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/* es.h -- definitions for higher order shell ($Revision: 1.2 $) */
#include "config.h"
#include "stdenv.h"
/*
* meta-information for exported environment strings
*/
#define ENV_SEPARATOR '\001' /* control-A */
#define ENV_ESCAPE '\002' /* control-B */
/*
* the fundamental es data structures.
*/
typedef struct Tree Tree;
typedef struct Term Term;
typedef struct List List;
typedef struct Binding Binding;
typedef struct Closure Closure;
struct List {
Term *term;
List *next;
};
struct Binding {
char *name;
List *defn;
Binding *next;
};
struct Closure {
Binding *binding;
Tree *tree;
};
/*
* parse trees
*/
typedef enum {
nAssign, nCall, nClosure, nConcat, nFor, nLambda, nLet, nList, nLocal,
nMatch, nExtract, nPrim, nQword, nThunk, nVar, nVarsub, nWord,
nRedir, nPipe /* only appear during construction */
} NodeKind;
struct Tree {
NodeKind kind;
union {
Tree *p;
char *s;
int i;
} u[2];
};
/*
* miscellaneous data structures
*/
typedef struct StrList StrList;
struct StrList {
char *str;
StrList *next;
};
typedef struct {
int alloclen, count;
char *vector[1];
} Vector; /* environment or arguments */
/*
* our programming environment
*/
/* main.c */
#if GCVERBOSE
extern Boolean gcverbose; /* -G */
#endif
#if GCINFO
extern Boolean gcinfo; /* -I */
#endif
/* initial.c (for es) or dump.c (for esdump) */
extern void runinitial(void);
/* fd.c */
extern void mvfd(int old, int new);
extern int newfd(void);
#define UNREGISTERED (-999)
extern void registerfd(int *fdp, Boolean closeonfork);
extern void unregisterfd(int *fdp);
extern void releasefd(int fd);
extern void closefds(void);
extern int fdmap(int fd);
extern int defer_mvfd(Boolean parent, int old, int new);
extern int defer_close(Boolean parent, int fd);
extern void undefer(int ticket);
/* term.c */
extern Term *mkterm(char *str, Closure *closure);
extern Term *mkstr(char *str);
extern char *getstr(Term *term);
extern Closure *getclosure(Term *term);
extern Term *termcat(Term *t1, Term *t2);
extern Boolean termeq(Term *term, const char *s);
extern Boolean isclosure(Term *term);
/* list.c */
extern List *mklist(Term *term, List *next);
extern List *reverse(List *list);
extern List *append(List *head, List *tail);
extern List *listcopy(List *list);
extern int length(List *list);
extern List *listify(int argc, char **argv);
extern Term *nth(List *list, int n);
extern List *sortlist(List *list);
/* tree.c */
extern Tree *mk(NodeKind VARARGS);
/* closure.c */
extern Closure *mkclosure(Tree *tree, Binding *binding);
extern Closure *extractbindings(Tree *tree);
extern Binding *mkbinding(char *name, List *defn, Binding *next);
extern Binding *reversebindings(Binding *binding);
/* eval.c */
extern Binding *bindargs(Tree *params, List *args, Binding *binding);
extern List *forkexec(char *file, List *list, Boolean inchild);
extern List *walk(Tree *tree, Binding *binding, int flags);
extern List *eval(List *list, Binding *binding, int flags);
extern List *eval1(Term *term, int flags);
extern List *pathsearch(Term *term);
extern unsigned long evaldepth, maxevaldepth;
#define MINmaxevaldepth 100
#define MAXmaxevaldepth 0xffffffffU
#define eval_inchild 1
#define eval_exitonfalse 2
#define eval_flags (eval_inchild|eval_exitonfalse)
/* glom.c */
extern List *glom(Tree *tree, Binding *binding, Boolean globit);
extern List *glom2(Tree *tree, Binding *binding, StrList **quotep);
/* glob.c */
extern char QUOTED[], UNQUOTED[];
extern List *glob(List *list, StrList *quote);
extern Boolean haswild(const char *pattern, const char *quoting);
/* match.c */
extern Boolean match(const char *subject, const char *pattern, const char *quote);
extern Boolean listmatch(List *subject, List *pattern, StrList *quote);
extern List *extractmatches(List *subjects, List *patterns, StrList *quotes);
/* var.c */
extern void initvars(void);
extern void initenv(char **envp, Boolean protected);
extern void hidevariables(void);
extern void validatevar(const char *var);
extern List *varlookup(const char *name, Binding *binding);
