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|
/* ----------------------------------------------------------------------------
* This file was automatically generated by SWIG (http://www.swig.org).
* Version 1.3.24
*
* This file is not intended to be easily readable and contains a number of
* coding conventions designed to improve portability and efficiency. Do not make
* changes to this file unless you know what you are doing--modify the SWIG
* interface file instead.
* ----------------------------------------------------------------------------- */
#ifndef SWIG_TEMPLATE_DISAMBIGUATOR
# if defined(__SUNPRO_CC)
# define SWIG_TEMPLATE_DISAMBIGUATOR template
# else
# define SWIG_TEMPLATE_DISAMBIGUATOR
# endif
#endif
/***********************************************************************
* swigrun.swg
*
* This file contains generic CAPI SWIG runtime support for pointer
* type checking.
*
************************************************************************/
/* This should only be incremented when either the layout of swig_type_info changes,
or for whatever reason, the runtime changes incompatibly */
#define SWIG_RUNTIME_VERSION "1"
/* define SWIG_TYPE_TABLE_NAME as "SWIG_TYPE_TABLE" */
#ifdef SWIG_TYPE_TABLE
#define SWIG_QUOTE_STRING(x) #x
#define SWIG_EXPAND_AND_QUOTE_STRING(x) SWIG_QUOTE_STRING(x)
#define SWIG_TYPE_TABLE_NAME SWIG_EXPAND_AND_QUOTE_STRING(SWIG_TYPE_TABLE)
#else
#define SWIG_TYPE_TABLE_NAME
#endif
#include <string.h>
#ifndef SWIGINLINE
#if defined(__cplusplus) || (defined(__GNUC__) && !defined(__STRICT_ANSI__))
# define SWIGINLINE inline
#else
# define SWIGINLINE
#endif
#endif
/*
You can use the SWIGRUNTIME and SWIGRUNTIMEINLINE macros for
creating a static or dynamic library from the swig runtime code.
In 99.9% of the cases, swig just needs to declare them as 'static'.
But only do this if is strictly necessary, ie, if you have problems
with your compiler or so.
*/
#ifndef SWIGRUNTIME
#define SWIGRUNTIME static
#endif
#ifndef SWIGRUNTIMEINLINE
#define SWIGRUNTIMEINLINE SWIGRUNTIME SWIGINLINE
#endif
#ifdef __cplusplus
extern "C" {
#endif
typedef void *(*swig_converter_func)(void *);
typedef struct swig_type_info *(*swig_dycast_func)(void **);
typedef struct swig_type_info {
const char *name;
swig_converter_func converter;
const char *str;
void *clientdata;
swig_dycast_func dcast;
struct swig_type_info *next;
struct swig_type_info *prev;
} swig_type_info;
/*
Compare two type names skipping the space characters, therefore
"char*" == "char *" and "Class<int>" == "Class<int >", etc.
Return 0 when the two name types are equivalent, as in
strncmp, but skipping ' '.
*/
SWIGRUNTIME int
SWIG_TypeNameComp(const char *f1, const char *l1,
const char *f2, const char *l2) {
for (;(f1 != l1) && (f2 != l2); ++f1, ++f2) {
while ((*f1 == ' ') && (f1 != l1)) ++f1;
while ((*f2 == ' ') && (f2 != l2)) ++f2;
if (*f1 != *f2) return *f1 - *f2;
}
return (l1 - f1) - (l2 - f2);
}
/*
Check type equivalence in a name list like <name1>|<name2>|...
