DictKey(interp, dictPtr, keyv[i], &objPtr, flags)
!= JIM_OK)
return JIM_ERR;
dictPtr = objPtr;
}
*objPtrPtr = dictPtr;
return JIM_OK;
}
/* Modify the dict stored into the variable named 'varNamePtr'
* setting the element specified by the 'keyc' keys objects in 'keyv',
* with the new value of the element 'newObjPtr'.
*
* If newObjPtr == NULL the operation is to remove the given key
* from the dictionary. */
int Jim_SetDictKeysVector(Jim_Interp *interp, Jim_Obj *varNamePtr,
Jim_Obj *const *keyv, int keyc, Jim_Obj *newObjPtr)
{
Jim_Obj *varObjPtr, *objPtr, *dictObjPtr;
int shared, i;
varObjPtr = objPtr =
Jim_GetVariable(interp, varNamePtr, newObjPtr == NULL ? JIM_ERRMSG : JIM_NONE);
if (objPtr == NULL) {
if (newObjPtr == NULL) /* Cannot remove a key from non existing var */
return JIM_ERR;
varObjPtr = objPtr = Jim_NewDictObj(interp, NULL, 0);
if (Jim_SetVariable(interp, varNamePtr, objPtr) != JIM_OK) {
Jim_FreeNewObj(interp, varObjPtr);
return JIM_ERR;
}
}
if ((shared = Jim_IsShared(objPtr)))
varObjPtr = objPtr = Jim_DuplicateObj(interp, objPtr);
for (i = 0; i < keyc - 1; i++) {
dictObjPtr = objPtr;
/* Check if it's a valid dictionary */
if (dictObjPtr->typePtr != &dictObjType) {
if (SetDictFromAny(interp, dictObjPtr) != JIM_OK)
goto err;
}
/* Check if the given key exists. */
Jim_InvalidateStringRep(dictObjPtr);
if (Jim_DictKey(interp, dictObjPtr, keyv[i], &objPtr,
newObjPtr ? JIM_NONE : JIM_ERRMSG) == JIM_OK) {
/* This key exists at the current level.
* Make sure it's not shared!. */
if (Jim_IsShared(objPtr)) {
objPtr = Jim_DuplicateObj(interp, objPtr);
DictAddElement(interp, dictObjPtr, keyv[i], objPtr);
}
}
else {
/* Key not found. If it's an [unset] operation
* this is an error. Only the last key may not
* exist. */
if (newObjPtr == NULL)
goto err;
/* Otherwise set an empty dictionary
* as key's value. */
objPtr = Jim_NewDictObj(interp, NULL, 0);
DictAddElement(interp, dictObjPtr, keyv[i], objPtr);
}
}
if (Jim_DictAddElement(interp, objPtr, keyv[keyc - 1], newObjPtr) != JIM_OK) {
goto err;
}
Jim_InvalidateStringRep(objPtr);
Jim_InvalidateStringRep(varObjPtr);
if (Jim_SetVariable(interp, varNamePtr, varObjPtr) != JIM_OK)
goto err;
Jim_SetResult(interp, varObjPtr);
return JIM_OK;
err:
if (shared) {
Jim_FreeNewObj(interp, varObjPtr);
}
return JIM_ERR;
}
/* -----------------------------------------------------------------------------
* Index object
* ---------------------------------------------------------------------------*/
static void UpdateStringOfIndex(struct Jim_Obj *objPtr);
static int SetIndexFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr);
static const Jim_ObjType indexObjType = {
"index",
NULL,
NULL,
UpdateStringOfIndex,
JIM_TYPE_NONE,
};
void UpdateStringOfIndex(struct Jim_Obj *objPtr)
{
int len;
char buf[JIM_INTEGER_SPACE + 1];
if (objPtr->internalRep.indexValue >= 0)
len = sprintf(buf, "%d", objPtr->internalRep.indexValue);
else if (objPtr->internalRep.indexValue == -1)
len = sprintf(buf, "end");
else {
len = sprintf(buf, "end%d", objPtr->internalRep.indexValue + 1);
}
objPtr->bytes = Jim_Alloc(len + 1);
memcpy(objPtr->bytes, buf, len + 1);
objPtr->length = len;
}
int SetIndexFromAny(Jim_Interp *interp, Jim_Obj *objPtr)
{
int idx, end = 0;
const char *str;
char *endptr;
/* Get the string representation */
str = Jim_String(objPtr);
/* Try to convert into an index */
if (strncmp(str, "end", 3) == 0) {
end = 1;
str += 3;
idx = 0;
}
else {
idx = strtol(str, &endptr, 10);
if (endptr == str) {
goto badindex;
}
str = endptr;
}
/* Now str may include or +<num> or -<num> */
if (*str == '+' || *str == '-') {
int sign = (*str == '+' ? 1 : -1);
idx += sign * strtol(++str, &endptr, 10);
if (str == endptr || *endptr) {
goto badindex;
}
str = endptr;
}
/* The only thing left should be spaces */
while (isspace(UCHAR(*str))) {
str++;
}
if (*str) {
goto badindex;
}
if (end) {
if (idx > 0) {
idx = INT_MAX;
}
else {
/* end-1 is repesented as -2 */
idx--;
}
}
else if (idx < 0) {
idx = -INT_MAX;
}
/* Free the old internal repr and set the new one. */
Jim_FreeIntRep(interp, objPtr);
objPtr->typePtr = &indexObjType;
objPtr->internalRep.indexValue = idx;
return JIM_OK;
badindex:
Jim_SetResultFormatted(interp,
"bad index \"%#s\": must be integer?[+-]integer? or end?[+-]integer?", objPtr);
return JIM_ERR;
}
int Jim_GetIndex(Jim_Interp *interp, Jim_Obj *objPtr, int *indexPtr)
{
/* Avoid shimmering if the object is an integer. */
if (objPtr->typePtr == &intObjType) {
jim_wide val = JimWideValue(objPtr);
if (!(val < LONG_MIN) && !(val > LONG_MAX)) {
*indexPtr = (val < 0) ? -INT_MAX : (long)val;;
return JIM_OK;
}
}
if (objPtr->typePtr != &indexObjType && SetIndexFromAny(interp, objPtr) == JIM_ERR)
return JIM_ERR;
*indexPtr = objPtr->internalRep.indexValue;
return JIM_OK;
}
/* -----------------------------------------------------------------------------
* Return Code Object.
* ---------------------------------------------------------------------------*/
/* NOTE: These must be kept in the same order as JIM_OK, JIM_ERR, ... */
static const char * const jimReturnCodes[] = {
[JIM_OK] = "ok",
[JIM_ERR] = "error",
[JIM_RETURN] = "return",
[JIM_BREAK] = "break",
[JIM_CONTINUE] = "continue",
[JIM_SIGNAL] = "signal",
[JIM_EXIT] = "exit",
[JIM_EVAL] = "eval",
NULL
};
#define jimReturnCodesSize (sizeof(jimReturnCodes)/sizeof(*jimReturnCodes))
static int SetReturnCodeFromAny(Jim_Interp *interp, Jim_Obj *objPtr);
static const Jim_ObjType returnCodeObjType = {
"return-code",
NULL,
NULL,
NULL,
JIM_TYPE_NONE,
};
/* Converts a (standard) return code to a string. Returns "?" for
* non-standard return codes.
*/
const char *Jim_ReturnCode(int code)
{
if (code < 0 || code >= (int)jimReturnCodesSize) {
return "?";
}
else {
return jimReturnCodes[code];
}
}
int SetReturnCodeFromAny(Jim_Interp *interp, Jim_Obj *objPtr)
{
int returnCode;
jim_wide wideValue;
/* Try to convert into an integer */
if (JimGetWideNoErr(interp, objPtr, &wideValue) != JIM_ERR)
returnCode = (int)wideValue;
else if (Jim_GetEnum(interp, objPtr, jimReturnCodes, &returnCode, NULL, JIM_NONE) != JIM_OK) {
Jim_SetResultFormatted(interp, "expected return code but got \"%#s\"", objPtr);
return JIM_ERR;
}
/* Free the old internal repr and set the new one. */
Jim_FreeIntRep(interp, objPtr);
objPtr->typePtr = &returnCodeObjType;
objPtr->internalRep.returnCode = returnCode;
return JIM_OK;
}
int Jim_GetReturnCode(Jim_Interp *interp, Jim_Obj *objPtr, int *intPtr)
{
if (objPtr->typePtr != &returnCodeObjType && SetReturnCodeFromAny(interp, objPtr) == JIM_ERR)
return JIM_ERR;
*intPtr = objPtr->internalRep.returnCode;
return JIM_OK;
}
/* -----------------------------------------------------------------------------
* Expression Parsing
* ---------------------------------------------------------------------------*/
static int JimParseExprOperator(struct JimParserCtx *pc);
static int JimParseExprNumber(struct JimParserCtx *pc);
static int JimParseExprIrrational(struct JimParserCtx *pc);
/* Exrp's Stack machine operators opcodes. */
/* Binary operators (numbers) */
enum
{
/* Continues on from the JIM_TT_ space */
/* Operations */
JIM_EXPROP_MUL = JIM_TT_EXPR_OP, /* 15 */
JIM_EXPROP_DIV,
JIM_EXPROP_MOD,
JIM_EXPROP_SUB,
JIM_EXPROP_ADD,
JIM_EXPROP_LSHIFT,
JIM_EXPROP_RSHIFT,
JIM_EXPROP_ROTL,
JIM_EXPROP_ROTR,
JIM_EXPROP_LT,
JIM_EXPROP_GT,
JIM_EXPROP_LTE,
JIM_EXPROP_GTE,
JIM_EXPROP_NUMEQ,
JIM_EXPROP_NUMNE,
JIM_EXPROP_BITAND, /* 30 */
JIM_EXPROP_BITXOR,
JIM_EXPROP_BITOR,
/* Note must keep these together */
JIM_EXPROP_LOGICAND, /* 33 */
JIM_EXPROP_LOGICAND_LEFT,
JIM_EXPROP_LOGICAND_RIGHT,
/* and these */
JIM_EXPROP_LOGICOR, /* 36 */
JIM_EXPROP_LOGICOR_LEFT,
JIM_EXPROP_LOGICOR_RIGHT,
/* and these */
/* Ternary operators */
JIM_EXPROP_TERNARY, /* 39 */
JIM_EXPROP_TERNARY_LEFT,
JIM_EXPROP_TERNARY_RIGHT,
/* and these */
JIM_EXPROP_COLON, /* 42 */
JIM_EXPROP_COLON_LEFT,
JIM_EXPROP_COLON_RIGHT,
JIM_EXPROP_POW, /* 45 */
/* Binary operators (strings) */
JIM_EXPROP_STREQ,
JIM_EXPROP_STRNE,
JIM_EXPROP_STRIN,
JIM_EXPROP_STRNI,
/* Unary operators (numbers) */
JIM_EXPROP_NOT,
JIM_EXPROP_BITNOT,
JIM_EXPROP_UNARYMINUS,
JIM_EXPROP_UNARYPLUS,
/* Functions */
JIM_EXPROP_FUNC_FIRST,
JIM_EXPROP_FUNC_INT = JIM_EXPROP_FUNC_FIRST,
JIM_EXPROP_FUNC_ABS,
JIM_EXPROP_FUNC_DOUBLE,
JIM_EXPROP_FUNC_ROUND,
JIM_EXPROP_FUNC_RAND,
JIM_EXPROP_FUNC_SRAND,
#ifdef JIM_MATH_FUNCTIONS
/* math functions from libm */
JIM_EXPROP_FUNC_SIN,
JIM_EXPROP_FUNC_COS,
JIM_EXPROP_FUNC_TAN,
JIM_EXPROP_FUNC_ASIN,
JIM_EXPROP_FUNC_ACOS,
JIM_EXPROP_FUNC_ATAN,
JIM_EXPROP_FUNC_SINH,
JIM_EXPROP_FUNC_COSH,
JIM_EXPROP_FUNC_TANH,
JIM_EXPROP_FUNC_CEIL,
JIM_EXPROP_FUNC_FLOOR,
JIM_EXPROP_FUNC_EXP,
JIM_EXPROP_FUNC_LOG,
JIM_EXPROP_FUNC_LOG10,
JIM_EXPROP_FUNC_SQRT,
#endif
};
struct JimExprState
{
Jim_Obj **stack;
int stacklen;
int opcode;
int skip;
};
/* Operators table */
typedef struct Jim_ExprOperator
{
const char *name;
int precedence;
int arity;
int (*funcop) (Jim_Interp *interp, struct JimExprState * e);
int lazy;
} Jim_ExprOperator;
static void ExprPush(struct JimExprState *e, Jim_Obj *obj)
{
Jim_IncrRefCount(obj);
e->stack[e->stacklen++] = obj;
}
static Jim_Obj *ExprPop(struct JimExprState *e)
{
return e->stack[--e->stacklen];
}
static int JimExprOpNumUnary(Jim_Interp *interp, struct JimExprState *e)
{
int intresult = 0;
int rc = JIM_OK;
Jim_Obj *A = ExprPop(e);
double dA, dC = 0;
jim_wide wA, wC = 0;
if ((A->typePtr != &doubleObjType || A->bytes) && JimGetWideNoErr(interp, A, &wA) == JIM_OK) {
intresult = 1;
switch (e->opcode) {
case JIM_EXPROP_FUNC_INT:
wC = wA;
break;
case JIM_EXPROP_FUNC_ROUND:
wC = wA;
break;
case JIM_EXPROP_FUNC_DOUBLE:
dC = wA;
intresult = 0;
break;
case JIM_EXPROP_FUNC_ABS:
wC = wA >= 0 ? wA : -wA;
break;
case JIM_EXPROP_UNARYMINUS:
wC = -wA;
break;
case JIM_EXPROP_UNARYPLUS:
wC = wA;
break;
case JIM_EXPROP_NOT:
wC = !wA;
break;
default:
abort();
}
}
else if ((rc = Jim_GetDouble(interp, A, &dA)) == JIM_OK) {
switch (e->opcode) {
case JIM_EXPROP_FUNC_INT:
wC = dA;
intresult = 1;
break;
case JIM_EXPROP_FUNC_ROUND:
wC = dA < 0 ? (dA - 0.5) : (dA + 0.5);
intresult = 1;
break;
case JIM_EXPROP_FUNC_DOUBLE:
dC = dA;
break;
case JIM_EXPROP_FUNC_ABS:
dC = dA >= 0 ? dA : -dA;
break;
case JIM_EXPROP_UNARYMINUS:
dC = -dA;
break;
case JIM_EXPROP_UNARYPLUS:
dC = dA;
break;
case JIM_EXPROP_NOT:
wC = !dA;
intresult = 1;
break;
default:
abort();
}
}
if (rc == JIM_OK) {
if (intresult) {
ExprPush(e, Jim_NewIntObj(interp, wC));
}
else {
ExprPush(e, Jim_NewDoubleObj(interp, dC));
}
}
Jim_DecrRefCount(interp, A);
return rc;
}
static double JimRandDouble(Jim_Interp *interp)
{
unsigned long x;
JimRandomBytes(interp, &x, sizeof(x));
return (double)x / (unsigned long)~0;
}
static int JimExprOpIntUnary(Jim_Interp *interp, struct JimExprState *e)
{
Jim_Obj *A = ExprPop(e);
jim_wide wA;
int rc = Jim_GetWide(interp, A, &wA);
if (rc == JIM_OK) {
switch (e->opcode) {
case JIM_EXPROP_BITNOT:
ExprPush(e, Jim_NewIntObj(interp, ~wA));
break;
case JIM_EXPROP_FUNC_SRAND:
JimPrngSeed(interp, (unsigned char *)&wA, sizeof(wA));
ExprPush(e, Jim_NewDoubleObj(interp, JimRandDouble(interp)));
break;
default:
abort();
}
}
Jim_DecrRefCount(interp, A);
return rc;
}
static int JimExprOpNone(Jim_Interp *interp, struct JimExprState *e)
{
JimPanic((e->opcode != JIM_EXPROP_FUNC_RAND));
ExprPush(e, Jim_NewDoubleObj(interp, JimRandDouble(interp)));
return JIM_OK;
}
#ifdef JIM_MATH_FUNCTIONS
static int JimExprOpDoubleUnary(Jim_Interp *interp, struct JimExprState *e)
{
int rc;
Jim_Obj *A = ExprPop(e);
double dA, dC;
rc = Jim_GetDouble(interp, A, &dA);
if (rc == JIM_OK) {
switch (e->opcode) {
case JIM_EXPROP_FUNC_SIN:
dC = sin(dA);
break;
case JIM_EXPROP_FUNC_COS:
dC = cos(dA);
break;
case JIM_EXPROP_FUNC_TAN:
dC = tan(dA);
break;
case JIM_EXPROP_FUNC_ASIN:
dC = asin(dA);
break;
case JIM_EXPROP_FUNC_ACOS:
dC = acos(dA);
break;
case JIM_EXPROP_FUNC_ATAN:
dC = atan(dA);
break;
case JIM_EXPROP_FUNC_SINH:
dC = sinh(dA);
break;
case JIM_EXPROP_FUNC_COSH:
dC = cosh(dA);
break;
case JIM_EXPROP_FUNC_TANH:
dC = tanh(dA);
break;
case JIM_EXPROP_FUNC_CEIL:
dC = ceil(dA);
break;
case JIM_EXPROP_FUNC_FLOOR:
dC = floor(dA);
break;
case JIM_EXPROP_FUNC_EXP:
dC = exp(dA);
break;
case JIM_EXPROP_FUNC_LOG:
dC = log(dA);
break;
case JIM_EXPROP_FUNC_LOG10:
dC = log10(dA);
break;
case JIM_EXPROP_FUNC_SQRT:
dC = sqrt(dA);
break;
default:
abort();
}
ExprPush(e, Jim_NewDoubleObj(interp, dC));
}
Jim_DecrRefCount(interp, A);
return rc;
}
#endif
/* A binary operation on two ints */
static int JimExprOpIntBin(Jim_Interp *interp, struct JimExprState *e)
{
Jim_Obj *B = ExprPop(e);
Jim_Obj *A = ExprPop(e);
jim_wide wA, wB;
int rc = JIM_ERR;
if (Jim_GetWide(interp, A, &wA) == JIM_OK && Jim_GetWide(interp, B, &wB) == JIM_OK) {
jim_wide wC;
rc = JIM_OK;
switch (e->opcode) {
case JIM_EXPROP_LSHIFT:
wC = wA << wB;
break;
case JIM_EXPROP_RSHIFT:
wC = wA >> wB;
break;
case JIM_EXPROP_BITAND:
wC = wA & wB;
break;
case JIM_EXPROP_BITXOR:
wC = wA ^ wB;
break;
case JIM_EXPROP_BITOR:
wC = wA | wB;
break;
case JIM_EXPROP_MOD:
if (wB == 0) {
wC = 0;
Jim_SetResultString(interp, "Division by zero", -1);
rc = JIM_ERR;
}
else {
/*
* From Tcl 8.x
*
* This code is tricky: C doesn't guarantee much
* about the quotient or remainder, but Tcl does.
* The remainder always has the same sign as the
* divisor and a smaller absolute value.
*/
int negative = 0;
if (wB < 0) {
wB = -wB;
wA = -wA;
negative = 1;
}
wC = wA % wB;
if (wC < 0) {
wC += wB;
}
if (negative) {
wC = -wC;
}
}
break;
case JIM_EXPROP_ROTL:
case JIM_EXPROP_ROTR:{
/* uint32_t would be better. But not everyone has inttypes.h? */
unsigned long uA = (unsigned long)wA;
unsigned long uB = (unsigned long)wB;
const unsigned int S = sizeof(unsigned long) * 8;
/* Shift left by the word size or more is undefined. */
uB %= S;
if (e->opcode == JIM_EXPROP_ROTR) {
uB = S - uB;
}
wC = (unsigned long)(uA << uB) | (uA >> (S - uB));
break;
}
default:
abort();
}
ExprPush(e, Jim_NewIntObj(interp, wC));
}
Jim_DecrRefCount(interp, A);
Jim_DecrRefCount(interp, B);
return rc;
}
/* A binary operation on two ints or two doubles (or two strings for some ops) */
static int JimExprOpBin(Jim_Interp *interp, struct JimExprState *e)
{
int intresult = 0;
int rc = JIM_OK;
double dA, dB, dC = 0;
jim_wide wA, wB, wC = 0;
Jim_Obj *B = ExprPop(e);
Jim_Obj *A = ExprPop(e);
if ((A->typePtr != &doubleObjType || A->bytes) &&
(B->typePtr != &doubleObjType || B->bytes) &&
JimGetWideNoErr(interp, A, &wA) == JIM_OK && JimGetWideNoErr(interp, B, &wB) == JIM_OK) {
/* Both are ints */
intresult = 1;
switch (e->opcode) {
case JIM_EXPROP_POW:
wC = JimPowWide(wA, wB);
break;
case JIM_EXPROP_ADD:
wC = wA + wB;
break;
case JIM_EXPROP_SUB:
wC = wA - wB;
break;
case JIM_EXPROP_MUL:
wC = wA * wB;
break;
case JIM_EXPROP_DIV:
if (wB == 0) {
Jim_SetResultString(interp, "Division by zero", -1);
rc = JIM_ERR;
}
else {
/*
* From Tcl 8.x
*
* This code is tricky: C doesn't guarantee much
* about the quotient or remainder, but Tcl does.
* The remainder always has the same sign as the
* divisor and a smaller absolute value.
*/
if (wB < 0) {
wB = -wB;
wA = -wA;
}
wC = wA / wB;
if (wA % wB < 0) {
wC--;
}
}
break;
case JIM_EXPROP_LT:
wC = wA < wB;
break;
case JIM_EXPROP_GT:
wC = wA > wB;
break;
case JIM_EXPROP_LTE:
wC = wA <= wB;
break;
case JIM_EXPROP_GTE:
wC = wA >= wB;
break;
case JIM_EXPROP_NUMEQ:
wC = wA == wB;
break;
case JIM_EXPROP_NUMNE:
wC = wA != wB;
break;
default:
abort();
}
}
else if (Jim_GetDouble(interp, A, &dA) == JIM_OK && Jim_GetDouble(interp, B, &dB) == JIM_OK) {
switch (e->opcode) {
case JIM_EXPROP_POW:
#ifdef JIM_MATH_FUNCTIONS
dC = pow(dA, dB);
#else
Jim_SetResultString(interp, "unsupported", -1);
rc = JIM_ERR;
#endif
break;
case JIM_EXPROP_ADD:
dC = dA + dB;
break;
case JIM_EXPROP_SUB:
dC = dA - dB;
break;
case JIM_EXPROP_MUL:
dC = dA * dB;
break;
case JIM_EXPROP_DIV:
if (dB == 0) {
#ifdef INFINITY
dC = dA < 0 ? -INFINITY : INFINITY;
#else
dC = (dA < 0 ? -1.0 : 1.0) * strtod("Inf", NULL);
#endif
}
else {
dC = dA / dB;
}
break;
case JIM_EXPROP_LT:
wC = dA < dB;
intresult = 1;
break;
case JIM_EXPROP_GT:
wC = dA > dB;
intresult = 1;
break;
case JIM_EXPROP_LTE:
wC = dA <= dB;
intresult = 1;
break;
case JIM_EXPROP_GTE:
wC = dA >= dB;
intresult = 1;
break;
case JIM_EXPROP_NUMEQ:
wC = dA == dB;
intresult = 1;
break;
case JIM_EXPROP_NUMNE:
wC = dA != dB;
intresult = 1;
break;
default:
abort();
}
}
else {
/* Handle the string case */
/* REVISIT: Could optimise the eq/ne case by checking lengths */
int i = Jim_StringCompareObj(interp, A, B, 0);
intresult = 1;
switch (e->opcode) {
case JIM_EXPROP_LT:
wC = i < 0;
break;
case JIM_EXPROP_GT:
wC = i > 0;
break;
case JIM_EXPROP_LTE:
wC = i <= 0;
break;
case JIM_EXPROP_GTE:
wC = i >= 0;
break;
case JIM_EXPROP_NUMEQ:
wC = i == 0;
break;
case JIM_EXPROP_NUMNE:
wC = i != 0;
break;
default:
rc = JIM_ERR;
break;
}
}
if (rc == JIM_OK) {
if (intresult) {
ExprPush(e, Jim_NewIntObj(interp, wC));
}
else {
ExprPush(e, Jim_NewDoubleObj(interp, dC));
}
}
Jim_DecrRefCount(interp, A);
Jim_DecrRefCount(interp, B);
return rc;
}
static int JimSearchList(Jim_Interp *interp, Jim_Obj *listObjPtr, Jim_Obj *valObj)
{
int listlen;
int i;
listlen = Jim_ListLength(interp, listObjPtr);
for (i = 0; i < listlen; i++) {
Jim_Obj *objPtr;
Jim_ListIndex(interp, listObjPtr, i, &objPtr, JIM_NONE);
if (Jim_StringEqObj(objPtr, valObj)) {
return 1;
}
}
return 0;
}
static int JimExprOpStrBin(Jim_Interp *interp, struct JimExprState *e)
{
Jim_Obj *B = ExprPop(e);
Jim_Obj *A = ExprPop(e);
jim_wide wC;
switch (e->opcode) {
case JIM_EXPROP_STREQ:
case JIM_EXPROP_STRNE: {
int Alen, Blen;
const char *sA = Jim_GetString(A, &Alen);
const char *sB = Jim_GetString(B, &Blen);
if (e->opcode == JIM_EXPROP_STREQ) {
wC = (Alen == Blen && memcmp(sA, sB, Alen) == 0);
}
else {
wC = (Alen != Blen || memcmp(sA, sB, Alen) != 0);
}
break;
}
case JIM_EXPROP_STRIN:
wC = JimSearchList(interp, B, A);
break;
case JIM_EXPROP_STRNI:
wC = !JimSearchList(interp, B, A);
break;
default:
abort();
}
ExprPush(e, Jim_NewIntObj(interp, wC));
Jim_DecrRefCount(interp, A);
Jim_DecrRefCount(interp, B);
return JIM_OK;
}
static int ExprBool(Jim_Interp *interp, Jim_Obj *obj)
{
long l;
double d;
if (Jim_GetLong(interp, obj, &l) == JIM_OK) {
return l != 0;
}
if (Jim_GetDouble(interp, obj, &d) == JIM_OK) {
return d != 0;
}
return -1;
}
static int JimExprOpAndLeft(Jim_Interp *interp, struct JimExprState *e)
{
Jim_Obj *skip = ExprPop(e);
Jim_Obj *A = ExprPop(e);
int rc = JIM_OK;
switch (ExprBool(interp, A)) {
case 0:
/* false, so skip RHS opcodes with a 0 result */
e->skip = JimWideValue(skip);
ExprPush(e, Jim_NewIntObj(interp, 0));
break;
case 1:
/* true so continue */
break;
case -1:
/* Invalid */
rc = JIM_ERR;
}
Jim_DecrRefCount(interp, A);
Jim_DecrRefCount(interp, skip);
return rc;
}
static int JimExprOpOrLeft(Jim_Interp *interp, struct JimExprState *e)
{
Jim_Obj *skip = ExprPop(e);
Jim_Obj *A = ExprPop(e);
int rc = JIM_OK;
switch (ExprBool(interp, A)) {
case 0:
/* false, so do nothing */
break;
case 1:
/* true so skip RHS opcodes with a 1 result */
e->skip = JimWideValue(skip);
ExprPush(e, Jim_NewIntObj(interp, 1));
break;
case -1:
/* Invalid */
rc = JIM_ERR;
break;
}
Jim_DecrRefCount(interp, A);
Jim_DecrRefCount(interp, skip);
return rc;
}
static int JimExprOpAndOrRight(Jim_Interp *interp, struct JimExprState *e)
{
Jim_Obj *A = ExprPop(e);
int rc = JIM_OK;
switch (ExprBool(interp, A)) {
case 0:
ExprPush(e, Jim_NewIntObj(interp, 0));
break;
case 1:
ExprPush(e, Jim_NewIntObj(interp, 1));
break;
case -1:
/* Invalid */
rc = JIM_ERR;
break;
}
Jim_DecrRefCount(interp, A);
return rc;
}
static int JimExprOpTernaryLeft(Jim_Interp *interp, struct JimExprState *e)
{
Jim_Obj *skip = ExprPop(e);
Jim_Obj *A = ExprPop(e);
int rc = JIM_OK;
/* Repush A */
ExprPush(e, A);
switch (ExprBool(interp, A)) {
case 0:
/* false, skip RHS opcodes */
e->skip = JimWideValue(skip);
/* Push a dummy value */
ExprPush(e, Jim_NewIntObj(interp, 0));
break;
case 1:
/* true so do nothing */
break;
case -1:
/* Invalid */
rc = JIM_ERR;
break;
}
Jim_DecrRefCount(interp, A);
Jim_DecrRefCount(interp, skip);
return rc;
}
static int JimExprOpColonLeft(Jim_Interp *interp, struct JimExprState *e)
{
Jim_Obj *skip = ExprPop(e);
Jim_Obj *B = ExprPop(e);
Jim_Obj *A = ExprPop(e);
/* No need to check for A as non-boolean */
if (ExprBool(interp, A)) {
/* true, so skip RHS opcodes */
e->skip = JimWideValue(skip);
/* Repush B as the answer */
ExprPush(e, B);
}
Jim_DecrRefCount(interp, skip);
Jim_DecrRefCount(interp, A);
Jim_DecrRefCount(interp, B);
return JIM_OK;
}
static int JimExprOpNull(Jim_Interp *interp, struct JimExprState *e)
{
return JIM_OK;
}
enum
{
LAZY_NONE,
LAZY_OP,
LAZY_LEFT,
LAZY_RIGHT
};
/* name - precedence - arity - opcode */
static const struct Jim_ExprOperator Jim_ExprOperators[] = {
[JIM_EXPROP_FUNC_INT] = {"int", 400, 1, JimExprOpNumUnary, LAZY_NONE},
[JIM_EXPROP_FUNC_DOUBLE] = {"double", 400, 1, JimExprOpNumUnary, LAZY_NONE},
[JIM_EXPROP_FUNC_ABS] = {"abs", 400, 1, JimExprOpNumUnary, LAZY_NONE},
[JIM_EXPROP_FUNC_ROUND] = {"round", 400, 1, JimExprOpNumUnary, LAZY_NONE},
[JIM_EXPROP_FUNC_RAND] = {"rand", 400, 0, JimExprOpNone, LAZY_NONE},
[JIM_EXPROP_FUNC_SRAND] = {"srand", 400, 1, JimExprOpIntUnary, LAZY_NONE},
#ifdef JIM_MATH_FUNCTIONS
[JIM_EXPROP_FUNC_SIN] = {"sin", 400, 1, JimExprOpDoubleUnary, LAZY_NONE},
[JIM_EXPROP_FUNC_COS] = {"cos", 400, 1, JimExprOpDoubleUnary, LAZY_NONE},
[JIM_EXPROP_FUNC_TAN] = {"tan", 400, 1, JimExprOpDoubleUnary, LAZY_NONE},
[JIM_EXPROP_FUNC_ASIN] = {"asin", 400, 1, JimExprOpDoubleUnary, LAZY_NONE},
[JIM_EXPROP_FUNC_ACOS] = {"acos", 400, 1, JimExprOpDoubleUnary, LAZY_NONE},
[JIM_EXPROP_FUNC_ATAN] = {"atan", 400, 1, JimExprOpDoubleUnary, LAZY_NONE},
[JIM_EXPROP_FUNC_SINH] = {"sinh", 400, 1, JimExprOpDoubleUnary, LAZY_NONE},
[JIM_EXPROP_FUNC_COSH] = {"cosh", 400, 1, JimExprOpDoubleUnary, LAZY_NONE},
[JIM_EXPROP_FUNC_TANH] = {"tanh", 400, 1, JimExprOpDoubleUnary, LAZY_NONE},
[JIM_EXPROP_FUNC_CEIL] = {"ceil", 400, 1, JimExprOpDoubleUnary, LAZY_NONE},
[JIM_EXPROP_FUNC_FLOOR] = {"floor", 400, 1, JimExprOpDoubleUnary, LAZY_NONE},
[JIM_EXPROP_FUNC_EXP] = {"exp", 400, 1, JimExprOpDoubleUnary, LAZY_NONE},
[JIM_EXPROP_FUNC_LOG] = {"log", 400, 1, JimExprOpDoubleUnary, LAZY_NONE},
[JIM_EXPROP_FUNC_LOG10] = {"log10", 400, 1, JimExprOpDoubleUnary, LAZY_NONE},
[JIM_EXPROP_FUNC_SQRT] = {"sqrt", 400, 1, JimExprOpDoubleUnary, LAZY_NONE},
#endif
[JIM_EXPROP_NOT] = {"!", 300, 1, JimExprOpNumUnary, LAZY_NONE},
[JIM_EXPROP_BITNOT] = {"~", 300, 1, JimExprOpIntUnary, LAZY_NONE},
[JIM_EXPROP_UNARYMINUS] = {NULL, 300, 1, JimExprOpNumUnary, LAZY_NONE},
[JIM_EXPROP_UNARYPLUS] = {NULL, 300, 1, JimExprOpNumUnary, LAZY_NONE},
[JIM_EXPROP_POW] = {"**", 250, 2, JimExprOpBin, LAZY_NONE},
[JIM_EXPROP_MUL] = {"*", 200, 2, JimExprOpBin, LAZY_NONE},
[JIM_EXPROP_DIV] = {"/", 200, 2, JimExprOpBin, LAZY_NONE},
[JIM_EXPROP_MOD] = {"%", 200, 2, JimExprOpIntBin, LAZY_NONE},
[JIM_EXPROP_SUB] = {"-", 100, 2, JimExprOpBin, LAZY_NONE},
[JIM_EXPROP_ADD] = {"+", 100, 2, JimExprOpBin, LAZY_NONE},
[JIM_EXPROP_ROTL] = {"<<<", 90, 2, JimExprOpIntBin, LAZY_NONE},
[JIM_EXPROP_ROTR] = {">>>", 90, 2, JimExprOpIntBin, LAZY_NONE},
[JIM_EXPROP_LSHIFT] = {"<<", 90, 2, JimExprOpIntBin, LAZY_NONE},
[JIM_EXPROP_RSHIFT] = {">>", 90, 2, JimExprOpIntBin, LAZY_NONE},
[JIM_EXPROP_LT] = {"<", 80, 2, JimExprOpBin, LAZY_NONE},
[JIM_EXPROP_GT] = {">", 80, 2, JimExprOpBin, LAZY_NONE},
[JIM_EXPROP_LTE] = {"<=", 80, 2, JimExprOpBin, LAZY_NONE},
[JIM_EXPROP_GTE] = {">=", 80, 2, JimExprOpBin, LAZY_NONE},
[JIM_EXPROP_NUMEQ] = {"==", 70, 2, JimExprOpBin, LAZY_NONE},
[JIM_EXPROP_NUMNE] = {"!=", 70, 2, JimExprOpBin, LAZY_NONE},
[JIM_EXPROP_STREQ] = {"eq", 60, 2, JimExprOpStrBin, LAZY_NONE},
[JIM_EXPROP_STRNE] = {"ne", 60, 2, JimExprOpStrBin, LAZY_NONE},
[JIM_EXPROP_STRIN] = {"in", 55, 2, JimExprOpStrBin, LAZY_NONE},
[JIM_EXPROP_STRNI] = {"ni", 55, 2, JimExprOpStrBin, LAZY_NONE},
[JIM_EXPROP_BITAND] = {"&", 50, 2, JimExprOpIntBin, LAZY_NONE},
[JIM_EXPROP_BITXOR] = {"^", 49, 2, JimExprOpIntBin, LAZY_NONE},
[JIM_EXPROP_BITOR] = {"|", 48, 2, JimExprOpIntBin, LAZY_NONE},
[JIM_EXPROP_LOGICAND] = {"&&", 10, 2, NULL, LAZY_OP},
[JIM_EXPROP_LOGICOR] = {"||", 9, 2, NULL, LAZY_OP},
[JIM_EXPROP_TERNARY] = {"?", 5, 2, JimExprOpNull, LAZY_OP},
[JIM_EXPROP_COLON] = {":", 5, 2, JimExprOpNull, LAZY_OP},
/* private operators */
[JIM_EXPROP_TERNARY_LEFT] = {NULL, 5, 2, JimExprOpTernaryLeft, LAZY_LEFT},
[JIM_EXPROP_TERNARY_RIGHT] = {NULL, 5, 2, JimExprOpNull, LAZY_RIGHT},
[JIM_EXPROP_COLON_LEFT] = {NULL, 5, 2, JimExprOpColonLeft, LAZY_LEFT},
[JIM_EXPROP_COLON_RIGHT] = {NULL, 5, 2, JimExprOpNull, LAZY_RIGHT},
[JIM_EXPROP_LOGICAND_LEFT] = {NULL, 10, 2, JimExprOpAndLeft, LAZY_LEFT},
[JIM_EXPROP_LOGICAND_RIGHT] = {NULL, 10, 2, JimExprOpAndOrRight, LAZY_RIGHT},
[JIM_EXPROP_LOGICOR_LEFT] = {NULL, 9, 2, JimExprOpOrLeft, LAZY_LEFT},
[JIM_EXPROP_LOGICOR_RIGHT] = {NULL, 9, 2, JimExprOpAndOrRight, LAZY_RIGHT},
};
#define JIM_EXPR_OPERATORS_NUM \
(sizeof(Jim_ExprOperators)/sizeof(struct Jim_ExprOperator))
static int JimParseExpression(struct JimParserCtx *pc)
{
/* Discard spaces and quoted newline */
while (isspace(UCHAR(*pc->p)) || (*(pc->p) == '\\' && *(pc->p + 1) == '\n')) {
pc->p++;
pc->len--;
}
if (pc->len == 0) {
pc->tstart = pc->tend = pc->p;
pc->tline = pc->linenr;
pc->tt = JIM_TT_EOL;
pc->eof = 1;
return JIM_OK;
}
switch (*(pc->p)) {
case '(':
pc->tstart = pc->tend = pc->p;
pc->tline = pc->linenr;
pc->tt = JIM_TT_SUBEXPR_START;
pc->p++;
pc->len--;
break;
case ')':
pc->tstart = pc->tend = pc->p;
pc->tline = pc->linenr;
pc->tt = JIM_TT_SUBEXPR_END;
pc->p++;
pc->len--;
break;
case '[':
return JimParseCmd(pc);
case '$':
if (JimParseVar(pc) == JIM_ERR)
return JimParseExprOperator(pc);
else {
/* Don't allow expr sugar in expressions */
if (pc->tt == JIM_TT_EXPRSUGAR) {
return JIM_ERR;
}
return JIM_OK;
}
break;
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9':
case '.':
return JimParseExprNumber(pc);
case '"':
return JimParseQuote(pc);
case '{':
return JimParseBrace(pc);
case 'N':
case 'I':
case 'n':
case 'i':
if (JimParseExprIrrational(pc) == JIM_ERR)
return JimParseExprOperator(pc);
break;
default:
return JimParseExprOperator(pc);
break;
}
return JIM_OK;
}
static int JimParseExprNumber(struct JimParserCtx *pc)
{
int allowdot = 1;
int allowhex = 0;
/* Assume an integer for now */
pc->tt = JIM_TT_EXPR_INT;
pc->tstart = pc->p;
pc->tline = pc->linenr;
while (isdigit(UCHAR(*pc->p))
|| (allowhex && isxdigit(UCHAR(*pc->p)))
|| (allowdot && *pc->p == '.')
|| (pc->p - pc->tstart == 1 && *pc->tstart == '0' && (*pc->p == 'x' || *pc->p == 'X'))
) {
if ((*pc->p == 'x') || (*pc->p == 'X')) {
allowhex = 1;
allowdot = 0;
}
if (*pc->p == '.') {
allowdot = 0;
pc->tt = JIM_TT_EXPR_DOUBLE;
}
pc->p++;
pc->len--;
if (!allowhex && (*pc->p == 'e' || *pc->p == 'E') && (pc->p[1] == '-' || pc->p[1] == '+'
|| isdigit(UCHAR(pc->p[1])))) {
pc->p += 2;
pc->len -= 2;
pc->tt = JIM_TT_EXPR_DOUBLE;
}
}
pc->tend = pc->p - 1;
return JIM_OK;
}
static int JimParseExprIrrational(struct JimParserCtx *pc)
{
const char *Tokens[] = { "NaN", "nan", "NAN", "Inf", "inf", "INF", NULL };
const char **token;
for (token = Tokens; *token != NULL; token++) {
int len = strlen(*token);
if (strncmp(*token, pc->p, len) == 0) {
pc->tstart = pc->p;
pc->tend = pc->p + len - 1;
pc->p += len;
pc->len -= len;
pc->tline = pc->linenr;
pc->tt = JIM_TT_EXPR_DOUBLE;
return JIM_OK;
}
}
return JIM_ERR;
}
static int JimParseExprOperator(struct JimParserCtx *pc)
{
int i;
int bestIdx = -1, bestLen = 0;
/* Try to get the longest match. */
for (i = JIM_TT_EXPR_OP; i < (signed)JIM_EXPR_OPERATORS_NUM; i++) {
const char *opname;
int oplen;
opname = Jim_ExprOperators[i].name;
if (opname == NULL) {
continue;
}
oplen = strlen(opname);
if (strncmp(opname, pc->p, oplen) == 0 && oplen > bestLen) {
bestIdx = i;
bestLen = oplen;
}
}
if (bestIdx == -1) {
return JIM_ERR;
}
/* Validate paretheses around function arguments */
if (bestIdx >= JIM_EXPROP_FUNC_FIRST) {
const char *p = pc->p + bestLen;
int len = pc->len - bestLen;
while (len && isspace(UCHAR(*p))) {
len--;
p++;
}
if (*p != '(') {
return JIM_ERR;
}
}
pc->tstart = pc->p;
pc->tend = pc->p + bestLen - 1;
pc->p += bestLen;
pc->len -= bestLen;
pc->tline = pc->linenr;
pc->tt = bestIdx;
return JIM_OK;
}
static const struct Jim_ExprOperator *JimExprOperatorInfoByOpcode(int opcode)
{
return &Jim_ExprOperators[opcode];
}
const char *jim_tt_name(int type)
{
static const char * const tt_names[JIM_TT_EXPR_OP] =
{ "NIL", "STR", "ESC", "VAR", "ARY", "CMD", "SEP", "EOL", "EOF", "LIN", "WRD", "(((", ")))", "INT",
"DBL", "$()" };
if (type < JIM_TT_EXPR_OP) {
return tt_names[type];
}
else {
const struct Jim_ExprOperator *op = JimExprOperatorInfoByOpcode(type);
static char buf[20];
if (op && op->name) {
return op->name;
}
sprintf(buf, "(%d)", type);
return buf;
}
}
/* -----------------------------------------------------------------------------
* Expression Object
* ---------------------------------------------------------------------------*/
static void FreeExprInternalRep(Jim_Interp *interp, Jim_Obj *objPtr);
static void DupExprInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr);
static int SetExprFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr);
static const Jim_ObjType exprObjType = {
"expression",
FreeExprInternalRep,
DupExprInternalRep,
NULL,
JIM_TYPE_REFERENCES,
};
/* Expr bytecode structure */
typedef struct ExprByteCode
{
int len; /* Length as number of tokens. */
ScriptToken *token; /* Tokens array. */
int inUse; /* Used for sharing. */
} ExprByteCode;
static void ExprFreeByteCode(Jim_Interp *interp, ExprByteCode * expr)
{
int i;
for (i = 0; i < expr->len; i++) {
Jim_DecrRefCount(interp, expr->token[i].objPtr);
}
Jim_Free(expr->token);
Jim_Free(expr);
}
static void FreeExprInternalRep(Jim_Interp *interp, Jim_Obj *objPtr)
{
ExprByteCode *expr = (void *)objPtr->internalRep.ptr;
if (expr) {
if (--expr->inUse != 0) {
return;
}
ExprFreeByteCode(interp, expr);
}
}
static void DupExprInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr)
{
JIM_NOTUSED(interp);
JIM_NOTUSED(srcPtr);
/* Just returns an simple string. */
dupPtr->typePtr = NULL;
}
/* Check if an expr program looks correct. */
static int ExprCheckCorrectness(ExprByteCode * expr)
{
int i;
int stacklen = 0;
int ternary = 0;
/* Try to check if there are stack underflows,
* and make sure at the end of the program there is
* a single result on the stack. */
for (i = 0; i < expr->len; i++) {
ScriptToken *t = &expr->token[i];
const struct Jim_ExprOperator *op = JimExprOperatorInfoByOpcode(t->type);
if (op) {
stacklen -= op->arity;
if (stacklen < 0) {
break;
}
if (t->type == JIM_EXPROP_TERNARY || t->type == JIM_EXPROP_TERNARY_LEFT) {
ternary++;
}
else if (t->type == JIM_EXPROP_COLON || t->type == JIM_EXPROP_COLON_LEFT) {
ternary--;
}
}
/* All operations and operands add one to the stack */
stacklen++;
}
if (stacklen != 1 || ternary != 0) {
return JIM_ERR;
}
return JIM_OK;
}
/* This procedure converts every occurrence of || and && opereators
* in lazy unary versions.