extern List *varlookup2(char *name1, char *name2, Binding *binding);
extern void vardef(char *, Binding *, List *);
extern Vector *mkenv(void);
extern void setnoexport(List *list);
extern void addtolist(void *arg, char *key, void *value);
extern List *listvars(Boolean internal);
typedef struct Push Push;
extern Push *pushlist;
extern void varpush(Push *, char *, List *);
extern void varpop(Push *);
/* status.c */
extern List *true, *false;
extern Boolean istrue(List *status);
extern int exitstatus(List *status);
extern char *mkstatus(int status);
extern void printstatus(int pid, int status);
/* access.c */
extern char *checkexecutable(char *file);
/* proc.c */
extern Boolean hasforked;
extern int efork(Boolean parent, Boolean background);
extern int ewait(int pid, Boolean interruptible, void *rusage);
#define ewaitfor(pid) ewait(pid, FALSE, NULL)
/* dict.c */
typedef struct Dict Dict;
extern Dict *mkdict(void);
extern void dictforall(Dict *dict, void (*proc)(void *, char *, void *), void *arg);
extern void *dictget(Dict *dict, const char *name);
extern Dict *dictput(Dict *dict, char *name, void *value);
extern void *dictget2(Dict *dict, const char *name1, const char *name2);
/* conv.c */
extern void initconv(void);
/* print.c -- see print.h for more */
extern int print(const char *fmt VARARGS);
extern int eprint(const char *fmt VARARGS);
extern int fprint(int fd, const char *fmt VARARGS);
extern noreturn panic(const char *fmt VARARGS);
/* str.c */
extern char *str(const char *fmt VARARGS); /* create a gc space string by printing */
extern char *mprint(const char *fmt VARARGS); /* create an ealloc space string by printing */
extern StrList *mkstrlist(char *, StrList *);
/* vec.c */
extern Vector *mkvector(int n);
extern Vector *vectorize(List *list);
extern void sortvector(Vector *v);
/* util.c */
extern char *esstrerror(int err);
extern void uerror(char *msg);
extern void *ealloc(size_t n);
extern void *erealloc(void *p, size_t n);
extern void efree(void *p);
extern void ewrite(int fd, const char *s, size_t n);
extern long eread(int fd, char *buf, size_t n);
extern Boolean isabsolute(char *path);
extern Boolean streq2(const char *s, const char *t1, const char *t2);
/* input.c */
extern char *prompt, *prompt2;
extern Tree *parse(char *esprompt1, char *esprompt2);
extern Tree *parsestring(const char *str);
extern void sethistory(char *file);
extern Boolean isinteractive(void);
extern void initinput(void);
extern void resetparser(void);
extern List *runfd(int fd, const char *name, int flags);
extern List *runstring(const char *str, const char *name, int flags);
/* eval_* flags are also understood as runflags */
#define run_interactive 4 /* -i or $0[0] = '-' */
#define run_noexec 8 /* -n */
#define run_echoinput 16 /* -v */
#define run_printcmds 32 /* -x */
#define run_lisptrees 64 /* -L and defined(LISPTREES) */
#if READLINE
extern Boolean resetterminal;
#endif
/* opt.c */
extern void esoptbegin(List *list, const char *caller, const char *usage);
extern int esopt(const char *options);
extern Term *esoptarg(void);
extern List *esoptend(void);
/* prim.c */
extern List *prim(char *s, List *list, Binding *binding, int evalflags);
extern void initprims(void);
/* split.c */
extern void startsplit(const char *sep, Boolean coalesce);
extern void splitstring(char *in, size_t len, Boolean endword);
extern List *endsplit(void);
extern List *fsplit(const char *sep, List *list, Boolean coalesce);
/* signal.c */
extern int signumber(const char *name);
extern char *signame(int sig);
extern char *sigmessage(int sig);
#define SIGCHK() sigchk()
typedef enum {
sig_nochange, sig_catch, sig_default, sig_ignore, sig_noop, sig_special
} Sigeffect;
extern Sigeffect esignal(int sig, Sigeffect effect);
extern void setsigeffects(const Sigeffect effects[]);
extern void getsigeffects(Sigeffect effects[]);
extern List *mksiglist(void);
extern void initsignals(Boolean interactive, Boolean allowdumps);
extern Atomic slow, interrupted;
extern jmp_buf slowlabel;
extern Boolean sigint_newline;
extern void sigchk(void);