*/
SWIGRUNTIME int
SWIG_TypeEquiv(const char *nb, const char *tb) {
int equiv = 0;
const char* te = tb + strlen(tb);
const char* ne = nb;
while (!equiv && *ne) {
for (nb = ne; *ne; ++ne) {
if (*ne == '|') break;
}
equiv = SWIG_TypeNameComp(nb, ne, tb, te) == 0;
if (*ne) ++ne;
}
return equiv;
}
/*
Register a type mapping with the type-checking
*/
SWIGRUNTIME swig_type_info *
SWIG_TypeRegisterTL(swig_type_info **tl, swig_type_info *ti) {
swig_type_info *tc, *head, *ret, *next;
/* Check to see if this type has already been registered */
tc = *tl;
while (tc) {
/* check simple type equivalence */
int typeequiv = (strcmp(tc->name, ti->name) == 0);
/* check full type equivalence, resolving typedefs */
if (!typeequiv) {
/* only if tc is not a typedef (no '|' on it) */
if (tc->str && ti->str && !strstr(tc->str,"|")) {
typeequiv = SWIG_TypeEquiv(ti->str,tc->str);
}
}
if (typeequiv) {
/* Already exists in the table. Just add additional types to the list */
if (ti->clientdata) tc->clientdata = ti->clientdata;
head = tc;
next = tc->next;
goto l1;
}
tc = tc->prev;
}
head = ti;
next = 0;
/* Place in list */
ti->prev = *tl;
*tl = ti;
/* Build linked lists */
l1:
ret = head;
tc = ti + 1;
/* Patch up the rest of the links */
while (tc->name) {
head->next = tc;
tc->prev = head;
head = tc;
tc++;
}
if (next) next->prev = head;
head->next = next;
return ret;
}
/*
Check the typename
*/
SWIGRUNTIME swig_type_info *
SWIG_TypeCheck(const char *c, swig_type_info *ty) {
swig_type_info *s;
if (!ty) return 0; /* Void pointer */
s = ty->next; /* First element always just a name */
do {
if (strcmp(s->name,c) == 0) {
if (s == ty->next) return s;
/* Move s to the top of the linked list */
s->prev->next = s->next;
if (s->next) {
s->next->prev = s->prev;
}
/* Insert s as second element in the list */
s->next = ty->next;
if (ty->next) ty->next->prev = s;
ty->next = s;
s->prev = ty;
return s;
}
s = s->next;
} while (s && (s != ty->next));
return 0;
}
/*
Cast a pointer up an inheritance hierarchy
*/
SWIGRUNTIMEINLINE void *
SWIG_TypeCast(swig_type_info *ty, void *ptr) {
return ((!ty) || (!ty->converter)) ? ptr : (*ty->converter)(ptr);
}
/*
Dynamic pointer casting. Down an inheritance hierarchy
*/
SWIGRUNTIME swig_type_info *
SWIG_TypeDynamicCast(swig_type_info *ty, void **ptr) {
swig_type_info *lastty = ty;
if (!ty || !ty->dcast) return ty;
while (ty && (ty->dcast)) {
ty = (*ty->dcast)(ptr);
if (ty) lastty = ty;
}
return lastty;
}
/*
Return the name associated with this type
*/
SWIGRUNTIMEINLINE const char *
SWIG_TypeName(const swig_type_info *ty) {
return ty->name;
}
/*
Return the pretty name associated with this type,
that is an unmangled type name in a form presentable to the user.
*/
SWIGRUNTIME const char *
SWIG_TypePrettyName(const swig_type_info *type) {
/* The "str" field contains the equivalent pretty names of the
type, separated by vertical-bar characters. We choose
to print the last name, as it is often (?) the most
specific. */
if (type->str != NULL) {
const char *last_name = type->str;
const char *s;
for (s = type->str; *s; s++)
if (*s == '|') last_name = s+1;
return last_name;
}
else
return type->name;
}
/*
Search for a swig_type_info structure
*/
SWIGRUNTIME swig_type_info *
SWIG_TypeQueryTL(swig_type_info *tl, const char *name) {
swig_type_info *ty = tl;
while (ty) {
if (ty->str && (SWIG_TypeEquiv(ty->str,name))) return ty;
if (ty->name && (strcmp(name,ty->name) == 0)) return ty;
ty = ty->prev;
}
return 0;
}
/*
Set the clientdata field for a type
*/
SWIGRUNTIME void
SWIG_TypeClientDataTL(swig_type_info *tl, swig_type_info *ti, void *clientdata) {
swig_type_info *tc, *equiv;
if (ti->clientdata) return;
/* if (ti->clientdata == clientdata) return; */
ti->clientdata = clientdata;
equiv = ti->next;
while (equiv) {
if (!equiv->converter) {
tc = tl;
while (tc) {
if ((strcmp(tc->name, equiv->name) == 0))
SWIG_TypeClientDataTL(tl,tc,clientdata);
tc = tc->prev;
}
}
equiv = equiv->next;
}
}
/*
Pack binary data into a string
*/
SWIGRUNTIME char *
SWIG_PackData(char *c, void *ptr, size_t sz) {
static char hex[17] = "0123456789abcdef";
unsigned char *u = (unsigned char *) ptr;
const unsigned char *eu = u + sz;
register unsigned char uu;
for (; u != eu; ++u) {
uu = *u;
*(c++) = hex[(uu & 0xf0) >> 4];
*(c++) = hex[uu & 0xf];
}
return c;
}
/*
Unpack binary data from a string
*/
SWIGRUNTIME const char *
SWIG_UnpackData(const char *c, void *ptr, size_t sz) {
register unsigned char *u = (unsigned char *) ptr;
register const unsigned char *eu = u + sz;
for (; u != eu; ++u) {
register int d = *(c++);
register unsigned char uu = 0;
if ((d >= '0') && (d <= '9'))
uu = ((d - '0') << 4);
else if ((d >= 'a') && (d <= 'f'))
uu = ((d - ('a'-10)) << 4);
else
return (char *) 0;
d = *(c++);
if ((d >= '0') && (d <= '9'))
uu |= (d - '0');
else if ((d >= 'a') && (d <= 'f'))
uu |= (d - ('a'-10));
else
return (char *) 0;
*u = uu;
}
return c;
}
/*
This function will propagate the clientdata field of type to any new
swig_type_info structures that have been added into the list of
equivalent types. It is like calling SWIG_TypeClientData(type,
clientdata) a second time.