*
* a b || is converted into:
*
* a <offset> |L b |R
*
* a b && is converted into:
*
* a <offset> &L b &R
*
* "|L" checks if 'a' is true:
* 1) if it is true pushes 1 and skips <offset> instructions to reach
* the opcode just after |R.
* 2) if it is false does nothing.
* "|R" checks if 'b' is true:
* 1) if it is true pushes 1, otherwise pushes 0.
*
* "&L" checks if 'a' is true:
* 1) if it is true does nothing.
* 2) If it is false pushes 0 and skips <offset> instructions to reach
* the opcode just after &R
* "&R" checks if 'a' is true:
* if it is true pushes 1, otherwise pushes 0.
*/
static int ExprAddLazyOperator(Jim_Interp *interp, ExprByteCode * expr, ParseToken *t)
{
int i;
int leftindex, arity, offset;
/* Search for the end of the first operator */
leftindex = expr->len - 1;
arity = 1;
while (arity) {
ScriptToken *tt = &expr->token[leftindex];
if (tt->type >= JIM_TT_EXPR_OP) {
arity += JimExprOperatorInfoByOpcode(tt->type)->arity;
}
arity--;
if (--leftindex < 0) {
return JIM_ERR;
}
}
leftindex++;
/* Move them up */
memmove(&expr->token[leftindex + 2], &expr->token[leftindex],
sizeof(*expr->token) * (expr->len - leftindex));
expr->len += 2;
offset = (expr->len - leftindex) - 1;
/* Now we rely on the fact the the left and right version have opcodes
* 1 and 2 after the main opcode respectively
*/
expr->token[leftindex + 1].type = t->type + 1;
expr->token[leftindex + 1].objPtr = interp->emptyObj;
expr->token[leftindex].type = JIM_TT_EXPR_INT;
expr->token[leftindex].objPtr = Jim_NewIntObj(interp, offset);
/* Now add the 'R' operator */
expr->token[expr->len].objPtr = interp->emptyObj;
expr->token[expr->len].type = t->type + 2;
expr->len++;
/* Do we need to adjust the skip count for any &L, |L, ?L or :L in the left operand? */
for (i = leftindex - 1; i > 0; i--) {
if (JimExprOperatorInfoByOpcode(expr->token[i].type)->lazy == LAZY_LEFT) {
if (JimWideValue(expr->token[i - 1].objPtr) + i - 1 >= leftindex) {
JimWideValue(expr->token[i - 1].objPtr) += 2;
}
}
}
return JIM_OK;
}
static int ExprAddOperator(Jim_Interp *interp, ExprByteCode * expr, ParseToken *t)
{
struct ScriptToken *token = &expr->token[expr->len];
if (JimExprOperatorInfoByOpcode(t->type)->lazy == LAZY_OP) {
return ExprAddLazyOperator(interp, expr, t);
}
else {
token->objPtr = interp->emptyObj;
token->type = t->type;
expr->len++;
return JIM_OK;
}
}
/**
* Returns the index of the COLON_LEFT to the left of 'right_index'
* taking into account nesting.
*
* The expression *must* be well formed, thus a COLON_LEFT will always be found.
*/
static int ExprTernaryGetColonLeftIndex(ExprByteCode *expr, int right_index)
{
int ternary_count = 1;
right_index--;
while (right_index > 1) {
if (expr->token[right_index].type == JIM_EXPROP_TERNARY_LEFT) {
ternary_count--;
}
else if (expr->token[right_index].type == JIM_EXPROP_COLON_RIGHT) {
ternary_count++;
}
else if (expr->token[right_index].type == JIM_EXPROP_COLON_LEFT && ternary_count == 1) {
return right_index;
}
right_index--;
}
/*notreached*/
return -1;
}
/**
* Find the left/right indices for the ternary expression to the left of 'right_index'.
*
* Returns 1 if found, and fills in *prev_right_index and *prev_left_index.
* Otherwise returns 0.
*/
static int ExprTernaryGetMoveIndices(ExprByteCode *expr, int right_index, int *prev_right_index, int *prev_left_index)
{
int i = right_index - 1;
int ternary_count = 1;
while (i > 1) {
if (expr->token[i].type == JIM_EXPROP_TERNARY_LEFT) {
if (--ternary_count == 0 && expr->token[i - 2].type == JIM_EXPROP_COLON_RIGHT) {
*prev_right_index = i - 2;
*prev_left_index = ExprTernaryGetColonLeftIndex(expr, *prev_right_index);
return 1;
}
}
else if (expr->token[i].type == JIM_EXPROP_COLON_RIGHT) {
if (ternary_count == 0) {
return 0;
}
ternary_count++;
}
i--;
}
return 0;
}
/*
* ExprTernaryReorderExpression description
* ========================================
*
* ?: is right-to-left associative which doesn't work with the stack-based
* expression engine. The fix is to reorder the bytecode.
*
* The expression:
*
* expr 1?2:0?3:4
*
* Has initial bytecode:
*
* '1' '2' (40=TERNARY_LEFT) '2' (41=TERNARY_RIGHT) '2' (43=COLON_LEFT) '0' (44=COLON_RIGHT)
* '2' (40=TERNARY_LEFT) '3' (41=TERNARY_RIGHT) '2' (43=COLON_LEFT) '4' (44=COLON_RIGHT)
*
* The fix involves simulating this expression instead:
*
* expr 1?2:(0?3:4)
*
* With the following bytecode:
*
* '1' '2' (40=TERNARY_LEFT) '2' (41=TERNARY_RIGHT) '10' (43=COLON_LEFT) '0' '2' (40=TERNARY_LEFT)
* '3' (41=TERNARY_RIGHT) '2' (43=COLON_LEFT) '4' (44=COLON_RIGHT) (44=COLON_RIGHT)
*
* i.e. The token COLON_RIGHT at index 8 is moved towards the end of the stack, all tokens above 8
* are shifted down and the skip count of the token JIM_EXPROP_COLON_LEFT at index 5 is
* incremented by the amount tokens shifted down. The token JIM_EXPROP_COLON_RIGHT that is moved
* is identified as immediately preceeding a token JIM_EXPROP_TERNARY_LEFT
*
* ExprTernaryReorderExpression works thus as follows :
* - start from the end of the stack
* - while walking towards the beginning of the stack
* if token=JIM_EXPROP_COLON_RIGHT then
* find the associated token JIM_EXPROP_TERNARY_LEFT, which allows to
* find the associated token previous(JIM_EXPROP_COLON_RIGHT)
* find the associated token previous(JIM_EXPROP_LEFT_RIGHT)
* if all found then
* perform the rotation
* update the skip count of the token previous(JIM_EXPROP_LEFT_RIGHT)
* end if
* end if
*
* Note: care has to be taken for nested ternary constructs!!!
*/
static void ExprTernaryReorderExpression(Jim_Interp *interp, ExprByteCode *expr)
{
int i;
for (i = expr->len - 1; i > 1; i--) {
int prev_right_index;
int prev_left_index;
int j;
ScriptToken tmp;
if (expr->token[i].type != JIM_EXPROP_COLON_RIGHT) {
continue;
}
/* COLON_RIGHT found: get the indexes needed to move the tokens in the stack (if any) */
if (ExprTernaryGetMoveIndices(expr, i, &prev_right_index, &prev_left_index) == 0) {
continue;
}
/*
** rotate tokens down
**
** +-> [i] : JIM_EXPROP_COLON_RIGHT
** | | |
** | V V
** | [...] : ...
** | | |
** | V V
** | [...] : ...
** | | |
** | V V
** +- [prev_right_index] : JIM_EXPROP_COLON_RIGHT
*/
tmp = expr->token[prev_right_index];
for (j = prev_right_index; j < i; j++) {
expr->token[j] = expr->token[j + 1];
}
expr->token[i] = tmp;
/* Increment the 'skip' count associated to the previous JIM_EXPROP_COLON_LEFT token
*
* This is 'colon left increment' = i - prev_right_index
*
* [prev_left_index] : JIM_EXPROP_LEFT_RIGHT
* [prev_left_index-1] : skip_count
*
*/
JimWideValue(expr->token[prev_left_index-1].objPtr) += (i - prev_right_index);
/* Adjust for i-- in the loop */
i++;
}
}
static ExprByteCode *ExprCreateByteCode(Jim_Interp *interp, const ParseTokenList *tokenlist)
{
Jim_Stack stack;
ExprByteCode *expr;
int ok = 1;
int i;
int prevtt = JIM_TT_NONE;
int have_ternary = 0;
/* -1 for EOL */
int count = tokenlist->count - 1;
expr = Jim_Alloc(sizeof(*expr));
expr->inUse = 1;
expr->len = 0;
Jim_InitStack(&stack);
/* Need extra bytecodes for lazy operators.
* Also check for the ternary operator
*/
for (i = 0; i < tokenlist->count; i++) {
ParseToken *t = &tokenlist->list[i];
if (JimExprOperatorInfoByOpcode(t->type)->lazy == LAZY_OP) {
count += 2;
/* Ternary is a lazy op but also needs reordering */
if (t->type == JIM_EXPROP_TERNARY) {
have_ternary = 1;
}
}
}
expr->token = Jim_Alloc(sizeof(ScriptToken) * count);
for (i = 0; i < tokenlist->count && ok; i++) {
ParseToken *t = &tokenlist->list[i];
/* Next token will be stored here */
struct ScriptToken *token = &expr->token[expr->len];
if (t->type == JIM_TT_EOL) {
break;
}
switch (t->type) {
case JIM_TT_STR:
case JIM_TT_ESC:
case JIM_TT_VAR:
case JIM_TT_DICTSUGAR:
case JIM_TT_EXPRSUGAR:
case JIM_TT_CMD:
token->objPtr = Jim_NewStringObj(interp, t->token, t->len);
token->type = t->type;
expr->len++;
break;
case JIM_TT_EXPR_INT:
token->objPtr = Jim_NewIntObj(interp, strtoull(t->token, NULL, 0));
token->type = t->type;
expr->len++;
break;
case JIM_TT_EXPR_DOUBLE:
token->objPtr = Jim_NewDoubleObj(interp, strtod(t->token, NULL));
token->type = t->type;
expr->len++;
break;
case JIM_TT_SUBEXPR_START:
Jim_StackPush(&stack, t);
prevtt = JIM_TT_NONE;
continue;
case JIM_TT_SUBEXPR_END:
ok = 0;
while (Jim_StackLen(&stack)) {
ParseToken *tt = Jim_StackPop(&stack);
if (tt->type == JIM_TT_SUBEXPR_START) {
ok = 1;
break;
}
if (ExprAddOperator(interp, expr, tt) != JIM_OK) {
goto err;
}
}
if (!ok) {
Jim_SetResultString(interp, "Unexpected close parenthesis", -1);
goto err;
}
break;
default:{
/* Must be an operator */
const struct Jim_ExprOperator *op;
ParseToken *tt;
/* Convert -/+ to unary minus or unary plus if necessary */
if (prevtt == JIM_TT_NONE || prevtt >= JIM_TT_EXPR_OP) {
if (t->type == JIM_EXPROP_SUB) {
t->type = JIM_EXPROP_UNARYMINUS;
}
else if (t->type == JIM_EXPROP_ADD) {
t->type = JIM_EXPROP_UNARYPLUS;
}
}
op = JimExprOperatorInfoByOpcode(t->type);
/* Now handle precedence */
while ((tt = Jim_StackPeek(&stack)) != NULL) {
const struct Jim_ExprOperator *tt_op =
JimExprOperatorInfoByOpcode(tt->type);
/* Note that right-to-left associativity of ?: operator is handled later */
if (op->arity != 1 && tt_op->precedence >= op->precedence) {
if (ExprAddOperator(interp, expr, tt) != JIM_OK) {
ok = 0;
goto err;
}
Jim_StackPop(&stack);
}
else {
break;
}
}
Jim_StackPush(&stack, t);
break;
}
}
prevtt = t->type;
}
/* Reduce any remaining subexpr */
while (Jim_StackLen(&stack)) {
ParseToken *tt = Jim_StackPop(&stack);
if (tt->type == JIM_TT_SUBEXPR_START) {
ok = 0;
Jim_SetResultString(interp, "Missing close parenthesis", -1);
goto err;
}
if (ExprAddOperator(interp, expr, tt) != JIM_OK) {
ok = 0;
goto err;
}
}
if (have_ternary) {
ExprTernaryReorderExpression(interp, expr);
}
err:
/* Free the stack used for the compilation. */
Jim_FreeStack(&stack);
for (i = 0; i < expr->len; i++) {
Jim_IncrRefCount(expr->token[i].objPtr);
}
if (!ok) {
ExprFreeByteCode(interp, expr);
return NULL;
}
return expr;
}
/* This method takes the string representation of an expression
* and generates a program for the Expr's stack-based VM. */
int SetExprFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr)
{
int exprTextLen;
const char *exprText;
struct JimParserCtx parser;
struct ExprByteCode *expr;
ParseTokenList tokenlist;
int rc = JIM_ERR;
int line = 1;
/* Try to get information about filename / line number */
if (objPtr->typePtr == &sourceObjType) {
line = objPtr->internalRep.sourceValue.lineNumber;
}
exprText = Jim_GetString(objPtr, &exprTextLen);
/* Initially tokenise the expression into tokenlist */
ScriptTokenListInit(&tokenlist);
JimParserInit(&parser, exprText, exprTextLen, line);
while (!parser.eof) {
if (JimParseExpression(&parser) != JIM_OK) {
ScriptTokenListFree(&tokenlist);
invalidexpr:
Jim_SetResultFormatted(interp, "syntax error in expression: \"%#s\"", objPtr);
expr = NULL;
goto err;
}
ScriptAddToken(&tokenlist, parser.tstart, parser.tend - parser.tstart + 1, parser.tt,
parser.tline);
}
#ifdef DEBUG_SHOW_EXPR_TOKENS
{
int i;
printf("==== Expr Tokens ====\n");
for (i = 0; i < tokenlist.count; i++) {
printf("[%2d]@%d %s '%.*s'\n", i, tokenlist.list[i].line, jim_tt_name(tokenlist.list[i].type),
tokenlist.list[i].len, tokenlist.list[i].token);
}
}
#endif
/* Now create the expression bytecode from the tokenlist */
expr = ExprCreateByteCode(interp, &tokenlist);
/* No longer need the token list */
ScriptTokenListFree(&tokenlist);
if (!expr) {
goto err;
}
#ifdef DEBUG_SHOW_EXPR
{
int i;
printf("==== Expr ====\n");
for (i = 0; i < expr->len; i++) {
ScriptToken *t = &expr->token[i];
printf("[%2d] %s '%s'\n", i, jim_tt_name(t->type), Jim_String(t->objPtr));
}
}
#endif
/* Check program correctness. */
if (ExprCheckCorrectness(expr) != JIM_OK) {
ExprFreeByteCode(interp, expr);
goto invalidexpr;
}
rc = JIM_OK;
err:
/* Free the old internal rep and set the new one. */
Jim_FreeIntRep(interp, objPtr);
Jim_SetIntRepPtr(objPtr, expr);
objPtr->typePtr = &exprObjType;
return rc;
}
static ExprByteCode *JimGetExpression(Jim_Interp *interp, Jim_Obj *objPtr)
{
if (objPtr->typePtr != &exprObjType) {
if (SetExprFromAny(interp, objPtr) != JIM_OK) {
return NULL;
}
}
return (ExprByteCode *) Jim_GetIntRepPtr(objPtr);
}
/* -----------------------------------------------------------------------------
* Expressions evaluation.
* Jim uses a specialized stack-based virtual machine for expressions,
* that takes advantage of the fact that expr's operators
* can't be redefined.
*
* Jim_EvalExpression() uses the bytecode compiled by
* SetExprFromAny() method of the "expression" object.
*
* On success a Tcl Object containing the result of the evaluation
* is stored into expResultPtrPtr (having refcount of 1), and JIM_OK is
* returned.
* On error the function returns a retcode != to JIM_OK and set a suitable
* error on the interp.
* ---------------------------------------------------------------------------*/
#define JIM_EE_STATICSTACK_LEN 10
int Jim_EvalExpression(Jim_Interp *interp, Jim_Obj *exprObjPtr, Jim_Obj **exprResultPtrPtr)
{
ExprByteCode *expr;
Jim_Obj *staticStack[JIM_EE_STATICSTACK_LEN];
int i;
int retcode = JIM_OK;
struct JimExprState e;
expr = JimGetExpression(interp, exprObjPtr);
if (!expr) {
return JIM_ERR; /* error in expression. */
}
#ifdef JIM_OPTIMIZATION
/* Check for one of the following common expressions used by while/for
*
* CONST
* $a
* !$a
* $a < CONST, $a < $b
* $a <= CONST, $a <= $b
* $a > CONST, $a > $b
* $a >= CONST, $a >= $b
* $a != CONST, $a != $b
* $a == CONST, $a == $b
*/
{
Jim_Obj *objPtr;
/* STEP 1 -- Check if there are the conditions to run the specialized
* version of while */
switch (expr->len) {
case 1:
if (expr->token[0].type == JIM_TT_EXPR_INT) {
*exprResultPtrPtr = expr->token[0].objPtr;
Jim_IncrRefCount(*exprResultPtrPtr);
return JIM_OK;
}
if (expr->token[0].type == JIM_TT_VAR) {
objPtr = Jim_GetVariable(interp, expr->token[0].objPtr, JIM_ERRMSG);
if (objPtr) {
*exprResultPtrPtr = objPtr;
Jim_IncrRefCount(*exprResultPtrPtr);
return JIM_OK;
}
}
break;
case 2:
if (expr->token[1].type == JIM_EXPROP_NOT && expr->token[0].type == JIM_TT_VAR) {
jim_wide wideValue;
objPtr = Jim_GetVariable(interp, expr->token[0].objPtr, JIM_NONE);
if (objPtr && JimIsWide(objPtr)
&& Jim_GetWide(interp, objPtr, &wideValue) == JIM_OK) {
*exprResultPtrPtr = wideValue ? interp->falseObj : interp->trueObj;
Jim_IncrRefCount(*exprResultPtrPtr);
return JIM_OK;
}
}
break;
case 3:
if (expr->token[0].type == JIM_TT_VAR && (expr->token[1].type == JIM_TT_EXPR_INT
|| expr->token[1].type == JIM_TT_VAR)) {
switch (expr->token[2].type) {
case JIM_EXPROP_LT:
case JIM_EXPROP_LTE:
case JIM_EXPROP_GT:
case JIM_EXPROP_GTE:
case JIM_EXPROP_NUMEQ:
case JIM_EXPROP_NUMNE:{
/* optimise ok */
jim_wide wideValueA;
jim_wide wideValueB;
objPtr = Jim_GetVariable(interp, expr->token[0].objPtr, JIM_NONE);
if (objPtr && JimIsWide(objPtr)
&& Jim_GetWide(interp, objPtr, &wideValueA) == JIM_OK) {
if (expr->token[1].type == JIM_TT_VAR) {
objPtr =
Jim_GetVariable(interp, expr->token[1].objPtr,
JIM_NONE);
}
else {
objPtr = expr->token[1].objPtr;
}
if (objPtr && JimIsWide(objPtr)
&& Jim_GetWide(interp, objPtr, &wideValueB) == JIM_OK) {
int cmpRes;
switch (expr->token[2].type) {
case JIM_EXPROP_LT:
cmpRes = wideValueA < wideValueB;
break;
case JIM_EXPROP_LTE:
cmpRes = wideValueA <= wideValueB;
break;
case JIM_EXPROP_GT:
cmpRes = wideValueA > wideValueB;
break;
case JIM_EXPROP_GTE:
cmpRes = wideValueA >= wideValueB;
break;
case JIM_EXPROP_NUMEQ:
cmpRes = wideValueA == wideValueB;
break;
case JIM_EXPROP_NUMNE:
cmpRes = wideValueA != wideValueB;
break;
default: /*notreached */
cmpRes = 0;
}
*exprResultPtrPtr =
cmpRes ? interp->trueObj : interp->falseObj;
Jim_IncrRefCount(*exprResultPtrPtr);
return JIM_OK;
}
}
}
}
}
break;
}
}
#endif
/* In order to avoid that the internal repr gets freed due to
* shimmering of the exprObjPtr's object, we make the internal rep
* shared. */
expr->inUse++;
/* The stack-based expr VM itself */
/* Stack allocation. Expr programs have the feature that
* a program of length N can't require a stack longer than
* N. */
if (expr->len > JIM_EE_STATICSTACK_LEN)
e.stack = Jim_Alloc(sizeof(Jim_Obj *) * expr->len);
else
e.stack = staticStack;
e.stacklen = 0;
/* Execute every instruction */
for (i = 0; i < expr->len && retcode == JIM_OK; i++) {
Jim_Obj *objPtr;
switch (expr->token[i].type) {
case JIM_TT_EXPR_INT:
case JIM_TT_EXPR_DOUBLE:
case JIM_TT_STR:
ExprPush(&e, expr->token[i].objPtr);
break;
case JIM_TT_VAR:
objPtr = Jim_GetVariable(interp, expr->token[i].objPtr, JIM_ERRMSG);
if (objPtr) {
ExprPush(&e, objPtr);
}
else {
retcode = JIM_ERR;
}
break;
case JIM_TT_DICTSUGAR:
objPtr = JimExpandDictSugar(interp, expr->token[i].objPtr);
if (objPtr) {
ExprPush(&e, objPtr);
}
else {
retcode = JIM_ERR;
}
break;
case JIM_TT_ESC:
retcode = Jim_SubstObj(interp, expr->token[i].objPtr, &objPtr, JIM_NONE);
if (retcode == JIM_OK) {
ExprPush(&e, objPtr);
}
break;
case JIM_TT_CMD:
retcode = Jim_EvalObj(interp, expr->token[i].objPtr);
if (retcode == JIM_OK) {
ExprPush(&e, Jim_GetResult(interp));
}
break;
default:{
/* Find and execute the operation */
e.skip = 0;
e.opcode = expr->token[i].type;
retcode = JimExprOperatorInfoByOpcode(e.opcode)->funcop(interp, &e);
/* Skip some opcodes if necessary */
i += e.skip;
continue;
}
}
}
expr->inUse--;
if (retcode == JIM_OK) {
*exprResultPtrPtr = ExprPop(&e);
}
else {
for (i = 0; i < e.stacklen; i++) {
Jim_DecrRefCount(interp, e.stack[i]);
}
}
if (e.stack != staticStack) {
Jim_Free(e.stack);
}
return retcode;
}
int Jim_GetBoolFromExpr(Jim_Interp *interp, Jim_Obj *exprObjPtr, int *boolPtr)
{
int retcode;
jim_wide wideValue;
double doubleValue;
Jim_Obj *exprResultPtr;
retcode = Jim_EvalExpression(interp, exprObjPtr, &exprResultPtr);
if (retcode != JIM_OK)
return retcode;
if (JimGetWideNoErr(interp, exprResultPtr, &wideValue) != JIM_OK) {
if (Jim_GetDouble(interp, exprResultPtr, &doubleValue) != JIM_OK) {
Jim_DecrRefCount(interp, exprResultPtr);
return JIM_ERR;
}
else {
Jim_DecrRefCount(interp, exprResultPtr);
*boolPtr = doubleValue != 0;
return JIM_OK;
}
}
*boolPtr = wideValue != 0;
Jim_DecrRefCount(interp, exprResultPtr);
return JIM_OK;
}
/* -----------------------------------------------------------------------------
* ScanFormat String Object
* ---------------------------------------------------------------------------*/
/* This Jim_Obj will held a parsed representation of a format string passed to
* the Jim_ScanString command. For error diagnostics, the scanformat string has
* to be parsed in its entirely first and then, if correct, can be used for
* scanning. To avoid endless re-parsing, the parsed representation will be
* stored in an internal representation and re-used for performance reason. */
/* A ScanFmtPartDescr will held the information of /one/ part of the whole
* scanformat string. This part will later be used to extract information
* out from the string to be parsed by Jim_ScanString */
typedef struct ScanFmtPartDescr
{
char type; /* Type of conversion (e.g. c, d, f) */
char modifier; /* Modify type (e.g. l - long, h - short */
size_t width; /* Maximal width of input to be converted */
int pos; /* -1 - no assign, 0 - natural pos, >0 - XPG3 pos */
char *arg; /* Specification of a CHARSET conversion */
char *prefix; /* Prefix to be scanned literally before conversion */
} ScanFmtPartDescr;
/* The ScanFmtStringObj will hold the internal representation of a scanformat
* string parsed and separated in part descriptions. Furthermore it contains
* the original string representation of the scanformat string to allow for
* fast update of the Jim_Obj's string representation part.
*
* As an add-on the internal object representation adds some scratch pad area
* for usage by Jim_ScanString to avoid endless allocating and freeing of
* memory for purpose of string scanning.
*
* The error member points to a static allocated string in case of a mal-
* formed scanformat string or it contains '0' (NULL) in case of a valid
* parse representation.
*
* The whole memory of the internal representation is allocated as a single
* area of memory that will be internally separated. So freeing and duplicating
* of such an object is cheap */
typedef struct ScanFmtStringObj
{
jim_wide size; /* Size of internal repr in bytes */
char *stringRep; /* Original string representation */
size_t count; /* Number of ScanFmtPartDescr contained */
size_t convCount; /* Number of conversions that will assign */
size_t maxPos; /* Max position index if XPG3 is used */
const char *error; /* Ptr to error text (NULL if no error */
char *scratch; /* Some scratch pad used by Jim_ScanString */
ScanFmtPartDescr descr[1]; /* The vector of partial descriptions */
} ScanFmtStringObj;
static void FreeScanFmtInternalRep(Jim_Interp *interp, Jim_Obj *objPtr);
static void DupScanFmtInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr);
static void UpdateStringOfScanFmt(Jim_Obj *objPtr);
static const Jim_ObjType scanFmtStringObjType = {
"scanformatstring",
FreeScanFmtInternalRep,
DupScanFmtInternalRep,
UpdateStringOfScanFmt,
JIM_TYPE_NONE,
};
void FreeScanFmtInternalRep(Jim_Interp *interp, Jim_Obj *objPtr)
{
JIM_NOTUSED(interp);
Jim_Free((char *)objPtr->internalRep.ptr);
objPtr->internalRep.ptr = 0;
}
void DupScanFmtInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr)
{
size_t size = (size_t) ((ScanFmtStringObj *) srcPtr->internalRep.ptr)->size;
ScanFmtStringObj *newVec = (ScanFmtStringObj *) Jim_Alloc(size);
JIM_NOTUSED(interp);
memcpy(newVec, srcPtr->internalRep.ptr, size);
dupPtr->internalRep.ptr = newVec;
dupPtr->typePtr = &scanFmtStringObjType;
}
void UpdateStringOfScanFmt(Jim_Obj *objPtr)
{
char *bytes = ((ScanFmtStringObj *) objPtr->internalRep.ptr)->stringRep;
objPtr->bytes = Jim_StrDup(bytes);
objPtr->length = strlen(bytes);
}
/* SetScanFmtFromAny will parse a given string and create the internal
* representation of the format specification. In case of an error
* the error data member of the internal representation will be set
* to an descriptive error text and the function will be left with
* JIM_ERR to indicate unsucessful parsing (aka. malformed scanformat
* specification */
static int SetScanFmtFromAny(Jim_Interp *interp, Jim_Obj *objPtr)
{
ScanFmtStringObj *fmtObj;
char *buffer;
int maxCount, i, approxSize, lastPos = -1;
const char *fmt = objPtr->bytes;
int maxFmtLen = objPtr->length;
const char *fmtEnd = fmt + maxFmtLen;
int curr;
Jim_FreeIntRep(interp, objPtr);
/* Count how many conversions could take place maximally */
for (i = 0, maxCount = 0; i < maxFmtLen; ++i)
if (fmt[i] == '%')
++maxCount;
/* Calculate an approximation of the memory necessary */
approxSize = sizeof(ScanFmtStringObj) /* Size of the container */
+(maxCount + 1) * sizeof(ScanFmtPartDescr) /* Size of all partials */
+maxFmtLen * sizeof(char) + 3 + 1 /* Scratch + "%n" + '\0' */
+ maxFmtLen * sizeof(char) + 1 /* Original stringrep */
+ maxFmtLen * sizeof(char) /* Arg for CHARSETs */
+(maxCount + 1) * sizeof(char) /* '\0' for every partial */
+1; /* safety byte */
fmtObj = (ScanFmtStringObj *) Jim_Alloc(approxSize);
memset(fmtObj, 0, approxSize);
fmtObj->size = approxSize;
fmtObj->maxPos = 0;
fmtObj->scratch = (char *)&fmtObj->descr[maxCount + 1];
fmtObj->stringRep = fmtObj->scratch + maxFmtLen + 3 + 1;
memcpy(fmtObj->stringRep, fmt, maxFmtLen);
buffer = fmtObj->stringRep + maxFmtLen + 1;
objPtr->internalRep.ptr = fmtObj;
objPtr->typePtr = &scanFmtStringObjType;
for (i = 0, curr = 0; fmt < fmtEnd; ++fmt) {
int width = 0, skip;
ScanFmtPartDescr *descr = &fmtObj->descr[curr];
fmtObj->count++;
descr->width = 0; /* Assume width unspecified */
/* Overread and store any "literal" prefix */
if (*fmt != '%' || fmt[1] == '%') {
descr->type = 0;
descr->prefix = &buffer[i];
for (; fmt < fmtEnd; ++fmt) {
if (*fmt == '%') {
if (fmt[1] != '%')
break;
++fmt;
}
buffer[i++] = *fmt;
}
buffer[i++] = 0;
}
/* Skip the conversion introducing '%' sign */
++fmt;
/* End reached due to non-conversion literal only? */
if (fmt >= fmtEnd)
goto done;
descr->pos = 0; /* Assume "natural" positioning */
if (*fmt == '*') {
descr->pos = -1; /* Okay, conversion will not be assigned */
++fmt;
}
else
fmtObj->convCount++; /* Otherwise count as assign-conversion */
/* Check if next token is a number (could be width or pos */
if (sscanf(fmt, "%d%n", &width, &skip) == 1) {
fmt += skip;
/* Was the number a XPG3 position specifier? */
if (descr->pos != -1 && *fmt == '$') {
int prev;
++fmt;
descr->pos = width;
width = 0;
/* Look if "natural" postioning and XPG3 one was mixed */
if ((lastPos == 0 && descr->pos > 0)
|| (lastPos > 0 && descr->pos == 0)) {
fmtObj->error = "cannot mix \"%\" and \"%n$\" conversion specifiers";
return JIM_ERR;
}
/* Look if this position was already used */
for (prev = 0; prev < curr; ++prev) {
if (fmtObj->descr[prev].pos == -1)
continue;
if (fmtObj->descr[prev].pos == descr->pos) {
fmtObj->error =
"variable is assigned by multiple \"%n$\" conversion specifiers";
return JIM_ERR;
}
}
/* Try to find a width after the XPG3 specifier */
if (sscanf(fmt, "%d%n", &width, &skip) == 1) {
descr->width = width;
fmt += skip;
}
if (descr->pos > 0 && (size_t) descr->pos > fmtObj->maxPos)
fmtObj->maxPos = descr->pos;
}
else {
/* Number was not a XPG3, so it has to be a width */
descr->width = width;
}
}
/* If positioning mode was undetermined yet, fix this */
if (lastPos == -1)
lastPos = descr->pos;
/* Handle CHARSET conversion type ... */
if (*fmt == '[') {
int swapped = 1, beg = i, end, j;
descr->type = '[';
descr->arg = &buffer[i];
++fmt;
if (*fmt == '^')
buffer[i++] = *fmt++;
if (*fmt == ']')
buffer[i++] = *fmt++;
while (*fmt && *fmt != ']')
buffer[i++] = *fmt++;
if (*fmt != ']') {
fmtObj->error = "unmatched [ in format string";
return JIM_ERR;
}
end = i;
buffer[i++] = 0;
/* In case a range fence was given "backwards", swap it */
while (swapped) {
swapped = 0;
for (j = beg + 1; j < end - 1; ++j) {
if (buffer[j] == '-' && buffer[j - 1] > buffer[j + 1]) {
char tmp = buffer[j - 1];
buffer[j - 1] = buffer[j + 1];
buffer[j + 1] = tmp;
swapped = 1;
}
}
}
}
else {
/* Remember any valid modifier if given */
if (strchr("hlL", *fmt) != 0)
descr->modifier = tolower((int)*fmt++);
descr->type = *fmt;
if (strchr("efgcsndoxui", *fmt) == 0) {
fmtObj->error = "bad scan conversion character";
return JIM_ERR;
}
else if (*fmt == 'c' && descr->width != 0) {
fmtObj->error = "field width may not be specified in %c " "conversion";
return JIM_ERR;
}
else if (*fmt == 'u' && descr->modifier == 'l') {
fmtObj->error = "unsigned wide not supported";
return JIM_ERR;
}
}
curr++;
}
done:
return JIM_OK;
}
/* Some accessor macros to allow lowlevel access to fields of internal repr */
#define FormatGetCnvCount(_fo_) \
((ScanFmtStringObj*)((_fo_)->internalRep.ptr))->convCount
#define FormatGetMaxPos(_fo_) \
((ScanFmtStringObj*)((_fo_)->internalRep.ptr))->maxPos
#define FormatGetError(_fo_) \
((ScanFmtStringObj*)((_fo_)->internalRep.ptr))->error
/* JimScanAString is used to scan an unspecified string that ends with
* next WS, or a string that is specified via a charset.
*
*/
static Jim_Obj *JimScanAString(Jim_Interp *interp, const char *sdescr, const char *str)
{
char *buffer = Jim_StrDup(str);
char *p = buffer;
while (*str) {
int c;
int n;
if (!sdescr && isspace(UCHAR(*str)))
break; /* EOS via WS if unspecified */
n = utf8_tounicode(str, &c);
if (sdescr && !JimCharsetMatch(sdescr, c, JIM_CHARSET_SCAN))
break;
while (n--)
*p++ = *str++;
}
*p = 0;
return Jim_NewStringObjNoAlloc(interp, buffer, p - buffer);
}
/* ScanOneEntry will scan one entry out of the string passed as argument.