extern Boolean issilentsignal(List *e);
extern void setsigdefaults(void);
extern void blocksignals(void);
extern void unblocksignals(void);
/* open.c */
typedef enum { oOpen, oCreate, oAppend, oReadWrite, oReadCreate, oReadAppend } OpenKind;
extern int eopen(char *name, OpenKind k);
/* version.c */
extern const char * const version;
/* gc.c -- see gc.h for more */
typedef struct Tag Tag;
#define gcnew(type) ((type *) gcalloc(sizeof (type), &(CONCAT(type,Tag))))
extern void *gcalloc(size_t n, Tag *t); /* allocate n with collection tag t */
extern char *gcdup(const char *s); /* copy a 0-terminated string into gc space */
extern char *gcndup(const char *s, size_t n); /* copy a counted string into gc space */
extern void initgc(void); /* must be called at the dawn of time */
extern void gc(void); /* provoke a collection, if enabled */
extern void gcreserve(size_t nbytes); /* provoke a collection, if enabled and not enough space */
extern void gcenable(void); /* enable collections */
extern void gcdisable(void); /* disable collections */
extern Boolean gcisblocked(); /* is collection disabled? */
/*
* garbage collector tags
*/
typedef struct Root Root;
struct Root {
void **p;
Root *next;
};
extern Root *rootlist;
#if REF_ASSERTIONS
#define refassert(e) assert(e)
#else
#define refassert(e) NOP
#endif
#define Ref(t, v, init) \
if (0) ; else { \
t v = init; \
Root (CONCAT(v,__root__)); \
(CONCAT(v,__root__)).p = (void **) &v; \
(CONCAT(v,__root__)).next = rootlist; \
rootlist = &(CONCAT(v,__root__))
#define RefPop(v) \
refassert(rootlist == &(CONCAT(v,__root__))); \
refassert(rootlist->p == (void **) &v); \
rootlist = rootlist->next;
#define RefEnd(v) \
RefPop(v); \
}
#define RefReturn(v) \
RefPop(v); \
return v; \
}
#define RefAdd(e) \
if (0) ; else { \
Root __root__; \
__root__.p = (void **) &e; \
__root__.next = rootlist; \
rootlist = &__root__
#define RefRemove(e) \
refassert(rootlist == &__root__); \
refassert(rootlist->p == (void **) &e); \
rootlist = rootlist->next; \
}
#define RefEnd2(v1, v2) RefEnd(v1); RefEnd(v2)
#define RefEnd3(v1, v2, v3) RefEnd(v1); RefEnd2(v2, v3)
#define RefEnd4(v1, v2, v3, v4) RefEnd(v1); RefEnd3(v2, v3, v4)
#define RefPop2(v1, v2) RefPop(v1); RefPop(v2)
#define RefPop3(v1, v2, v3) RefPop(v1); RefPop2(v2, v3)
#define RefPop4(v1, v2, v3, v4) RefPop(v1); RefPop3(v2, v3, v4)
#define RefAdd2(v1, v2) RefAdd(v1); RefAdd(v2)
#define RefAdd3(v1, v2, v3) RefAdd(v1); RefAdd2(v2, v3)
#define RefAdd4(v1, v2, v3, v4) RefAdd(v1); RefAdd3(v2, v3, v4)
#define RefRemove2(v1, v2) RefRemove(v1); RefRemove(v2)
#define RefRemove3(v1, v2, v3) RefRemove(v1); RefRemove2(v2, v3)
#define RefRemove4(v1, v2, v3, v4) RefRemove(v1); RefRemove3(v2, v3, v4)
extern void globalroot(void *addr);
/* struct Push -- varpush() placeholder */
struct Push {
Push *next;
char *name;
List *defn;
int flags;
Root nameroot, defnroot;
};
/*
* exception handling
*
* ExceptionHandler
* ... body ...
* CatchException (e)
* ... catching code using e ...
* EndExceptionHandler
*
*/
typedef struct Handler Handler;
struct Handler {
Handler *up;
Root *rootlist;
Push *pushlist;
unsigned long evaldepth;
jmp_buf label;
};
extern Handler *tophandler, *roothandler;
extern List *exception;
extern void pophandler(Handler *handler);
extern noreturn throw(List *exc);
extern noreturn fail(const char *from, const char *name VARARGS);
extern void newchildcatcher(void);
#if DEBUG_EXCEPTIONS
extern List *raised(List *e);
#else
#define raised(e) (e)
#endif
#define ExceptionHandler \
{ \
Handler _localhandler; \
_localhandler.rootlist = rootlist; \
_localhandler.pushlist = pushlist; \
_localhandler.evaldepth = evaldepth; \
_localhandler.up = tophandler; \
tophandler = &_localhandler; \
if (!setjmp(_localhandler.label)) {
#define CatchException(e) \
pophandler(&_localhandler); \
} else { \
List *e = raised(exception); \
#define CatchExceptionIf(condition, e) \
if (condition) \
pophandler(&_localhandler); \
} else { \
List *e = raised(exception); \
#define EndExceptionHandler \
} \
}
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