*/
SWIGRUNTIME void
SWIG_PropagateClientDataTL(swig_type_info *tl, swig_type_info *type) {
swig_type_info *equiv = type->next;
swig_type_info *tc;
if (!type->clientdata) return;
while (equiv) {
if (!equiv->converter) {
tc = tl;
while (tc) {
if ((strcmp(tc->name, equiv->name) == 0) && !tc->clientdata)
SWIG_TypeClientDataTL(tl,tc, type->clientdata);
tc = tc->prev;
}
}
equiv = equiv->next;
}
}
/*
Pack 'void *' into a string buffer.
*/
SWIGRUNTIME char *
SWIG_PackVoidPtr(char *buff, void *ptr, const char *name, size_t bsz) {
char *r = buff;
if ((2*sizeof(void *) + 2) > bsz) return 0;
*(r++) = '_';
r = SWIG_PackData(r,&ptr,sizeof(void *));
if (strlen(name) + 1 > (bsz - (r - buff))) return 0;
strcpy(r,name);
return buff;
}
SWIGRUNTIME const char *
SWIG_UnpackVoidPtr(const char *c, void **ptr, const char *name) {
if (*c != '_') {
if (strcmp(c,"NULL") == 0) {
*ptr = (void *) 0;
return name;
} else {
return 0;
}
}
return SWIG_UnpackData(++c,ptr,sizeof(void *));
}
SWIGRUNTIME char *
SWIG_PackDataName(char *buff, void *ptr, size_t sz, const char *name, size_t bsz) {
char *r = buff;
size_t lname = (name ? strlen(name) : 0);
if ((2*sz + 2 + lname) > bsz) return 0;
*(r++) = '_';
r = SWIG_PackData(r,ptr,sz);
if (lname) {
strncpy(r,name,lname+1);
} else {
*r = 0;
}
return buff;
}
SWIGRUNTIME const char *
SWIG_UnpackDataName(const char *c, void *ptr, size_t sz, const char *name) {
if (*c != '_') {
if (strcmp(c,"NULL") == 0) {
memset(ptr,0,sz);
return name;
} else {
return 0;
}
}
return SWIG_UnpackData(++c,ptr,sz);
}
#ifdef __cplusplus
}
#endif
/***********************************************************************
* common.swg
*
* This file contains generic SWIG runtime support for pointer
* type checking as well as a few commonly used macros to control
* external linkage.
*
* Author : David Beazley (beazley@cs.uchicago.edu)
*
* Copyright (c) 1999-2000, The University of Chicago
*
* This file may be freely redistributed without license or fee provided
* this copyright message remains intact.
************************************************************************/
#if defined(_WIN32) || defined(__WIN32__) || defined(__CYGWIN__)
# if !defined(STATIC_LINKED)
# define SWIGEXPORT(a) __declspec(dllexport) a
# else
# define SWIGEXPORT(a) a
# endif
#else
# define SWIGEXPORT(a) a
#endif
#ifdef __cplusplus
extern "C" {
#endif
/*************************************************************************/
/* The static type info list */
static swig_type_info *swig_type_list = 0;
static swig_type_info **swig_type_list_handle = &swig_type_list;
/* Register a type mapping with the type-checking */
static swig_type_info *
SWIG_TypeRegister(swig_type_info *ti) {
return SWIG_TypeRegisterTL(swig_type_list_handle, ti);
}
/* Search for a swig_type_info structure */
static swig_type_info *
SWIG_TypeQuery(const char *name) {
return SWIG_TypeQueryTL(*swig_type_list_handle, name);
}
/* Set the clientdata field for a type */
static void
SWIG_TypeClientData(swig_type_info *ti, void *clientdata) {
SWIG_TypeClientDataTL(*swig_type_list_handle, ti, clientdata);
}
/* This function will propagate the clientdata field of type to
* any new swig_type_info structures that have been added into the list
* of equivalent types. It is like calling
* SWIG_TypeClientData(type, clientdata) a second time.