* It use the sscanf() function for this task. After extracting and
* converting of the value, the count of scanned characters will be
* returned of -1 in case of no conversion tool place and string was
* already scanned thru */
static int ScanOneEntry(Jim_Interp *interp, const char *str, int pos, int strLen,
ScanFmtStringObj * fmtObj, long idx, Jim_Obj **valObjPtr)
{
const char *tok;
const ScanFmtPartDescr *descr = &fmtObj->descr[idx];
size_t scanned = 0;
size_t anchor = pos;
int i;
Jim_Obj *tmpObj = NULL;
/* First pessimistically assume, we will not scan anything :-) */
*valObjPtr = 0;
if (descr->prefix) {
/* There was a prefix given before the conversion, skip it and adjust
* the string-to-be-parsed accordingly */
/* XXX: Should be checking strLen, not str[pos] */
for (i = 0; pos < strLen && descr->prefix[i]; ++i) {
/* If prefix require, skip WS */
if (isspace(UCHAR(descr->prefix[i])))
while (pos < strLen && isspace(UCHAR(str[pos])))
++pos;
else if (descr->prefix[i] != str[pos])
break; /* Prefix do not match here, leave the loop */
else
++pos; /* Prefix matched so far, next round */
}
if (pos >= strLen) {
return -1; /* All of str consumed: EOF condition */
}
else if (descr->prefix[i] != 0)
return 0; /* Not whole prefix consumed, no conversion possible */
}
/* For all but following conversion, skip leading WS */
if (descr->type != 'c' && descr->type != '[' && descr->type != 'n')
while (isspace(UCHAR(str[pos])))
++pos;
/* Determine how much skipped/scanned so far */
scanned = pos - anchor;
/* %c is a special, simple case. no width */
if (descr->type == 'n') {
/* Return pseudo conversion means: how much scanned so far? */
*valObjPtr = Jim_NewIntObj(interp, anchor + scanned);
}
else if (pos >= strLen) {
/* Cannot scan anything, as str is totally consumed */
return -1;
}
else if (descr->type == 'c') {
int c;
scanned += utf8_tounicode(&str[pos], &c);
*valObjPtr = Jim_NewIntObj(interp, c);
return scanned;
}
else {
/* Processing of conversions follows ... */
if (descr->width > 0) {
/* Do not try to scan as fas as possible but only the given width.
* To ensure this, we copy the part that should be scanned. */
size_t sLen = utf8_strlen(&str[pos], strLen - pos);
size_t tLen = descr->width > sLen ? sLen : descr->width;
tmpObj = Jim_NewStringObjUtf8(interp, str + pos, tLen);
tok = tmpObj->bytes;
}
else {
/* As no width was given, simply refer to the original string */
tok = &str[pos];
}
switch (descr->type) {
case 'd':
case 'o':
case 'x':
case 'u':
case 'i':{
char *endp; /* Position where the number finished */
jim_wide w;
int base = descr->type == 'o' ? 8
: descr->type == 'x' ? 16 : descr->type == 'i' ? 0 : 10;
/* Try to scan a number with the given base */
w = strtoull(tok, &endp, base);
if (endp == tok && base == 0) {
/* If scanning failed, and base was undetermined, simply
* put it to 10 and try once more. This should catch the
* case where %i begin to parse a number prefix (e.g.
* '0x' but no further digits follows. This will be
* handled as a ZERO followed by a char 'x' by Tcl */
w = strtoull(tok, &endp, 10);
}
if (endp != tok) {
/* There was some number sucessfully scanned! */
*valObjPtr = Jim_NewIntObj(interp, w);
/* Adjust the number-of-chars scanned so far */
scanned += endp - tok;
}
else {
/* Nothing was scanned. We have to determine if this
* happened due to e.g. prefix mismatch or input str
* exhausted */
scanned = *tok ? 0 : -1;
}
break;
}
case 's':
case '[':{
*valObjPtr = JimScanAString(interp, descr->arg, tok);
scanned += Jim_Length(*valObjPtr);
break;
}
case 'e':
case 'f':
case 'g':{
char *endp;
double value = strtod(tok, &endp);
if (endp != tok) {
/* There was some number sucessfully scanned! */
*valObjPtr = Jim_NewDoubleObj(interp, value);
/* Adjust the number-of-chars scanned so far */
scanned += endp - tok;
}
else {
/* Nothing was scanned. We have to determine if this
* happened due to e.g. prefix mismatch or input str
* exhausted */
scanned = *tok ? 0 : -1;
}
break;
}
}
/* If a substring was allocated (due to pre-defined width) do not
* forget to free it */
if (tmpObj) {
Jim_FreeNewObj(interp, tmpObj);
}
}
return scanned;
}
/* Jim_ScanString is the workhorse of string scanning. It will scan a given
* string and returns all converted (and not ignored) values in a list back
* to the caller. If an error occured, a NULL pointer will be returned */
Jim_Obj *Jim_ScanString(Jim_Interp *interp, Jim_Obj *strObjPtr, Jim_Obj *fmtObjPtr, int flags)
{
size_t i, pos;
int scanned = 1;
const char *str = Jim_String(strObjPtr);
int strLen = Jim_Utf8Length(interp, strObjPtr);
Jim_Obj *resultList = 0;
Jim_Obj **resultVec = 0;
int resultc;
Jim_Obj *emptyStr = 0;
ScanFmtStringObj *fmtObj;
/* This should never happen. The format object should already be of the correct type */
JimPanic((fmtObjPtr->typePtr != &scanFmtStringObjType, interp, "Jim_ScanString() for non-scan format"));
fmtObj = (ScanFmtStringObj *) fmtObjPtr->internalRep.ptr;
/* Check if format specification was valid */
if (fmtObj->error != 0) {
if (flags & JIM_ERRMSG)
Jim_SetResultString(interp, fmtObj->error, -1);
return 0;
}
/* Allocate a new "shared" empty string for all unassigned conversions */
emptyStr = Jim_NewEmptyStringObj(interp);
Jim_IncrRefCount(emptyStr);
/* Create a list and fill it with empty strings up to max specified XPG3 */
resultList = Jim_NewListObj(interp, 0, 0);
if (fmtObj->maxPos > 0) {
for (i = 0; i < fmtObj->maxPos; ++i)
Jim_ListAppendElement(interp, resultList, emptyStr);
JimListGetElements(interp, resultList, &resultc, &resultVec);
}
/* Now handle every partial format description */
for (i = 0, pos = 0; i < fmtObj->count; ++i) {
ScanFmtPartDescr *descr = &(fmtObj->descr[i]);
Jim_Obj *value = 0;
/* Only last type may be "literal" w/o conversion - skip it! */
if (descr->type == 0)
continue;
/* As long as any conversion could be done, we will proceed */
if (scanned > 0)
scanned = ScanOneEntry(interp, str, pos, strLen, fmtObj, i, &value);
/* In case our first try results in EOF, we will leave */
if (scanned == -1 && i == 0)
goto eof;
/* Advance next pos-to-be-scanned for the amount scanned already */
pos += scanned;
/* value == 0 means no conversion took place so take empty string */
if (value == 0)
value = Jim_NewEmptyStringObj(interp);
/* If value is a non-assignable one, skip it */
if (descr->pos == -1) {
Jim_FreeNewObj(interp, value);
}
else if (descr->pos == 0)
/* Otherwise append it to the result list if no XPG3 was given */
Jim_ListAppendElement(interp, resultList, value);
else if (resultVec[descr->pos - 1] == emptyStr) {
/* But due to given XPG3, put the value into the corr. slot */
Jim_DecrRefCount(interp, resultVec[descr->pos - 1]);
Jim_IncrRefCount(value);
resultVec[descr->pos - 1] = value;
}
else {
/* Otherwise, the slot was already used - free obj and ERROR */
Jim_FreeNewObj(interp, value);
goto err;
}
}
Jim_DecrRefCount(interp, emptyStr);
return resultList;
eof:
Jim_DecrRefCount(interp, emptyStr);
Jim_FreeNewObj(interp, resultList);
return (Jim_Obj *)EOF;
err:
Jim_DecrRefCount(interp, emptyStr);
Jim_FreeNewObj(interp, resultList);
return 0;
}
/* -----------------------------------------------------------------------------
* Pseudo Random Number Generation
* ---------------------------------------------------------------------------*/
/* Initialize the sbox with the numbers from 0 to 255 */
static void JimPrngInit(Jim_Interp *interp)
{
#define PRNG_SEED_SIZE 256
int i;
unsigned int *seed;
time_t t = time(NULL);
interp->prngState = Jim_Alloc(sizeof(Jim_PrngState));
seed = Jim_Alloc(PRNG_SEED_SIZE * sizeof(*seed));
for (i = 0; i < PRNG_SEED_SIZE; i++) {
seed[i] = (rand() ^ t ^ clock());
}
JimPrngSeed(interp, (unsigned char *)seed, PRNG_SEED_SIZE * sizeof(*seed));
Jim_Free(seed);
}
/* Generates N bytes of random data */
static void JimRandomBytes(Jim_Interp *interp, void *dest, unsigned int len)
{
Jim_PrngState *prng;
unsigned char *destByte = (unsigned char *)dest;
unsigned int si, sj, x;
/* initialization, only needed the first time */
if (interp->prngState == NULL)
JimPrngInit(interp);
prng = interp->prngState;
/* generates 'len' bytes of pseudo-random numbers */
for (x = 0; x < len; x++) {
prng->i = (prng->i + 1) & 0xff;
si = prng->sbox[prng->i];
prng->j = (prng->j + si) & 0xff;
sj = prng->sbox[prng->j];
prng->sbox[prng->i] = sj;
prng->sbox[prng->j] = si;
*destByte++ = prng->sbox[(si + sj) & 0xff];
}
}
/* Re-seed the generator with user-provided bytes */
static void JimPrngSeed(Jim_Interp *interp, unsigned char *seed, int seedLen)
{
int i;
Jim_PrngState *prng;
/* initialization, only needed the first time */
if (interp->prngState == NULL)
JimPrngInit(interp);
prng = interp->prngState;
/* Set the sbox[i] with i */
for (i = 0; i < 256; i++)
prng->sbox[i] = i;
/* Now use the seed to perform a random permutation of the sbox */
for (i = 0; i < seedLen; i++) {
unsigned char t;
t = prng->sbox[i & 0xFF];
prng->sbox[i & 0xFF] = prng->sbox[seed[i]];
prng->sbox[seed[i]] = t;
}
prng->i = prng->j = 0;
/* discard at least the first 256 bytes of stream.
* borrow the seed buffer for this
*/
for (i = 0; i < 256; i += seedLen) {
JimRandomBytes(interp, seed, seedLen);
}
}
/* [incr] */
static int Jim_IncrCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
jim_wide wideValue, increment = 1;
Jim_Obj *intObjPtr;
if (argc != 2 && argc != 3) {
Jim_WrongNumArgs(interp, 1, argv, "varName ?increment?");
return JIM_ERR;
}
if (argc == 3) {
if (Jim_GetWide(interp, argv[2], &increment) != JIM_OK)
return JIM_ERR;
}
intObjPtr = Jim_GetVariable(interp, argv[1], JIM_UNSHARED);
if (!intObjPtr) {
/* Set missing variable to 0 */
wideValue = 0;
}
else if (Jim_GetWide(interp, intObjPtr, &wideValue) != JIM_OK) {
return JIM_ERR;
}
if (!intObjPtr || Jim_IsShared(intObjPtr)) {
intObjPtr = Jim_NewIntObj(interp, wideValue + increment);
if (Jim_SetVariable(interp, argv[1], intObjPtr) != JIM_OK) {
Jim_FreeNewObj(interp, intObjPtr);
return JIM_ERR;
}
}
else {
/* Can do it the quick way */
Jim_InvalidateStringRep(intObjPtr);
JimWideValue(intObjPtr) = wideValue + increment;
/* The following step is required in order to invalidate the
* string repr of "FOO" if the var name is on the form of "FOO(IDX)" */
if (argv[1]->typePtr != &variableObjType) {
/* Note that this can't fail since GetVariable already succeeded */
Jim_SetVariable(interp, argv[1], intObjPtr);
}
}
Jim_SetResult(interp, intObjPtr);
return JIM_OK;
}
/* -----------------------------------------------------------------------------
* Eval
* ---------------------------------------------------------------------------*/
#define JIM_EVAL_SARGV_LEN 8 /* static arguments vector length */
#define JIM_EVAL_SINTV_LEN 8 /* static interpolation vector length */
/* Handle calls to the [unknown] command */
static int JimUnknown(Jim_Interp *interp, int argc, Jim_Obj *const *argv, const char *filename,
int linenr)
{
Jim_Obj **v, *sv[JIM_EVAL_SARGV_LEN];
int retCode;
/* If JimUnknown() is recursively called too many times...
* done here
*/
if (interp->unknown_called > 50) {
return JIM_ERR;
}
/* If the [unknown] command does not exists returns
* just now */
if (Jim_GetCommand(interp, interp->unknown, JIM_NONE) == NULL)
return JIM_ERR;
/* The object interp->unknown just contains
* the "unknown" string, it is used in order to
* avoid to lookup the unknown command every time
* but instread to cache the result. */
if (argc + 1 <= JIM_EVAL_SARGV_LEN)
v = sv;
else
v = Jim_Alloc(sizeof(Jim_Obj *) * (argc + 1));
/* Make a copy of the arguments vector, but shifted on
* the right of one position. The command name of the
* command will be instead the first argument of the
* [unknown] call. */
memcpy(v + 1, argv, sizeof(Jim_Obj *) * argc);
v[0] = interp->unknown;
/* Call it */
interp->unknown_called++;
retCode = JimEvalObjVector(interp, argc + 1, v, filename, linenr);
interp->unknown_called--;
/* Clean up */
if (v != sv)
Jim_Free(v);
return retCode;
}
/* Eval the object vector 'objv' composed of 'objc' elements.
* Every element is used as single argument.
* Jim_EvalObj() will call this function every time its object
* argument is of "list" type, with no string representation.
*
* This is possible because the string representation of a
* list object generated by the UpdateStringOfList is made
* in a way that ensures that every list element is a different
* command argument. */
static int JimEvalObjVector(Jim_Interp *interp, int objc, Jim_Obj *const *objv,
const char *filename, int linenr)
{
int i, retcode;
Jim_Cmd *cmdPtr;
/* Incr refcount of arguments. */
for (i = 0; i < objc; i++)
Jim_IncrRefCount(objv[i]);
/* Command lookup */
cmdPtr = Jim_GetCommand(interp, objv[0], JIM_ERRMSG);
if (cmdPtr == NULL) {
retcode = JimUnknown(interp, objc, objv, filename, linenr);
}
else {
/* Call it -- Make sure result is an empty object. */
JimIncrCmdRefCount(cmdPtr);
Jim_SetEmptyResult(interp);
if (cmdPtr->isproc) {
retcode = JimCallProcedure(interp, cmdPtr, filename, linenr, objc, objv);
}
else {
interp->cmdPrivData = cmdPtr->u.native.privData;
retcode = cmdPtr->u.native.cmdProc(interp, objc, objv);
}
JimDecrCmdRefCount(interp, cmdPtr);
}
/* Decr refcount of arguments and return the retcode */
for (i = 0; i < objc; i++)
Jim_DecrRefCount(interp, objv[i]);
return retcode;
}
int Jim_EvalObjVector(Jim_Interp *interp, int objc, Jim_Obj *const *objv)
{
return JimEvalObjVector(interp, objc, objv, NULL, 0);
}
/**
* Invokes 'prefix' as a command with the objv array as arguments.
*/
int Jim_EvalObjPrefix(Jim_Interp *interp, const char *prefix, int objc, Jim_Obj *const *objv)
{
int i;
int ret;
Jim_Obj **nargv = Jim_Alloc((objc + 1) * sizeof(*nargv));
nargv[0] = Jim_NewStringObj(interp, prefix, -1);
for (i = 0; i < objc; i++) {
nargv[i + 1] = objv[i];
}
ret = Jim_EvalObjVector(interp, objc + 1, nargv);
Jim_Free(nargv);
return ret;
}
static void JimAddErrorToStack(Jim_Interp *interp, int retcode, const char *filename, int line)
{
int rc = retcode;
if (rc == JIM_ERR && !interp->errorFlag) {
/* This is the first error, so save the file/line information and reset the stack */
interp->errorFlag = 1;
JimSetErrorFileName(interp, filename);
JimSetErrorLineNumber(interp, line);
JimResetStackTrace(interp);
/* Always add a level where the error first occurs */
interp->addStackTrace++;
}
/* Now if this is an "interesting" level, add it to the stack trace */
if (rc == JIM_ERR && interp->addStackTrace > 0) {
/* Add the stack info for the current level */
JimAppendStackTrace(interp, Jim_String(interp->errorProc), filename, line);
/* Note: if we didn't have a filename for this level,
* don't clear the addStackTrace flag
* so we can pick it up at the next level
*/
if (*filename) {
interp->addStackTrace = 0;
}
Jim_DecrRefCount(interp, interp->errorProc);
interp->errorProc = interp->emptyObj;
Jim_IncrRefCount(interp->errorProc);
}
else if (rc == JIM_RETURN && interp->returnCode == JIM_ERR) {
/* Propagate the addStackTrace value through 'return -code error' */
}
else {
interp->addStackTrace = 0;
}
}
/* And delete any local procs */
static void JimDeleteLocalProcs(Jim_Interp *interp)
{
if (interp->localProcs) {
char *procname;
while ((procname = Jim_StackPop(interp->localProcs)) != NULL) {
/* If there is a pushed command, find it */
Jim_Cmd *prevCmd = NULL;
Jim_HashEntry *he = Jim_FindHashEntry(&interp->commands, procname);
if (he) {
Jim_Cmd *cmd = (Jim_Cmd *)he->u.val;
if (cmd->isproc && cmd->u.proc.prevCmd) {
prevCmd = cmd->u.proc.prevCmd;
cmd->u.proc.prevCmd = NULL;
}
}
/* Delete the local proc */
Jim_DeleteCommand(interp, procname);
if (prevCmd) {
/* And restore the pushed command */
Jim_AddHashEntry(&interp->commands, procname, prevCmd);
}
Jim_Free(procname);
}
Jim_FreeStack(interp->localProcs);
Jim_Free(interp->localProcs);
interp->localProcs = NULL;
}
}
static int JimSubstOneToken(Jim_Interp *interp, const ScriptToken *token, Jim_Obj **objPtrPtr)
{
Jim_Obj *objPtr;
switch (token->type) {
case JIM_TT_STR:
case JIM_TT_ESC:
objPtr = token->objPtr;
break;
case JIM_TT_VAR:
objPtr = Jim_GetVariable(interp, token->objPtr, JIM_ERRMSG);
break;
case JIM_TT_DICTSUGAR:
objPtr = JimExpandDictSugar(interp, token->objPtr);
break;
case JIM_TT_EXPRSUGAR:
objPtr = JimExpandExprSugar(interp, token->objPtr);
break;
case JIM_TT_CMD:
switch (Jim_EvalObj(interp, token->objPtr)) {
case JIM_OK:
case JIM_RETURN:
objPtr = interp->result;
break;
case JIM_BREAK:
/* Stop substituting */
return JIM_BREAK;
case JIM_CONTINUE:
/* just skip this one */
return JIM_CONTINUE;
default:
return JIM_ERR;
}
break;
default:
JimPanic((1, interp,
"default token type (%d) reached " "in Jim_SubstObj().", token->type));
objPtr = NULL;
break;
}
if (objPtr) {
*objPtrPtr = objPtr;
return JIM_OK;
}
return JIM_ERR;
}
/* Interpolate the given tokens into a unique Jim_Obj returned by reference
* via *objPtrPtr. This function is only called by Jim_EvalObj() and Jim_SubstObj()
* The returned object has refcount = 0.
*/
static Jim_Obj *JimInterpolateTokens(Jim_Interp *interp, const ScriptToken * token, int tokens, int flags)
{
int totlen = 0, i;
Jim_Obj **intv;
Jim_Obj *sintv[JIM_EVAL_SINTV_LEN];
Jim_Obj *objPtr;
char *s;
if (tokens <= JIM_EVAL_SINTV_LEN)
intv = sintv;
else
intv = Jim_Alloc(sizeof(Jim_Obj *) * tokens);
/* Compute every token forming the argument
* in the intv objects vector. */
for (i = 0; i < tokens; i++) {
switch (JimSubstOneToken(interp, &token[i], &intv[i])) {
case JIM_OK:
case JIM_RETURN:
break;
case JIM_BREAK:
if (flags & JIM_SUBST_FLAG) {
/* Stop here */
tokens = i;
continue;
}
/* XXX: Should probably set an error about break outside loop */
/* fall through to error */
case JIM_CONTINUE:
if (flags & JIM_SUBST_FLAG) {
intv[i] = NULL;
continue;
}
/* XXX: Ditto continue outside loop */
/* fall through to error */
default:
while (i--) {
Jim_DecrRefCount(interp, intv[i]);
}
if (intv != sintv) {
Jim_Free(intv);
}
return NULL;
}
Jim_IncrRefCount(intv[i]);
Jim_String(intv[i]);
totlen += intv[i]->length;
}
/* Fast path return for a single token */
if (tokens == 1 && intv[0] && intv == sintv) {
Jim_DecrRefCount(interp, intv[0]);
return intv[0];
}
/* Concatenate every token in an unique
* object. */
objPtr = Jim_NewStringObjNoAlloc(interp, NULL, 0);
if (tokens == 4 && token[0].type == JIM_TT_ESC && token[1].type == JIM_TT_ESC
&& token[2].type == JIM_TT_VAR) {
/* May be able to do fast interpolated object -> dictSubst */
objPtr->typePtr = &interpolatedObjType;
objPtr->internalRep.twoPtrValue.ptr1 = (void *)token;
objPtr->internalRep.twoPtrValue.ptr2 = intv[2];
Jim_IncrRefCount(intv[2]);
}
s = objPtr->bytes = Jim_Alloc(totlen + 1);
objPtr->length = totlen;
for (i = 0; i < tokens; i++) {
if (intv[i]) {
memcpy(s, intv[i]->bytes, intv[i]->length);
s += intv[i]->length;
Jim_DecrRefCount(interp, intv[i]);
}
}
objPtr->bytes[totlen] = '\0';
/* Free the intv vector if not static. */
if (intv != sintv) {
Jim_Free(intv);
}
return objPtr;
}
/* If listPtr is a list, call JimEvalObjVector() with the given source info.
* Otherwise eval with Jim_EvalObj()
*/
int Jim_EvalObjList(Jim_Interp *interp, Jim_Obj *listPtr, const char *filename, int linenr)
{
if (!Jim_IsList(listPtr)) {
return Jim_EvalObj(interp, listPtr);
}
else {
int retcode = JIM_OK;
if (listPtr->internalRep.listValue.len) {
Jim_IncrRefCount(listPtr);
retcode = JimEvalObjVector(interp,
listPtr->internalRep.listValue.len,
listPtr->internalRep.listValue.ele, filename, linenr);
Jim_DecrRefCount(interp, listPtr);
}
return retcode;
}
}
int Jim_EvalObj(Jim_Interp *interp, Jim_Obj *scriptObjPtr)
{
int i;
ScriptObj *script;
ScriptToken *token;
int retcode = JIM_OK;
Jim_Obj *sargv[JIM_EVAL_SARGV_LEN], **argv = NULL;
int linenr = 0;
interp->errorFlag = 0;
/* If the object is of type "list", we can call
* a specialized version of Jim_EvalObj() */
if (Jim_IsList(scriptObjPtr)) {
return Jim_EvalObjList(interp, scriptObjPtr, NULL, 0);
}
Jim_IncrRefCount(scriptObjPtr); /* Make sure it's shared. */
script = Jim_GetScript(interp, scriptObjPtr);
/* Reset the interpreter result. This is useful to
* return the empty result in the case of empty program. */
Jim_SetEmptyResult(interp);
#ifdef JIM_OPTIMIZATION
/* Check for one of the following common scripts used by for, while
*
* {}
* incr a
*/
if (script->len == 0) {
Jim_DecrRefCount(interp, scriptObjPtr);
return JIM_OK;
}
if (script->len == 3
&& script->token[1].objPtr->typePtr == &commandObjType
&& script->token[1].objPtr->internalRep.cmdValue.cmdPtr->isproc == 0
&& script->token[1].objPtr->internalRep.cmdValue.cmdPtr->u.native.cmdProc == Jim_IncrCoreCommand
&& script->token[2].objPtr->typePtr == &variableObjType) {
Jim_Obj *objPtr = Jim_GetVariable(interp, script->token[2].objPtr, JIM_NONE);
if (objPtr && !Jim_IsShared(objPtr) && objPtr->typePtr == &intObjType) {
JimWideValue(objPtr)++;
Jim_InvalidateStringRep(objPtr);
Jim_DecrRefCount(interp, scriptObjPtr);
Jim_SetResult(interp, objPtr);
return JIM_OK;
}
}
#endif
/* Now we have to make sure the internal repr will not be
* freed on shimmering.
*
* Think for example to this:
*
* set x {llength $x; ... some more code ...}; eval $x
*
* In order to preserve the internal rep, we increment the
* inUse field of the script internal rep structure. */
script->inUse++;
token = script->token;
argv = sargv;
/* Execute every command sequentially until the end of the script
* or an error occurs.
*/
for (i = 0; i < script->len && retcode == JIM_OK; ) {
int argc;
int j;
Jim_Cmd *cmd;
/* First token of the line is always JIM_TT_LINE */
argc = token[i].objPtr->internalRep.scriptLineValue.argc;
linenr = token[i].objPtr->internalRep.scriptLineValue.line;
/* Allocate the arguments vector if required */
if (argc > JIM_EVAL_SARGV_LEN)
argv = Jim_Alloc(sizeof(Jim_Obj *) * argc);
/* Skip the JIM_TT_LINE token */
i++;
/* Populate the arguments objects.
* If an error occurs, retcode will be set and
* 'j' will be set to the number of args expanded
*/
for (j = 0; j < argc; j++) {
long wordtokens = 1;
int expand = 0;
Jim_Obj *wordObjPtr = NULL;
if (token[i].type == JIM_TT_WORD) {
wordtokens = JimWideValue(token[i++].objPtr);
if (wordtokens < 0) {
expand = 1;
wordtokens = -wordtokens;
}
}
if (wordtokens == 1) {
/* Fast path if the token does not
* need interpolation */
switch (token[i].type) {
case JIM_TT_ESC:
case JIM_TT_STR:
wordObjPtr = token[i].objPtr;
break;
case JIM_TT_VAR:
wordObjPtr = Jim_GetVariable(interp, token[i].objPtr, JIM_ERRMSG);
break;
case JIM_TT_EXPRSUGAR:
wordObjPtr = JimExpandExprSugar(interp, token[i].objPtr);
break;
case JIM_TT_DICTSUGAR:
wordObjPtr = JimExpandDictSugar(interp, token[i].objPtr);
break;
case JIM_TT_CMD:
retcode = Jim_EvalObj(interp, token[i].objPtr);
if (retcode == JIM_OK) {
wordObjPtr = Jim_GetResult(interp);
}
break;
default:
JimPanic((1, interp, "default token type reached " "in Jim_EvalObj()."));
}
}
else {
/* For interpolation we call a helper
* function to do the work for us. */
wordObjPtr = JimInterpolateTokens(interp, token + i, wordtokens, JIM_NONE);
}
if (!wordObjPtr) {
if (retcode == JIM_OK) {
retcode = JIM_ERR;
}
break;
}
Jim_IncrRefCount(wordObjPtr);
i += wordtokens;
if (!expand) {
argv[j] = wordObjPtr;
}
else {
/* Need to expand wordObjPtr into multiple args from argv[j] ... */
int len = Jim_ListLength(interp, wordObjPtr);
int newargc = argc + len - 1;
int k;
if (len > 1) {
if (argv == sargv) {
if (newargc > JIM_EVAL_SARGV_LEN) {
argv = Jim_Alloc(sizeof(*argv) * newargc);
memcpy(argv, sargv, sizeof(*argv) * j);
}
}
else {
/* Need to realloc to make room for (len - 1) more entries */
argv = Jim_Realloc(argv, sizeof(*argv) * newargc);
}
}
/* Now copy in the expanded version */
for (k = 0; k < len; k++) {
argv[j++] = wordObjPtr->internalRep.listValue.ele[k];
Jim_IncrRefCount(wordObjPtr->internalRep.listValue.ele[k]);
}
/* The original object reference is no longer needed,
* after the expansion it is no longer present on
* the argument vector, but the single elements are
* in its place. */
Jim_DecrRefCount(interp, wordObjPtr);
/* And update the indexes */
j--;
argc += len - 1;
}
}
if (retcode == JIM_OK && argc) {
/* Lookup the command to call */
cmd = Jim_GetCommand(interp, argv[0], JIM_ERRMSG);
if (cmd != NULL) {
/* Call it -- Make sure result is an empty object. */
JimIncrCmdRefCount(cmd);
Jim_SetEmptyResult(interp);
if (cmd->isproc) {
retcode =
JimCallProcedure(interp, cmd, script->fileName, linenr, argc, argv);
} else {
interp->cmdPrivData = cmd->u.native.privData;
retcode = cmd->u.native.cmdProc(interp, argc, argv);
}
JimDecrCmdRefCount(interp, cmd);
}
else {
/* Call [unknown] */
retcode = JimUnknown(interp, argc, argv, script->fileName, linenr);
}
if (interp->signal_level && interp->sigmask) {
/* Check for a signal after each command */
retcode = JIM_SIGNAL;
}
}
/* Finished with the command, so decrement ref counts of each argument */
while (j-- > 0) {
Jim_DecrRefCount(interp, argv[j]);
}
if (argv != sargv) {
Jim_Free(argv);
argv = sargv;
}
}
/* Possibly add to the error stack trace */
JimAddErrorToStack(interp, retcode, script->fileName, linenr);
/* Note that we don't have to decrement inUse, because the
* following code transfers our use of the reference again to
* the script object. */
Jim_FreeIntRep(interp, scriptObjPtr);
scriptObjPtr->typePtr = &scriptObjType;
Jim_SetIntRepPtr(scriptObjPtr, script);
Jim_DecrRefCount(interp, scriptObjPtr);
return retcode;
}
static int JimSetProcArg(Jim_Interp *interp, Jim_Obj *argNameObj, Jim_Obj *argValObj)
{
int retcode;
/* If argObjPtr begins with '&', do an automatic upvar */
const char *varname = Jim_String(argNameObj);
if (*varname == '&') {
/* First check that the target variable exists */
Jim_Obj *objPtr;
Jim_CallFrame *savedCallFrame = interp->framePtr;
interp->framePtr = interp->framePtr->parentCallFrame;
objPtr = Jim_GetVariable(interp, argValObj, JIM_ERRMSG);
interp->framePtr = savedCallFrame;
if (!objPtr) {
return JIM_ERR;
}
/* It exists, so perform the binding. */
objPtr = Jim_NewStringObj(interp, varname + 1, -1);
Jim_IncrRefCount(objPtr);
retcode = Jim_SetVariableLink(interp, objPtr, argValObj, interp->framePtr->parentCallFrame);
Jim_DecrRefCount(interp, objPtr);
}
else {
retcode = Jim_SetVariable(interp, argNameObj, argValObj);
}
return retcode;
}
/* Call a procedure implemented in Tcl.
* It's possible to speed-up a lot this function, currently
* the callframes are not cached, but allocated and
* destroied every time. What is expecially costly is
* to create/destroy the local vars hash table every time.
*
* This can be fixed just implementing callframes caching
* in JimCreateCallFrame() and JimFreeCallFrame(). */
int JimCallProcedure(Jim_Interp *interp, Jim_Cmd *cmd, const char *filename, int linenr, int argc,
Jim_Obj *const *argv)
{
int i, d, retcode;
Jim_CallFrame *callFramePtr;
Jim_Obj *argObjPtr;
Jim_Obj *procname = argv[0];
Jim_Stack *prevLocalProcs;
/* Check arity */
if (argc - 1 < cmd->u.proc.leftArity + cmd->u.proc.rightArity ||
(!cmd->u.proc.args && argc - 1 > cmd->u.proc.leftArity + cmd->u.proc.rightArity + cmd->u.proc.optionalArgs)) {
/* Create a nice error message, consistent with Tcl 8.5 */
Jim_Obj *argmsg = Jim_NewStringObj(interp, "", 0);
int arglen = Jim_ListLength(interp, cmd->u.proc.argListObjPtr);
for (i = 0; i < arglen; i++) {
Jim_Obj *objPtr;
Jim_ListIndex(interp, cmd->u.proc.argListObjPtr, i, &argObjPtr, JIM_NONE);
Jim_AppendString(interp, argmsg, " ", 1);
if (i < cmd->u.proc.leftArity || i >= arglen - cmd->u.proc.rightArity) {
Jim_AppendObj(interp, argmsg, argObjPtr);
}
else if (i == arglen - cmd->u.proc.rightArity - cmd->u.proc.args) {
if (Jim_ListLength(interp, argObjPtr) == 1) {
/* We have plain args */
Jim_AppendString(interp, argmsg, "?argument ...?", -1);
}
else {
Jim_AppendString(interp, argmsg, "?", 1);
Jim_ListIndex(interp, argObjPtr, 1, &objPtr, JIM_NONE);
Jim_AppendObj(interp, argmsg, objPtr);
Jim_AppendString(interp, argmsg, " ...?", -1);
}
}
else {
Jim_AppendString(interp, argmsg, "?", 1);
Jim_ListIndex(interp, argObjPtr, 0, &objPtr, JIM_NONE);
Jim_AppendObj(interp, argmsg, objPtr);
Jim_AppendString(interp, argmsg, "?", 1);
}
}
Jim_SetResultFormatted(interp, "wrong # args: should be \"%#s%#s\"", procname, argmsg);
Jim_FreeNewObj(interp, argmsg);
return JIM_ERR;
}
/* Check if there are too nested calls */
if (interp->framePtr->level == interp->maxNestingDepth) {
Jim_SetResultString(interp, "Too many nested calls. Infinite recursion?", -1);
return JIM_ERR;
}
/* Create a new callframe */
callFramePtr = JimCreateCallFrame(interp, interp->framePtr);
callFramePtr->argv = argv;
callFramePtr->argc = argc;
callFramePtr->procArgsObjPtr = cmd->u.proc.argListObjPtr;
callFramePtr->procBodyObjPtr = cmd->u.proc.bodyObjPtr;
callFramePtr->staticVars = cmd->u.proc.staticVars;
callFramePtr->filename = filename;
callFramePtr->line = linenr;
Jim_IncrRefCount(cmd->u.proc.argListObjPtr);
Jim_IncrRefCount(cmd->u.proc.bodyObjPtr);
interp->framePtr = callFramePtr;
/* Simplify arg counting */
argv++;
argc--;
/* Set arguments */
/* Assign in this order:
* leftArity required args.