*/
static void
SWIG_PropagateClientData(swig_type_info *type) {
SWIG_PropagateClientDataTL(*swig_type_list_handle, type);
}
#ifdef __cplusplus
}
#endif
/* ---------------------------------------------------------------------- -*- c -*-
* perl5.swg
*
* Perl5 runtime library
* $Header: /cvsroot/swig/SWIG/Lib/perl5/perlrun.swg,v 1.20 2004/11/29 23:13:57 wuzzeb Exp $
* ----------------------------------------------------------------------------- */
#define SWIGPERL
#define SWIGPERL5
#ifdef __cplusplus
/* Needed on some windows machines---since MS plays funny games with the header files under C++ */
#include <math.h>
#include <stdlib.h>
extern "C" {
#endif
#include "EXTERN.h"
#include "perl.h"
#include "XSUB.h"
/* Get rid of free and malloc defined by perl */
#undef free
#undef malloc
#ifndef pTHX_
#define pTHX_
#endif
#include <string.h>
#ifdef __cplusplus
}
#endif
/* Macro to call an XS function */
#ifdef PERL_OBJECT
# define SWIG_CALLXS(_name) _name(cv,pPerl)
#else
# ifndef MULTIPLICITY
# define SWIG_CALLXS(_name) _name(cv)
# else
# define SWIG_CALLXS(_name) _name(PERL_GET_THX, cv)
# endif
#endif
/* Contract support */
#define SWIG_contract_assert(expr,msg) if (!(expr)) { SWIG_croak(msg); } else
/* Note: SwigMagicFuncHack is a typedef used to get the C++ compiler to just shut up already */
#ifdef PERL_OBJECT
#define MAGIC_PPERL CPerlObj *pPerl = (CPerlObj *) this;
typedef int (CPerlObj::*SwigMagicFunc)(SV *, MAGIC *);
#ifdef __cplusplus
extern "C" {
#endif
typedef int (CPerlObj::*SwigMagicFuncHack)(SV *, MAGIC *);
#ifdef __cplusplus
}
#endif
#define SWIG_MAGIC(a,b) (SV *a, MAGIC *b)
#define SWIGCLASS_STATIC
#else
#define MAGIC_PPERL
#define SWIGCLASS_STATIC static
#ifndef MULTIPLICITY
#define SWIG_MAGIC(a,b) (SV *a, MAGIC *b)
typedef int (*SwigMagicFunc)(SV *, MAGIC *);
#ifdef __cplusplus
extern "C" {
#endif
typedef int (*SwigMagicFuncHack)(SV *, MAGIC *);
#ifdef __cplusplus
}
#endif
#else
#define SWIG_MAGIC(a,b) (struct interpreter *interp, SV *a, MAGIC *b)
typedef int (*SwigMagicFunc)(struct interpreter *, SV *, MAGIC *);
#ifdef __cplusplus
extern "C" {
#endif
typedef int (*SwigMagicFuncHack)(struct interpreter *, SV *, MAGIC *);
#ifdef __cplusplus
}
#endif
#endif
#endif
#if defined(WIN32) && defined(PERL_OBJECT) && !defined(PerlIO_exportFILE)
#define PerlIO_exportFILE(fh,fl) (FILE*)(fh)
#endif
/* Modifications for newer Perl 5.005 releases */
#if !defined(PERL_REVISION) || ((PERL_REVISION >= 5) && ((PERL_VERSION < 5) || ((PERL_VERSION == 5) && (PERL_SUBVERSION < 50))))
# ifndef PL_sv_yes
# define PL_sv_yes sv_yes
# endif
# ifndef PL_sv_undef
# define PL_sv_undef sv_undef
# endif
# ifndef PL_na
# define PL_na na
# endif
#endif
#include <stdlib.h>
#ifdef __cplusplus
extern "C" {
#endif
#define SWIG_OWNER 1
#define SWIG_SHADOW 2
/* Common SWIG API */
#ifdef PERL_OBJECT
# define SWIG_ConvertPtr(obj, pp, type, flags) \
SWIG_Perl_ConvertPtr(pPerl, obj, pp, type, flags)
# define SWIG_NewPointerObj(p, type, flags) \
SWIG_Perl_NewPointerObj(pPerl, p, type, flags)
# define SWIG_MakePackedObj(sv, p, s, type) \
SWIG_Perl_MakePackedObj(pPerl, sv, p, s, type)
# define SWIG_ConvertPacked(obj, p, s, type, flags) \
SWIG_Perl_ConvertPacked(pPerl, obj, p, s, type, flags)
#else
# define SWIG_ConvertPtr(obj, pp, type, flags) \
SWIG_Perl_ConvertPtr(obj, pp, type, flags)
# define SWIG_NewPointerObj(p, type, flags) \
SWIG_Perl_NewPointerObj(p, type, flags)
# define SWIG_MakePackedObj(sv, p, s, type) \
SWIG_Perl_MakePackedObj(sv, p, s, type )
# define SWIG_ConvertPacked(obj, p, s, type, flags) \
SWIG_Perl_ConvertPacked(obj, p, s, type, flags)
#endif
/* Perl-specific API */
#ifdef PERL_OBJECT
# define SWIG_MakePtr(sv, ptr, type, flags) \
SWIG_Perl_MakePtr(pPerl, sv, ptr, type, flags)
# define SWIG_SetError(str) \
SWIG_Perl_SetError(pPerl, str)
#else
# define SWIG_MakePtr(sv, ptr, type, flags) \
SWIG_Perl_MakePtr(sv, ptr, type, flags)
# define SWIG_SetError(str) \
SWIG_Perl_SetError(str)
# define SWIG_SetErrorSV(str) \
SWIG_Perl_SetErrorSV(str)
#endif
#define SWIG_SetErrorf SWIG_Perl_SetErrorf
#ifdef PERL_OBJECT
# define SWIG_MAYBE_PERL_OBJECT CPerlObj *pPerl,
#else
# define SWIG_MAYBE_PERL_OBJECT
#endif
static swig_type_info **
SWIG_Perl_GetTypeListHandle() {
static void *type_pointer = (void *)0;
SV *pointer;
/* first check if pointer already created */
if (!type_pointer) {
pointer = get_sv("swig_runtime_data::type_pointer" SWIG_RUNTIME_VERSION SWIG_TYPE_TABLE_NAME, FALSE);
if (pointer && SvOK(pointer)) {
type_pointer = INT2PTR(swig_type_info **, SvIV(pointer));
}
}
return (swig_type_info **) type_pointer;
}
/*
Search for a swig_type_info structure
*/
SWIGRUNTIMEINLINE swig_type_info *
SWIG_Perl_GetTypeList() {
swig_type_info **tlh = SWIG_Perl_GetTypeListHandle();
return tlh ? *tlh : (swig_type_info*)0;
}
#define SWIG_Runtime_GetTypeList SWIG_Perl_GetTypeList
static swig_type_info *
SWIG_Perl_TypeCheckRV(SWIG_MAYBE_PERL_OBJECT SV *rv, swig_type_info *ty) {
swig_type_info *s;
if (!ty) return 0; /* Void pointer */
s = ty->next; /* First element always just a name */
do {
if (sv_derived_from(rv, (char *) s->name)) {
if (s == ty->next) return s;
/* Move s to the top of the linked list */
s->prev->next = s->next;
if (s->next) {
s->next->prev = s->prev;
}
/* Insert s as second element in the list */
s->next = ty->next;
if (ty->next) ty->next->prev = s;
ty->next = s;
s->prev = ty;
return s;
}
s = s->next;
} while (s && (s != ty->next));
return 0;
}
/* Function for getting a pointer value */
static int
SWIG_Perl_ConvertPtr(SWIG_MAYBE_PERL_OBJECT SV *sv, void **ptr, swig_type_info *_t, int flags) {
swig_type_info *tc;
void *voidptr = (void *)0;
/* If magical, apply more magic */
if (SvGMAGICAL(sv))
mg_get(sv);
/* Check to see if this is an object */
if (sv_isobject(sv)) {
SV *tsv = (SV*) SvRV(sv);
IV tmp = 0;
if ((SvTYPE(tsv) == SVt_PVHV)) {
MAGIC *mg;
if (SvMAGICAL(tsv)) {
mg = mg_find(tsv,'P');
if (mg) {
sv = mg->mg_obj;
if (sv_isobject(sv)) {
tmp = SvIV((SV*)SvRV(sv));
}
}
} else {
return -1;
}
} else {
tmp = SvIV((SV*)SvRV(sv));
}
voidptr = (void *)tmp;
if (!_t) {
*(ptr) = voidptr;
return 0;
}