* rightArity required args (but actually do it last for simplicity)
* optionalArgs optional args
* remaining args into 'args' if 'args'
*/
/* Note that 'd' steps along the arg list, whilst argc/argv follow the supplied args */
/* leftArity required args */
for (d = 0; d < cmd->u.proc.leftArity; d++) {
Jim_ListIndex(interp, cmd->u.proc.argListObjPtr, d, &argObjPtr, JIM_NONE);
retcode = JimSetProcArg(interp, argObjPtr, *argv++);
if (retcode != JIM_OK) {
goto badargset;
}
argc--;
}
/* Shorten our idea of the number of supplied args */
argc -= cmd->u.proc.rightArity;
/* optionalArgs optional args */
for (i = 0; i < cmd->u.proc.optionalArgs; i++) {
Jim_Obj *nameObjPtr;
Jim_Obj *valueObjPtr;
Jim_ListIndex(interp, cmd->u.proc.argListObjPtr, d++, &argObjPtr, JIM_NONE);
/* The name is the first element of the list */
Jim_ListIndex(interp, argObjPtr, 0, &nameObjPtr, JIM_NONE);
if (argc) {
valueObjPtr = *argv++;
argc--;
}
else {
/* No more values, so use default */
/* The value is the second element of the list */
Jim_ListIndex(interp, argObjPtr, 1, &valueObjPtr, JIM_NONE);
}
Jim_SetVariable(interp, nameObjPtr, valueObjPtr);
}
/* Any remaining args go to 'args' */
if (cmd->u.proc.args) {
Jim_Obj *listObjPtr = Jim_NewListObj(interp, argv, argc);
/* Get the 'args' name from the procedure args */
Jim_ListIndex(interp, cmd->u.proc.argListObjPtr, d, &argObjPtr, JIM_NONE);
/* It is possible to rename args. */
i = Jim_ListLength(interp, argObjPtr);
if (i == 2) {
Jim_ListIndex(interp, argObjPtr, 1, &argObjPtr, JIM_NONE);
}
Jim_SetVariable(interp, argObjPtr, listObjPtr);
argv += argc;
d++;
}
/* rightArity required args */
for (i = 0; i < cmd->u.proc.rightArity; i++) {
Jim_ListIndex(interp, cmd->u.proc.argListObjPtr, d++, &argObjPtr, JIM_NONE);
retcode = JimSetProcArg(interp, argObjPtr, *argv++);
if (retcode != JIM_OK) {
goto badargset;
}
}
/* Install a new stack for local procs */
prevLocalProcs = interp->localProcs;
interp->localProcs = NULL;
/* Eval the body */
retcode = Jim_EvalObj(interp, cmd->u.proc.bodyObjPtr);
/* Delete any local procs */
JimDeleteLocalProcs(interp);
interp->localProcs = prevLocalProcs;
badargset:
/* Destroy the callframe */
interp->framePtr = interp->framePtr->parentCallFrame;
if (callFramePtr->vars.size != JIM_HT_INITIAL_SIZE) {
JimFreeCallFrame(interp, callFramePtr, JIM_FCF_NONE);
}
else {
JimFreeCallFrame(interp, callFramePtr, JIM_FCF_NOHT);
}
/* Handle the JIM_EVAL return code */
while (retcode == JIM_EVAL) {
Jim_Obj *resultScriptObjPtr = Jim_GetResult(interp);
Jim_IncrRefCount(resultScriptObjPtr);
/* Should be a list! */
retcode = Jim_EvalObjList(interp, resultScriptObjPtr, filename, linenr);
Jim_DecrRefCount(interp, resultScriptObjPtr);
}
/* Handle the JIM_RETURN return code */
if (retcode == JIM_RETURN) {
if (--interp->returnLevel <= 0) {
retcode = interp->returnCode;
interp->returnCode = JIM_OK;
interp->returnLevel = 0;
}
}
else if (retcode == JIM_ERR) {
interp->addStackTrace++;
Jim_DecrRefCount(interp, interp->errorProc);
interp->errorProc = procname;
Jim_IncrRefCount(interp->errorProc);
}
return retcode;
}
int Jim_Eval_Named(Jim_Interp *interp, const char *script, const char *filename, int lineno)
{
int retval;
Jim_Obj *scriptObjPtr;
scriptObjPtr = Jim_NewStringObj(interp, script, -1);
Jim_IncrRefCount(scriptObjPtr);
if (filename) {
Jim_Obj *prevScriptObj;
JimSetSourceInfo(interp, scriptObjPtr, filename, lineno);
prevScriptObj = interp->currentScriptObj;
interp->currentScriptObj = scriptObjPtr;
retval = Jim_EvalObj(interp, scriptObjPtr);
interp->currentScriptObj = prevScriptObj;
}
else {
retval = Jim_EvalObj(interp, scriptObjPtr);
}
Jim_DecrRefCount(interp, scriptObjPtr);
return retval;
}
int Jim_Eval(Jim_Interp *interp, const char *script)
{
return Jim_Eval_Named(interp, script, NULL, 0);
}
/* Execute script in the scope of the global level */
int Jim_EvalGlobal(Jim_Interp *interp, const char *script)
{
int retval;
Jim_CallFrame *savedFramePtr = interp->framePtr;
interp->framePtr = interp->topFramePtr;
retval = Jim_Eval(interp, script);
interp->framePtr = savedFramePtr;
return retval;
}
int Jim_EvalFileGlobal(Jim_Interp *interp, const char *filename)
{
int retval;
Jim_CallFrame *savedFramePtr = interp->framePtr;
interp->framePtr = interp->topFramePtr;
retval = Jim_EvalFile(interp, filename);
interp->framePtr = savedFramePtr;
return retval;
}
#include <sys/stat.h>
int Jim_EvalFile(Jim_Interp *interp, const char *filename)
{
FILE *fp;
char *buf;
Jim_Obj *scriptObjPtr;
Jim_Obj *prevScriptObj;
Jim_Stack *prevLocalProcs;
struct stat sb;
int retcode;
int readlen;
struct JimParseResult result;
if (stat(filename, &sb) != 0 || (fp = fopen(filename, "rt")) == NULL) {
Jim_SetResultFormatted(interp, "couldn't read file \"%s\": %s", filename, strerror(errno));
return JIM_ERR;
}
if (sb.st_size == 0) {
fclose(fp);
return JIM_OK;
}
buf = Jim_Alloc(sb.st_size + 1);
readlen = fread(buf, 1, sb.st_size, fp);
if (ferror(fp)) {
fclose(fp);
Jim_Free(buf);
Jim_SetResultFormatted(interp, "failed to load file \"%s\": %s", filename, strerror(errno));
return JIM_ERR;
}
fclose(fp);
buf[readlen] = 0;
scriptObjPtr = Jim_NewStringObjNoAlloc(interp, buf, readlen);
JimSetSourceInfo(interp, scriptObjPtr, filename, 1);
Jim_IncrRefCount(scriptObjPtr);
/* Now check the script for unmatched braces, etc. */
if (SetScriptFromAny(interp, scriptObjPtr, &result) == JIM_ERR) {
const char *msg;
char linebuf[20];
switch (result.missing) {
case '[':
msg = "unmatched \"[\"";
break;
case '{':
msg = "missing close-brace";
break;
case '"':
default:
msg = "missing quote";
break;
}
snprintf(linebuf, sizeof(linebuf), "%d", result.line);
Jim_SetResultFormatted(interp, "%s in \"%s\" at line %s",
msg, filename, linebuf);
Jim_DecrRefCount(interp, scriptObjPtr);
return JIM_ERR;
}
prevScriptObj = interp->currentScriptObj;
interp->currentScriptObj = scriptObjPtr;
/* Install a new stack for local procs */
prevLocalProcs = interp->localProcs;
interp->localProcs = NULL;
retcode = Jim_EvalObj(interp, scriptObjPtr);
/* Delete any local procs */
JimDeleteLocalProcs(interp);
interp->localProcs = prevLocalProcs;
/* Handle the JIM_RETURN return code */
if (retcode == JIM_RETURN) {
if (--interp->returnLevel <= 0) {
retcode = interp->returnCode;
interp->returnCode = JIM_OK;
interp->returnLevel = 0;
}
}
if (retcode == JIM_ERR) {
/* EvalFile changes context, so add a stack frame here */
interp->addStackTrace++;
}
interp->currentScriptObj = prevScriptObj;
Jim_DecrRefCount(interp, scriptObjPtr);
return retcode;
}
/* -----------------------------------------------------------------------------
* Subst
* ---------------------------------------------------------------------------*/
static int JimParseSubstStr(struct JimParserCtx *pc)
{
pc->tstart = pc->p;
pc->tline = pc->linenr;
while (pc->len && *pc->p != '$' && *pc->p != '[') {
if (*pc->p == '\\' && pc->len > 1) {
pc->p++;
pc->len--;
}
pc->p++;
pc->len--;
}
pc->tend = pc->p - 1;
pc->tt = JIM_TT_ESC;
return JIM_OK;
}
static int JimParseSubst(struct JimParserCtx *pc, int flags)
{
int retval;
if (pc->len == 0) {
pc->tstart = pc->tend = pc->p;
pc->tline = pc->linenr;
pc->tt = JIM_TT_EOL;
pc->eof = 1;
return JIM_OK;
}
switch (*pc->p) {
case '[':
retval = JimParseCmd(pc);
if (flags & JIM_SUBST_NOCMD) {
pc->tstart--;
pc->tend++;
pc->tt = (flags & JIM_SUBST_NOESC) ? JIM_TT_STR : JIM_TT_ESC;
}
return retval;
break;
case '$':
if (JimParseVar(pc) == JIM_ERR) {
pc->tstart = pc->tend = pc->p++;
pc->len--;
pc->tline = pc->linenr;
pc->tt = JIM_TT_STR;
}
else {
if (flags & JIM_SUBST_NOVAR) {
pc->tstart--;
if (flags & JIM_SUBST_NOESC)
pc->tt = JIM_TT_STR;
else
pc->tt = JIM_TT_ESC;
if (*pc->tstart == '{') {
pc->tstart--;
if (*(pc->tend + 1))
pc->tend++;
}
}
}
break;
default:
retval = JimParseSubstStr(pc);
if (flags & JIM_SUBST_NOESC)
pc->tt = JIM_TT_STR;
return retval;
break;
}
return JIM_OK;
}
/* The subst object type reuses most of the data structures and functions
* of the script object. Script's data structures are a bit more complex
* for what is needed for [subst]itution tasks, but the reuse helps to
* deal with a single data structure at the cost of some more memory
* usage for substitutions. */
/* This method takes the string representation of an object
* as a Tcl string where to perform [subst]itution, and generates
* the pre-parsed internal representation. */
static int SetSubstFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr, int flags)
{
int scriptTextLen;
const char *scriptText = Jim_GetString(objPtr, &scriptTextLen);
struct JimParserCtx parser;
struct ScriptObj *script = Jim_Alloc(sizeof(*script));
ParseTokenList tokenlist;
/* Initially parse the subst into tokens (in tokenlist) */
ScriptTokenListInit(&tokenlist);
JimParserInit(&parser, scriptText, scriptTextLen, 1);
while (1) {
JimParseSubst(&parser, flags);
if (parser.eof) {
/* Note that subst doesn't need the EOL token */
break;
}
ScriptAddToken(&tokenlist, parser.tstart, parser.tend - parser.tstart + 1, parser.tt,
parser.tline);
}
/* Create the "real" subst/script tokens from the initial token list */
script->inUse = 1;
script->substFlags = flags;
script->fileName = NULL;
SubstObjAddTokens(interp, script, &tokenlist);
/* No longer need the token list */
ScriptTokenListFree(&tokenlist);
#ifdef DEBUG_SHOW_SUBST
{
int i;
printf("==== Subst ====\n");
for (i = 0; i < script->len; i++) {
printf("[%2d] %s '%s'\n", i, jim_tt_name(script->token[i].type),
Jim_String(script->token[i].objPtr));
}
}
#endif
/* Free the old internal rep and set the new one. */
Jim_FreeIntRep(interp, objPtr);
Jim_SetIntRepPtr(objPtr, script);
objPtr->typePtr = &scriptObjType;
return JIM_OK;
}
static ScriptObj *Jim_GetSubst(Jim_Interp *interp, Jim_Obj *objPtr, int flags)
{
if (objPtr->typePtr != &scriptObjType || ((ScriptObj *)Jim_GetIntRepPtr(objPtr))->substFlags != flags)
SetSubstFromAny(interp, objPtr, flags);
return (ScriptObj *) Jim_GetIntRepPtr(objPtr);
}
/* Performs commands,variables,blackslashes substitution,
* storing the result object (with refcount 0) into
* resObjPtrPtr. */
int Jim_SubstObj(Jim_Interp *interp, Jim_Obj *substObjPtr, Jim_Obj **resObjPtrPtr, int flags)
{
ScriptObj *script = Jim_GetSubst(interp, substObjPtr, flags);
Jim_IncrRefCount(substObjPtr); /* Make sure it's shared. */
/* In order to preserve the internal rep, we increment the
* inUse field of the script internal rep structure. */
script->inUse++;
*resObjPtrPtr = JimInterpolateTokens(interp, script->token, script->len, flags);
script->inUse--;
Jim_DecrRefCount(interp, substObjPtr);
if (*resObjPtrPtr == NULL) {
return JIM_ERR;
}
return JIM_OK;
}
/* -----------------------------------------------------------------------------
* Core commands utility functions
* ---------------------------------------------------------------------------*/
void Jim_WrongNumArgs(Jim_Interp *interp, int argc, Jim_Obj *const *argv, const char *msg)
{
int i;
Jim_Obj *objPtr = Jim_NewEmptyStringObj(interp);
Jim_AppendString(interp, objPtr, "wrong # args: should be \"", -1);
for (i = 0; i < argc; i++) {
Jim_AppendObj(interp, objPtr, argv[i]);
if (!(i + 1 == argc && msg[0] == '\0'))
Jim_AppendString(interp, objPtr, " ", 1);
}
Jim_AppendString(interp, objPtr, msg, -1);
Jim_AppendString(interp, objPtr, "\"", 1);
Jim_SetResult(interp, objPtr);
}
#define JimTrivialMatch(pattern) (strpbrk((pattern), "*[?\\") == NULL)
/* type is: 0=commands, 1=procs, 2=channels */
static Jim_Obj *JimCommandsList(Jim_Interp *interp, Jim_Obj *patternObjPtr, int type)
{
Jim_HashTableIterator *htiter;
Jim_HashEntry *he;
Jim_Obj *listObjPtr = Jim_NewListObj(interp, NULL, 0);
/* Check for the non-pattern case. We can do this much more efficiently. */
if (patternObjPtr && JimTrivialMatch(Jim_String(patternObjPtr))) {
Jim_Cmd *cmdPtr = Jim_GetCommand(interp, patternObjPtr, JIM_NONE);
if (cmdPtr) {
if (type == 1 && !cmdPtr->isproc) {
/* not a proc */
}
else if (type == 2 && !Jim_AioFilehandle(interp, patternObjPtr)) {
/* not a channel */
}
else {
Jim_ListAppendElement(interp, listObjPtr, patternObjPtr);
}
}
return listObjPtr;
}
htiter = Jim_GetHashTableIterator(&interp->commands);
while ((he = Jim_NextHashEntry(htiter)) != NULL) {
Jim_Cmd *cmdPtr = he->u.val;
Jim_Obj *cmdNameObj;
if (type == 1 && !cmdPtr->isproc) {
/* not a proc */
continue;
}
if (patternObjPtr && !JimStringMatch(interp, patternObjPtr, he->key, 0))
continue;
cmdNameObj = Jim_NewStringObj(interp, he->key, -1);
/* Is it a channel? */
if (type == 2 && !Jim_AioFilehandle(interp, cmdNameObj)) {
Jim_FreeNewObj(interp, cmdNameObj);
continue;
}
Jim_ListAppendElement(interp, listObjPtr, cmdNameObj);
}
Jim_FreeHashTableIterator(htiter);
return listObjPtr;
}
/* Keep this in order */
#define JIM_VARLIST_GLOBALS 0
#define JIM_VARLIST_LOCALS 1
#define JIM_VARLIST_VARS 2
static Jim_Obj *JimVariablesList(Jim_Interp *interp, Jim_Obj *patternObjPtr, int mode)
{
Jim_HashTableIterator *htiter;
Jim_HashEntry *he;
Jim_Obj *listObjPtr = Jim_NewListObj(interp, NULL, 0);
if (mode == JIM_VARLIST_GLOBALS) {
htiter = Jim_GetHashTableIterator(&interp->topFramePtr->vars);
}
else {
/* For [info locals], if we are at top level an emtpy list
* is returned. I don't agree, but we aim at compatibility (SS) */
if (mode == JIM_VARLIST_LOCALS && interp->framePtr == interp->topFramePtr)
return listObjPtr;
htiter = Jim_GetHashTableIterator(&interp->framePtr->vars);
}
while ((he = Jim_NextHashEntry(htiter)) != NULL) {
Jim_Var *varPtr = (Jim_Var *)he->u.val;
if (mode == JIM_VARLIST_LOCALS) {
if (varPtr->linkFramePtr != NULL)
continue;
}
if (patternObjPtr && !JimStringMatch(interp, patternObjPtr, he->key, 0))
continue;
Jim_ListAppendElement(interp, listObjPtr, Jim_NewStringObj(interp, he->key, -1));
}
Jim_FreeHashTableIterator(htiter);
return listObjPtr;
}
static int JimInfoLevel(Jim_Interp *interp, Jim_Obj *levelObjPtr,
Jim_Obj **objPtrPtr, int info_level_cmd)
{
Jim_CallFrame *targetCallFrame;
targetCallFrame = JimGetCallFrameByInteger(interp, levelObjPtr);
if (targetCallFrame == NULL) {
return JIM_ERR;
}
/* No proc call at toplevel callframe */
if (targetCallFrame == interp->topFramePtr) {
Jim_SetResultFormatted(interp, "bad level \"%#s\"", levelObjPtr);
return JIM_ERR;
}
if (info_level_cmd) {
*objPtrPtr = Jim_NewListObj(interp, targetCallFrame->argv, targetCallFrame->argc);
}
else {
Jim_Obj *listObj = Jim_NewListObj(interp, NULL, 0);
Jim_ListAppendElement(interp, listObj, targetCallFrame->argv[0]);
Jim_ListAppendElement(interp, listObj, Jim_NewStringObj(interp,
targetCallFrame->filename ? targetCallFrame->filename : "", -1));
Jim_ListAppendElement(interp, listObj, Jim_NewIntObj(interp, targetCallFrame->line));
*objPtrPtr = listObj;
}
return JIM_OK;
}
/* -----------------------------------------------------------------------------
* Core commands
* ---------------------------------------------------------------------------*/
/* fake [puts] -- not the real puts, just for debugging. */
static int Jim_PutsCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
if (argc != 2 && argc != 3) {
Jim_WrongNumArgs(interp, 1, argv, "?-nonewline? string");
return JIM_ERR;
}
if (argc == 3) {
if (!Jim_CompareStringImmediate(interp, argv[1], "-nonewline")) {
Jim_SetResultString(interp, "The second argument must " "be -nonewline", -1);
return JIM_ERR;
}
else {
fputs(Jim_String(argv[2]), stdout);
}
}
else {
puts(Jim_String(argv[1]));
}
return JIM_OK;
}
/* Helper for [+] and [*] */
static int JimAddMulHelper(Jim_Interp *interp, int argc, Jim_Obj *const *argv, int op)
{
jim_wide wideValue, res;
double doubleValue, doubleRes;
int i;
res = (op == JIM_EXPROP_ADD) ? 0 : 1;
for (i = 1; i < argc; i++) {
if (Jim_GetWide(interp, argv[i], &wideValue) != JIM_OK)
goto trydouble;
if (op == JIM_EXPROP_ADD)
res += wideValue;
else
res *= wideValue;
}
Jim_SetResultInt(interp, res);
return JIM_OK;
trydouble:
doubleRes = (double)res;
for (; i < argc; i++) {
if (Jim_GetDouble(interp, argv[i], &doubleValue) != JIM_OK)
return JIM_ERR;
if (op == JIM_EXPROP_ADD)
doubleRes += doubleValue;
else
doubleRes *= doubleValue;
}
Jim_SetResult(interp, Jim_NewDoubleObj(interp, doubleRes));
return JIM_OK;
}
/* Helper for [-] and [/] */
static int JimSubDivHelper(Jim_Interp *interp, int argc, Jim_Obj *const *argv, int op)
{
jim_wide wideValue, res = 0;
double doubleValue, doubleRes = 0;
int i = 2;
if (argc < 2) {
Jim_WrongNumArgs(interp, 1, argv, "number ?number ... number?");
return JIM_ERR;
}
else if (argc == 2) {
/* The arity = 2 case is different. For [- x] returns -x,
* while [/ x] returns 1/x. */
if (Jim_GetWide(interp, argv[1], &wideValue) != JIM_OK) {
if (Jim_GetDouble(interp, argv[1], &doubleValue) != JIM_OK) {
return JIM_ERR;
}
else {
if (op == JIM_EXPROP_SUB)
doubleRes = -doubleValue;
else
doubleRes = 1.0 / doubleValue;
Jim_SetResult(interp, Jim_NewDoubleObj(interp, doubleRes));
return JIM_OK;
}
}
if (op == JIM_EXPROP_SUB) {
res = -wideValue;
Jim_SetResultInt(interp, res);
}
else {
doubleRes = 1.0 / wideValue;
Jim_SetResult(interp, Jim_NewDoubleObj(interp, doubleRes));
}
return JIM_OK;
}
else {
if (Jim_GetWide(interp, argv[1], &res) != JIM_OK) {
if (Jim_GetDouble(interp, argv[1], &doubleRes)
!= JIM_OK) {
return JIM_ERR;
}
else {
goto trydouble;
}
}
}
for (i = 2; i < argc; i++) {
if (Jim_GetWide(interp, argv[i], &wideValue) != JIM_OK) {
doubleRes = (double)res;
goto trydouble;
}
if (op == JIM_EXPROP_SUB)
res -= wideValue;
else
res /= wideValue;
}
Jim_SetResultInt(interp, res);
return JIM_OK;
trydouble:
for (; i < argc; i++) {
if (Jim_GetDouble(interp, argv[i], &doubleValue) != JIM_OK)
return JIM_ERR;
if (op == JIM_EXPROP_SUB)
doubleRes -= doubleValue;
else
doubleRes /= doubleValue;
}
Jim_SetResult(interp, Jim_NewDoubleObj(interp, doubleRes));
return JIM_OK;
}
/* [+] */
static int Jim_AddCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
return JimAddMulHelper(interp, argc, argv, JIM_EXPROP_ADD);
}
/* [*] */
static int Jim_MulCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
return JimAddMulHelper(interp, argc, argv, JIM_EXPROP_MUL);
}
/* [-] */
static int Jim_SubCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
return JimSubDivHelper(interp, argc, argv, JIM_EXPROP_SUB);
}
/* [/] */
static int Jim_DivCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
return JimSubDivHelper(interp, argc, argv, JIM_EXPROP_DIV);
}
/* [set] */
static int Jim_SetCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
if (argc != 2 && argc != 3) {
Jim_WrongNumArgs(interp, 1, argv, "varName ?newValue?");
return JIM_ERR;
}
if (argc == 2) {
Jim_Obj *objPtr;
objPtr = Jim_GetVariable(interp, argv[1], JIM_ERRMSG);
if (!objPtr)
return JIM_ERR;
Jim_SetResult(interp, objPtr);
return JIM_OK;
}
/* argc == 3 case. */
if (Jim_SetVariable(interp, argv[1], argv[2]) != JIM_OK)
return JIM_ERR;
Jim_SetResult(interp, argv[2]);
return JIM_OK;
}
/* [unset]
*
* unset ?-nocomplain? ?--? ?varName ...?
*/
static int Jim_UnsetCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int i = 1;
int complain = 1;
while (i < argc) {
if (Jim_CompareStringImmediate(interp, argv[i], "--")) {
i++;
break;
}
if (Jim_CompareStringImmediate(interp, argv[i], "-nocomplain")) {
complain = 0;
i++;
continue;
}
break;
}
while (i < argc) {
if (Jim_UnsetVariable(interp, argv[i], complain ? JIM_ERRMSG : JIM_NONE) != JIM_OK
&& complain) {
return JIM_ERR;
}
i++;
}
return JIM_OK;
}
/* [while] */
static int Jim_WhileCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
if (argc != 3) {
Jim_WrongNumArgs(interp, 1, argv, "condition body");
return JIM_ERR;
}
/* The general purpose implementation of while starts here */
while (1) {
int boolean, retval;
if ((retval = Jim_GetBoolFromExpr(interp, argv[1], &boolean)) != JIM_OK)
return retval;
if (!boolean)
break;
if ((retval = Jim_EvalObj(interp, argv[2])) != JIM_OK) {
switch (retval) {
case JIM_BREAK:
goto out;
break;
case JIM_CONTINUE:
continue;
break;
default:
return retval;
}
}
}
out:
Jim_SetEmptyResult(interp);
return JIM_OK;
}
/* [for] */
static int Jim_ForCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int retval;
int boolean = 1;
Jim_Obj *varNamePtr = NULL;
Jim_Obj *stopVarNamePtr = NULL;
if (argc != 5) {
Jim_WrongNumArgs(interp, 1, argv, "start test next body");
return JIM_ERR;
}
/* Do the initialisation */
if ((retval = Jim_EvalObj(interp, argv[1])) != JIM_OK) {
return retval;
}
/* And do the first test now. Better for optimisation
* if we can do next/test at the bottom of the loop
*/
retval = Jim_GetBoolFromExpr(interp, argv[2], &boolean);
/* Ready to do the body as follows:
* while (1) {
* body // check retcode
* next // check retcode
* test // check retcode/test bool
* }
*/
#ifdef JIM_OPTIMIZATION
/* Check if the for is on the form:
* for ... {$i < CONST} {incr i}
* for ... {$i < $j} {incr i}
*/
if (retval == JIM_OK && boolean) {
ScriptObj *incrScript;
ExprByteCode *expr;
jim_wide stop, currentVal;
unsigned jim_wide procEpoch;
Jim_Obj *objPtr;
int cmpOffset;
/* Do it only if there aren't shared arguments */
expr = JimGetExpression(interp, argv[2]);
incrScript = Jim_GetScript(interp, argv[3]);
/* Ensure proper lengths to start */
if (incrScript->len != 3 || !expr || expr->len != 3) {
goto evalstart;
}
/* Ensure proper token types. */
if (incrScript->token[1].type != JIM_TT_ESC ||
expr->token[0].type != JIM_TT_VAR ||
(expr->token[1].type != JIM_TT_EXPR_INT && expr->token[1].type != JIM_TT_VAR)) {
goto evalstart;
}
if (expr->token[2].type == JIM_EXPROP_LT) {
cmpOffset = 0;
}
else if (expr->token[2].type == JIM_EXPROP_LTE) {
cmpOffset = 1;
}
else {
goto evalstart;
}
/* Update command must be incr */
if (!Jim_CompareStringImmediate(interp, incrScript->token[1].objPtr, "incr")) {
goto evalstart;
}
/* incr, expression must be about the same variable */
if (!Jim_StringEqObj(incrScript->token[2].objPtr, expr->token[0].objPtr)) {
goto evalstart;
}
/* Get the stop condition (must be a variable or integer) */
if (expr->token[1].type == JIM_TT_EXPR_INT) {
if (Jim_GetWide(interp, expr->token[1].objPtr, &stop) == JIM_ERR) {
goto evalstart;
}
}
else {
stopVarNamePtr = expr->token[1].objPtr;
Jim_IncrRefCount(stopVarNamePtr);
/* Keep the compiler happy */
stop = 0;
}
/* Initialization */
procEpoch = interp->procEpoch;
varNamePtr = expr->token[0].objPtr;
Jim_IncrRefCount(varNamePtr);
objPtr = Jim_GetVariable(interp, varNamePtr, JIM_NONE);
if (objPtr == NULL || Jim_GetWide(interp, objPtr, ¤tVal) != JIM_OK) {
goto testcond;
}
/* --- OPTIMIZED FOR --- */
while (retval == JIM_OK) {
/* === Check condition === */
/* Note that currentVal is already set here */
/* Immediate or Variable? get the 'stop' value if the latter. */
if (stopVarNamePtr) {
objPtr = Jim_GetVariable(interp, stopVarNamePtr, JIM_NONE);
if (objPtr == NULL || Jim_GetWide(interp, objPtr, &stop) != JIM_OK) {
goto testcond;
}
}
if (currentVal >= stop + cmpOffset) {
break;
}
/* Eval body */
retval = Jim_EvalObj(interp, argv[4]);
if (retval == JIM_OK || retval == JIM_CONTINUE) {
retval = JIM_OK;
/* If there was a change in procedures/command continue
* with the usual [for] command implementation */
if (procEpoch != interp->procEpoch) {
goto evalnext;
}
objPtr = Jim_GetVariable(interp, varNamePtr, JIM_ERRMSG);
/* Increment */
if (objPtr == NULL) {
retval = JIM_ERR;
goto out;
}
if (!Jim_IsShared(objPtr) && objPtr->typePtr == &intObjType) {
currentVal = ++JimWideValue(objPtr);
Jim_InvalidateStringRep(objPtr);
}
else {
if (Jim_GetWide(interp, objPtr, ¤tVal) != JIM_OK ||
Jim_SetVariable(interp, varNamePtr, Jim_NewIntObj(interp,
++currentVal)) != JIM_OK) {
goto evalnext;
}
}
}
}
goto out;
}
evalstart:
#endif
while (boolean && (retval == JIM_OK || retval == JIM_CONTINUE)) {
/* Body */
retval = Jim_EvalObj(interp, argv[4]);
if (retval == JIM_OK || retval == JIM_CONTINUE) {
/* increment */
evalnext:
retval = Jim_EvalObj(interp, argv[3]);
if (retval == JIM_OK || retval == JIM_CONTINUE) {
/* test */
testcond:
retval = Jim_GetBoolFromExpr(interp, argv[2], &boolean);
}
}
}
out:
if (stopVarNamePtr) {
Jim_DecrRefCount(interp, stopVarNamePtr);
}
if (varNamePtr) {
Jim_DecrRefCount(interp, varNamePtr);
}
if (retval == JIM_CONTINUE || retval == JIM_BREAK || retval == JIM_OK) {
Jim_SetEmptyResult(interp);
return JIM_OK;
}
return retval;
}
/* [loop] */
static int Jim_LoopCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int retval;
jim_wide i;
jim_wide limit;
jim_wide incr = 1;
Jim_Obj *bodyObjPtr;
if (argc != 5 && argc != 6) {
Jim_WrongNumArgs(interp, 1, argv, "var first limit ?incr? body");
return JIM_ERR;
}
if (Jim_GetWide(interp, argv[2], &i) != JIM_OK ||
Jim_GetWide(interp, argv[3], &limit) != JIM_OK ||
(argc == 6 && Jim_GetWide(interp, argv[4], &incr) != JIM_OK)) {
return JIM_ERR;
}
bodyObjPtr = (argc == 5) ? argv[4] : argv[5];
retval = Jim_SetVariable(interp, argv[1], argv[2]);
while (((i < limit && incr > 0) || (i > limit && incr < 0)) && retval == JIM_OK) {
retval = Jim_EvalObj(interp, bodyObjPtr);
if (retval == JIM_OK || retval == JIM_CONTINUE) {
Jim_Obj *objPtr = Jim_GetVariable(interp, argv[1], JIM_ERRMSG);
retval = JIM_OK;
/* Increment */
i += incr;
if (objPtr && !Jim_IsShared(objPtr) && objPtr->typePtr == &intObjType) {
if (argv[1]->typePtr != &variableObjType) {
if (Jim_SetVariable(interp, argv[1], objPtr) != JIM_OK) {
return JIM_ERR;
}
}
JimWideValue(objPtr) = i;
Jim_InvalidateStringRep(objPtr);
/* The following step is required in order to invalidate the
* string repr of "FOO" if the var name is of the form of "FOO(IDX)" */
if (argv[1]->typePtr != &variableObjType) {
if (Jim_SetVariable(interp, argv[1], objPtr) != JIM_OK) {
retval = JIM_ERR;
break;
}
}
}
else {
objPtr = Jim_NewIntObj(interp, i);
retval = Jim_SetVariable(interp, argv[1], objPtr);
if (retval != JIM_OK) {
Jim_FreeNewObj(interp, objPtr);
}
}
}
}
if (retval == JIM_OK || retval == JIM_CONTINUE || retval == JIM_BREAK) {
Jim_SetEmptyResult(interp);
return JIM_OK;
}
return retval;
}
/* foreach + lmap implementation. */
static int JimForeachMapHelper(Jim_Interp *interp, int argc, Jim_Obj *const *argv, int doMap)
{
int result = JIM_ERR, i, nbrOfLists, *listsIdx, *listsEnd;
int nbrOfLoops = 0;
Jim_Obj *emptyStr, *script, *mapRes = NULL;
if (argc < 4 || argc % 2 != 0) {
Jim_WrongNumArgs(interp, 1, argv, "varList list ?varList list ...? script");
return JIM_ERR;
}
if (doMap) {
mapRes = Jim_NewListObj(interp, NULL, 0);
Jim_IncrRefCount(mapRes);
}
emptyStr = Jim_NewEmptyStringObj(interp);
Jim_IncrRefCount(emptyStr);
script = argv[argc - 1]; /* Last argument is a script */
nbrOfLists = (argc - 1 - 1) / 2; /* argc - 'foreach' - script */
listsIdx = (int *)Jim_Alloc(nbrOfLists * sizeof(int));
listsEnd = (int *)Jim_Alloc(nbrOfLists * 2 * sizeof(int));
/* Initialize iterators and remember max nbr elements each list */
memset(listsIdx, 0, nbrOfLists * sizeof(int));
/* Remember lengths of all lists and calculate how much rounds to loop */
for (i = 0; i < nbrOfLists * 2; i += 2) {
div_t cnt;
int count;
listsEnd[i] = Jim_ListLength(interp, argv[i + 1]);
listsEnd[i + 1] = Jim_ListLength(interp, argv[i + 2]);
if (listsEnd[i] == 0) {
Jim_SetResultString(interp, "foreach varlist is empty", -1);
goto err;
}
cnt = div(listsEnd[i + 1], listsEnd[i]);
count = cnt.quot + (cnt.rem ? 1 : 0);
if (count > nbrOfLoops)
nbrOfLoops = count;
}
for (; nbrOfLoops-- > 0;) {
for (i = 0; i < nbrOfLists; ++i) {
int varIdx = 0, var = i * 2;
while (varIdx < listsEnd[var]) {
Jim_Obj *varName, *ele;
int lst = i * 2 + 1;
/* List index operations below can't fail */
Jim_ListIndex(interp, argv[var + 1], varIdx, &varName, JIM_NONE);
if (listsIdx[i] < listsEnd[lst]) {
Jim_ListIndex(interp, argv[lst + 1], listsIdx[i], &ele, JIM_NONE);
/* Avoid shimmering */
Jim_IncrRefCount(ele);
result = Jim_SetVariable(interp, varName, ele);
Jim_DecrRefCount(interp, ele);
if (result == JIM_OK) {
++listsIdx[i]; /* Remember next iterator of current list */
++varIdx; /* Next variable */
continue;
}
}
else if (Jim_SetVariable(interp, varName, emptyStr) == JIM_OK) {
++varIdx; /* Next variable */
continue;
}
goto err;
}
}
switch (result = Jim_EvalObj(interp, script)) {
case JIM_OK:
if (doMap)
Jim_ListAppendElement(interp, mapRes, interp->result);
break;
case JIM_CONTINUE:
break;
case JIM_BREAK:
goto out;
break;
default:
goto err;
}
}
out:
result = JIM_OK;
if (doMap)
Jim_SetResult(interp, mapRes);
else
Jim_SetEmptyResult(interp);
err:
if (doMap)
Jim_DecrRefCount(interp, mapRes);
Jim_DecrRefCount(interp, emptyStr);
Jim_Free(listsIdx);
Jim_Free(listsEnd);
return result;
}
/* [foreach] */
static int Jim_ForeachCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
return JimForeachMapHelper(interp, argc, argv, 0);
}
/* [lmap] */
static int Jim_LmapCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
return JimForeachMapHelper(interp, argc, argv, 1);
}
/* [if] */
static int Jim_IfCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int boolean, retval, current = 1, falsebody = 0;
if (argc >= 3) {
while (1) {
/* Far not enough arguments given! */
if (current >= argc)
goto err;
if ((retval = Jim_GetBoolFromExpr(interp, argv[current++], &boolean))
!= JIM_OK)
return retval;
/* There lacks something, isn't it? */
if (current >= argc)
goto err;
if (Jim_CompareStringImmediate(interp, argv[current], "then"))
current++;
/* Tsk tsk, no then-clause? */
if (current >= argc)
goto err;
if (boolean)
return Jim_EvalObj(interp, argv[current]);
/* Ok: no else-clause follows */
if (++current >= argc) {
Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
return JIM_OK;
}
falsebody = current++;
if (Jim_CompareStringImmediate(interp, argv[falsebody], "else")) {
/* IIICKS - else-clause isn't last cmd? */
if (current != argc - 1)
goto err;
return Jim_EvalObj(interp, argv[current]);
}
else if (Jim_CompareStringImmediate(interp, argv[falsebody], "elseif"))
/* Ok: elseif follows meaning all the stuff
* again (how boring...) */
continue;
/* OOPS - else-clause is not last cmd? */
else if (falsebody != argc - 1)
goto err;
return Jim_EvalObj(interp, argv[falsebody]);
}
return JIM_OK;
}
err:
Jim_WrongNumArgs(interp, 1, argv, "condition ?then? trueBody ?elseif ...? ?else? falseBody");
return JIM_ERR;
}
/* Returns 1 if match, 0 if no match or -<error> on error (e.g. -JIM_ERR, -JIM_BREAK)*/
int Jim_CommandMatchObj(Jim_Interp *interp, Jim_Obj *commandObj, Jim_Obj *patternObj,
Jim_Obj *stringObj, int nocase)
{
Jim_Obj *parms[4];
int argc = 0;
long eq;
int rc;
parms[argc++] = commandObj;
if (nocase) {
parms[argc++] = Jim_NewStringObj(interp, "-nocase", -1);
}
parms[argc++] = patternObj;
parms[argc++] = stringObj;
rc = Jim_EvalObjVector(interp, argc, parms);
if (rc != JIM_OK || Jim_GetLong(interp, Jim_GetResult(interp), &eq) != JIM_OK) {
eq = -rc;
}
return eq;
}
enum
{ SWITCH_EXACT, SWITCH_GLOB, SWITCH_RE, SWITCH_CMD };
/* [switch] */
static int Jim_SwitchCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int matchOpt = SWITCH_EXACT, opt = 1, patCount, i;
Jim_Obj *command = 0, *const *caseList = 0, *strObj;
Jim_Obj *script = 0;
if (argc < 3) {
wrongnumargs:
Jim_WrongNumArgs(interp, 1, argv, "?options? string "
"pattern body ... ?default body? or " "{pattern body ?pattern body ...?}");
return JIM_ERR;
}
for (opt = 1; opt < argc; ++opt) {
const char *option = Jim_GetString(argv[opt], 0);
if (*option != '-')
break;
else if (strncmp(option, "--", 2) == 0) {
++opt;
break;
}
else if (strncmp(option, "-exact", 2) == 0)
matchOpt = SWITCH_EXACT;
else if (strncmp(option, "-glob", 2) == 0)
matchOpt = SWITCH_GLOB;
else if (strncmp(option, "-regexp", 2) == 0)
matchOpt = SWITCH_RE;
else if (strncmp(option, "-command", 2) == 0) {
matchOpt = SWITCH_CMD;
if ((argc - opt) < 2)
goto wrongnumargs;
command = argv[++opt];
}
else {
Jim_SetResultFormatted(interp,
"bad option \"%#s\": must be -exact, -glob, -regexp, -command procname or --",
argv[opt]);
return JIM_ERR;
}
if ((argc - opt) < 2)
goto wrongnumargs;
}
strObj = argv[opt++];
patCount = argc - opt;
if (patCount == 1) {
Jim_Obj **vector;
JimListGetElements(interp, argv[opt], &patCount, &vector);
caseList = vector;
}
else
caseList = &argv[opt];
if (patCount == 0 || patCount % 2 != 0)
goto wrongnumargs;
for (i = 0; script == 0 && i < patCount; i += 2) {
Jim_Obj *patObj = caseList[i];
if (!Jim_CompareStringImmediate(interp, patObj, "default")
|| i < (patCount - 2)) {
switch (matchOpt) {
case SWITCH_EXACT:
if (Jim_StringEqObj(strObj, patObj))
script = caseList[i + 1];
break;
case SWITCH_GLOB:
if (Jim_StringMatchObj(interp, patObj, strObj, 0))
script = caseList[i + 1];
break;
case SWITCH_RE:
command = Jim_NewStringObj(interp, "regexp", -1);
/* Fall thru intentionally */
case SWITCH_CMD:{
int rc = Jim_CommandMatchObj(interp, command, patObj, strObj, 0);
/* After the execution of a command we need to
* make sure to reconvert the object into a list
* again. Only for the single-list style [switch]. */
if (argc - opt == 1) {
Jim_Obj **vector;
JimListGetElements(interp, argv[opt], &patCount, &vector);
caseList = vector;
}
/* command is here already decref'd */
if (rc < 0) {
return -rc;
}
if (rc)
script = caseList[i + 1];
break;
}
}
}
else {
script = caseList[i + 1];
}
}
for (; i < patCount && Jim_CompareStringImmediate(interp, script, "-"); i += 2)
script = caseList[i + 1];
if (script && Jim_CompareStringImmediate(interp, script, "-")) {
Jim_SetResultFormatted(interp, "no body specified for pattern \"%#s\"", caseList[i - 2]);
return JIM_ERR;
}
Jim_SetEmptyResult(interp);
if (script) {
return Jim_EvalObj(interp, script);
}
return JIM_OK;
}
/* [list] */
static int Jim_ListCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
Jim_Obj *listObjPtr;