} else if (! SvOK(sv)) { /* Check for undef */
*(ptr) = (void *) 0;
return 0;
} else if (SvTYPE(sv) == SVt_RV) { /* Check for NULL pointer */
*(ptr) = (void *) 0;
if (!SvROK(sv))
return 0;
else
return -1;
} else { /* Don't know what it is */
*(ptr) = (void *) 0;
return -1;
}
if (_t) {
/* Now see if the types match */
char *_c = HvNAME(SvSTASH(SvRV(sv)));
tc = SWIG_TypeCheck(_c,_t);
if (!tc) {
*ptr = voidptr;
return -1;
}
*ptr = SWIG_TypeCast(tc,voidptr);
return 0;
}
*ptr = voidptr;
return 0;
}
static void
SWIG_Perl_MakePtr(SWIG_MAYBE_PERL_OBJECT SV *sv, void *ptr, swig_type_info *t, int flags) {
if (ptr && (flags & SWIG_SHADOW)) {
SV *self;
SV *obj=newSV(0);
HV *hash=newHV();
HV *stash;
sv_setref_pv(obj, (char *) t->name, ptr);
stash=SvSTASH(SvRV(obj));
if (flags & SWIG_OWNER) {
HV *hv;
GV *gv=*(GV**)hv_fetch(stash, "OWNER", 5, TRUE);
if (!isGV(gv))
gv_init(gv, stash, "OWNER", 5, FALSE);
hv=GvHVn(gv);
hv_store_ent(hv, obj, newSViv(1), 0);
}
sv_magic((SV *)hash, (SV *)obj, 'P', Nullch, 0);
SvREFCNT_dec(obj);
self=newRV_noinc((SV *)hash);
sv_setsv(sv, self);
SvREFCNT_dec((SV *)self);
sv_bless(sv, stash);
}
else {
sv_setref_pv(sv, (char *) t->name, ptr);
}
}
static SWIGINLINE SV *
SWIG_Perl_NewPointerObj(SWIG_MAYBE_PERL_OBJECT void *ptr, swig_type_info *t, int flags) {
SV *result = sv_newmortal();
SWIG_MakePtr(result, ptr, t, flags);
return result;
}
static void
SWIG_Perl_MakePackedObj(SWIG_MAYBE_PERL_OBJECT SV *sv, void *ptr, int sz, swig_type_info *type) {
char result[1024];
char *r = result;
if ((2*sz + 1 + strlen(type->name)) > 1000) return;
*(r++) = '_';
r = SWIG_PackData(r,ptr,sz);
strcpy(r,type->name);
sv_setpv(sv, result);
}
/* Convert a packed value value */
static int
SWIG_Perl_ConvertPacked(SWIG_MAYBE_PERL_OBJECT SV *obj, void *ptr, int sz, swig_type_info *ty, int flags) {
swig_type_info *tc;
const char *c = 0;
if ((!obj) || (!SvOK(obj))) return -1;
c = SvPV(obj, PL_na);
/* Pointer values must start with leading underscore */
if (*c != '_') return -1;
c++;
c = SWIG_UnpackData(c,ptr,sz);
if (ty) {
tc = SWIG_TypeCheck(c,ty);
if (!tc) return -1;
}
return 0;
}
static SWIGINLINE void
SWIG_Perl_SetError(SWIG_MAYBE_PERL_OBJECT const char *error) {
if (error) sv_setpv(perl_get_sv("@", TRUE), error);
}
static SWIGINLINE void
SWIG_Perl_SetErrorSV(SWIG_MAYBE_PERL_OBJECT SV *error) {
if (error) sv_setsv(perl_get_sv("@", TRUE), error);
}
static void
SWIG_Perl_SetErrorf(const char *fmt, ...) {
va_list args;
va_start(args, fmt);
sv_vsetpvfn(perl_get_sv("@", TRUE), fmt, strlen(fmt), &args, Null(SV**), 0, Null(bool*));
va_end(args);
}
/* Macros for low-level exception handling */
#define SWIG_fail goto fail
#define SWIG_croak(x) { SWIG_SetError(x); goto fail; }
#define SWIG_croakSV(x) { SWIG_SetErrorSV(x); goto fail; }
/* most preprocessors do not support vararg macros :-( */
/* #define SWIG_croakf(x...) { SWIG_SetErrorf(x); goto fail; } */
typedef XS(SwigPerlWrapper);
typedef SwigPerlWrapper *SwigPerlWrapperPtr;
/* Structure for command table */
typedef struct {
const char *name;
SwigPerlWrapperPtr wrapper;
} swig_command_info;
/* Information for constant table */
#define SWIG_INT 1
#define SWIG_FLOAT 2
#define SWIG_STRING 3
#define SWIG_POINTER 4
#define SWIG_BINARY 5
/* Constant information structure */
typedef struct swig_constant_info {
int type;
const char *name;
long lvalue;
double dvalue;
void *pvalue;
swig_type_info **ptype;
} swig_constant_info;
#ifdef __cplusplus
}
#endif
/* Structure for variable table */
typedef struct {
const char *name;
SwigMagicFunc set;
SwigMagicFunc get;
swig_type_info **type;
} swig_variable_info;
/* Magic variable code */
#ifndef PERL_OBJECT
#define swig_create_magic(s,a,b,c) _swig_create_magic(s,a,b,c)
#ifndef MULTIPLICITY
static void _swig_create_magic(SV *sv, char *name, int (*set)(SV *, MAGIC *), int (*get)(SV *,MAGIC *)) {
#else
static void _swig_create_magic(SV *sv, char *name, int (*set)(struct interpreter*, SV *, MAGIC *), int (*get)(struct interpreter*, SV *,MAGIC *)) {
#endif
#else
# define swig_create_magic(s,a,b,c) _swig_create_magic(pPerl,s,a,b,c)
static void _swig_create_magic(CPerlObj *pPerl, SV *sv, const char *name, int (CPerlObj::*set)(SV *, MAGIC *), int (CPerlObj::*get)(SV *, MAGIC *)) {
#endif
MAGIC *mg;
sv_magic(sv,sv,'U',(char *) name,strlen(name));
mg = mg_find(sv,'U');
mg->mg_virtual = (MGVTBL *) malloc(sizeof(MGVTBL));
mg->mg_virtual->svt_get = (SwigMagicFuncHack) get;
mg->mg_virtual->svt_set = (SwigMagicFuncHack) set;
mg->mg_virtual->svt_len = 0;
mg->mg_virtual->svt_clear = 0;
mg->mg_virtual->svt_free = 0;
}
#ifdef do_open
#undef do_open
#endif
#ifdef do_close
#undef do_close
#endif
#ifdef scalar
#undef scalar
#endif
#ifdef list
#undef list
#endif
#ifdef apply
#undef apply
#endif
#ifdef convert
#undef convert
#endif
#ifdef Error
#undef Error
#endif
#ifdef form
#undef form
#endif
#ifdef vform
#undef vform
#endif
#ifdef LABEL
#undef LABEL
#endif
#ifdef METHOD
#undef METHOD
#endif
#ifdef Move
#undef Move
#endif
#ifdef yylex
#undef yylex
#endif
#ifdef yyparse
#undef yyparse
#endif
#ifdef yyerror
#undef yyerror
#endif
#ifdef invert
#undef invert
#endif
#ifdef ref
#undef ref
#endif
#ifdef ENTER
#undef ENTER
#endif
/* -------- TYPES TABLE (BEGIN) -------- */
#define SWIGTYPE_p_size_t swig_types[0]
#define SWIGTYPE_p_iso9660_ltime_t swig_types[1]
#define SWIGTYPE_p_iso9660_dtime_t swig_types[2]
#define SWIGTYPE_p_unsigned_char swig_types[3]
#define SWIGTYPE_p_iso9660_t swig_types[4]
#define SWIGTYPE_p_unsigned_int swig_types[5]
#define SWIGTYPE_p_cdio_read_mode_t swig_types[6]
#define SWIGTYPE_p_char swig_types[7]
#define SWIGTYPE_p_CdIo_t swig_types[8]
#define SWIGTYPE_p_iso9660_stat_t swig_types[9]
#define SWIGTYPE_p_long swig_types[10]
#define SWIGTYPE_p_iso9660_pvd_t swig_types[11]
#define SWIGTYPE_p_CdioList_t swig_types[12]
#define SWIGTYPE_p_iso9660_dir_t swig_types[13]
#define SWIGTYPE_p_int swig_types[14]
static swig_type_info *swig_types[16];
/* -------- TYPES TABLE (END) -------- */
#define SWIG_init boot_perliso9660
#define SWIG_name "perliso9660c::boot_perliso9660"
#define SWIG_prefix "perliso9660c::"
#ifdef __cplusplus
extern "C"
#endif
#ifndef PERL_OBJECT