listObjPtr = Jim_NewListObj(interp, argv + 1, argc - 1);
Jim_SetResult(interp, listObjPtr);
return JIM_OK;
}
/* [lindex] */
static int Jim_LindexCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
Jim_Obj *objPtr, *listObjPtr;
int i;
int idx;
if (argc < 3) {
Jim_WrongNumArgs(interp, 1, argv, "list index ?...?");
return JIM_ERR;
}
objPtr = argv[1];
Jim_IncrRefCount(objPtr);
for (i = 2; i < argc; i++) {
listObjPtr = objPtr;
if (Jim_GetIndex(interp, argv[i], &idx) != JIM_OK) {
Jim_DecrRefCount(interp, listObjPtr);
return JIM_ERR;
}
if (Jim_ListIndex(interp, listObjPtr, idx, &objPtr, JIM_NONE) != JIM_OK) {
/* Returns an empty object if the index
* is out of range. */
Jim_DecrRefCount(interp, listObjPtr);
Jim_SetEmptyResult(interp);
return JIM_OK;
}
Jim_IncrRefCount(objPtr);
Jim_DecrRefCount(interp, listObjPtr);
}
Jim_SetResult(interp, objPtr);
Jim_DecrRefCount(interp, objPtr);
return JIM_OK;
}
/* [llength] */
static int Jim_LlengthCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
if (argc != 2) {
Jim_WrongNumArgs(interp, 1, argv, "list");
return JIM_ERR;
}
Jim_SetResultInt(interp, Jim_ListLength(interp, argv[1]));
return JIM_OK;
}
/* [lsearch] */
static int Jim_LsearchCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
static const char * const options[] = {
"-bool", "-not", "-nocase", "-exact", "-glob", "-regexp", "-all", "-inline", "-command",
NULL
};
enum
{ OPT_BOOL, OPT_NOT, OPT_NOCASE, OPT_EXACT, OPT_GLOB, OPT_REGEXP, OPT_ALL, OPT_INLINE,
OPT_COMMAND };
int i;
int opt_bool = 0;
int opt_not = 0;
int opt_nocase = 0;
int opt_all = 0;
int opt_inline = 0;
int opt_match = OPT_EXACT;
int listlen;
int rc = JIM_OK;
Jim_Obj *listObjPtr = NULL;
Jim_Obj *commandObj = NULL;
if (argc < 3) {
wrongargs:
Jim_WrongNumArgs(interp, 1, argv,
"?-exact|-glob|-regexp|-command 'command'? ?-bool|-inline? ?-not? ?-nocase? ?-all? list value");
return JIM_ERR;
}
for (i = 1; i < argc - 2; i++) {
int option;
if (Jim_GetEnum(interp, argv[i], options, &option, NULL, JIM_ERRMSG) != JIM_OK) {
return JIM_ERR;
}
switch (option) {
case OPT_BOOL:
opt_bool = 1;
opt_inline = 0;
break;
case OPT_NOT:
opt_not = 1;
break;
case OPT_NOCASE:
opt_nocase = 1;
break;
case OPT_INLINE:
opt_inline = 1;
opt_bool = 0;
break;
case OPT_ALL:
opt_all = 1;
break;
case OPT_COMMAND:
if (i >= argc - 2) {
goto wrongargs;
}
commandObj = argv[++i];
/* fallthru */
case OPT_EXACT:
case OPT_GLOB:
case OPT_REGEXP:
opt_match = option;
break;
}
}
argv += i;
if (opt_all) {
listObjPtr = Jim_NewListObj(interp, NULL, 0);
}
if (opt_match == OPT_REGEXP) {
commandObj = Jim_NewStringObj(interp, "regexp", -1);
}
if (commandObj) {
Jim_IncrRefCount(commandObj);
}
listlen = Jim_ListLength(interp, argv[0]);
for (i = 0; i < listlen; i++) {
Jim_Obj *objPtr;
int eq = 0;
Jim_ListIndex(interp, argv[0], i, &objPtr, JIM_NONE);
switch (opt_match) {
case OPT_EXACT:
eq = Jim_StringCompareObj(interp, objPtr, argv[1], opt_nocase) == 0;
break;
case OPT_GLOB:
eq = Jim_StringMatchObj(interp, argv[1], objPtr, opt_nocase);
break;
case OPT_REGEXP:
case OPT_COMMAND:
eq = Jim_CommandMatchObj(interp, commandObj, argv[1], objPtr, opt_nocase);
if (eq < 0) {
if (listObjPtr) {
Jim_FreeNewObj(interp, listObjPtr);
}
rc = JIM_ERR;
goto done;
}
break;
}
/* If we have a non-match with opt_bool, opt_not, !opt_all, can't exit early */
if (!eq && opt_bool && opt_not && !opt_all) {
continue;
}
if ((!opt_bool && eq == !opt_not) || (opt_bool && (eq || opt_all))) {
/* Got a match (or non-match for opt_not), or (opt_bool && opt_all) */
Jim_Obj *resultObj;
if (opt_bool) {
resultObj = Jim_NewIntObj(interp, eq ^ opt_not);
}
else if (!opt_inline) {
resultObj = Jim_NewIntObj(interp, i);
}
else {
resultObj = objPtr;
}
if (opt_all) {
Jim_ListAppendElement(interp, listObjPtr, resultObj);
}
else {
Jim_SetResult(interp, resultObj);
goto done;
}
}
}
if (opt_all) {
Jim_SetResult(interp, listObjPtr);
}
else {
/* No match */
if (opt_bool) {
Jim_SetResultBool(interp, opt_not);
}
else if (!opt_inline) {
Jim_SetResultInt(interp, -1);
}
}
done:
if (commandObj) {
Jim_DecrRefCount(interp, commandObj);
}
return rc;
}
/* [lappend] */
static int Jim_LappendCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
Jim_Obj *listObjPtr;
int shared, i;
if (argc < 2) {
Jim_WrongNumArgs(interp, 1, argv, "varName ?value value ...?");
return JIM_ERR;
}
listObjPtr = Jim_GetVariable(interp, argv[1], JIM_UNSHARED);
if (!listObjPtr) {
/* Create the list if it does not exists */
listObjPtr = Jim_NewListObj(interp, NULL, 0);
if (Jim_SetVariable(interp, argv[1], listObjPtr) != JIM_OK) {
Jim_FreeNewObj(interp, listObjPtr);
return JIM_ERR;
}
}
shared = Jim_IsShared(listObjPtr);
if (shared)
listObjPtr = Jim_DuplicateObj(interp, listObjPtr);
for (i = 2; i < argc; i++)
Jim_ListAppendElement(interp, listObjPtr, argv[i]);
if (Jim_SetVariable(interp, argv[1], listObjPtr) != JIM_OK) {
if (shared)
Jim_FreeNewObj(interp, listObjPtr);
return JIM_ERR;
}
Jim_SetResult(interp, listObjPtr);
return JIM_OK;
}
/* [linsert] */
static int Jim_LinsertCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int idx, len;
Jim_Obj *listPtr;
if (argc < 4) {
Jim_WrongNumArgs(interp, 1, argv, "list index element " "?element ...?");
return JIM_ERR;
}
listPtr = argv[1];
if (Jim_IsShared(listPtr))
listPtr = Jim_DuplicateObj(interp, listPtr);
if (Jim_GetIndex(interp, argv[2], &idx) != JIM_OK)
goto err;
len = Jim_ListLength(interp, listPtr);
if (idx >= len)
idx = len;
else if (idx < 0)
idx = len + idx + 1;
Jim_ListInsertElements(interp, listPtr, idx, argc - 3, &argv[3]);
Jim_SetResult(interp, listPtr);
return JIM_OK;
err:
if (listPtr != argv[1]) {
Jim_FreeNewObj(interp, listPtr);
}
return JIM_ERR;
}
/* [lreplace] */
static int Jim_LreplaceCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int first, last, len, rangeLen;
Jim_Obj *listObj;
Jim_Obj *newListObj;
int i;
int shared;
if (argc < 4) {
Jim_WrongNumArgs(interp, 1, argv, "list first last ?element element ...?");
return JIM_ERR;
}
if (Jim_GetIndex(interp, argv[2], &first) != JIM_OK ||
Jim_GetIndex(interp, argv[3], &last) != JIM_OK) {
return JIM_ERR;
}
listObj = argv[1];
len = Jim_ListLength(interp, listObj);
first = JimRelToAbsIndex(len, first);
last = JimRelToAbsIndex(len, last);
JimRelToAbsRange(len, first, last, &first, &last, &rangeLen);
/* Now construct a new list which consists of:
* <elements before first> <supplied elements> <elements after last>
*/
/* Check to see if trying to replace past the end of the list */
if (first < len) {
/* OK. Not past the end */
}
else if (len == 0) {
/* Special for empty list, adjust first to 0 */
first = 0;
}
else {
Jim_SetResultString(interp, "list doesn't contain element ", -1);
Jim_AppendObj(interp, Jim_GetResult(interp), argv[2]);
return JIM_ERR;
}
newListObj = Jim_NewListObj(interp, NULL, 0);
shared = Jim_IsShared(listObj);
if (shared) {
listObj = Jim_DuplicateObj(interp, listObj);
}
/* Add the first set of elements */
for (i = 0; i < first; i++) {
Jim_ListAppendElement(interp, newListObj, listObj->internalRep.listValue.ele[i]);
}
/* Add supplied elements */
for (i = 4; i < argc; i++) {
Jim_ListAppendElement(interp, newListObj, argv[i]);
}
/* Add the remaining elements */
for (i = first + rangeLen; i < len; i++) {
Jim_ListAppendElement(interp, newListObj, listObj->internalRep.listValue.ele[i]);
}
Jim_SetResult(interp, newListObj);
if (shared) {
Jim_FreeNewObj(interp, listObj);
}
return JIM_OK;
}
/* [lset] */
static int Jim_LsetCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
if (argc < 3) {
Jim_WrongNumArgs(interp, 1, argv, "listVar ?index...? newVal");
return JIM_ERR;
}
else if (argc == 3) {
if (Jim_SetVariable(interp, argv[1], argv[2]) != JIM_OK)
return JIM_ERR;
Jim_SetResult(interp, argv[2]);
return JIM_OK;
}
if (Jim_SetListIndex(interp, argv[1], argv + 2, argc - 3, argv[argc - 1])
== JIM_ERR)
return JIM_ERR;
return JIM_OK;
}
/* [lsort] */
static int Jim_LsortCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const argv[])
{
const char *options[] = {
"-ascii", "-nocase", "-increasing", "-decreasing", "-command", "-integer", "-index", NULL
};
enum
{ OPT_ASCII, OPT_NOCASE, OPT_INCREASING, OPT_DECREASING, OPT_COMMAND, OPT_INTEGER, OPT_INDEX };
Jim_Obj *resObj;
int i;
int retCode;
struct lsort_info info;
if (argc < 2) {
Jim_WrongNumArgs(interp, 1, argv, "?options? list");
return JIM_ERR;
}
info.type = JIM_LSORT_ASCII;
info.order = 1;
info.indexed = 0;
info.command = NULL;
info.interp = interp;
for (i = 1; i < (argc - 1); i++) {
int option;
if (Jim_GetEnum(interp, argv[i], options, &option, NULL, JIM_ERRMSG)
!= JIM_OK)
return JIM_ERR;
switch (option) {
case OPT_ASCII:
info.type = JIM_LSORT_ASCII;
break;
case OPT_NOCASE:
info.type = JIM_LSORT_NOCASE;
break;
case OPT_INTEGER:
info.type = JIM_LSORT_INTEGER;
break;
case OPT_INCREASING:
info.order = 1;
break;
case OPT_DECREASING:
info.order = -1;
break;
case OPT_COMMAND:
if (i >= (argc - 2)) {
Jim_SetResultString(interp, "\"-command\" option must be followed by comparison command", -1);
return JIM_ERR;
}
info.type = JIM_LSORT_COMMAND;
info.command = argv[i + 1];
i++;
break;
case OPT_INDEX:
if (i >= (argc - 2)) {
Jim_SetResultString(interp, "\"-index\" option must be followed by list index", -1);
return JIM_ERR;
}
if (Jim_GetIndex(interp, argv[i + 1], &info.index) != JIM_OK) {
return JIM_ERR;
}
info.indexed = 1;
i++;
break;
}
}
resObj = Jim_DuplicateObj(interp, argv[argc - 1]);
retCode = ListSortElements(interp, resObj, &info);
if (retCode == JIM_OK) {
Jim_SetResult(interp, resObj);
}
else {
Jim_FreeNewObj(interp, resObj);
}
return retCode;
}
/* [append] */
static int Jim_AppendCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
Jim_Obj *stringObjPtr;
int i;
if (argc < 2) {
Jim_WrongNumArgs(interp, 1, argv, "varName ?value value ...?");
return JIM_ERR;
}
if (argc == 2) {
stringObjPtr = Jim_GetVariable(interp, argv[1], JIM_ERRMSG);
if (!stringObjPtr)
return JIM_ERR;
}
else {
int freeobj = 0;
stringObjPtr = Jim_GetVariable(interp, argv[1], JIM_UNSHARED);
if (!stringObjPtr) {
/* Create the string if it doesn't exist */
stringObjPtr = Jim_NewEmptyStringObj(interp);
freeobj = 1;
}
else if (Jim_IsShared(stringObjPtr)) {
freeobj = 1;
stringObjPtr = Jim_DuplicateObj(interp, stringObjPtr);
}
for (i = 2; i < argc; i++) {
Jim_AppendObj(interp, stringObjPtr, argv[i]);
}
if (Jim_SetVariable(interp, argv[1], stringObjPtr) != JIM_OK) {
if (freeobj) {
Jim_FreeNewObj(interp, stringObjPtr);
}
return JIM_ERR;
}
}
Jim_SetResult(interp, stringObjPtr);
return JIM_OK;
}
/* [debug] */
static int Jim_DebugCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
#ifdef JIM_DEBUG_COMMAND
const char *options[] = {
"refcount", "objcount", "objects", "invstr", "scriptlen", "exprlen",
"exprbc", "show",
NULL
};
enum
{
OPT_REFCOUNT, OPT_OBJCOUNT, OPT_OBJECTS, OPT_INVSTR, OPT_SCRIPTLEN,
OPT_EXPRLEN, OPT_EXPRBC, OPT_SHOW,
};
int option;
if (argc < 2) {
Jim_WrongNumArgs(interp, 1, argv, "subcommand ?...?");
return JIM_ERR;
}
if (Jim_GetEnum(interp, argv[1], options, &option, "subcommand", JIM_ERRMSG) != JIM_OK)
return JIM_ERR;
if (option == OPT_REFCOUNT) {
if (argc != 3) {
Jim_WrongNumArgs(interp, 2, argv, "object");
return JIM_ERR;
}
Jim_SetResultInt(interp, argv[2]->refCount);
return JIM_OK;
}
else if (option == OPT_OBJCOUNT) {
int freeobj = 0, liveobj = 0;
char buf[256];
Jim_Obj *objPtr;
if (argc != 2) {
Jim_WrongNumArgs(interp, 2, argv, "");
return JIM_ERR;
}
/* Count the number of free objects. */
objPtr = interp->freeList;
while (objPtr) {
freeobj++;
objPtr = objPtr->nextObjPtr;
}
/* Count the number of live objects. */
objPtr = interp->liveList;
while (objPtr) {
liveobj++;
objPtr = objPtr->nextObjPtr;
}
/* Set the result string and return. */
sprintf(buf, "free %d used %d", freeobj, liveobj);
Jim_SetResultString(interp, buf, -1);
return JIM_OK;
}
else if (option == OPT_OBJECTS) {
Jim_Obj *objPtr, *listObjPtr, *subListObjPtr;
/* Count the number of live objects. */
objPtr = interp->liveList;
listObjPtr = Jim_NewListObj(interp, NULL, 0);
while (objPtr) {
char buf[128];
const char *type = objPtr->typePtr ? objPtr->typePtr->name : "";
subListObjPtr = Jim_NewListObj(interp, NULL, 0);
sprintf(buf, "%p", objPtr);
Jim_ListAppendElement(interp, subListObjPtr, Jim_NewStringObj(interp, buf, -1));
Jim_ListAppendElement(interp, subListObjPtr, Jim_NewStringObj(interp, type, -1));
Jim_ListAppendElement(interp, subListObjPtr, Jim_NewIntObj(interp, objPtr->refCount));
Jim_ListAppendElement(interp, subListObjPtr, objPtr);
Jim_ListAppendElement(interp, listObjPtr, subListObjPtr);
objPtr = objPtr->nextObjPtr;
}
Jim_SetResult(interp, listObjPtr);
return JIM_OK;
}
else if (option == OPT_INVSTR) {
Jim_Obj *objPtr;
if (argc != 3) {
Jim_WrongNumArgs(interp, 2, argv, "object");
return JIM_ERR;
}
objPtr = argv[2];
if (objPtr->typePtr != NULL)
Jim_InvalidateStringRep(objPtr);
Jim_SetEmptyResult(interp);
return JIM_OK;
}
else if (option == OPT_SHOW) {
const char *s;
int len, charlen;
if (argc != 3) {
Jim_WrongNumArgs(interp, 2, argv, "object");
return JIM_ERR;
}
s = Jim_GetString(argv[2], &len);
charlen = Jim_Utf8Length(interp, argv[2]);
printf("chars (%d): <<%s>>\n", charlen, s);
printf("bytes (%d):", len);
while (len--) {
printf(" %02x", (unsigned char)*s++);
}
printf("\n");
return JIM_OK;
}
else if (option == OPT_SCRIPTLEN) {
ScriptObj *script;
if (argc != 3) {
Jim_WrongNumArgs(interp, 2, argv, "script");
return JIM_ERR;
}
script = Jim_GetScript(interp, argv[2]);
Jim_SetResultInt(interp, script->len);
return JIM_OK;
}
else if (option == OPT_EXPRLEN) {
ExprByteCode *expr;
if (argc != 3) {
Jim_WrongNumArgs(interp, 2, argv, "expression");
return JIM_ERR;
}
expr = JimGetExpression(interp, argv[2]);
if (expr == NULL)
return JIM_ERR;
Jim_SetResultInt(interp, expr->len);
return JIM_OK;
}
else if (option == OPT_EXPRBC) {
Jim_Obj *objPtr;
ExprByteCode *expr;
int i;
if (argc != 3) {
Jim_WrongNumArgs(interp, 2, argv, "expression");
return JIM_ERR;
}
expr = JimGetExpression(interp, argv[2]);
if (expr == NULL)
return JIM_ERR;
objPtr = Jim_NewListObj(interp, NULL, 0);
for (i = 0; i < expr->len; i++) {
const char *type;
const Jim_ExprOperator *op;
Jim_Obj *obj = expr->token[i].objPtr;
switch (expr->token[i].type) {
case JIM_TT_EXPR_INT:
type = "int";
break;
case JIM_TT_EXPR_DOUBLE:
type = "double";
break;
case JIM_TT_CMD:
type = "command";
break;
case JIM_TT_VAR:
type = "variable";
break;
case JIM_TT_DICTSUGAR:
type = "dictsugar";
break;
case JIM_TT_EXPRSUGAR:
type = "exprsugar";
break;
case JIM_TT_ESC:
type = "subst";
break;
case JIM_TT_STR:
type = "string";
break;
default:
op = JimExprOperatorInfoByOpcode(expr->token[i].type);
if (op == NULL) {
type = "private";
}
else {
type = "operator";
}
obj = Jim_NewStringObj(interp, op ? op->name : "", -1);
break;
}
Jim_ListAppendElement(interp, objPtr, Jim_NewStringObj(interp, type, -1));
Jim_ListAppendElement(interp, objPtr, obj);
}
Jim_SetResult(interp, objPtr);
return JIM_OK;
}
else {
Jim_SetResultString(interp,
"bad option. Valid options are refcount, " "objcount, objects, invstr", -1);
return JIM_ERR;
}
/* unreached */
#else
Jim_SetResultString(interp, "unsupported", -1);
return JIM_ERR;
#endif
}
/* [eval] */
static int Jim_EvalCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int rc;
Jim_Stack *prevLocalProcs;
if (argc < 2) {
Jim_WrongNumArgs(interp, 1, argv, "script ?...?");
return JIM_ERR;
}
/* Install a new stack for local procs */
prevLocalProcs = interp->localProcs;
interp->localProcs = NULL;
if (argc == 2) {
rc = Jim_EvalObj(interp, argv[1]);
}
else {
rc = Jim_EvalObj(interp, Jim_ConcatObj(interp, argc - 1, argv + 1));
}
/* Delete any local procs */
JimDeleteLocalProcs(interp);
interp->localProcs = prevLocalProcs;
if (rc == JIM_ERR) {
/* eval is "interesting", so add a stack frame here */
interp->addStackTrace++;
}
return rc;
}
/* [uplevel] */
static int Jim_UplevelCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
if (argc >= 2) {
int retcode;
Jim_CallFrame *savedCallFrame, *targetCallFrame;
Jim_Obj *objPtr;
const char *str;
/* Save the old callframe pointer */
savedCallFrame = interp->framePtr;
/* Lookup the target frame pointer */
str = Jim_String(argv[1]);
if ((str[0] >= '0' && str[0] <= '9') || str[0] == '#') {
targetCallFrame =Jim_GetCallFrameByLevel(interp, argv[1]);
argc--;
argv++;
}
else {
targetCallFrame = Jim_GetCallFrameByLevel(interp, NULL);
}
if (targetCallFrame == NULL) {
return JIM_ERR;
}
if (argc < 2) {
argv--;
Jim_WrongNumArgs(interp, 1, argv, "?level? command ?arg ...?");
return JIM_ERR;
}
/* Eval the code in the target callframe. */
interp->framePtr = targetCallFrame;
if (argc == 2) {
retcode = Jim_EvalObj(interp, argv[1]);
}
else {
objPtr = Jim_ConcatObj(interp, argc - 1, argv + 1);
Jim_IncrRefCount(objPtr);
retcode = Jim_EvalObj(interp, objPtr);
Jim_DecrRefCount(interp, objPtr);
}
interp->framePtr = savedCallFrame;
return retcode;
}
else {
Jim_WrongNumArgs(interp, 1, argv, "?level? command ?arg ...?");
return JIM_ERR;
}
}
/* [expr] */
static int Jim_ExprCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
Jim_Obj *exprResultPtr;
int retcode;
if (argc == 2) {
retcode = Jim_EvalExpression(interp, argv[1], &exprResultPtr);
}
else if (argc > 2) {
Jim_Obj *objPtr;
objPtr = Jim_ConcatObj(interp, argc - 1, argv + 1);
Jim_IncrRefCount(objPtr);
retcode = Jim_EvalExpression(interp, objPtr, &exprResultPtr);
Jim_DecrRefCount(interp, objPtr);
}
else {
Jim_WrongNumArgs(interp, 1, argv, "expression ?...?");
return JIM_ERR;
}
if (retcode != JIM_OK)
return retcode;
Jim_SetResult(interp, exprResultPtr);
Jim_DecrRefCount(interp, exprResultPtr);
return JIM_OK;
}
/* [break] */
static int Jim_BreakCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
if (argc != 1) {
Jim_WrongNumArgs(interp, 1, argv, "");
return JIM_ERR;
}
return JIM_BREAK;
}
/* [continue] */
static int Jim_ContinueCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
if (argc != 1) {
Jim_WrongNumArgs(interp, 1, argv, "");
return JIM_ERR;
}
return JIM_CONTINUE;
}
/* [return] */
static int Jim_ReturnCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int i;
Jim_Obj *stackTraceObj = NULL;
Jim_Obj *errorCodeObj = NULL;
int returnCode = JIM_OK;
long level = 1;
for (i = 1; i < argc - 1; i += 2) {
if (Jim_CompareStringImmediate(interp, argv[i], "-code")) {
if (Jim_GetReturnCode(interp, argv[i + 1], &returnCode) == JIM_ERR) {
return JIM_ERR;
}
}
else if (Jim_CompareStringImmediate(interp, argv[i], "-errorinfo")) {
stackTraceObj = argv[i + 1];
}
else if (Jim_CompareStringImmediate(interp, argv[i], "-errorcode")) {
errorCodeObj = argv[i + 1];
}
else if (Jim_CompareStringImmediate(interp, argv[i], "-level")) {
if (Jim_GetLong(interp, argv[i + 1], &level) != JIM_OK || level < 0) {
Jim_SetResultFormatted(interp, "bad level \"%#s\"", argv[i + 1]);
return JIM_ERR;
}
}
else {
break;
}
}
if (i != argc - 1 && i != argc) {
Jim_WrongNumArgs(interp, 1, argv,
"?-code code? ?-errorinfo stacktrace? ?-level level? ?result?");
}
/* If a stack trace is supplied and code is error, set the stack trace */
if (stackTraceObj && returnCode == JIM_ERR) {
JimSetStackTrace(interp, stackTraceObj);
}
/* If an error code list is supplied, set the global $errorCode */
if (errorCodeObj && returnCode == JIM_ERR) {
Jim_SetGlobalVariableStr(interp, "errorCode", errorCodeObj);
}
interp->returnCode = returnCode;
interp->returnLevel = level;
if (i == argc - 1) {
Jim_SetResult(interp, argv[i]);
}
return JIM_RETURN;
}
/* [tailcall] */
static int Jim_TailcallCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
Jim_Obj *objPtr;
objPtr = Jim_NewListObj(interp, argv + 1, argc - 1);
Jim_SetResult(interp, objPtr);
return JIM_EVAL;
}
/* [proc] */
static int Jim_ProcCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int argListLen;
int leftArity, rightArity;
int i;
int optionalArgs = 0;
int args = 0;
if (argc != 4 && argc != 5) {
Jim_WrongNumArgs(interp, 1, argv, "name arglist ?statics? body");
return JIM_ERR;
}
if (JimValidName(interp, "procedure", argv[1]) != JIM_OK) {
return JIM_ERR;
}
argListLen = Jim_ListLength(interp, argv[2]);
leftArity = 0;
rightArity = 0;
/* Examine the argument list for default parameters and 'args' */
for (i = 0; i < argListLen; i++) {
Jim_Obj *argPtr;
int len;
/* Examine a parameter */
Jim_ListIndex(interp, argv[2], i, &argPtr, JIM_NONE);
len = Jim_ListLength(interp, argPtr);
if (len == 0) {
Jim_SetResultString(interp, "procedure has argument with no name", -1);
return JIM_ERR;
}
if (len > 2) {
Jim_SetResultString(interp, "procedure has argument with too many fields", -1);
return JIM_ERR;
}
if (len == 2) {
/* May be {args newname} */
Jim_ListIndex(interp, argPtr, 0, &argPtr, JIM_NONE);
}
if (Jim_CompareStringImmediate(interp, argPtr, "args")) {
if (args) {
Jim_SetResultString(interp, "procedure has 'args' specified more than once", -1);
return JIM_ERR;
}
if (rightArity) {
Jim_SetResultString(interp, "procedure has 'args' in invalid position", -1);
return JIM_ERR;
}
args = 1;
continue;
}
/* Does this parameter have a default? */
if (len == 1) {
/* A required arg. Is it part of leftArity or rightArity? */
if (optionalArgs || args) {
rightArity++;
}
else {
leftArity++;
}
}
else {
/* Optional arg. Can't be after rightArity */
if (rightArity || args) {
Jim_SetResultString(interp, "procedure has optional arg in invalid position", -1);
return JIM_ERR;
}
optionalArgs++;
}
}
if (argc == 4) {
return JimCreateProcedure(interp, Jim_String(argv[1]),
argv[2], NULL, argv[3], leftArity, optionalArgs, args, rightArity);
}
else {
return JimCreateProcedure(interp, Jim_String(argv[1]),
argv[2], argv[3], argv[4], leftArity, optionalArgs, args, rightArity);
}
}
/* [local] */
static int Jim_LocalCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int retcode;
/* Evaluate the arguments with 'local' in force */
interp->local++;
retcode = Jim_EvalObjVector(interp, argc - 1, argv + 1);
interp->local--;
/* If OK, and the result is a proc, add it to the list of local procs */
if (retcode == 0) {
const char *procname = Jim_String(Jim_GetResult(interp));
if (Jim_FindHashEntry(&interp->commands, procname) == NULL) {
Jim_SetResultFormatted(interp, "not a proc: \"%s\"", procname);
return JIM_ERR;
}
if (interp->localProcs == NULL) {
interp->localProcs = Jim_Alloc(sizeof(*interp->localProcs));
Jim_InitStack(interp->localProcs);
}
Jim_StackPush(interp->localProcs, Jim_StrDup(procname));
}
return retcode;
}
/* [upcall] */
static int Jim_UpcallCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
if (argc < 2) {
Jim_WrongNumArgs(interp, 1, argv, "cmd ?args ...?");
return JIM_ERR;
}
else {
int retcode;
Jim_Cmd *cmdPtr = Jim_GetCommand(interp, argv[1], JIM_ERRMSG);
if (cmdPtr == NULL || !cmdPtr->isproc || !cmdPtr->u.proc.prevCmd) {
Jim_SetResultFormatted(interp, "no previous proc: \"%#s\"", argv[1]);
return JIM_ERR;
}
/* OK. Mark this command as being in an upcall */
cmdPtr->u.proc.upcall++;
JimIncrCmdRefCount(cmdPtr);
/* Invoke the command as normal */
retcode = Jim_EvalObjVector(interp, argc - 1, argv + 1);
/* No longer in an upcall */
cmdPtr->u.proc.upcall--;
JimDecrCmdRefCount(interp, cmdPtr);
return retcode;
}
}
/* [concat] */
static int Jim_ConcatCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
Jim_SetResult(interp, Jim_ConcatObj(interp, argc - 1, argv + 1));
return JIM_OK;
}
/* [upvar] */
static int Jim_UpvarCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int i;
Jim_CallFrame *targetCallFrame;
/* Lookup the target frame pointer */
if (argc > 3 && (argc % 2 == 0)) {
targetCallFrame = Jim_GetCallFrameByLevel(interp, argv[1]);
argc--;
argv++;
}
else {
targetCallFrame = Jim_GetCallFrameByLevel(interp, NULL);
}
if (targetCallFrame == NULL) {
return JIM_ERR;
}
/* Check for arity */
if (argc < 3) {
Jim_WrongNumArgs(interp, 1, argv, "?level? otherVar localVar ?otherVar localVar ...?");
return JIM_ERR;
}
/* Now... for every other/local couple: */
for (i = 1; i < argc; i += 2) {
if (Jim_SetVariableLink(interp, argv[i + 1], argv[i], targetCallFrame) != JIM_OK)
return JIM_ERR;
}
return JIM_OK;
}
/* [global] */
static int Jim_GlobalCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int i;
if (argc < 2) {
Jim_WrongNumArgs(interp, 1, argv, "varName ?varName ...?");
return JIM_ERR;
}
/* Link every var to the toplevel having the same name */
if (interp->framePtr->level == 0)
return JIM_OK; /* global at toplevel... */
for (i = 1; i < argc; i++) {
if (Jim_SetVariableLink(interp, argv[i], argv[i], interp->topFramePtr) != JIM_OK)
return JIM_ERR;
}
return JIM_OK;
}
/* does the [string map] operation. On error NULL is returned,
* otherwise a new string object with the result, having refcount = 0,
* is returned. */
static Jim_Obj *JimStringMap(Jim_Interp *interp, Jim_Obj *mapListObjPtr,
Jim_Obj *objPtr, int nocase)
{
int numMaps;
const char *str, *noMatchStart = NULL;
int strLen, i;
Jim_Obj *resultObjPtr;
numMaps = Jim_ListLength(interp, mapListObjPtr);
if (numMaps % 2) {
Jim_SetResultString(interp, "list must contain an even number of elements", -1);
return NULL;
}
str = Jim_String(objPtr);
strLen = Jim_Utf8Length(interp, objPtr);
/* Map it */
resultObjPtr = Jim_NewStringObj(interp, "", 0);
while (strLen) {
for (i = 0; i < numMaps; i += 2) {
Jim_Obj *objPtr;
const char *k;
int kl;
Jim_ListIndex(interp, mapListObjPtr, i, &objPtr, JIM_NONE);
k = Jim_String(objPtr);
kl = Jim_Utf8Length(interp, objPtr);
if (strLen >= kl && kl) {
int rc;
if (nocase) {
rc = JimStringCompareNoCase(str, k, kl);
}
else {
rc = JimStringCompare(str, kl, k, kl);
}
if (rc == 0) {
if (noMatchStart) {
Jim_AppendString(interp, resultObjPtr, noMatchStart, str - noMatchStart);
noMatchStart = NULL;
}
Jim_ListIndex(interp, mapListObjPtr, i + 1, &objPtr, JIM_NONE);
Jim_AppendObj(interp, resultObjPtr, objPtr);
str += utf8_index(str, kl);
strLen -= kl;
break;
}
}
}
if (i == numMaps) { /* no match */
int c;
if (noMatchStart == NULL)
noMatchStart = str;
str += utf8_tounicode(str, &c);
strLen--;
}
}
if (noMatchStart) {
Jim_AppendString(interp, resultObjPtr, noMatchStart, str - noMatchStart);
}
return resultObjPtr;
}
/* [string] */
static int Jim_StringCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int len;
int opt_case = 1;
int option;
static const char * const options[] = {
"bytelength", "length", "compare", "match", "equal", "is", "byterange", "range", "map",
"repeat", "reverse", "index", "first", "last",
"trim", "trimleft", "trimright", "tolower", "toupper", NULL
};
enum
{
OPT_BYTELENGTH, OPT_LENGTH, OPT_COMPARE, OPT_MATCH, OPT_EQUAL, OPT_IS, OPT_BYTERANGE, OPT_RANGE, OPT_MAP,
OPT_REPEAT, OPT_REVERSE, OPT_INDEX, OPT_FIRST, OPT_LAST,
OPT_TRIM, OPT_TRIMLEFT, OPT_TRIMRIGHT, OPT_TOLOWER, OPT_TOUPPER
};
static const char * const nocase_options[] = {
"-nocase", NULL
};
if (argc < 2) {
Jim_WrongNumArgs(interp, 1, argv, "option ?arguments ...?");
return JIM_ERR;
}
if (Jim_GetEnum(interp, argv[1], options, &option, NULL,
JIM_ERRMSG | JIM_ENUM_ABBREV) != JIM_OK)
return JIM_ERR;
switch (option) {
case OPT_LENGTH:
case OPT_BYTELENGTH:
if (argc != 3) {
Jim_WrongNumArgs(interp, 2, argv, "string");
return JIM_ERR;
}
if (option == OPT_LENGTH) {
len = Jim_Utf8Length(interp, argv[2]);
}
else {
len = Jim_Length(argv[2]);
}
Jim_SetResultInt(interp, len);
return JIM_OK;
case OPT_COMPARE:
case OPT_EQUAL:
if (argc != 4 &&
(argc != 5 ||
Jim_GetEnum(interp, argv[2], nocase_options, &opt_case, NULL,
JIM_ENUM_ABBREV) != JIM_OK)) {
Jim_WrongNumArgs(interp, 2, argv, "?-nocase? string1 string2");
return JIM_ERR;
}
if (opt_case == 0) {
argv++;
}
if (option == OPT_COMPARE || !opt_case) {
Jim_SetResultInt(interp, Jim_StringCompareObj(interp, argv[2], argv[3], !opt_case));
}
else {
Jim_SetResultBool(interp, Jim_StringEqObj(argv[2], argv[3]));
}
return JIM_OK;
case OPT_MATCH:
if (argc != 4 &&
(argc != 5 ||
Jim_GetEnum(interp, argv[2], nocase_options, &opt_case, NULL,
JIM_ENUM_ABBREV) != JIM_OK)) {
Jim_WrongNumArgs(interp, 2, argv, "?-nocase? pattern string");
return JIM_ERR;
}
if (opt_case == 0) {
argv++;
}
Jim_SetResultBool(interp, Jim_StringMatchObj(interp, argv[2], argv[3], !opt_case));
return JIM_OK;
case OPT_MAP:{
Jim_Obj *objPtr;
if (argc != 4 &&
(argc != 5 ||
Jim_GetEnum(interp, argv[2], nocase_options, &opt_case, NULL,
JIM_ENUM_ABBREV) != JIM_OK)) {
Jim_WrongNumArgs(interp, 2, argv, "?-nocase? mapList string");
return JIM_ERR;
}
if (opt_case == 0) {
argv++;
}
objPtr = JimStringMap(interp, argv[2], argv[3], !opt_case);
if (objPtr == NULL) {
return JIM_ERR;
}
Jim_SetResult(interp, objPtr);
return JIM_OK;
}
case OPT_RANGE:
case OPT_BYTERANGE:{
Jim_Obj *objPtr;
if (argc != 5) {
Jim_WrongNumArgs(interp, 2, argv, "string first last");
return JIM_ERR;
}
if (option == OPT_RANGE) {
objPtr = Jim_StringRangeObj(interp, argv[2], argv[3], argv[4]);
}
else
{
objPtr = Jim_StringByteRangeObj(interp, argv[2], argv[3], argv[4]);
}
if (objPtr == NULL) {
return JIM_ERR;
}
Jim_SetResult(interp, objPtr);
return JIM_OK;
}
case OPT_REPEAT:{
Jim_Obj *objPtr;
jim_wide count;
if (argc != 4) {
Jim_WrongNumArgs(interp, 2, argv, "string count");
return JIM_ERR;
}
if (Jim_GetWide(interp, argv[3], &count) != JIM_OK) {
return JIM_ERR;
}
objPtr = Jim_NewStringObj(interp, "", 0);
if (count > 0) {
while (count--) {
Jim_AppendObj(interp, objPtr, argv[2]);
}
}
Jim_SetResult(interp, objPtr);
return JIM_OK;
}
case OPT_REVERSE:{
char *buf, *p;
const char *str;
int len;
int i;
if (argc != 3) {
Jim_WrongNumArgs(interp, 2, argv, "string");
return JIM_ERR;
}
str = Jim_GetString(argv[2], &len);
if (!str) {
return JIM_ERR;
}
buf = Jim_Alloc(len + 1);
p = buf + len;
*p = 0;
for (i = 0; i < len; ) {
int c;
int l = utf8_tounicode(str, &c);
memcpy(p - l, str, l);
p -= l;
i += l;
str += l;
}
Jim_SetResult(interp, Jim_NewStringObjNoAlloc(interp, buf, len));
return JIM_OK;
}
case OPT_INDEX:{
int idx;
const char *str;
if (argc != 4) {
Jim_WrongNumArgs(interp, 2, argv, "string index");
return JIM_ERR;
}
if (Jim_GetIndex(interp, argv[3], &idx) != JIM_OK) {
return JIM_ERR;
}
str = Jim_String(argv[2]);
len = Jim_Utf8Length(interp, argv[2]);
if (idx != INT_MIN && idx != INT_MAX) {
idx = JimRelToAbsIndex(len, idx);
}
if (idx < 0 || idx >= len || str == NULL) {
Jim_SetResultString(interp, "", 0);
}
else if (len == Jim_Length(argv[2])) {
/* ASCII optimisation */
Jim_SetResultString(interp, str + idx, 1);
}
else {
int c;
int i = utf8_index(str, idx);
Jim_SetResultString(interp, str + i, utf8_tounicode(str + i, &c));
}
return JIM_OK;
}
case OPT_FIRST:
case OPT_LAST:{
int idx = 0, l1, l2;
const char *s1, *s2;
if (argc != 4 && argc != 5) {
Jim_WrongNumArgs(interp, 2, argv, "subString string ?index?");
return JIM_ERR;
}
s1 = Jim_String(argv[2]);
s2 = Jim_String(argv[3]);
l1 = Jim_Utf8Length(interp, argv[2]);
l2 = Jim_Utf8Length(interp, argv[3]);
if (argc == 5) {
if (Jim_GetIndex(interp, argv[4], &idx) != JIM_OK) {
return JIM_ERR;
}
idx = JimRelToAbsIndex(l2, idx);
}
else if (option == OPT_LAST) {
idx = l2;
}
if (option == OPT_FIRST) {
Jim_SetResultInt(interp, JimStringFirst(s1, l1, s2, l2, idx));
}
else {
#ifdef JIM_UTF8
Jim_SetResultInt(interp, JimStringLastUtf8(s1, l1, s2, idx));
#else
Jim_SetResultInt(interp, JimStringLast(s1, l1, s2, idx));
#endif
}
return JIM_OK;
}
case OPT_TRIM:
case OPT_TRIMLEFT:
case OPT_TRIMRIGHT:{
Jim_Obj *trimchars;
if (argc != 3 && argc != 4) {
Jim_WrongNumArgs(interp, 2, argv, "string ?trimchars?");
return JIM_ERR;
}
trimchars = (argc == 4 ? argv[3] : NULL);
if (option == OPT_TRIM) {
Jim_SetResult(interp, JimStringTrim(interp, argv[2], trimchars));
}
else if (option == OPT_TRIMLEFT) {
Jim_SetResult(interp, JimStringTrimLeft(interp, argv[2], trimchars));
}
else if (option == OPT_TRIMRIGHT) {
Jim_SetResult(interp, JimStringTrimRight(interp, argv[2], trimchars));
}
return JIM_OK;
}
case OPT_TOLOWER:
case OPT_TOUPPER:
if (argc != 3) {
Jim_WrongNumArgs(interp, 2, argv, "string");
return JIM_ERR;
}
if (option == OPT_TOLOWER) {
Jim_SetResult(interp, JimStringToLower(interp, argv[2]));
}
else {
Jim_SetResult(interp, JimStringToUpper(interp, argv[2]));
}
return JIM_OK;
case OPT_IS:
if (argc == 4 || (argc == 5 && Jim_CompareStringImmediate(interp, argv[3], "-strict"))) {
return JimStringIs(interp, argv[argc - 1], argv[2], argc == 5);
}
Jim_WrongNumArgs(interp, 2, argv, "class ?-strict? str");
return JIM_ERR;
}
return JIM_OK;
}
/* [time] */
static int Jim_TimeCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
long i, count = 1;
jim_wide start, elapsed;
char buf[60];
const char *fmt = "%" JIM_WIDE_MODIFIER " microseconds per iteration";
if (argc < 2) {
Jim_WrongNumArgs(interp, 1, argv, "script ?count?");
return JIM_ERR;
}
if (argc == 3) {
if (Jim_GetLong(interp, argv[2], &count) != JIM_OK)
return JIM_ERR;
}
if (count < 0)
return JIM_OK;
i = count;
start = JimClock();
while (i-- > 0) {
int retval;
retval = Jim_EvalObj(interp, argv[1]);
if (retval != JIM_OK) {
return retval;
}
}
elapsed = JimClock() - start;
sprintf(buf, fmt, count == 0 ? 0 : elapsed / count);
Jim_SetResultString(interp, buf, -1);
return JIM_OK;
}
/* [exit] */
static int Jim_ExitCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
long exitCode = 0;
if (argc > 2) {
Jim_WrongNumArgs(interp, 1, argv, "?exitCode?");
return JIM_ERR;
}
if (argc == 2) {
if (Jim_GetLong(interp, argv[1], &exitCode) != JIM_OK)
return JIM_ERR;
}
interp->exitCode = exitCode;
return JIM_EXIT;
}
/* [catch] */
static int Jim_CatchCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int exitCode = 0;
int i;
int sig = 0;
/* Which return codes are caught? These are the defaults */
jim_wide mask =
(1 << JIM_OK | 1 << JIM_ERR | 1 << JIM_BREAK | 1 << JIM_CONTINUE | 1 << JIM_RETURN);
/* Reset the error code before catch.
* Note that this is not strictly correct.
*/
Jim_SetGlobalVariableStr(interp, "errorCode", Jim_NewStringObj(interp, "NONE", -1));
for (i = 1; i < argc - 1; i++) {
const char *arg = Jim_String(argv[i]);
jim_wide option;
int add;
/* It's a pity we can't use Jim_GetEnum here :-( */
if (strcmp(arg, "--") == 0) {
i++;
break;
}
if (*arg != '-') {
break;
}
if (strncmp(arg, "-no", 3) == 0) {
arg += 3;
add = 0;
}
else {
arg++;
add = 1;
}
if (Jim_StringToWide(arg, &option, 10) != JIM_OK) {
option = -1;
}
if (option < 0) {
option = Jim_FindByName(arg, jimReturnCodes, jimReturnCodesSize);
}
if (option < 0) {
goto wrongargs;
}
if (add) {
mask |= (1 << option);
}
else {
mask &= ~(1 << option);
}
}
argc -= i;
if (argc < 1 || argc > 3) {
wrongargs:
Jim_WrongNumArgs(interp, 1, argv,
"?-?no?code ... --? script ?resultVarName? ?optionVarName?");
return JIM_ERR;
}
argv += i;
if (mask & (1 << JIM_SIGNAL)) {
sig++;
}
interp->signal_level += sig;
if (interp->signal_level && interp->sigmask) {
/* If a signal is set, don't even try to execute the body */
exitCode = JIM_SIGNAL;
}
else {
exitCode = Jim_EvalObj(interp, argv[0]);
}
interp->signal_level -= sig;
/* Catch or pass through? Only the first 64 codes can be passed through */
if (exitCode >= 0 && exitCode < (int)sizeof(mask) && ((1 << exitCode) & mask) == 0) {
/* Not caught, pass it up */
return exitCode;
}
if (sig && exitCode == JIM_SIGNAL) {
/* Catch the signal at this level */
if (interp->signal_set_result) {
interp->signal_set_result(interp, interp->sigmask);
}
else {
Jim_SetResultInt(interp, interp->sigmask);
}
interp->sigmask = 0;
}
if (argc >= 2) {
if (Jim_SetVariable(interp, argv[1], Jim_GetResult(interp)) != JIM_OK) {
return JIM_ERR;
}
if (argc == 3) {
Jim_Obj *optListObj = Jim_NewListObj(interp, NULL, 0);
Jim_ListAppendElement(interp, optListObj, Jim_NewStringObj(interp, "-code", -1));
Jim_ListAppendElement(interp, optListObj,
Jim_NewIntObj(interp, exitCode == JIM_RETURN ? interp->returnCode : exitCode));
Jim_ListAppendElement(interp, optListObj, Jim_NewStringObj(interp, "-level", -1));
Jim_ListAppendElement(interp, optListObj, Jim_NewIntObj(interp, interp->returnLevel));
if (exitCode == JIM_ERR) {
Jim_Obj *errorCode;
Jim_ListAppendElement(interp, optListObj, Jim_NewStringObj(interp, "-errorinfo",
-1));
Jim_ListAppendElement(interp, optListObj, interp->stackTrace);
errorCode = Jim_GetGlobalVariableStr(interp, "errorCode", JIM_NONE);
if (errorCode) {
Jim_ListAppendElement(interp, optListObj, Jim_NewStringObj(interp, "-errorcode", -1));
Jim_ListAppendElement(interp, optListObj, errorCode);
}
}
if (Jim_SetVariable(interp, argv[2], optListObj) != JIM_OK) {
return JIM_ERR;
}
}
}
Jim_SetResultInt(interp, exitCode);
return JIM_OK;
}
#ifdef JIM_REFERENCES
/* [ref] */
static int Jim_RefCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
if (argc != 3 && argc != 4) {
Jim_WrongNumArgs(interp, 1, argv, "string tag ?finalizer?");
return JIM_ERR;
}
if (argc == 3) {
Jim_SetResult(interp, Jim_NewReference(interp, argv[1], argv[2], NULL));
}
else {
Jim_SetResult(interp, Jim_NewReference(interp, argv[1], argv[2], argv[3]));
}
return JIM_OK;
}
/* [getref] */
static int Jim_GetrefCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
Jim_Reference *refPtr;
if (argc != 2) {
Jim_WrongNumArgs(interp, 1, argv, "reference");
return JIM_ERR;
}
if ((refPtr = Jim_GetReference(interp, argv[1])) == NULL)
return JIM_ERR;
Jim_SetResult(interp, refPtr->objPtr);
return JIM_OK;
}
/* [setref] */
static int Jim_SetrefCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
Jim_Reference *refPtr;
if (argc != 3) {
Jim_WrongNumArgs(interp, 1, argv, "reference newValue");
return JIM_ERR;
}
if ((refPtr = Jim_GetReference(interp, argv[1])) == NULL)
return JIM_ERR;
Jim_IncrRefCount(argv[2]);
Jim_DecrRefCount(interp, refPtr->objPtr);
refPtr->objPtr = argv[2];
Jim_SetResult(interp, argv[2]);
return JIM_OK;
}
/* [collect] */
static int Jim_CollectCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
if (argc != 1) {
Jim_WrongNumArgs(interp, 1, argv, "");
return JIM_ERR;
}
Jim_SetResultInt(interp, Jim_Collect(interp));
/* Free all the freed objects. */
while (interp->freeList) {
Jim_Obj *nextObjPtr = interp->freeList->nextObjPtr;
Jim_Free(interp->freeList);
interp->freeList = nextObjPtr;
}
return JIM_OK;
}
/* [finalize] reference ?newValue? */
static int Jim_FinalizeCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
if (argc != 2 && argc != 3) {
Jim_WrongNumArgs(interp, 1, argv, "reference ?finalizerProc?");
return JIM_ERR;
}
if (argc == 2) {
Jim_Obj *cmdNamePtr;
if (Jim_GetFinalizer(interp, argv[1], &cmdNamePtr) != JIM_OK)
return JIM_ERR;
if (cmdNamePtr != NULL) /* otherwise the null string is returned. */
Jim_SetResult(interp, cmdNamePtr);
}
else {
if (Jim_SetFinalizer(interp, argv[1], argv[2]) != JIM_OK)
return JIM_ERR;
Jim_SetResult(interp, argv[2]);
}
return JIM_OK;
}
/* [info references] */
static int JimInfoReferences(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
Jim_Obj *listObjPtr;
Jim_HashTableIterator *htiter;
Jim_HashEntry *he;
listObjPtr = Jim_NewListObj(interp, NULL, 0);
htiter = Jim_GetHashTableIterator(&interp->references);
while ((he = Jim_NextHashEntry(htiter)) != NULL) {
char buf[JIM_REFERENCE_SPACE];
Jim_Reference *refPtr = he->u.val;
const jim_wide *refId = he->key;
JimFormatReference(buf, refPtr, *refId);
Jim_ListAppendElement(interp, listObjPtr, Jim_NewStringObj(interp, buf, -1));
}
Jim_FreeHashTableIterator(htiter);
Jim_SetResult(interp, listObjPtr);
return JIM_OK;
}
#endif
/* [rename] */
static int Jim_RenameCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
const char *oldName, *newName;
if (argc != 3) {
Jim_WrongNumArgs(interp, 1, argv, "oldName newName");
return JIM_ERR;
}
if (JimValidName(interp, "new procedure", argv[2])) {
return JIM_ERR;
}
oldName = Jim_String(argv[1]);
newName = Jim_String(argv[2]);
return Jim_RenameCommand(interp, oldName, newName);
}
int Jim_DictKeys(Jim_Interp *interp, Jim_Obj *objPtr, Jim_Obj *patternObj)
{
int i;
int len;
Jim_Obj *resultObj;
Jim_Obj *dictObj;
Jim_Obj **dictValuesObj;
if (Jim_DictKeysVector(interp, objPtr, NULL, 0, &dictObj, JIM_ERRMSG) != JIM_OK) {
return JIM_ERR;
}
/* XXX: Could make the exact-match case much more efficient here.
* See JimCommandsList()
*/
if (Jim_DictPairs(interp, dictObj, &dictValuesObj, &len) != JIM_OK) {
return JIM_ERR;
}
/* Only return the matching values */
resultObj = Jim_NewListObj(interp, NULL, 0);
for (i = 0; i < len; i += 2) {
if (patternObj == NULL || Jim_StringMatchObj(interp, patternObj, dictValuesObj[i], 0)) {
Jim_ListAppendElement(interp, resultObj, dictValuesObj[i]);
}
}
Jim_Free(dictValuesObj);
Jim_SetResult(interp, resultObj);
return JIM_OK;
}
int Jim_DictSize(Jim_Interp *interp, Jim_Obj *objPtr)
{
if (SetDictFromAny(interp, objPtr) != JIM_OK) {
return -1;
}
return ((Jim_HashTable *)objPtr->internalRep.ptr)->used;
}
/* [dict] */
static int Jim_DictCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
Jim_Obj *objPtr;
int option;
const char *options[] = {
"create", "get", "set", "unset", "exists", "keys", "merge", "size", "with", NULL
};
enum
{
OPT_CREATE, OPT_GET, OPT_SET, OPT_UNSET, OPT_EXIST, OPT_KEYS, OPT_MERGE, OPT_SIZE, OPT_WITH,
};
if (argc < 2) {
Jim_WrongNumArgs(interp, 1, argv, "subcommand ?arguments ...?");
return JIM_ERR;
}
if (Jim_GetEnum(interp, argv[1], options, &option, "subcommand", JIM_ERRMSG) != JIM_OK) {
return JIM_ERR;
}
switch (option) {
case OPT_GET:
if (argc < 3) {
Jim_WrongNumArgs(interp, 2, argv, "varName ?key ...?");
return JIM_ERR;
}
if (Jim_DictKeysVector(interp, argv[2], argv + 3, argc - 3, &objPtr,
JIM_ERRMSG) != JIM_OK) {
return JIM_ERR;
}
Jim_SetResult(interp, objPtr);
return JIM_OK;
case OPT_SET:
if (argc < 5) {
Jim_WrongNumArgs(interp, 2, argv, "varName key ?key ...? value");
return JIM_ERR;
}
return Jim_SetDictKeysVector(interp, argv[2], argv + 3, argc - 4, argv[argc - 1]);
case OPT_EXIST:
if (argc < 3) {
Jim_WrongNumArgs(interp, 2, argv, "varName ?key ...?");
return JIM_ERR;
}
Jim_SetResultBool(interp, Jim_DictKeysVector(interp, argv[2], argv + 3, argc - 3,
&objPtr, JIM_ERRMSG) == JIM_OK);
return JIM_OK;
case OPT_UNSET:
if (argc < 4) {
Jim_WrongNumArgs(interp, 2, argv, "varName key ?key ...?");
return JIM_ERR;
}
return Jim_SetDictKeysVector(interp, argv[2], argv + 3, argc - 3, NULL);
case OPT_KEYS:
if (argc != 3 && argc != 4) {
Jim_WrongNumArgs(interp, 2, argv, "dictVar ?pattern?");
return JIM_ERR;
}
return Jim_DictKeys(interp, argv[2], argc == 4 ? argv[3] : NULL);
case OPT_SIZE: {
int size;
if (argc != 3) {
Jim_WrongNumArgs(interp, 2, argv, "dictVar");
return JIM_ERR;
}
size = Jim_DictSize(interp, argv[2]);
if (size < 0) {
return JIM_ERR;
}
Jim_SetResultInt(interp, size);
return JIM_OK;
}
case OPT_MERGE:
if (argc == 2) {
return JIM_OK;
}
else if (argv[2]->typePtr != &dictObjType && SetDictFromAny(interp, argv[2]) != JIM_OK) {
return JIM_ERR;
}
else {
return Jim_EvalObjPrefix(interp, "dict merge", argc - 2, argv + 2);
}
case OPT_WITH:
if (argc < 4) {
Jim_WrongNumArgs(interp, 2, argv, "dictVar ?key ...? script");
return JIM_ERR;
}
else if (Jim_GetVariable(interp, argv[2], JIM_ERRMSG) == NULL) {
return JIM_ERR;
}
else {
return Jim_EvalObjPrefix(interp, "dict with", argc - 2, argv + 2);
}
case OPT_CREATE:
if (argc % 2) {
Jim_WrongNumArgs(interp, 2, argv, "?key value ...?");
return JIM_ERR;
}
objPtr = Jim_NewDictObj(interp, argv + 2, argc - 2);
Jim_SetResult(interp, objPtr);
return JIM_OK;
default:
abort();
}
}
/* [subst] */
static int Jim_SubstCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
const char *options[] = {
"-nobackslashes", "-nocommands", "-novariables", NULL
};
enum
{ OPT_NOBACKSLASHES, OPT_NOCOMMANDS, OPT_NOVARIABLES };
int i;
int flags = JIM_SUBST_FLAG;
Jim_Obj *objPtr;
if (argc < 2) {
Jim_WrongNumArgs(interp, 1, argv, "?options? string");
return JIM_ERR;
}
for (i = 1; i < (argc - 1); i++) {
int option;
if (Jim_GetEnum(interp, argv[i], options, &option, NULL,
JIM_ERRMSG | JIM_ENUM_ABBREV) != JIM_OK) {
return JIM_ERR;
}
switch (option) {
case OPT_NOBACKSLASHES:
flags |= JIM_SUBST_NOESC;
break;
case OPT_NOCOMMANDS:
flags |= JIM_SUBST_NOCMD;
break;
case OPT_NOVARIABLES:
flags |= JIM_SUBST_NOVAR;
break;
}
}
if (Jim_SubstObj(interp, argv[argc - 1], &objPtr, flags) != JIM_OK) {
return JIM_ERR;
}
Jim_SetResult(interp, objPtr);
return JIM_OK;
}
/* [info] */
static int Jim_InfoCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int cmd;
Jim_Obj *objPtr;
int mode = 0;
static const char * const commands[] = {
"body", "commands", "procs", "channels", "exists", "globals", "level", "frame", "locals",
"vars", "version", "patchlevel", "complete", "args", "hostname",
"script", "source", "stacktrace", "nameofexecutable", "returncodes",
"references", NULL
};
enum
{ INFO_BODY, INFO_COMMANDS, INFO_PROCS, INFO_CHANNELS, INFO_EXISTS, INFO_GLOBALS, INFO_LEVEL,
INFO_FRAME, INFO_LOCALS, INFO_VARS, INFO_VERSION, INFO_PATCHLEVEL, INFO_COMPLETE, INFO_ARGS,
INFO_HOSTNAME, INFO_SCRIPT, INFO_SOURCE, INFO_STACKTRACE, INFO_NAMEOFEXECUTABLE,
INFO_RETURNCODES, INFO_REFERENCES,
};
if (argc < 2) {
Jim_WrongNumArgs(interp, 1, argv, "subcommand ?args ...?");
return JIM_ERR;
}
if (Jim_GetEnum(interp, argv[1], commands, &cmd, "subcommand", JIM_ERRMSG | JIM_ENUM_ABBREV)
!= JIM_OK) {
return JIM_ERR;
}
/* Test for the the most common commands first, just in case it makes a difference */
switch (cmd) {
case INFO_EXISTS:{
if (argc != 3) {
Jim_WrongNumArgs(interp, 2, argv, "varName");
return JIM_ERR;
}
Jim_SetResultBool(interp, Jim_GetVariable(interp, argv[2], 0) != NULL);
break;
}
case INFO_CHANNELS:
#ifndef jim_ext_aio
Jim_SetResultString(interp, "aio not enabled", -1);
return JIM_ERR;
#endif
case INFO_COMMANDS:
case INFO_PROCS:
if (argc != 2 && argc != 3) {
Jim_WrongNumArgs(interp, 2, argv, "?pattern?");
return JIM_ERR;
}
Jim_SetResult(interp, JimCommandsList(interp, (argc == 3) ? argv[2] : NULL,
(cmd - INFO_COMMANDS)));
break;
case INFO_VARS:
mode++; /* JIM_VARLIST_VARS */
case INFO_LOCALS:
mode++; /* JIM_VARLIST_LOCALS */
case INFO_GLOBALS:
/* mode 0 => JIM_VARLIST_GLOBALS */
if (argc != 2 && argc != 3) {
Jim_WrongNumArgs(interp, 2, argv, "?pattern?");
return JIM_ERR;
}
Jim_SetResult(interp, JimVariablesList(interp, argc == 3 ? argv[2] : NULL, mode));
break;
case INFO_SCRIPT:
if (argc != 2) {
Jim_WrongNumArgs(interp, 2, argv, "");
return JIM_ERR;
}
Jim_SetResultString(interp, Jim_GetScript(interp, interp->currentScriptObj)->fileName,
-1);
break;
case INFO_SOURCE:{
const char *filename = "";
int line = 0;
Jim_Obj *resObjPtr;
if (argc != 3) {
Jim_WrongNumArgs(interp, 2, argv, "source");
return JIM_ERR;
}
if (argv[2]->typePtr == &sourceObjType) {
filename = argv[2]->internalRep.sourceValue.fileName;
line = argv[2]->internalRep.sourceValue.lineNumber;
}
else if (argv[2]->typePtr == &scriptObjType) {
ScriptObj *script = Jim_GetScript(interp, argv[2]);
filename = script->fileName;
line = script->line;
}
resObjPtr = Jim_NewListObj(interp, NULL, 0);
Jim_ListAppendElement(interp, resObjPtr, Jim_NewStringObj(interp, filename, -1));
Jim_ListAppendElement(interp, resObjPtr, Jim_NewIntObj(interp, line));
Jim_SetResult(interp, resObjPtr);
break;
}
case INFO_STACKTRACE:
Jim_SetResult(interp, interp->stackTrace);
break;
case INFO_LEVEL:
case INFO_FRAME:
switch (argc) {
case 2:
Jim_SetResultInt(interp, interp->framePtr->level);
break;
case 3:
if (JimInfoLevel(interp, argv[2], &objPtr, cmd == INFO_LEVEL) != JIM_OK) {
return JIM_ERR;
}
Jim_SetResult(interp, objPtr);
break;
default:
Jim_WrongNumArgs(interp, 2, argv, "?levelNum?");
return JIM_ERR;
}
break;
case INFO_BODY:
case INFO_ARGS:{
Jim_Cmd *cmdPtr;
if (argc != 3) {
Jim_WrongNumArgs(interp, 2, argv, "procname");
return JIM_ERR;
}
if ((cmdPtr = Jim_GetCommand(interp, argv[2], JIM_ERRMSG)) == NULL) {
return JIM_ERR;
}
if (!cmdPtr->isproc) {
Jim_SetResultFormatted(interp, "command \"%#s\" is not a procedure", argv[2]);
return JIM_ERR;
}
Jim_SetResult(interp,
cmd == INFO_BODY ? cmdPtr->u.proc.bodyObjPtr : cmdPtr->u.proc.argListObjPtr);
break;
}
case INFO_VERSION:
case INFO_PATCHLEVEL:{
char buf[(JIM_INTEGER_SPACE * 2) + 1];
sprintf(buf, "%d.%d", JIM_VERSION / 100, JIM_VERSION % 100);
Jim_SetResultString(interp, buf, -1);
break;
}
case INFO_COMPLETE:
if (argc != 3 && argc != 4) {
Jim_WrongNumArgs(interp, 2, argv, "script ?missing?");
return JIM_ERR;
}
else {
int len;
const char *s = Jim_GetString(argv[2], &len);
char missing;
Jim_SetResultBool(interp, Jim_ScriptIsComplete(s, len, &missing));
if (missing != ' ' && argc == 4) {
Jim_SetVariable(interp, argv[3], Jim_NewStringObj(interp, &missing, 1));
}
}
break;
case INFO_HOSTNAME:
/* Redirect to os.gethostname if it exists */
return Jim_Eval(interp, "os.gethostname");
case INFO_NAMEOFEXECUTABLE:
/* Redirect to Tcl proc */
return Jim_Eval(interp, "{info nameofexecutable}");
case INFO_RETURNCODES:
if (argc == 2) {
int i;
Jim_Obj *listObjPtr = Jim_NewListObj(interp, NULL, 0);
for (i = 0; jimReturnCodes[i]; i++) {
Jim_ListAppendElement(interp, listObjPtr, Jim_NewIntObj(interp, i));
Jim_ListAppendElement(interp, listObjPtr, Jim_NewStringObj(interp,
jimReturnCodes[i], -1));
}
Jim_SetResult(interp, listObjPtr);
}
else if (argc == 3) {
long code;
const char *name;
if (Jim_GetLong(interp, argv[2], &code) != JIM_OK) {
return JIM_ERR;
}
name = Jim_ReturnCode(code);
if (*name == '?') {
Jim_SetResultInt(interp, code);
}
else {
Jim_SetResultString(interp, name, -1);
}
}
else {
Jim_WrongNumArgs(interp, 2, argv, "?code?");
return JIM_ERR;
}
break;
case INFO_REFERENCES:
#ifdef JIM_REFERENCES
return JimInfoReferences(interp, argc, argv);
#else
Jim_SetResultString(interp, "not supported", -1);
return JIM_ERR;
#endif
}
return JIM_OK;
}
/* [exists] */
static int Jim_ExistsCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
Jim_Obj *objPtr;
static const char * const options[] = {
"-command", "-proc", "-var", NULL
};
enum
{
OPT_COMMAND, OPT_PROC, OPT_VAR
};
int option;
if (argc == 2) {
option = OPT_VAR;
objPtr = argv[1];
}
else if (argc == 3) {
if (Jim_GetEnum(interp, argv[1], options, &option, NULL, JIM_ERRMSG | JIM_ENUM_ABBREV) != JIM_OK) {
return JIM_ERR;
}
objPtr = argv[2];
}
else {
Jim_WrongNumArgs(interp, 1, argv, "?option? name");
return JIM_ERR;
}
/* Test for the the most common commands first, just in case it makes a difference */
switch (option) {
case OPT_VAR:
Jim_SetResultBool(interp, Jim_GetVariable(interp, objPtr, 0) != NULL);
break;
case OPT_COMMAND:
case OPT_PROC: {
Jim_Cmd *cmd = Jim_GetCommand(interp, objPtr, JIM_NONE);
Jim_SetResultBool(interp, cmd != NULL && (option == OPT_COMMAND || cmd->isproc));
break;
}
}
return JIM_OK;
}
/* [split] */
static int Jim_SplitCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
const char *str, *splitChars, *noMatchStart;
int splitLen, strLen;
Jim_Obj *resObjPtr;
int c;
int len;
if (argc != 2 && argc != 3) {
Jim_WrongNumArgs(interp, 1, argv, "string ?splitChars?");
return JIM_ERR;
}
str = Jim_GetString(argv[1], &len);
if (len == 0) {
return JIM_OK;
}
strLen = Jim_Utf8Length(interp, argv[1]);
/* Init */
if (argc == 2) {
splitChars = " \n\t\r";
splitLen = 4;
}
else {
splitChars = Jim_String(argv[2]);
splitLen = Jim_Utf8Length(interp, argv[2]);
}
noMatchStart = str;
resObjPtr = Jim_NewListObj(interp, NULL, 0);
/* Split */
if (splitLen) {
Jim_Obj *objPtr;
while (strLen--) {
const char *sc = splitChars;
int scLen = splitLen;
int sl = utf8_tounicode(str, &c);
while (scLen--) {
int pc;
sc += utf8_tounicode(sc, &pc);
if (c == pc) {
objPtr = Jim_NewStringObj(interp, noMatchStart, (str - noMatchStart));
Jim_ListAppendElement(interp, resObjPtr, objPtr);
noMatchStart = str + sl;
break;
}
}
str += sl;
}
objPtr = Jim_NewStringObj(interp, noMatchStart, (str - noMatchStart));
Jim_ListAppendElement(interp, resObjPtr, objPtr);
}
else {
/* This handles the special case of splitchars eq {}
* Optimise by sharing common (ASCII) characters
*/
Jim_Obj **commonObj = NULL;
#define NUM_COMMON (128 - 9)
while (strLen--) {
int n = utf8_tounicode(str, &c);
#ifdef JIM_OPTIMIZATION
if (c >= 9 && c < 128) {
/* Common ASCII char. Note that 9 is the tab character */
c -= 9;
if (!commonObj) {
commonObj = Jim_Alloc(sizeof(*commonObj) * NUM_COMMON);
memset(commonObj, 0, sizeof(*commonObj) * NUM_COMMON);
}
if (!commonObj[c]) {
commonObj[c] = Jim_NewStringObj(interp, str, 1);
}
Jim_ListAppendElement(interp, resObjPtr, commonObj[c]);
str++;
continue;
}
#endif
Jim_ListAppendElement(interp, resObjPtr, Jim_NewStringObjUtf8(interp, str, 1));
str += n;
}
Jim_Free(commonObj);
}
Jim_SetResult(interp, resObjPtr);
return JIM_OK;
}
/* [join] */
static int Jim_JoinCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
const char *joinStr;
int joinStrLen, i, listLen;
Jim_Obj *resObjPtr;
if (argc != 2 && argc != 3) {
Jim_WrongNumArgs(interp, 1, argv, "list ?joinString?");
return JIM_ERR;
}
/* Init */
if (argc == 2) {
joinStr = " ";
joinStrLen = 1;
}
else {
joinStr = Jim_GetString(argv[2], &joinStrLen);
}
listLen = Jim_ListLength(interp, argv[1]);
resObjPtr = Jim_NewStringObj(interp, NULL, 0);
/* Split */
for (i = 0; i < listLen; i++) {
Jim_Obj *objPtr = 0;
Jim_ListIndex(interp, argv[1], i, &objPtr, JIM_NONE);
Jim_AppendObj(interp, resObjPtr, objPtr);
if (i + 1 != listLen) {
Jim_AppendString(interp, resObjPtr, joinStr, joinStrLen);
}
}
Jim_SetResult(interp, resObjPtr);
return JIM_OK;
}
/* [format] */
static int Jim_FormatCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
Jim_Obj *objPtr;
if (argc < 2) {
Jim_WrongNumArgs(interp, 1, argv, "formatString ?arg arg ...?");
return JIM_ERR;
}
objPtr = Jim_FormatString(interp, argv[1], argc - 2, argv + 2);
if (objPtr == NULL)
return JIM_ERR;
Jim_SetResult(interp, objPtr);
return JIM_OK;
}
/* [scan] */
static int Jim_ScanCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
Jim_Obj *listPtr, **outVec;
int outc, i;
if (argc < 3) {
Jim_WrongNumArgs(interp, 1, argv, "string format ?varName varName ...?");
return JIM_ERR;
}
if (argv[2]->typePtr != &scanFmtStringObjType)
SetScanFmtFromAny(interp, argv[2]);
if (FormatGetError(argv[2]) != 0) {
Jim_SetResultString(interp, FormatGetError(argv[2]), -1);
return JIM_ERR;
}
if (argc > 3) {
int maxPos = FormatGetMaxPos(argv[2]);
int count = FormatGetCnvCount(argv[2]);
if (maxPos > argc - 3) {
Jim_SetResultString(interp, "\"%n$\" argument index out of range", -1);
return JIM_ERR;
}
else if (count > argc - 3) {
Jim_SetResultString(interp, "different numbers of variable names and "
"field specifiers", -1);
return JIM_ERR;
}
else if (count < argc - 3) {
Jim_SetResultString(interp, "variable is not assigned by any "
"conversion specifiers", -1);
return JIM_ERR;
}
}
listPtr = Jim_ScanString(interp, argv[1], argv[2], JIM_ERRMSG);
if (listPtr == 0)
return JIM_ERR;
if (argc > 3) {
int rc = JIM_OK;
int count = 0;
if (listPtr != 0 && listPtr != (Jim_Obj *)EOF) {
int len = Jim_ListLength(interp, listPtr);
if (len != 0) {
JimListGetElements(interp, listPtr, &outc, &outVec);
for (i = 0; i < outc; ++i) {
if (Jim_Length(outVec[i]) > 0) {
++count;
if (Jim_SetVariable(interp, argv[3 + i], outVec[i]) != JIM_OK) {
rc = JIM_ERR;
}
}
}
}
Jim_FreeNewObj(interp, listPtr);
}
else {
count = -1;
}
if (rc == JIM_OK) {
Jim_SetResultInt(interp, count);
}
return rc;
}
else {
if (listPtr == (Jim_Obj *)EOF) {
Jim_SetResult(interp, Jim_NewListObj(interp, 0, 0));
return JIM_OK;
}
Jim_SetResult(interp, listPtr);
}
return JIM_OK;
}
/* [error] */
static int Jim_ErrorCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
if (argc != 2 && argc != 3) {
Jim_WrongNumArgs(interp, 1, argv, "message ?stacktrace?");
return JIM_ERR;
}
Jim_SetResult(interp, argv[1]);
if (argc == 3) {
JimSetStackTrace(interp, argv[2]);
return JIM_ERR;
}
interp->addStackTrace++;
return JIM_ERR;
}
/* [lrange] */
static int Jim_LrangeCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
Jim_Obj *objPtr;
if (argc != 4) {
Jim_WrongNumArgs(interp, 1, argv, "list first last");
return JIM_ERR;
}
if ((objPtr = Jim_ListRange(interp, argv[1], argv[2], argv[3])) == NULL)
return JIM_ERR;
Jim_SetResult(interp, objPtr);
return JIM_OK;
}
/* [lrepeat] */
static int Jim_LrepeatCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
Jim_Obj *objPtr;
long count;
if (argc < 2 || Jim_GetLong(interp, argv[1], &count) != JIM_OK || count < 0) {
Jim_WrongNumArgs(interp, 1, argv, "count ?value ...?");
return JIM_ERR;
}
if (count == 0 || argc == 2) {
return JIM_OK;
}
argc -= 2;
argv += 2;
objPtr = Jim_NewListObj(interp, argv, argc);
while (--count) {
int i;
for (i = 0; i < argc; i++) {
ListAppendElement(objPtr, argv[i]);
}
}
Jim_SetResult(interp, objPtr);
return JIM_OK;
}
char **Jim_GetEnviron(void)
{
#if defined(HAVE__NSGETENVIRON)
return *_NSGetEnviron();
#else
#if !defined(NO_ENVIRON_EXTERN)
extern char **environ;
#endif
return environ;
#endif
}
void Jim_SetEnviron(char **env)
{
#if defined(HAVE__NSGETENVIRON)
*_NSGetEnviron() = env;
#else
#if !defined(NO_ENVIRON_EXTERN)
extern char **environ;
#endif
environ = env;
#endif
}
/* [env] */
static int Jim_EnvCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
const char *key;
const char *val;
if (argc == 1) {
char **e = Jim_GetEnviron();
int i;
Jim_Obj *listObjPtr = Jim_NewListObj(interp, NULL, 0);
for (i = 0; e[i]; i++) {
const char *equals = strchr(e[i], '=');
if (equals) {
Jim_ListAppendElement(interp, listObjPtr, Jim_NewStringObj(interp, e[i],
equals - e[i]));
Jim_ListAppendElement(interp, listObjPtr, Jim_NewStringObj(interp, equals + 1, -1));
}
}
Jim_SetResult(interp, listObjPtr);
return JIM_OK;
}
if (argc < 2) {
Jim_WrongNumArgs(interp, 1, argv, "varName ?default?");
return JIM_ERR;
}
key = Jim_String(argv[1]);
val = getenv(key);
if (val == NULL) {
if (argc < 3) {
Jim_SetResultFormatted(interp, "environment variable \"%#s\" does not exist", argv[1]);
return JIM_ERR;
}
val = Jim_String(argv[2]);
}
Jim_SetResult(interp, Jim_NewStringObj(interp, val, -1));
return JIM_OK;
}
/* [source] */
static int Jim_SourceCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
int retval;
if (argc != 2) {
Jim_WrongNumArgs(interp, 1, argv, "fileName");
return JIM_ERR;
}
retval = Jim_EvalFile(interp, Jim_String(argv[1]));
if (retval == JIM_RETURN)
return JIM_OK;
return retval;
}
/* [lreverse] */
static int Jim_LreverseCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
Jim_Obj *revObjPtr, **ele;
int len;
if (argc != 2) {
Jim_WrongNumArgs(interp, 1, argv, "list");
return JIM_ERR;
}
JimListGetElements(interp, argv[1], &len, &ele);
len--;
revObjPtr = Jim_NewListObj(interp, NULL, 0);
while (len >= 0)
ListAppendElement(revObjPtr, ele[len--]);
Jim_SetResult(interp, revObjPtr);
return JIM_OK;
}
static int JimRangeLen(jim_wide start, jim_wide end, jim_wide step)
{
jim_wide len;
if (step == 0)
return -1;
if (start == end)
return 0;
else if (step > 0 && start > end)
return -1;
else if (step < 0 && end > start)
return -1;
len = end - start;
if (len < 0)
len = -len; /* abs(len) */
if (step < 0)
step = -step; /* abs(step) */
len = 1 + ((len - 1) / step);
/* We can truncate safely to INT_MAX, the range command
* will always return an error for a such long range
* because Tcl lists can't be so long. */
if (len > INT_MAX)
len = INT_MAX;
return (int)((len < 0) ? -1 : len);
}
/* [range] */
static int Jim_RangeCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
jim_wide start = 0, end, step = 1;
int len, i;
Jim_Obj *objPtr;
if (argc < 2 || argc > 4) {
Jim_WrongNumArgs(interp, 1, argv, "?start? end ?step?");
return JIM_ERR;
}
if (argc == 2) {
if (Jim_GetWide(interp, argv[1], &end) != JIM_OK)
return JIM_ERR;
}
else {
if (Jim_GetWide(interp, argv[1], &start) != JIM_OK ||
Jim_GetWide(interp, argv[2], &end) != JIM_OK)
return JIM_ERR;
if (argc == 4 && Jim_GetWide(interp, argv[3], &step) != JIM_OK)
return JIM_ERR;
}
if ((len = JimRangeLen(start, end, step)) == -1) {
Jim_SetResultString(interp, "Invalid (infinite?) range specified", -1);
return JIM_ERR;
}
objPtr = Jim_NewListObj(interp, NULL, 0);
for (i = 0; i < len; i++)
ListAppendElement(objPtr, Jim_NewIntObj(interp, start + i * step));
Jim_SetResult(interp, objPtr);
return JIM_OK;
}
/* [rand] */
static int Jim_RandCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
jim_wide min = 0, max = 0, len, maxMul;
if (argc < 1 || argc > 3) {
Jim_WrongNumArgs(interp, 1, argv, "?min? max");
return JIM_ERR;
}
if (argc == 1) {
max = JIM_WIDE_MAX;
} else if (argc == 2) {
if (Jim_GetWide(interp, argv[1], &max) != JIM_OK)
return JIM_ERR;
} else if (argc == 3) {
if (Jim_GetWide(interp, argv[1], &min) != JIM_OK ||
Jim_GetWide(interp, argv[2], &max) != JIM_OK)
return JIM_ERR;
}
len = max-min;
if (len < 0) {
Jim_SetResultString(interp, "Invalid arguments (max < min)", -1);
return JIM_ERR;
}
maxMul = JIM_WIDE_MAX - (len ? (JIM_WIDE_MAX%len) : 0);
while (1) {
jim_wide r;
JimRandomBytes(interp, &r, sizeof(jim_wide));
if (r < 0 || r >= maxMul) continue;
r = (len == 0) ? 0 : r%len;
Jim_SetResultInt(interp, min+r);
return JIM_OK;
}
}
static const struct {
const char *name;
Jim_CmdProc cmdProc;
} Jim_CoreCommandsTable[] = {
{"set", Jim_SetCoreCommand},
{"unset", Jim_UnsetCoreCommand},
{"puts", Jim_PutsCoreCommand},
{"+", Jim_AddCoreCommand},
{"*", Jim_MulCoreCommand},
{"-", Jim_SubCoreCommand},
{"/", Jim_DivCoreCommand},
{"incr", Jim_IncrCoreCommand},
{"while", Jim_WhileCoreCommand},
{"loop", Jim_LoopCoreCommand},
{"for", Jim_ForCoreCommand},
{"foreach", Jim_ForeachCoreCommand},
{"lmap", Jim_LmapCoreCommand},
{"if", Jim_IfCoreCommand},
{"switch", Jim_SwitchCoreCommand},
{"list", Jim_ListCoreCommand},
{"lindex", Jim_LindexCoreCommand},
{"lset", Jim_LsetCoreCommand},
{"lsearch", Jim_LsearchCoreCommand},
{"llength", Jim_LlengthCoreCommand},
{"lappend", Jim_LappendCoreCommand},
{"linsert", Jim_LinsertCoreCommand},
{"lreplace", Jim_LreplaceCoreCommand},
{"lsort", Jim_LsortCoreCommand},
{"append", Jim_AppendCoreCommand},
{"debug", Jim_DebugCoreCommand},
{"eval", Jim_EvalCoreCommand},
{"uplevel", Jim_UplevelCoreCommand},
{"expr", Jim_ExprCoreCommand},
{"break", Jim_BreakCoreCommand},
{"continue", Jim_ContinueCoreCommand},
{"proc", Jim_ProcCoreCommand},
{"concat", Jim_ConcatCoreCommand},
{"return", Jim_ReturnCoreCommand},
{"upvar", Jim_UpvarCoreCommand},
{"global", Jim_GlobalCoreCommand},
{"string", Jim_StringCoreCommand},
{"time", Jim_TimeCoreCommand},
{"exit", Jim_ExitCoreCommand},
{"catch", Jim_CatchCoreCommand},
#ifdef JIM_REFERENCES
{"ref", Jim_RefCoreCommand},
{"getref", Jim_GetrefCoreCommand},
{"setref", Jim_SetrefCoreCommand},
{"finalize", Jim_FinalizeCoreCommand},
{"collect", Jim_CollectCoreCommand},
#endif
{"rename", Jim_RenameCoreCommand},
{"dict", Jim_DictCoreCommand},
{"subst", Jim_SubstCoreCommand},
{"info", Jim_InfoCoreCommand},
{"exists", Jim_ExistsCoreCommand},
{"split", Jim_SplitCoreCommand},
{"join", Jim_JoinCoreCommand},
{"format", Jim_FormatCoreCommand},
{"scan", Jim_ScanCoreCommand},
{"error", Jim_ErrorCoreCommand},
{"lrange", Jim_LrangeCoreCommand},
{"lrepeat", Jim_LrepeatCoreCommand},
{"env", Jim_EnvCoreCommand},
{"source", Jim_SourceCoreCommand},
{"lreverse", Jim_LreverseCoreCommand},
{"range", Jim_RangeCoreCommand},
{"rand", Jim_RandCoreCommand},
{"tailcall", Jim_TailcallCoreCommand},
{"local", Jim_LocalCoreCommand},
{"upcall", Jim_UpcallCoreCommand},
{NULL, NULL},
};
void Jim_RegisterCoreCommands(Jim_Interp *interp)
{
int i = 0;
while (Jim_CoreCommandsTable[i].name != NULL) {
Jim_CreateCommand(interp,
Jim_CoreCommandsTable[i].name, Jim_CoreCommandsTable[i].cmdProc, NULL, NULL);
i++;
}
}
/* -----------------------------------------------------------------------------
* Interactive prompt
* ---------------------------------------------------------------------------*/
void Jim_MakeErrorMessage(Jim_Interp *interp)
{
Jim_Obj *argv[2];
argv[0] = Jim_NewStringObj(interp, "errorInfo", -1);
argv[1] = interp->result;
Jim_EvalObjVector(interp, 2, argv);
}
static void JimSetFailedEnumResult(Jim_Interp *interp, const char *arg, const char *badtype,
const char *prefix, const char *const *tablePtr, const char *name)
{
int count;
char **tablePtrSorted;
int i;
for (count = 0; tablePtr[count]; count++) {
}
if (name == NULL) {
name = "option";
}
Jim_SetResultFormatted(interp, "%s%s \"%s\": must be ", badtype, name, arg);
tablePtrSorted = Jim_Alloc(sizeof(char *) * count);
memcpy(tablePtrSorted, tablePtr, sizeof(char *) * count);
qsort(tablePtrSorted, count, sizeof(char *), qsortCompareStringPointers);
for (i = 0; i < count; i++) {
if (i + 1 == count && count > 1) {
Jim_AppendString(interp, Jim_GetResult(interp), "or ", -1);
}
Jim_AppendStrings(interp, Jim_GetResult(interp), prefix, tablePtrSorted[i], NULL);
if (i + 1 != count) {
Jim_AppendString(interp, Jim_GetResult(interp), ", ", -1);
}
}
Jim_Free(tablePtrSorted);
}
int Jim_GetEnum(Jim_Interp *interp, Jim_Obj *objPtr,
const char *const *tablePtr, int *indexPtr, const char *name, int flags)
{
const char *bad = "bad ";
const char *const *entryPtr = NULL;
int i;
int match = -1;
int arglen;
const char *arg = Jim_GetString(objPtr, &arglen);
*indexPtr = -1;
for (entryPtr = tablePtr, i = 0; *entryPtr != NULL; entryPtr++, i++) {
if (Jim_CompareStringImmediate(interp, objPtr, *entryPtr)) {
/* Found an exact match */
*indexPtr = i;
return JIM_OK;
}
if (flags & JIM_ENUM_ABBREV) {
/* Accept an unambiguous abbreviation.
* Note that '-' doesnt' consitute a valid abbreviation
*/
if (strncmp(arg, *entryPtr, arglen) == 0) {
if (*arg == '-' && arglen == 1) {
break;
}
if (match >= 0) {
bad = "ambiguous ";
goto ambiguous;
}
match = i;
}
}
}
/* If we had an unambiguous partial match */
if (match >= 0) {
*indexPtr = match;
return JIM_OK;
}
ambiguous:
if (flags & JIM_ERRMSG) {
JimSetFailedEnumResult(interp, arg, bad, "", tablePtr, name);
}
return JIM_ERR;
}
int Jim_FindByName(const char *name, const char * const array[], size_t len)
{
int i;
for (i = 0; i < (int)len; i++) {
if (array[i] && strcmp(array[i], name) == 0) {
return i;
}
}
return -1;
}
int Jim_IsDict(Jim_Obj *objPtr)
{
return objPtr->typePtr == &dictObjType;
}
int Jim_IsList(Jim_Obj *objPtr)
{
return objPtr->typePtr == &listObjType;
}
/**
* Very simple printf-like formatting, designed for error messages.
*
* The format may contain up to 5 '%s' or '%#s', corresponding to variable arguments.
* The resulting string is created and set as the result.
*
* Each '%s' should correspond to a regular string parameter.
* Each '%#s' should correspond to a (Jim_Obj *) parameter.
* Any other printf specifier is not allowed (but %% is allowed for the % character).
*
* e.g. Jim_SetResultFormatted(interp, "Bad option \"%#s\" in proc \"%#s\"", optionObjPtr, procNamePtr);
*
* Note: We take advantage of the fact that printf has the same behaviour for both %s and %#s
*/
void Jim_SetResultFormatted(Jim_Interp *interp, const char *format, ...)
{
/* Initial space needed */
int len = strlen(format);
int extra = 0;
int n = 0;
const char *params[5];
char *buf;
va_list args;
int i;
va_start(args, format);
for (i = 0; i < len && n < 5; i++) {
int l;
if (strncmp(format + i, "%s", 2) == 0) {
params[n] = va_arg(args, char *);
l = strlen(params[n]);
}
else if (strncmp(format + i, "%#s", 3) == 0) {
Jim_Obj *objPtr = va_arg(args, Jim_Obj *);
params[n] = Jim_GetString(objPtr, &l);
}
else {
if (format[i] == '%') {
i++;
}
continue;
}
n++;
extra += l;
}
len += extra;
buf = Jim_Alloc(len + 1);
len = snprintf(buf, len + 1, format, params[0], params[1], params[2], params[3], params[4]);
Jim_SetResult(interp, Jim_NewStringObjNoAlloc(interp, buf, len));
}
/* stubs */
#ifndef jim_ext_package
int Jim_PackageProvide(Jim_Interp *interp, const char *name, const char *ver, int flags)
{
return JIM_OK;
}
#endif
#ifndef jim_ext_aio
FILE *Jim_AioFilehandle(Jim_Interp *interp, Jim_Obj *fhObj)
{
Jim_SetResultString(interp, "aio not enabled", -1);
return NULL;
}
#endif
/*
* Local Variables: ***
* c-basic-offset: 4 ***
* tab-width: 4 ***
* End: ***
*/
#include <stdio.h>
#include <string.h>
/**
* Implements the common 'commands' subcommand
*/
static int subcmd_null(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
/* Nothing to do, since the result has already been created */
return JIM_OK;
}
/**
* Do-nothing command to support -commands and -usage
*/
static const jim_subcmd_type dummy_subcmd = {
.cmd = "dummy",
.function = subcmd_null,
.flags = JIM_MODFLAG_HIDDEN,
};
static void add_commands(Jim_Interp *interp, const jim_subcmd_type * ct, const char *sep)
{
const char *s = "";
for (; ct->cmd; ct++) {
if (!(ct->flags & JIM_MODFLAG_HIDDEN)) {
Jim_AppendStrings(interp, Jim_GetResult(interp), s, ct->cmd, NULL);
s = sep;
}
}
}
static void bad_subcmd(Jim_Interp *interp, const jim_subcmd_type * command_table, const char *type,
Jim_Obj *cmd, Jim_Obj *subcmd)
{
Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
Jim_AppendStrings(interp, Jim_GetResult(interp), Jim_String(cmd), ", ", type,
" command \"", Jim_String(subcmd), "\": should be ", NULL);
add_commands(interp, command_table, ", ");
}
static void show_cmd_usage(Jim_Interp *interp, const jim_subcmd_type * command_table, int argc,
Jim_Obj *const *argv)
{
Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
Jim_AppendStrings(interp, Jim_GetResult(interp), "Usage: \"", Jim_String(argv[0]),
" command ... \", where command is one of: ", NULL);
add_commands(interp, command_table, ", ");
}
static void add_cmd_usage(Jim_Interp *interp, const jim_subcmd_type * ct, Jim_Obj *cmd)
{
if (cmd) {
Jim_AppendStrings(interp, Jim_GetResult(interp), Jim_String(cmd), " ", NULL);
}
Jim_AppendStrings(interp, Jim_GetResult(interp), ct->cmd, NULL);
if (ct->args && *ct->args) {
Jim_AppendStrings(interp, Jim_GetResult(interp), " ", ct->args, NULL);
}
}
static void show_full_usage(Jim_Interp *interp, const jim_subcmd_type * ct, int argc,
Jim_Obj *const *argv)
{
Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
for (; ct->cmd; ct++) {
if (!(ct->flags & JIM_MODFLAG_HIDDEN)) {
/* subcmd */
add_cmd_usage(interp, ct, argv[0]);
if (ct->description) {
Jim_AppendStrings(interp, Jim_GetResult(interp), "\n\n ", ct->description, NULL);
}
Jim_AppendStrings(interp, Jim_GetResult(interp), "\n\n", NULL);
}
}
}
static void set_wrong_args(Jim_Interp *interp, const jim_subcmd_type * command_table, Jim_Obj *subcmd)
{
Jim_SetResultString(interp, "wrong # args: must be \"", -1);
add_cmd_usage(interp, command_table, subcmd);
Jim_AppendStrings(interp, Jim_GetResult(interp), "\"", NULL);
}
const jim_subcmd_type *Jim_ParseSubCmd(Jim_Interp *interp, const jim_subcmd_type * command_table,
int argc, Jim_Obj *const *argv)
{
const jim_subcmd_type *ct;
const jim_subcmd_type *partial = 0;
int cmdlen;
Jim_Obj *cmd;
const char *cmdstr;
const char *cmdname;
int help = 0;
cmdname = Jim_String(argv[0]);
if (argc < 2) {
Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
Jim_AppendStrings(interp, Jim_GetResult(interp), "wrong # args: should be \"", cmdname,
" command ...\"\n", NULL);
Jim_AppendStrings(interp, Jim_GetResult(interp), "Use \"", cmdname, " -help\" or \"",
cmdname, " -help command\" for help", NULL);
return 0;
}
cmd = argv[1];
if (argc == 2 && Jim_CompareStringImmediate(interp, cmd, "-usage")) {
/* Show full usage */
show_full_usage(interp, command_table, argc, argv);
return &dummy_subcmd;
}
/* Check for the help command */
if (Jim_CompareStringImmediate(interp, cmd, "-help")) {
if (argc == 2) {
/* Usage for the command, not the subcommand */
show_cmd_usage(interp, command_table, argc, argv);
return &dummy_subcmd;
}
help = 1;
/* Skip the 'help' command */
cmd = argv[2];
}
/* Check for special builtin '-commands' command first */
if (Jim_CompareStringImmediate(interp, cmd, "-commands")) {
/* Build the result here */
Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
add_commands(interp, command_table, " ");
return &dummy_subcmd;
}
cmdstr = Jim_GetString(cmd, &cmdlen);
for (ct = command_table; ct->cmd; ct++) {
if (Jim_CompareStringImmediate(interp, cmd, ct->cmd)) {
/* Found an exact match */
break;
}
if (strncmp(cmdstr, ct->cmd, cmdlen) == 0) {
if (partial) {
/* Ambiguous */
if (help) {
/* Just show the top level help here */
show_cmd_usage(interp, command_table, argc, argv);
return &dummy_subcmd;
}
bad_subcmd(interp, command_table, "ambiguous", argv[0], argv[1 + help]);
return 0;
}
partial = ct;
}
continue;
}
/* If we had an unambiguous partial match */
if (partial && !ct->cmd) {
ct = partial;
}
if (!ct->cmd) {
/* No matching command */
if (help) {
/* Just show the top level help here */
show_cmd_usage(interp, command_table, argc, argv);
return &dummy_subcmd;
}
bad_subcmd(interp, command_table, "unknown", argv[0], argv[1 + help]);
return 0;
}
if (help) {
Jim_SetResultString(interp, "Usage: ", -1);
/* subcmd */
add_cmd_usage(interp, ct, argv[0]);
if (ct->description) {
Jim_AppendStrings(interp, Jim_GetResult(interp), "\n\n", ct->description, NULL);
}
return &dummy_subcmd;
}
/* Check the number of args */
if (argc - 2 < ct->minargs || (ct->maxargs >= 0 && argc - 2 > ct->maxargs)) {
Jim_SetResultString(interp, "wrong # args: must be \"", -1);
/* subcmd */
add_cmd_usage(interp, ct, argv[0]);
Jim_AppendStrings(interp, Jim_GetResult(interp), "\"", NULL);
return 0;
}
/* Good command */
return ct;
}
int Jim_CallSubCmd(Jim_Interp *interp, const jim_subcmd_type * ct, int argc, Jim_Obj *const *argv)
{
int ret = JIM_ERR;
if (ct) {
if (ct->flags & JIM_MODFLAG_FULLARGV) {
ret = ct->function(interp, argc, argv);
}
else {
ret = ct->function(interp, argc - 2, argv + 2);
}
if (ret < 0) {
set_wrong_args(interp, ct, argv[0]);
ret = JIM_ERR;
}
}
return ret;
}
int Jim_SubCmdProc(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
{
const jim_subcmd_type *ct =
Jim_ParseSubCmd(interp, (const jim_subcmd_type *)Jim_CmdPrivData(interp), argc, argv);
return Jim_CallSubCmd(interp, ct, argc, argv);
}
/* The following two functions are for normal commands */
int
Jim_CheckCmdUsage(Jim_Interp *interp, const jim_subcmd_type * command_table, int argc,
Jim_Obj *const *argv)
{
/* -usage or -help */
if (argc == 2) {
if (Jim_CompareStringImmediate(interp, argv[1], "-usage")
|| Jim_CompareStringImmediate(interp, argv[1], "-help")) {
Jim_SetResultString(interp, "Usage: ", -1);
add_cmd_usage(interp, command_table, NULL);
if (command_table->description) {
Jim_AppendStrings(interp, Jim_GetResult(interp), "\n\n", command_table->description,
NULL);
}
return JIM_OK;
}
}
if (argc >= 2 && command_table->function) {
/* This is actually a sub command table */
Jim_Obj *nargv[4];
int nargc = 0;
const char *subcmd = NULL;
if (Jim_CompareStringImmediate(interp, argv[1], "-subcommands")) {
Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
add_commands(interp, (jim_subcmd_type *) command_table->function, " ");
return JIM_OK;
}
if (Jim_CompareStringImmediate(interp, argv[1], "-subhelp")
|| Jim_CompareStringImmediate(interp, argv[1], "-help")) {
subcmd = "-help";
}
else if (Jim_CompareStringImmediate(interp, argv[1], "-subusage")) {
subcmd = "-usage";
}
if (subcmd) {
nargv[nargc++] = Jim_NewStringObj(interp, "$handle", -1);
nargv[nargc++] = Jim_NewStringObj(interp, subcmd, -1);
if (argc >= 3) {
nargv[nargc++] = argv[2];
}
Jim_ParseSubCmd(interp, (jim_subcmd_type *) command_table->function, nargc, nargv);
Jim_FreeNewObj(interp, nargv[0]);
Jim_FreeNewObj(interp, nargv[1]);
return 0;
}
}
/* Check the number of args */
if (argc - 1 < command_table->minargs || (command_table->maxargs >= 0
&& argc - 1 > command_table->maxargs)) {
set_wrong_args(interp, command_table, NULL);
Jim_AppendStrings(interp, Jim_GetResult(interp), "\nUse \"", Jim_String(argv[0]),
" -help\" for help", NULL);
return JIM_ERR;
}
/* Not usage, but passed arg checking */
return -1;
}
/**
* UTF-8 utility functions
*
* (c) 2010 Steve Bennett <steveb@workware.net.au>
*
* See LICENCE for licence details.
*/
#include <ctype.h>
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <assert.h>
/* This one is always implemented */
int utf8_fromunicode(char *p, unsigned short uc)
{
if (uc <= 0x7f) {
*p = uc;
return 1;
}
else if (uc <= 0x7ff) {
*p++ = 0xc0 | ((uc & 0x7c0) >> 6);
*p = 0x80 | (uc & 0x3f);
return 2;
}
else {
*p++ = 0xe0 | ((uc & 0xf000) >> 12);
*p++ = 0x80 | ((uc & 0xfc0) >> 6);
*p = 0x80 | (uc & 0x3f);
return 3;
}
}
#ifdef JIM_UTF8
int utf8_charlen(int c)
{
if ((c & 0x80) == 0) {
return 1;
}
if ((c & 0xe0) == 0xc0) {
return 2;
}
if ((c & 0xf0) == 0xe0) {
return 3;
}
if ((c & 0xf8) == 0xf0) {
return 4;
}
/* Invalid sequence */
return -1;
}
int utf8_strlen(const char *str, int bytelen)
{
int charlen = 0;
if (bytelen < 0) {
bytelen = strlen(str);
}
while (bytelen) {
int c;
int l = utf8_tounicode(str, &c);
charlen++;
str += l;
bytelen -= l;
}
return charlen;
}
int utf8_index(const char *str, int index)
{
const char *s = str;
while (index--) {
int c;
s += utf8_tounicode(s, &c);
}
return s - str;
}
int utf8_charequal(const char *s1, const char *s2)
{
int c1, c2;
utf8_tounicode(s1, &c1);
utf8_tounicode(s2, &c2);
return c1 == c2;
}
int utf8_prev_len(const char *str, int len)
{
int n = 1;
assert(len > 0);
/* Look up to len chars backward for a start-of-char byte */
while (--len) {
if ((str[-n] & 0x80) == 0) {
/* Start of a 1-byte char */
break;
}
if ((str[-n] & 0xc0) == 0xc0) {
/* Start of a multi-byte char */
break;
}
n++;
}
return n;
}
int utf8_tounicode(const char *str, int *uc)
{
unsigned const char *s = (unsigned const char *)str;
if (s[0] < 0xc0) {
*uc = s[0];
return 1;
}
if (s[0] < 0xe0) {
if ((s[1] & 0xc0) == 0x80) {
*uc = ((s[0] & ~0xc0) << 6) | (s[1] & ~0x80);
return 2;
}
}
else if (s[0] < 0xf0) {
if (((str[1] & 0xc0) == 0x80) && ((str[2] & 0xc0) == 0x80)) {
*uc = ((s[0] & ~0xe0) << 12) | ((s[1] & ~0x80) << 6) | (s[2] & ~0x80);
return 3;
}
}
/* Invalid sequence, so just return the byte */
*uc = *s;
return 1;
}
struct casemap {
unsigned short code; /* code point */
signed char lowerdelta; /* add for lowercase, or if -128 use the ext table */
signed char upperdelta; /* add for uppercase, or offset into the ext table */
};
/* Extended table for codepoints where |delta| > 127 */
struct caseextmap {
unsigned short lower;
unsigned short upper;
};
/* Generated mapping tables */
#include "unicode_mapping.c"
#define NUMCASEMAP sizeof(unicode_case_mapping) / sizeof(*unicode_case_mapping)
static int cmp_casemap(const void *key, const void *cm)
{
return *(int *)key - (int)((const struct casemap *)cm)->code;
}
static int utf8_map_case(int uc, int upper)
{
const struct casemap *cm = bsearch(&uc, unicode_case_mapping, NUMCASEMAP, sizeof(*unicode_case_mapping), cmp_casemap);
if (cm) {
if (cm->lowerdelta == -128) {
uc = upper ? unicode_extmap[cm->upperdelta].upper : unicode_extmap[cm->upperdelta].lower;
}
else {
uc += upper ? cm->upperdelta : cm->lowerdelta;
}
}
return uc;
}
int utf8_upper(int uc)
{
if (isascii(uc)) {
return toupper(uc);
}
return utf8_map_case(uc, 1);
}
int utf8_lower(int uc)
{
if (isascii(uc)) {
return tolower(uc);
}
return utf8_map_case(uc, 0);
}
#endif
#include <errno.h>
#include <string.h>
#ifdef USE_LINENOISE
#include "linenoise.h"
#else
#define MAX_LINE_LEN 512
static char *linenoise(const char *prompt)
{
char *line = malloc(MAX_LINE_LEN);
fputs(prompt, stdout);
fflush(stdout);
if (fgets(line, MAX_LINE_LEN, stdin) == NULL) {
free(line);
return NULL;
}
return line;
}
#endif
int Jim_InteractivePrompt(Jim_Interp *interp)
{
int retcode = JIM_OK;
char *history_file = NULL;
#ifdef USE_LINENOISE
const char *home;
home = getenv("HOME");
if (home) {
int history_len = strlen(home) + sizeof("/.jim_history");
history_file = Jim_Alloc(history_len);
snprintf(history_file, history_len, "%s/.jim_history", home);
linenoiseHistoryLoad(history_file);
}
#endif
printf("Welcome to Jim version %d.%d" JIM_NL,
JIM_VERSION / 100, JIM_VERSION % 100);
Jim_SetVariableStrWithStr(interp, JIM_INTERACTIVE, "1");
while (1) {
Jim_Obj *scriptObjPtr;
const char *result;
int reslen;
char prompt[20];
const char *str;
if (retcode != 0) {
const char *retcodestr = Jim_ReturnCode(retcode);
if (*retcodestr == '?') {
snprintf(prompt, sizeof(prompt) - 3, "[%d] ", retcode);
}
else {
snprintf(prompt, sizeof(prompt) - 3, "[%s] ", retcodestr);
}
}
else {
prompt[0] = '\0';
}
strcat(prompt, ". ");
scriptObjPtr = Jim_NewStringObj(interp, "", 0);
Jim_IncrRefCount(scriptObjPtr);
while (1) {
char state;
int len;
char *line;
line = linenoise(prompt);
if (line == NULL) {
if (errno == EINTR) {
continue;
}
Jim_DecrRefCount(interp, scriptObjPtr);
goto out;
}
if (Jim_Length(scriptObjPtr) != 0) {
Jim_AppendString(interp, scriptObjPtr, "\n", 1);
}
Jim_AppendString(interp, scriptObjPtr, line, -1);
free(line);
str = Jim_GetString(scriptObjPtr, &len);
if (len == 0) {
continue;
}
if (Jim_ScriptIsComplete(str, len, &state))
break;
snprintf(prompt, sizeof(prompt), "%c> ", state);
}
#ifdef USE_LINENOISE
if (strcmp(str, "h") == 0) {
/* built-in history command */
int i;
int len;
char **history = linenoiseHistory(&len);
for (i = 0; i < len; i++) {
printf("%4d %s\n", i + 1, history[i]);
}
Jim_DecrRefCount(interp, scriptObjPtr);
continue;
}
linenoiseHistoryAdd(Jim_String(scriptObjPtr));
linenoiseHistorySave(history_file);
#endif
retcode = Jim_EvalObj(interp, scriptObjPtr);
Jim_DecrRefCount(interp, scriptObjPtr);
if (retcode == JIM_EXIT) {
Jim_Free(history_file);
return JIM_EXIT;
}
if (retcode == JIM_ERR) {
Jim_MakeErrorMessage(interp);
}
result = Jim_GetString(Jim_GetResult(interp), &reslen);
if (reslen) {
printf("%s\n", result);
}
}
out:
Jim_Free(history_file);
return JIM_OK;
}
/*
* Implements the internals of the format command for jim
*
* The FreeBSD license
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials
* provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE JIM TCL PROJECT ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
* PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* JIM TCL PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* The views and conclusions contained in the software and documentation
* are those of the authors and should not be interpreted as representing
* official policies, either expressed or implied, of the Jim Tcl Project.
*
* Based on code originally from Tcl 8.5:
*
* Copyright (c) 1995-1997 Sun Microsystems, Inc.
* Copyright (c) 1999 by Scriptics Corporation.
*
* See the file "tcl.license.terms" for information on usage and redistribution of
* this file, and for a DISCLAIMER OF ALL WARRANTIES.
*/
#include <ctype.h>
#include <string.h>
#define JIM_UTF_MAX 3
#define JIM_INTEGER_SPACE 24
#define MAX_FLOAT_WIDTH 320
/**
* Apply the printf-like format in fmtObjPtr with the given arguments.
*
* Returns a new object with zero reference count if OK, or NULL on error.
*/
Jim_Obj *Jim_FormatString(Jim_Interp *interp, Jim_Obj *fmtObjPtr, int objc, Jim_Obj *const *objv)
{
const char *span, *format, *formatEnd, *msg;
int numBytes = 0, objIndex = 0, gotXpg = 0, gotSequential = 0;
static const char *mixedXPG =
"cannot mix \"%\" and \"%n$\" conversion specifiers";
static const char *badIndex[2] = {
"not enough arguments for all format specifiers",
"\"%n$\" argument index out of range"
};
int formatLen;
Jim_Obj *resultPtr;
/* A single buffer is used to store numeric fields (with sprintf())
* This buffer is allocated/reallocated as necessary
*/
char *num_buffer = NULL;
int num_buffer_size = 0;
span = format = Jim_GetString(fmtObjPtr, &formatLen);
formatEnd = format + formatLen;
resultPtr = Jim_NewStringObj(interp, "", 0);
while (format != formatEnd) {
char *end;
int gotMinus, sawFlag;
int gotPrecision, useShort;
long width, precision;
int newXpg;
int ch;
int step;
int doubleType;
char pad = ' ';
char spec[2*JIM_INTEGER_SPACE + 12];
char *p;
int formatted_chars;
int formatted_bytes;
const char *formatted_buf;
step = utf8_tounicode(format, &ch);
format += step;
if (ch != '%') {
numBytes += step;
continue;
}
if (numBytes) {
Jim_AppendString(interp, resultPtr, span, numBytes);
numBytes = 0;
}
/*
* Saw a % : process the format specifier.
*
* Step 0. Handle special case of escaped format marker (i.e., %%).
*/
step = utf8_tounicode(format, &ch);
if (ch == '%') {
span = format;
numBytes = step;
format += step;
continue;
}
/*
* Step 1. XPG3 position specifier
*/
newXpg = 0;
if (isdigit(ch)) {
int position = strtoul(format, &end, 10);
if (*end == '$') {
newXpg = 1;
objIndex = position - 1;
format = end + 1;
step = utf8_tounicode(format, &ch);
}
}
if (newXpg) {
if (gotSequential) {
msg = mixedXPG;
goto errorMsg;
}
gotXpg = 1;
} else {
if (gotXpg) {
msg = mixedXPG;
goto errorMsg;
}
gotSequential = 1;
}
if ((objIndex < 0) || (objIndex >= objc)) {
msg = badIndex[gotXpg];
goto errorMsg;
}
/*
* Step 2. Set of flags. Also build up the sprintf spec.
*/
p = spec;
*p++ = '%';
gotMinus = 0;
sawFlag = 1;
do {
switch (ch) {
case '-':
gotMinus = 1;
break;
case '0':
pad = ch;
break;
case ' ':
case '+':
case '#':
break;
default:
sawFlag = 0;
continue;
}
*p++ = ch;
format += step;
step = utf8_tounicode(format, &ch);
} while (sawFlag);
/*
* Step 3. Minimum field width.
*/
width = 0;
if (isdigit(ch)) {
width = strtoul(format, &end, 10);
format = end;
step = utf8_tounicode(format, &ch);
} else if (ch == '*') {
if (objIndex >= objc - 1) {
msg = badIndex[gotXpg];
goto errorMsg;
}
if (Jim_GetLong(interp, objv[objIndex], &width) != JIM_OK) {
goto error;
}
if (width < 0) {
width = -width;
if (!gotMinus) {
*p++ = '-';
gotMinus = 1;
}
}
objIndex++;
format += step;
step = utf8_tounicode(format, &ch);
}
/*
* Step 4. Precision.
*/
gotPrecision = precision = 0;
if (ch == '.') {
gotPrecision = 1;
format += step;
step = utf8_tounicode(format, &ch);
}
if (isdigit(ch)) {
precision = strtoul(format, &end, 10);
format = end;
step = utf8_tounicode(format, &ch);
} else if (ch == '*') {
if (objIndex >= objc - 1) {
msg = badIndex[gotXpg];
goto errorMsg;
}
if (Jim_GetLong(interp, objv[objIndex], &precision) != JIM_OK) {
goto error;
}
/*
* TODO: Check this truncation logic.
*/
if (precision < 0) {
precision = 0;
}
objIndex++;
format += step;
step = utf8_tounicode(format, &ch);
}
/*
* Step 5. Length modifier.
*/
useShort = 0;
if (ch == 'h') {
useShort = 1;
format += step;
step = utf8_tounicode(format, &ch);
} else if (ch == 'l') {
/* Just for compatibility. All non-short integers are wide. */
format += step;
step = utf8_tounicode(format, &ch);
if (ch == 'l') {
format += step;
step = utf8_tounicode(format, &ch);
}
}
format += step;
span = format;
/*
* Step 6. The actual conversion character.
*/
if (ch == 'i') {
ch = 'd';
}
doubleType = 0;
/* Each valid conversion will set:
* formatted_buf - the result to be added
* formatted_chars - the length of formatted_buf in characters
* formatted_bytes - the length of formatted_buf in bytes
*/
switch (ch) {
case '\0':
msg = "format string ended in middle of field specifier";
goto errorMsg;
case 's': {
formatted_buf = Jim_GetString(objv[objIndex], &formatted_bytes);
formatted_chars = Jim_Utf8Length(interp, objv[objIndex]);
if (gotPrecision && (precision < formatted_chars)) {
/* Need to build a (null terminated) truncated string */
formatted_chars = precision;
formatted_bytes = utf8_index(formatted_buf, precision);
}
break;
}
case 'c': {
jim_wide code;
if (Jim_GetWide(interp, objv[objIndex], &code) != JIM_OK) {
goto error;
}
/* Just store the value in the 'spec' buffer */
formatted_bytes = utf8_fromunicode(spec, code);
formatted_buf = spec;
formatted_chars = 1;
break;
}
case 'e':
case 'E':
case 'f':
case 'g':
case 'G':
doubleType = 1;
/* fall through */
case 'd':
case 'u':
case 'o':
case 'x':
case 'X': {
jim_wide w;
double d;
int length;
/* Fill in the width and precision */
if (width) {
p += sprintf(p, "%ld", width);
}
if (gotPrecision) {
p += sprintf(p, ".%ld", precision);
}
/* Now the modifier, and get the actual value here */
if (doubleType) {
if (Jim_GetDouble(interp, objv[objIndex], &d) != JIM_OK) {
goto error;
}
length = MAX_FLOAT_WIDTH;
}
else {
if (Jim_GetWide(interp, objv[objIndex], &w) != JIM_OK) {
goto error;
}
length = JIM_INTEGER_SPACE;
if (useShort) {
*p++ = 'h';
if (ch == 'd') {
w = (short)w;
}
else {
w = (unsigned short)w;
}
}
else {
*p++ = 'l';
#ifdef HAVE_LONG_LONG
if (sizeof(long long) == sizeof(jim_wide)) {
*p++ = 'l';
}
#endif
}
}
*p++ = (char) ch;
*p = '\0';
/* Adjust length for width and precision */
if (width > length) {
length = width;
}
if (gotPrecision) {
length += precision;
}
/* Increase the size of the buffer if needed */
if (num_buffer_size < length + 1) {
num_buffer_size = length + 1;
num_buffer = Jim_Realloc(num_buffer, num_buffer_size);
}
if (doubleType) {
snprintf(num_buffer, length + 1, spec, d);
}
else {
formatted_bytes = snprintf(num_buffer, length + 1, spec, w);
}
formatted_chars = formatted_bytes = strlen(num_buffer);
formatted_buf = num_buffer;
break;
}
default: {
/* Just reuse the 'spec' buffer */
spec[0] = ch;
spec[1] = '\0';
Jim_SetResultFormatted(interp, "bad field specifier \"%s\"", spec);
goto error;
}
}
if (!gotMinus) {
while (formatted_chars < width) {
Jim_AppendString(interp, resultPtr, &pad, 1);
formatted_chars++;
}
}
Jim_AppendString(interp, resultPtr, formatted_buf, formatted_bytes);
while (formatted_chars < width) {
Jim_AppendString(interp, resultPtr, &pad, 1);
formatted_chars++;
}
objIndex += gotSequential;
}
if (numBytes) {
Jim_AppendString(interp, resultPtr, span, numBytes);
}
Jim_Free(num_buffer);
return resultPtr;
errorMsg:
Jim_SetResultString(interp, msg, -1);
error:
Jim_FreeNewObj(interp, resultPtr);
Jim_Free(num_buffer);
return NULL;
}
/*
* regcomp and regexec -- regsub and regerror are elsewhere
*
* Copyright (c) 1986 by University of Toronto.
* Written by Henry Spencer. Not derived from licensed software.
*
* Permission is granted to anyone to use this software for any
* purpose on any computer system, and to redistribute it freely,
* subject to the following restrictions:
*
* 1. The author is not responsible for the consequences of use of
* this software, no matter how awful, even if they arise
* from defects in it.
*
* 2. The origin of this software must not be misrepresented, either
* by explicit claim or by omission.
*
* 3. Altered versions must be plainly marked as such, and must not
* be misrepresented as being the original software.
*** THIS IS AN ALTERED VERSION. It was altered by John Gilmore,
*** hoptoad!gnu, on 27 Dec 1986, to add \n as an alternative to |
*** to assist in implementing egrep.
*** THIS IS AN ALTERED VERSION. It was altered by John Gilmore,
*** hoptoad!gnu, on 27 Dec 1986, to add \< and \> for word-matching
*** as in BSD grep and ex.
*** THIS IS AN ALTERED VERSION. It was altered by John Gilmore,
*** hoptoad!gnu, on 28 Dec 1986, to optimize characters quoted with \.
*** THIS IS AN ALTERED VERSION. It was altered by James A. Woods,
*** ames!jaw, on 19 June 1987, to quash a regcomp() redundancy.
*** THIS IS AN ALTERED VERSION. It was altered by Christopher Seiwald
*** seiwald@vix.com, on 28 August 1993, for use in jam. Regmagic.h
*** was moved into regexp.h, and the include of regexp.h now uses "'s
*** to avoid conflicting with the system regexp.h. Const, bless its
*** soul, was removed so it can compile everywhere. The declaration
*** of strchr() was in conflict on AIX, so it was removed (as it is
*** happily defined in string.h).
*** THIS IS AN ALTERED VERSION. It was altered by Christopher Seiwald
*** seiwald@perforce.com, on 20 January 2000, to use function prototypes.
*** THIS IS AN ALTERED VERSION. It was altered by Christopher Seiwald
*** seiwald@perforce.com, on 05 November 2002, to const string literals.
*
* THIS IS AN ALTERED VERSION. It was altered by Steve Bennett <steveb@workware.net.au>
* on 16 October 2010, to remove static state and add better Tcl ARE compatibility.
* This includes counted repetitions, UTF-8 support, character classes,
* shorthand character classes, increased number of parentheses to 100,
* backslash escape sequences. It also removes \n as an alternative to |.
*
* Beware that some of this code is subtly aware of the way operator
* precedence is structured in regular expressions. Serious changes in
* regular-expression syntax might require a total rethink.
*/
#include <stdio.h>
#include <ctype.h>
#include <stdlib.h>
#include <string.h>
#if !defined(HAVE_REGCOMP) || defined(JIM_REGEXP)
/*
* Structure for regexp "program". This is essentially a linear encoding
* of a nondeterministic finite-state machine (aka syntax charts or
* "railroad normal form" in parsing technology). Each node is an opcode
* plus a "next" pointer, possibly plus an operand. "Next" pointers of
* all nodes except BRANCH implement concatenation; a "next" pointer with
* a BRANCH on both ends of it is connecting two alternatives. (Here we
* have one of the subtle syntax dependencies: an individual BRANCH (as
* opposed to a collection of them) is never concatenated with anything
* because of operator precedence.) The operand of some types of node is
* a literal string; for others, it is a node leading into a sub-FSM. In
* particular, the operand of a BRANCH node is the first node of the branch.
* (NB this is *not* a tree structure: the tail of the branch connects
* to the thing following the set of BRANCHes.) The opcodes are:
*/
/* This *MUST* be less than (255-20)/2=117 */
#define REG_MAX_PAREN 100
/* definition number opnd? meaning */
#define END 0 /* no End of program. */
#define BOL 1 /* no Match "" at beginning of line. */
#define EOL 2 /* no Match "" at end of line. */
#define ANY 3 /* no Match any one character. */
#define ANYOF 4 /* str Match any character in this string. */
#define ANYBUT 5 /* str Match any character not in this string. */
#define BRANCH 6 /* node Match this alternative, or the next... */
#define BACK 7 /* no Match "", "next" ptr points backward. */
#define EXACTLY 8 /* str Match this string. */
#define NOTHING 9 /* no Match empty string. */
#define REP 10 /* max,min Match this (simple) thing [min,max] times. */
#define REPMIN 11 /* max,min Match this (simple) thing [min,max] times, mininal match. */
#define REPX 12 /* max,min Match this (complex) thing [min,max] times. */
#define REPXMIN 13 /* max,min Match this (complex) thing [min,max] times, minimal match. */
#define WORDA 15 /* no Match "" at wordchar, where prev is nonword */
#define WORDZ 16 /* no Match "" at nonwordchar, where prev is word */
#define OPEN 20 /* no Mark this point in input as start of #n. */
/* OPEN+1 is number 1, etc. */
#define CLOSE (OPEN+REG_MAX_PAREN) /* no Analogous to OPEN. */
#define CLOSE_END (CLOSE+REG_MAX_PAREN)
/*
* The first byte of the regexp internal "program" is actually this magic
* number; the start node begins in the second byte.
*/
#define REG_MAGIC 0xFADED00D
/*
* Opcode notes:
*
* BRANCH The set of branches constituting a single choice are hooked
* together with their "next" pointers, since precedence prevents
* anything being concatenated to any individual branch. The
* "next" pointer of the last BRANCH in a choice points to the
* thing following the whole choice. This is also where the
* final "next" pointer of each individual branch points; each
* branch starts with the operand node of a BRANCH node.
*
* BACK Normal "next" pointers all implicitly point forward; BACK
* exists to make loop structures possible.
*
* STAR,PLUS '?', and complex '*' and '+', are implemented as circular
* BRANCH structures using BACK. Simple cases (one character
* per match) are implemented with STAR and PLUS for speed
* and to minimize recursive plunges.
*
* OPEN,CLOSE ...are numbered at compile time.
*/
/*
* A node is one char of opcode followed by two chars of "next" pointer.
* "Next" pointers are stored as two 8-bit pieces, high order first. The
* value is a positive offset from the opcode of the node containing it.
* An operand, if any, simply follows the node. (Note that much of the
* code generation knows about this implicit relationship.)
*
* Using two bytes for the "next" pointer is vast overkill for most things,
* but allows patterns to get big without disasters.
*/
#define OP(preg, p) (preg->program[p])
#define NEXT(preg, p) (preg->program[p + 1])
#define OPERAND(p) ((p) + 2)
/*
* See regmagic.h for one further detail of program structure.
*/
/*
* Utility definitions.
*/
#define FAIL(R,M) { (R)->err = (M); return (M); }
#define ISMULT(c) ((c) == '*' || (c) == '+' || (c) == '?' || (c) == '{')
#define META "^$.[()|?{+*"
/*
* Flags to be passed up and down.
*/
#define HASWIDTH 01 /* Known never to match null string. */
#define SIMPLE 02 /* Simple enough to be STAR/PLUS operand. */
#define SPSTART 04 /* Starts with * or +. */
#define WORST 0 /* Worst case. */
#define MAX_REP_COUNT 1000000
/*
* Forward declarations for regcomp()'s friends.
*/
static int reg(regex_t *preg, int paren /* Parenthesized? */, int *flagp );
static int regpiece(regex_t *preg, int *flagp );
static int regbranch(regex_t *preg, int *flagp );
static int regatom(regex_t *preg, int *flagp );
static int regnode(regex_t *preg, int op );
static int regnext(regex_t *preg, int p );
static void regc(regex_t *preg, int b );
static int reginsert(regex_t *preg, int op, int size, int opnd );
static void regtail_(regex_t *preg, int p, int val, int line );
static void regoptail(regex_t *preg, int p, int val );
#define regtail(PREG, P, VAL) regtail_(PREG, P, VAL, __LINE__)
static int reg_range_find(const int *string, int c);
static const char *str_find(const char *string, int c, int nocase);
static int prefix_cmp(const int *prog, int proglen, const char *string, int nocase);
/*#define DEBUG*/
#ifdef DEBUG
int regnarrate = 0;
static void regdump(regex_t *preg);
static const char *regprop( int op );
#endif
/**
* Returns the length of the null-terminated integer sequence.
*/
static int str_int_len(const int *seq)
{
int n = 0;
while (*seq++) {
n++;
}
return n;
}
/*
- regcomp - compile a regular expression into internal code
*
* We can't allocate space until we know how big the compiled form will be,
* but we can't compile it (and thus know how big it is) until we've got a
* place to put the code. So we cheat: we compile it twice, once with code
* generation turned off and size counting turned on, and once "for real".
* This also means that we don't allocate space until we are sure that the
* thing really will compile successfully, and we never have to move the
* code and thus invalidate pointers into it. (Note that it has to be in
* one piece because free() must be able to free it all.)
*
* Beware that the optimization-preparation code in here knows about some
* of the structure of the compiled regexp.
*/
int regcomp(regex_t *preg, const char *exp, int cflags)
{
int scan;
int longest;
unsigned len;
int flags;
#ifdef DEBUG
fprintf(stderr, "Compiling: '%s'\n", exp);
#endif
memset(preg, 0, sizeof(*preg));
if (exp == NULL)
FAIL(preg, REG_ERR_NULL_ARGUMENT);
/* First pass: determine size, legality. */
preg->cflags = cflags;
preg->regparse = exp;
/* XXX: For now, start unallocated */
preg->program = NULL;
preg->proglen = 0;
#if 1
/* Allocate space. */
preg->proglen = (strlen(exp) + 1) * 5;
preg->program = malloc(preg->proglen * sizeof(int));
if (preg->program == NULL)
FAIL(preg, REG_ERR_NOMEM);
#endif
/* Note that since we store a magic value as the first item in the program,
* program offsets will never be 0
*/
regc(preg, REG_MAGIC);
if (reg(preg, 0, &flags) == 0) {
return preg->err;
}
/* Small enough for pointer-storage convention? */
if (preg->re_nsub >= REG_MAX_PAREN) /* Probably could be 65535L. */
FAIL(preg,REG_ERR_TOO_BIG);
/* Dig out information for optimizations. */
preg->regstart = 0; /* Worst-case defaults. */
preg->reganch = 0;
preg->regmust = 0;
preg->regmlen = 0;
scan = 1; /* First BRANCH. */
if (OP(preg, regnext(preg, scan)) == END) { /* Only one top-level choice. */
scan = OPERAND(scan);
/* Starting-point info. */
if (OP(preg, scan) == EXACTLY) {
preg->regstart = preg->program[OPERAND(scan)];
}
else if (OP(preg, scan) == BOL)
preg->reganch++;
/*
* If there's something expensive in the r.e., find the
* longest literal string that must appear and make it the
* regmust. Resolve ties in favor of later strings, since
* the regstart check works with the beginning of the r.e.
* and avoiding duplication strengthens checking. Not a
* strong reason, but sufficient in the absence of others.
*/
if (flags&SPSTART) {
longest = 0;
len = 0;
for (; scan != 0; scan = regnext(preg, scan)) {
if (OP(preg, scan) == EXACTLY) {
int plen = str_int_len(preg->program + OPERAND(scan));
if (plen >= len) {
longest = OPERAND(scan);
len = plen;
}
}
}
preg->regmust = longest;
preg->regmlen = len;
}
}
#ifdef DEBUG
regdump(preg);
#endif
return 0;
}
/*
- reg - regular expression, i.e. main body or parenthesized thing
*
* Caller must absorb opening parenthesis.
*
* Combining parenthesis handling with the base level of regular expression
* is a trifle forced, but the need to tie the tails of the branches to what
* follows makes it hard to avoid.
*/
static int reg(regex_t *preg, int paren /* Parenthesized? */, int *flagp )
{
int ret;
int br;
int ender;
int parno = 0;
int flags;
*flagp = HASWIDTH; /* Tentatively. */
/* Make an OPEN node, if parenthesized. */
if (paren) {
parno = ++preg->re_nsub;
ret = regnode(preg, OPEN+parno);
} else
ret = 0;
/* Pick up the branches, linking them together. */
br = regbranch(preg, &flags);
if (br == 0)
return 0;
if (ret != 0)
regtail(preg, ret, br); /* OPEN -> first. */
else
ret = br;
if (!(flags&HASWIDTH))
*flagp &= ~HASWIDTH;
*flagp |= flags&SPSTART;
while (*preg->regparse == '|') {
preg->regparse++;
br = regbranch(preg, &flags);
if (br == 0)
return 0;
regtail(preg, ret, br); /* BRANCH -> BRANCH. */
if (!(flags&HASWIDTH))
*flagp &= ~HASWIDTH;
*flagp |= flags&SPSTART;
}
/* Make a closing node, and hook it on the end. */
ender = regnode(preg, (paren) ? CLOSE+parno : END);
regtail(preg, ret, ender);
/* Hook the tails of the branches to the closing node. */
for (br = ret; br != 0; br = regnext(preg, br))
regoptail(preg, br, ender);
/* Check for proper termination. */
if (paren && *preg->regparse++ != ')') {
preg->err = REG_ERR_UNMATCHED_PAREN;
return 0;
} else if (!paren && *preg->regparse != '\0') {
if (*preg->regparse == ')') {
preg->err = REG_ERR_UNMATCHED_PAREN;
return 0;
} else {
preg->err = REG_ERR_JUNK_ON_END;
return 0;
}
}
return(ret);
}
/*
- regbranch - one alternative of an | operator
*
* Implements the concatenation operator.
*/
static int regbranch(regex_t *preg, int *flagp )
{
int ret;
int chain;
int latest;
int flags;
*flagp = WORST; /* Tentatively. */
ret = regnode(preg, BRANCH);
chain = 0;
while (*preg->regparse != '\0' && *preg->regparse != ')' &&
*preg->regparse != '|') {
latest = regpiece(preg, &flags);
if (latest == 0)
return 0;
*flagp |= flags&HASWIDTH;
if (chain == 0) {/* First piece. */
*flagp |= flags&SPSTART;
}
else {
regtail(preg, chain, latest);
}
chain = latest;
}
if (chain == 0) /* Loop ran zero times. */
(void) regnode(preg, NOTHING);
return(ret);
}
/*
- regpiece - something followed by possible [*+?]
*
* Note that the branching code sequences used for ? and the general cases
* of * and + are somewhat optimized: they use the same NOTHING node as
* both the endmarker for their branch list and the body of the last branch.
* It might seem that this node could be dispensed with entirely, but the
* endmarker role is not redundant.
*/
static int regpiece(regex_t *preg, int *flagp)
{
int ret;
char op;
int next;
int flags;
int chain = 0;
int min;
int max;
ret = regatom(preg, &flags);
if (ret == 0)
return 0;
op = *preg->regparse;
if (!ISMULT(op)) {
*flagp = flags;
return(ret);
}
if (!(flags&HASWIDTH) && op != '?') {
preg->err = REG_ERR_OPERAND_COULD_BE_EMPTY;
return 0;
}
/* Handle braces (counted repetition) by expansion */
if (op == '{') {
char *end;
min = strtoul(preg->regparse + 1, &end, 10);
if (end == preg->regparse + 1) {
preg->err = REG_ERR_BAD_COUNT;
return 0;
}
if (*end == '}') {
max = min;
}
else {
preg->regparse = end;
max = strtoul(preg->regparse + 1, &end, 10);
if (*end != '}') {
preg->err = REG_ERR_UNMATCHED_BRACES;
return 0;
}
}
if (end == preg->regparse + 1) {
max = MAX_REP_COUNT;
}
else if (max < min || max >= 100) {
preg->err = REG_ERR_BAD_COUNT;
return 0;
}
if (min >= 100) {
preg->err = REG_ERR_BAD_COUNT;
return 0;
}
preg->regparse = strchr(preg->regparse, '}');
}
else {
min = (op == '+');
max = (op == '?' ? 1 : MAX_REP_COUNT);
}
if (preg->regparse[1] == '?') {
preg->regparse++;
next = reginsert(preg, flags & SIMPLE ? REPMIN : REPXMIN, 5, ret);
}
else {
next = reginsert(preg, flags & SIMPLE ? REP: REPX, 5, ret);
}
preg->program[ret + 2] = max;
preg->program[ret + 3] = min;
preg->program[ret + 4] = 0;
*flagp = (min) ? (WORST|HASWIDTH) : (WORST|SPSTART);
if (!(flags & SIMPLE)) {
int back = regnode(preg, BACK);
regtail(preg, back, ret);
regtail(preg, next, back);
}
preg->regparse++;
if (ISMULT(*preg->regparse)) {
preg->err = REG_ERR_NESTED_COUNT;
return 0;
}
return chain ? chain : ret;
}
/**
* Add all characters in the inclusive range between lower and upper.
*
* Handles a swapped range (upper < lower).
*/
static void reg_addrange(regex_t *preg, int lower, int upper)
{
if (lower > upper) {
reg_addrange(preg, upper, lower);
}
/* Add a range as length, start */
regc(preg, upper - lower + 1);
regc(preg, lower);
}
/**
* Add a null-terminated literal string as a set of ranges.
*/
static void reg_addrange_str(regex_t *preg, const char *str)
{
while (*str) {
reg_addrange(preg, *str, *str);
str++;
}
}
/**
* Extracts the next unicode char from utf8.
*
* If 'upper' is set, converts the char to uppercase.
*/
static int reg_utf8_tounicode_case(const char *s, int *uc, int upper)
{
int l = utf8_tounicode(s, uc);
if (upper) {
*uc = utf8_upper(*uc);
}
return l;
}
/**
* Converts a hex digit to decimal.
*
* Returns -1 for an invalid hex digit.
*/
static int hexdigitval(int c)
{
if (c >= '0' && c <= '9')
return c - '0';
if (c >= 'a' && c <= 'f')
return c - 'a' + 10;
if (c >= 'A' && c <= 'F')
return c - 'A' + 10;
return -1;
}
/**
* Parses up to 'n' hex digits at 's' and stores the result in *uc.
*
* Returns the number of hex digits parsed.
* If there are no hex digits, returns 0 and stores nothing.
*/
static int parse_hex(const char *s, int n, int *uc)
{
int val = 0;
int k;
for (k = 0; k < n; k++) {
int c = hexdigitval(*s++);
if (c == -1) {
break;
}
val = (val << 4) | c;
}
if (k) {
*uc = val;
}
return k;
}
/**
* Call for chars after a backlash to decode the escape sequence.
*
* Stores the result in *ch.
*
* Returns the number of bytes consumed.
*/
static int reg_decode_escape(const char *s, int *ch)
{
int n;
const char *s0 = s;
*ch = *s++;
switch (*ch) {
case 'b': *ch = '\b'; break;
case 'e': *ch = 27; break;
case 'f': *ch = '\f'; break;
case 'n': *ch = '\n'; break;
case 'r': *ch = '\r'; break;
case 't': *ch = '\t'; break;
case 'v': *ch = '\v'; break;
case 'u':
if ((n = parse_hex(s, 4, ch)) > 0) {
s += n;
}
break;
case 'x':
if ((n = parse_hex(s, 2, ch)) > 0) {
s += n;
}
break;
case '\0':
s--;
*ch = '\\';
break;
}
return s - s0;
}
/*
- regatom - the lowest level
*
* Optimization: gobbles an entire sequence of ordinary characters so that
* it can turn them into a single node, which is smaller to store and
* faster to run. Backslashed characters are exceptions, each becoming a
* separate node; the code is simpler that way and it's not worth fixing.
*/
static int regatom(regex_t *preg, int *flagp)
{
int ret;
int flags;
int nocase = (preg->cflags & REG_ICASE);
int ch;
int n = reg_utf8_tounicode_case(preg->regparse, &ch, nocase);
*flagp = WORST; /* Tentatively. */
preg->regparse += n;
switch (ch) {
/* FIXME: these chars only have meaning at beg/end of pat? */
case '^':
ret = regnode(preg, BOL);
break;
case '$':
ret = regnode(preg, EOL);
break;
case '.':
ret = regnode(preg, ANY);
*flagp |= HASWIDTH|SIMPLE;
break;
case '[': {
const char *pattern = preg->regparse;
if (*pattern == '^') { /* Complement of range. */
ret = regnode(preg, ANYBUT);
pattern++;
} else
ret = regnode(preg, ANYOF);
/* Special case. If the first char is ']' or '-', it is part of the set */
if (*pattern == ']' || *pattern == '-') {
reg_addrange(preg, *pattern, *pattern);
pattern++;
}
while (*pattern && *pattern != ']') {
/* Is this a range? a-z */
int start;
int end;
pattern += reg_utf8_tounicode_case(pattern, &start, nocase);
if (start == '\\') {
pattern += reg_decode_escape(pattern, &start);
if (start == 0) {
preg->err = REG_ERR_NULL_CHAR;
return 0;
}
}
if (pattern[0] == '-' && pattern[1]) {
/* skip '-' */
pattern += utf8_tounicode(pattern, &end);
pattern += reg_utf8_tounicode_case(pattern, &end, nocase);
if (end == '\\') {
pattern += reg_decode_escape(pattern, &end);
if (end == 0) {
preg->err = REG_ERR_NULL_CHAR;
return 0;
}
}
reg_addrange(preg, start, end);
continue;
}
if (start == '[') {
if (strncmp(pattern, ":alpha:]", 8) == 0) {
if ((preg->cflags & REG_ICASE) == 0) {
reg_addrange(preg, 'a', 'z');
}
reg_addrange(preg, 'A', 'Z');
pattern += 8;
continue;
}
if (strncmp(pattern, ":alnum:]", 8) == 0) {
if ((preg->cflags & REG_ICASE) == 0) {
reg_addrange(preg, 'a', 'z');
}
reg_addrange(preg, 'A', 'Z');
reg_addrange(preg, '0', '9');
pattern += 8;
continue;
}
if (strncmp(pattern, ":space:]", 8) == 0) {
reg_addrange_str(preg, " \t\r\n\f\v");
pattern += 8;
continue;
}
}
/* Not a range, so just add the char */
reg_addrange(preg, start, start);
}
regc(preg, '\0');
if (*pattern) {
pattern++;
}
preg->regparse = pattern;
*flagp |= HASWIDTH|SIMPLE;
}
break;
case '(':
ret = reg(preg, 1, &flags);
if (ret == 0)
return 0;
*flagp |= flags&(HASWIDTH|SPSTART);
break;
case '\0':
case '|':
case ')':
preg->err = REG_ERR_INTERNAL;
return 0; /* Supposed to be caught earlier. */
case '?':
case '+':
case '*':
case '{':
preg->err = REG_ERR_COUNT_FOLLOWS_NOTHING;
return 0;
case '\\':
switch (*preg->regparse++) {
case '\0':
preg->err = REG_ERR_TRAILING_BACKSLASH;
return 0;
case '<':
case 'm':
ret = regnode(preg, WORDA);
break;
case '>':
case 'M':
ret = regnode(preg, WORDZ);
break;
case 'd':
ret = regnode(preg, ANYOF);
reg_addrange(preg, '0', '9');
regc(preg, '\0');
*flagp |= HASWIDTH|SIMPLE;
break;
case 'w':
ret = regnode(preg, ANYOF);
if ((preg->cflags & REG_ICASE) == 0) {
reg_addrange(preg, 'a', 'z');
}
reg_addrange(preg, 'A', 'Z');
reg_addrange(preg, '0', '9');
reg_addrange(preg, '_', '_');
regc(preg, '\0');
*flagp |= HASWIDTH|SIMPLE;
break;
case 's':
ret = regnode(preg, ANYOF);
reg_addrange_str(preg," \t\r\n\f\v");
regc(preg, '\0');
*flagp |= HASWIDTH|SIMPLE;
break;
/* FIXME: Someday handle \1, \2, ... */
default:
/* Handle general quoted chars in exact-match routine */
/* Back up to include the backslash */
preg->regparse--;
goto de_fault;
}
break;
de_fault:
default: {
/*
* Encode a string of characters to be matched exactly.
*/
int added = 0;
/* Back up to pick up the first char of interest */
preg->regparse -= n;
ret = regnode(preg, EXACTLY);
/* Note that a META operator such as ? or * consumes the
* preceding char.
* Thus we must be careful to look ahead by 2 and add the
* last char as it's own EXACTLY if necessary
*/
/* Until end of string or a META char is reached */
while (*preg->regparse && strchr(META, *preg->regparse) == NULL) {
n = reg_utf8_tounicode_case(preg->regparse, &ch, (preg->cflags & REG_ICASE));
if (ch == '\\' && preg->regparse[n]) {
/* Non-trailing backslash.
* Is this a special escape, or a regular escape?
*/
if (strchr("<>mMwds", preg->regparse[n])) {
/* A special escape. All done with EXACTLY */
break;
}
/* Decode it. Note that we add the length for the escape
* sequence to the length for the backlash so we can skip
* the entire sequence, or not as required.
*/
n += reg_decode_escape(preg->regparse + n, &ch);
if (ch == 0) {
preg->err = REG_ERR_NULL_CHAR;
return 0;
}
}
/* Now we have one char 'ch' of length 'n'.
* Check to see if the following char is a MULT
*/
if (ISMULT(preg->regparse[n])) {
/* Yes. But do we already have some EXACTLY chars? */
if (added) {
/* Yes, so return what we have and pick up the current char next time around */
break;
}
/* No, so add this single char and finish */
regc(preg, ch);
added++;
preg->regparse += n;
break;
}
/* No, so just add this char normally */
regc(preg, ch);
added++;
preg->regparse += n;
}
regc(preg, '\0');
*flagp |= HASWIDTH;
if (added == 1)
*flagp |= SIMPLE;
break;
}
break;
}
return(ret);
}
static void reg_grow(regex_t *preg, int n)
{
if (preg->p + n >= preg->proglen) {
preg->proglen = (preg->p + n) * 2;
preg->program = realloc(preg->program, preg->proglen * sizeof(int));
}
}
/*
- regnode - emit a node
*/
/* Location. */
static int regnode(regex_t *preg, int op)
{
reg_grow(preg, 2);
preg->program[preg->p++] = op;
preg->program[preg->p++] = 0;
/* Return the start of the node */
return preg->p - 2;
}
/*
- regc - emit (if appropriate) a byte of code
*/
static void regc(regex_t *preg, int b )
{
reg_grow(preg, 1);
preg->program[preg->p++] = b;
}
/*
- reginsert - insert an operator in front of already-emitted operand
*
* Means relocating the operand.
* Returns the new location of the original operand.
*/
static int reginsert(regex_t *preg, int op, int size, int opnd )
{
reg_grow(preg, size);
/* Move everything from opnd up */
memmove(preg->program + opnd + size, preg->program + opnd, sizeof(int) * (preg->p - opnd));
/* Zero out the new space */
memset(preg->program + opnd, 0, sizeof(int) * size);
preg->program[opnd] = op;
preg->p += size;
return opnd + size;
}
/*
- regtail - set the next-pointer at the end of a node chain
*/
static void regtail_(regex_t *preg, int p, int val, int line )
{
int scan;
int temp;
int offset;
/* Find last node. */
scan = p;
for (;;) {
temp = regnext(preg, scan);
if (temp == 0)
break;
scan = temp;
}
if (OP(preg, scan) == BACK)
offset = scan - val;
else
offset = val - scan;
preg->program[scan + 1] = offset;
}
/*
- regoptail - regtail on operand of first argument; nop if operandless
*/
static void regoptail(regex_t *preg, int p, int val )
{
/* "Operandless" and "op != BRANCH" are synonymous in practice. */
if (p != 0 && OP(preg, p) == BRANCH) {
regtail(preg, OPERAND(p), val);
}
}
/*
* regexec and friends
*/
/*
* Forwards.
*/
static int regtry(regex_t *preg, const char *string );
static int regmatch(regex_t *preg, int prog);
static int regrepeat(regex_t *preg, int p, int max);
/*
- regexec - match a regexp against a string
*/
int regexec(regex_t *preg, const char *string, size_t nmatch, regmatch_t pmatch[], int eflags)
{
const char *s;
int scan;
/* Be paranoid... */
if (preg == NULL || preg->program == NULL || string == NULL) {
return REG_ERR_NULL_ARGUMENT;
}
/* Check validity of program. */
if (*preg->program != REG_MAGIC) {
return REG_ERR_CORRUPTED;
}
#ifdef DEBUG
fprintf(stderr, "regexec: %s\n", string);
regdump(preg);
#endif
preg->eflags = eflags;
preg->pmatch = pmatch;
preg->nmatch = nmatch;
preg->start = string; /* All offsets are computed from here */
/* Must clear out the embedded repeat counts */
for (scan = OPERAND(1); scan != 0; scan = regnext(preg, scan)) {
switch (OP(preg, scan)) {
case REP:
case REPMIN:
case REPX:
case REPXMIN:
preg->program[scan + 4] = 0;
break;
}
}
/* If there is a "must appear" string, look for it. */
if (preg->regmust != 0) {
s = string;
while ((s = str_find(s, preg->program[preg->regmust], preg->cflags & REG_ICASE)) != NULL) {
if (prefix_cmp(preg->program + preg->regmust, preg->regmlen, s, preg->cflags & REG_ICASE) >= 0) {
break;
}
s++;
}
if (s == NULL) /* Not present. */
return REG_NOMATCH;
}
/* Mark beginning of line for ^ . */
preg->regbol = string;
/* Simplest case: anchored match need be tried only once (maybe per line). */
if (preg->reganch) {
if (eflags & REG_NOTBOL) {
/* This is an anchored search, but not an BOL, so possibly skip to the next line */
goto nextline;
}
while (1) {
int ret = regtry(preg, string);
if (ret) {
return REG_NOERROR;
}
if (*string) {
nextline:
if (preg->cflags & REG_NEWLINE) {
/* Try the next anchor? */
string = strchr(string, '\n');
if (string) {
preg->regbol = ++string;
continue;
}
}
}
return REG_NOMATCH;
}
}
/* Messy cases: unanchored match. */
s = string;
if (preg->regstart != '\0') {
/* We know what char it must start with. */
while ((s = str_find(s, preg->regstart, preg->cflags & REG_ICASE)) != NULL) {
if (regtry(preg, s))
return REG_NOERROR;
s++;
}
}
else
/* We don't -- general case. */
while (1) {
if (regtry(preg, s))
return REG_NOERROR;
if (*s == '\0') {
break;
}
s += utf8_charlen(*s);
}
/* Failure. */
return REG_NOMATCH;
}
/*
- regtry - try match at specific point
*/
/* 0 failure, 1 success */
static int regtry( regex_t *preg, const char *string )
{
int i;
preg->reginput = string;
for (i = 0; i < preg->nmatch; i++) {
preg->pmatch[i].rm_so = -1;
preg->pmatch[i].rm_eo = -1;
}
if (regmatch(preg, 1)) {
preg->pmatch[0].rm_so = string - preg->start;
preg->pmatch[0].rm_eo = preg->reginput - preg->start;
return(1);
} else
return(0);
}
/**
* Returns bytes matched if 'pattern' is a prefix of 'string'.
*
* If 'nocase' is non-zero, does a case-insensitive match.
*
* Returns -1 on not found.
*/
static int prefix_cmp(const int *prog, int proglen, const char *string, int nocase)
{
const char *s = string;
while (proglen && *s) {
int ch;
int n = reg_utf8_tounicode_case(s, &ch, nocase);
if (ch != *prog) {
return -1;
}
prog++;
s += n;
proglen--;
}
if (proglen == 0) {
return s - string;
}
return -1;
}
/**
* Searchs for 'c' in the range 'range'.
*
* Returns 1 if found, or 0 if not.
*/
static int reg_range_find(const int *range, int c)
{
while (*range) {
/*printf("Checking %d in range [%d,%d]\n", c, range[1], (range[0] + range[1] - 1));*/
if (c >= range[1] && c <= (range[0] + range[1] - 1)) {
return 1;
}
range += 2;
}
return 0;
}
/**
* Search for the character 'c' in the utf-8 string 'string'.
*
* If 'nocase' is set, the 'string' is assumed to be uppercase
* and 'c' is converted to uppercase before matching.
*
* Returns the byte position in the string where the 'c' was found, or
* NULL if not found.
*/
static const char *str_find(const char *string, int c, int nocase)
{
if (nocase) {
/* The "string" should already be converted to uppercase */
c = utf8_upper(c);
}
while (*string) {
int ch;
int n = reg_utf8_tounicode_case(string, &ch, nocase);
if (c == ch) {
return string;
}
string += n;
}
return NULL;
}
/**
* Returns true if 'ch' is an end-of-line char.
*
* In REG_NEWLINE mode, \n is considered EOL in
* addition to \0
*/
static int reg_iseol(regex_t *preg, int ch)
{
if (preg->cflags & REG_NEWLINE) {
return ch == '\0' || ch == '\n';
}
else {
return ch == '\0';
}
}
static int regmatchsimplerepeat(regex_t *preg, int scan, int matchmin)
{
int nextch = '\0';
const char *save;
int no;
int c;
int max = preg->program[scan + 2];
int min = preg->program[scan + 3];
int next = regnext(preg, scan);
/*
* Lookahead to avoid useless match attempts
* when we know what character comes next.
*/
if (OP(preg, next) == EXACTLY) {
nextch = preg->program[OPERAND(next)];
}
save = preg->reginput;
no = regrepeat(preg, scan + 5, max);
if (no < min) {
return 0;
}
if (matchmin) {
/* from min up to no */
max = no;
no = min;
}
/* else from no down to min */
while (1) {
if (matchmin) {
if (no > max) {
break;
}
}
else {
if (no < min) {
break;
}
}
preg->reginput = save + utf8_index(save, no);
reg_utf8_tounicode_case(preg->reginput, &c, (preg->cflags & REG_ICASE));
/* If it could work, try it. */
if (reg_iseol(preg, nextch) || c == nextch) {
if (regmatch(preg, next)) {
return(1);
}
}
if (matchmin) {
/* Couldn't or didn't, add one more */
no++;
}
else {
/* Couldn't or didn't -- back up. */
no--;
}
}
return(0);
}
static int regmatchrepeat(regex_t *preg, int scan, int matchmin)
{
int *scanpt = preg->program + scan;
int max = scanpt[2];
int min = scanpt[3];
/* Have we reached min? */
if (scanpt[4] < min) {
/* No, so get another one */
scanpt[4]++;
if (regmatch(preg, scan + 5)) {
return 1;
}
scanpt[4]--;
return 0;
}
if (scanpt[4] > max) {
return 0;
}
if (matchmin) {
/* minimal, so try other branch first */
if (regmatch(preg, regnext(preg, scan))) {
return 1;
}
/* No, so try one more */
scanpt[4]++;
if (regmatch(preg, scan + 5)) {
return 1;
}
scanpt[4]--;
return 0;
}
/* maximal, so try this branch again */
if (scanpt[4] < max) {
scanpt[4]++;
if (regmatch(preg, scan + 5)) {
return 1;
}
scanpt[4]--;
}
/* At this point we are at max with no match. Try the other branch */
return regmatch(preg, regnext(preg, scan));
}
/*
- regmatch - main matching routine
*
* Conceptually the strategy is simple: check to see whether the current
* node matches, call self recursively to see whether the rest matches,
* and then act accordingly. In practice we make some effort to avoid
* recursion, in particular by going through "ordinary" nodes (that don't
* need to know whether the rest of the match failed) by a loop instead of
* by recursion.
*/
/* 0 failure, 1 success */
static int regmatch(regex_t *preg, int prog)
{
int scan; /* Current node. */
int next; /* Next node. */
scan = prog;
#ifdef DEBUG
if (scan != 0 && regnarrate)
fprintf(stderr, "%s(\n", regprop(scan));
#endif
while (scan != 0) {
int n;
int c;
#ifdef DEBUG
if (regnarrate) {
//fprintf(stderr, "%s...\n", regprop(scan));
fprintf(stderr, "%3d: %s...\n", scan, regprop(OP(preg, scan))); /* Where, what. */
}
#endif
next = regnext(preg, scan);
n = reg_utf8_tounicode_case(preg->reginput, &c, (preg->cflags & REG_ICASE));
switch (OP(preg, scan)) {
case BOL:
if (preg->reginput != preg->regbol)
return(0);
break;
case EOL:
if (!reg_iseol(preg, c)) {
return(0);
}
break;
case WORDA:
/* Must be looking at a letter, digit, or _ */
if ((!isalnum(UCHAR(c))) && c != '_')
return(0);
/* Prev must be BOL or nonword */
if (preg->reginput > preg->regbol &&
(isalnum(UCHAR(preg->reginput[-1])) || preg->reginput[-1] == '_'))
return(0);
break;
case WORDZ:
/* Can't match at BOL */
if (preg->reginput > preg->regbol) {
/* Current must be EOL or nonword */
if (reg_iseol(preg, c) || !isalnum(UCHAR(c)) || c != '_') {
c = preg->reginput[-1];
/* Previous must be word */
if (isalnum(UCHAR(c)) || c == '_') {
break;
}
}
}
/* No */
return(0);
case ANY:
if (reg_iseol(preg, c))
return 0;
preg->reginput += n;
break;
case EXACTLY: {
int opnd;
int len;
int slen;
opnd = OPERAND(scan);
len = str_int_len(preg->program + opnd);
slen = prefix_cmp(preg->program + opnd, len, preg->reginput, preg->cflags & REG_ICASE);
if (slen < 0) {
return(0);
}
preg->reginput += slen;
}
break;
case ANYOF:
if (reg_iseol(preg, c) || reg_range_find(preg->program + OPERAND(scan), c) == 0) {
return(0);
}
preg->reginput += n;
break;
case ANYBUT:
if (reg_iseol(preg, c) || reg_range_find(preg->program + OPERAND(scan), c) != 0) {
return(0);
}
preg->reginput += n;
break;
case NOTHING:
break;
case BACK:
break;
case BRANCH: {
const char *save;
if (OP(preg, next) != BRANCH) /* No choice. */
next = OPERAND(scan); /* Avoid recursion. */
else {
do {
save = preg->reginput;
if (regmatch(preg, OPERAND(scan))) {
return(1);
}
preg->reginput = save;
scan = regnext(preg, scan);
} while (scan != 0 && OP(preg, scan) == BRANCH);
return(0);
/* NOTREACHED */
}
}
break;
case REP:
case REPMIN:
return regmatchsimplerepeat(preg, scan, OP(preg, scan) == REPMIN);
case REPX:
case REPXMIN:
return regmatchrepeat(preg, scan, OP(preg, scan) == REPXMIN);
case END:
return(1); /* Success! */
break;
default:
if (OP(preg, scan) >= OPEN+1 && OP(preg, scan) < CLOSE_END) {
const char *save;
save = preg->reginput;
if (regmatch(preg, next)) {
int no;
/*
* Don't set startp if some later
* invocation of the same parentheses
* already has.
*/
if (OP(preg, scan) < CLOSE) {
no = OP(preg, scan) - OPEN;
if (no < preg->nmatch && preg->pmatch[no].rm_so == -1) {
preg->pmatch[no].rm_so = save - preg->start;
}
}
else {
no = OP(preg, scan) - CLOSE;
if (no < preg->nmatch && preg->pmatch[no].rm_eo == -1) {
preg->pmatch[no].rm_eo = save - preg->start;
}
}
return(1);
} else
return(0);
}
return REG_ERR_INTERNAL;
}
scan = next;
}
/*
* We get here only if there's trouble -- normally "case END" is
* the terminating point.
*/
return REG_ERR_INTERNAL;
}
/*
- regrepeat - repeatedly match something simple, report how many
*/
static int regrepeat(regex_t *preg, int p, int max)
{
int count = 0;
const char *scan;
int opnd;
int ch;
int n;
scan = preg->reginput;
opnd = OPERAND(p);
switch (OP(preg, p)) {
case ANY:
/* No need to handle utf8 specially here */
while (!reg_iseol(preg, *scan) && count < max) {
count++;
scan++;
}
break;
case EXACTLY:
while (count < max) {
n = reg_utf8_tounicode_case(scan, &ch, preg->cflags & REG_ICASE);
if (preg->program[opnd] != ch) {
break;
}
count++;
scan += n;
}
break;
case ANYOF:
while (count < max) {
n = reg_utf8_tounicode_case(scan, &ch, preg->cflags & REG_ICASE);
if (reg_iseol(preg, ch) || reg_range_find(preg->program + opnd, ch) == 0) {
break;
}
count++;
scan += n;
}
break;
case ANYBUT:
while (count < max) {
n = reg_utf8_tounicode_case(scan, &ch, preg->cflags & REG_ICASE);
if (reg_iseol(preg, ch) || reg_range_find(preg->program + opnd, ch) != 0) {
break;
}
count++;
scan += n;
}
break;
default: /* Oh dear. Called inappropriately. */
preg->err = REG_ERR_INTERNAL;
count = 0; /* Best compromise. */
break;
}
preg->reginput = scan;
return(count);
}
/*
- regnext - dig the "next" pointer out of a node
*/
static int regnext(regex_t *preg, int p )
{
int offset;
offset = NEXT(preg, p);
if (offset == 0)
return 0;
if (OP(preg, p) == BACK)
return(p-offset);
else
return(p+offset);
}
#ifdef DEBUG
/*
- regdump - dump a regexp onto stdout in vaguely comprehensible form
*/
static void regdump(regex_t *preg)
{
int s;
int op = EXACTLY; /* Arbitrary non-END op. */
int next;
char buf[4];
int i;
for (i = 1; i < preg->p; i++) {
printf("%02x ", preg->program[i]);
if (i % 16 == 15) {
printf("\n");
}
}
printf("\n");
s = 1;
while (op != END && s < preg->p) { /* While that wasn't END last time... */
op = OP(preg, s);
printf("%3d: %s", s, regprop(op)); /* Where, what. */
next = regnext(preg, s);
if (next == 0) /* Next ptr. */
printf("(0)");
else
printf("(%d)", next);
s += 2;
if (op == REP || op == REPMIN || op == REPX || op == REPXMIN) {
int max = preg->program[s];
int min = preg->program[s + 1];
if (max == 65535) {
printf("{%d,*}", min);
}
else {
printf("{%d,%d}", min, max);
}
printf(" %d", preg->program[s + 2]);
s += 3;
}
else if (op == ANYOF || op == ANYBUT) {
/* set of ranges */
while (preg->program[s]) {
int len = preg->program[s++];
int first = preg->program[s++];
buf[utf8_fromunicode(buf, first)] = 0;
printf("%s", buf);
if (len > 1) {
buf[utf8_fromunicode(buf, first + len - 1)] = 0;
printf("-%s", buf);
}
}
s++;
}
else if (op == EXACTLY) {
/* Literal string, where present. */
while (preg->program[s]) {
buf[utf8_fromunicode(buf, preg->program[s])] = 0;
printf("%s", buf);
s++;
}
s++;
}
putchar('\n');
}
if (op == END) {
/* Header fields of interest. */
if (preg->regstart) {
buf[utf8_fromunicode(buf, preg->regstart)] = 0;
printf("start '%s' ", buf);
}
if (preg->reganch)
printf("anchored ");
if (preg->regmust != 0) {
int i;
printf("must have:");
for (i = 0; i < preg->regmlen; i++) {
putchar(preg->program[preg->regmust + i]);
}
putchar('\n');
}
}
printf("\n");
}
/*
- regprop - printable representation of opcode
*/
static const char *regprop( int op )
{
static char buf[50];
switch (op) {
case BOL:
return "BOL";
case EOL:
return "EOL";
case ANY:
return "ANY";
case ANYOF:
return "ANYOF";
case ANYBUT:
return "ANYBUT";
case BRANCH:
return "BRANCH";
case EXACTLY:
return "EXACTLY";
case NOTHING:
return "NOTHING";
case BACK:
return "BACK";
case END:
return "END";
case REP:
return "REP";
case REPMIN:
return "REPMIN";
case REPX:
return "REPX";
case REPXMIN:
return "REPXMIN";
case WORDA:
return "WORDA";
case WORDZ:
return "WORDZ";
default:
if (op >= OPEN && op < CLOSE) {
snprintf(buf, sizeof(buf), "OPEN%d", op-OPEN);
}
else if (op >= CLOSE && op < CLOSE_END) {
snprintf(buf, sizeof(buf), "CLOSE%d", op-CLOSE);
}
else {
snprintf(buf, sizeof(buf), "?%d?\n", op);
}
return(buf);
}
}
#endif
size_t regerror(int errcode, const regex_t *preg, char *errbuf, size_t errbuf_size)
{
static const char *error_strings[] = {
"success",
"no match",
"bad pattern",
"null argument",
"unknown error",
"too big",
"out of memory",
"too many ()",
"parentheses () not balanced",
"braces {} not balanced",
"invalid repetition count(s)",
"extra characters",
"*+ of empty atom",
"nested count",
"internal error",
"count follows nothing",
"trailing backslash",
"corrupted program",
"contains null char",
};
const char *err;
if (errcode < 0 || errcode >= REG_ERR_NUM) {
err = "Bad error code";
}
else {
err = error_strings[errcode];
}
return snprintf(errbuf, errbuf_size, "%s", err);
}
void regfree(regex_t *preg)
{
free(preg->program);
}
#endif
/* Jimsh - An interactive shell for Jim
* Copyright 2005 Salvatore Sanfilippo <antirez@invece.org>
* Copyright 2009 Steve Bennett <steveb@workware.net.au>
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* A copy of the license is also included in the source distribution
* of Jim, as a TXT file name called LICENSE.
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
/* Script to help initialise jimsh */
static const char jimsh_init[] = \
"proc _init {} {\n"
"\trename _init {}\n"
/* XXX This is a big ugly */
#if defined(__MINGW32__)
"\tlappend p {*}[split [env JIMLIB {}] {;}]\n"
#else
"\tlappend p {*}[split [env JIMLIB {}] :]\n"
#endif
"\tlappend p {*}$::auto_path\n"
"\tlappend p [file dirname [info nameofexecutable]]\n"
"\tset ::auto_path $p\n"
"\n"
"\tif {$::tcl_interactive && [env HOME {}] ne \"\"} {\n"
"\t\tforeach src {.jimrc jimrc.tcl} {\n"
"\t\t\tif {[file exists [env HOME]/$src]} {\n"
"\t\t\t\tuplevel #0 source [env HOME]/$src\n"
"\t\t\t\tbreak\n"
"\t\t\t}\n"
"\t\t}\n"
"\t}\n"
"}\n"
/* XXX This is a big ugly */
#if defined(__MINGW32__)
"set jim_argv0 [string map {\\\\ /} $jim_argv0]\n"
#endif
"_init\n";
static void JimSetArgv(Jim_Interp *interp, int argc, char *const argv[])
{
int n;
Jim_Obj *listObj = Jim_NewListObj(interp, NULL, 0);
/* Populate argv global var */
for (n = 0; n < argc; n++) {
Jim_Obj *obj = Jim_NewStringObj(interp, argv[n], -1);
Jim_ListAppendElement(interp, listObj, obj);
}
Jim_SetVariableStr(interp, "argv", listObj);
Jim_SetVariableStr(interp, "argc", Jim_NewIntObj(interp, argc));
}
int main(int argc, char *const argv[])
{
int retcode;
Jim_Interp *interp;
if (argc > 1 && strcmp(argv[1], "--version") == 0) {
printf("%d.%d\n", JIM_VERSION / 100, JIM_VERSION % 100);
return 0;
}
/* Create and initialize the interpreter */
interp = Jim_CreateInterp();
Jim_RegisterCoreCommands(interp);
/* Register static extensions */
if (Jim_InitStaticExtensions(interp) != JIM_OK) {
Jim_MakeErrorMessage(interp);
fprintf(stderr, "%s\n", Jim_String(Jim_GetResult(interp)));
}
Jim_SetVariableStrWithStr(interp, "jim_argv0", argv[0]);
Jim_SetVariableStrWithStr(interp, JIM_INTERACTIVE, argc == 1 ? "1" : "0");
retcode = Jim_Eval(interp, jimsh_init);
if (argc == 1) {
if (retcode == JIM_ERR) {
Jim_MakeErrorMessage(interp);
fprintf(stderr, "%s\n", Jim_String(Jim_GetResult(interp)));
}
if (retcode != JIM_EXIT) {
JimSetArgv(interp, 0, NULL);
retcode = Jim_InteractivePrompt(interp);
}
}
else {
if (argc > 2 && strcmp(argv[1], "-e") == 0) {
JimSetArgv(interp, argc - 3, argv + 3);
retcode = Jim_Eval(interp, argv[2]);
if (retcode != JIM_ERR) {
printf("%s\n", Jim_String(Jim_GetResult(interp)));
}
}
else {
Jim_SetVariableStr(interp, "argv0", Jim_NewStringObj(interp, argv[1], -1));
JimSetArgv(interp, argc - 2, argv + 2);
retcode = Jim_EvalFile(interp, argv[1]);
}
if (retcode == JIM_ERR) {
Jim_MakeErrorMessage(interp);
fprintf(stderr, "%s\n", Jim_String(Jim_GetResult(interp)));
}
}
if (retcode == JIM_EXIT) {
retcode = Jim_GetExitCode(interp);
}
else if (retcode == JIM_ERR) {
retcode = 1;
}
else {
retcode = 0;
}
Jim_FreeInterp(interp);
return retcode;
}
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