#ifndef MULTIPLICITY
SWIGEXPORT(void) SWIG_init (CV* cv);
#else
SWIGEXPORT(void) SWIG_init (pTHXo_ CV* cv);
#endif
#else
SWIGEXPORT(void) SWIG_init (CV *cv, CPerlObj *);
#endif
/* Includes the header in the wrapper code */
#include <time.h>
#include <cdio/iso9660.h>
#include <cdio/version.h>
/* When libcdio version > 0.76 comes out this won't be needed. */
#include <cdio/version.h>
#if LIBCDIO_VERSION_NUM <= 76
/**< Masks derived from above... */
#undef CDIO_DRIVE_CAP_WRITE_DVD
#define CDIO_DRIVE_CAP_WRITE_DVD ( \
CDIO_DRIVE_CAP_WRITE_DVD_R \
| CDIO_DRIVE_CAP_WRITE_DVD_PR \
| CDIO_DRIVE_CAP_WRITE_DVD_RAM \
| CDIO_DRIVE_CAP_WRITE_DVD_RW \
| CDIO_DRIVE_CAP_WRITE_DVD_RPW \
)
/** All the different ways a block/sector can be read. */
typedef enum {
CDIO_READ_MODE_AUDIO, /**< CD-DA, audio, Red Book */
CDIO_READ_MODE_M1F1, /**< Mode 1 Form 1 */
CDIO_READ_MODE_M1F2, /**< Mode 1 Form 2 */
CDIO_READ_MODE_M2F1, /**< Mode 2 Form 1 */
CDIO_READ_MODE_M2F2, /**< Mode 2 Form 2 */
} cdio_read_mode_t;
/*!
Reads a number of sectors (AKA blocks).
@param p_buf place to read data into. The caller should make sure
this location is large enough. See below for size information.
@param read_mode the kind of "mode" to use in reading.
@param i_lsn sector to read
@param i_blocks number of sectors to read
@return DRIVER_OP_SUCCESS (0) if no error, other (negative) enumerations
are returned on error.
If read_mode is CDIO_MODE_AUDIO,
*p_buf should hold at least CDIO_FRAMESIZE_RAW * i_blocks bytes.
If read_mode is CDIO_MODE_DATA,
*p_buf should hold at least i_blocks times either ISO_BLOCKSIZE,
M1RAW_SECTOR_SIZE or M2F2_SECTOR_SIZE depending on the kind of
sector getting read. If you don't know whether you have a Mode 1/2,
Form 1/ Form 2/Formless sector best to reserve space for the maximum
which is M2RAW_SECTOR_SIZE.
If read_mode is CDIO_MODE_M2F1,
*p_buf should hold at least M2RAW_SECTOR_SIZE * i_blocks bytes.
If read_mode is CDIO_MODE_M2F2,
*p_buf should hold at least CDIO_CD_FRAMESIZE * i_blocks bytes.
*/
driver_return_code_t
cdio_read_sectors(const CdIo_t *p_cdio, void *p_buf, lsn_t i_lsn,
cdio_read_mode_t read_mode, uint32_t i_blocks)
{
switch(read_mode) {
case CDIO_READ_MODE_AUDIO:
return cdio_read_audio_sectors (p_cdio, p_buf, i_lsn, i_blocks);
case CDIO_READ_MODE_M1F1:
return cdio_read_mode1_sectors (p_cdio, p_buf, i_lsn, false, i_blocks);
case CDIO_READ_MODE_M1F2:
return cdio_read_mode1_sectors (p_cdio, p_buf, i_lsn, true, i_blocks);
case CDIO_READ_MODE_M2F1:
return cdio_read_mode2_sectors (p_cdio, p_buf, i_lsn, false, i_blocks);
case CDIO_READ_MODE_M2F2:
return cdio_read_mode2_sectors (p_cdio, p_buf, i_lsn, true, i_blocks);
}
/* Can't happen. Just to shut up gcc. */
return DRIVER_OP_ERROR;
}
driver_return_code_t
cdio_eject_media_drive (const char *psz_drive)
{
CdIo_t *p_cdio = cdio_open (psz_drive, DRIVER_DEVICE);
if (p_cdio) {
return cdio_eject_media(&p_cdio);
} else {
return DRIVER_OP_UNINIT;
}
}
#endif /* LIBCDIO_VERSION_NUM <= 76 */
typedef CdioList_t IsoStatList_t;
typedef iso9660_stat_t IsoStat_t;
typedef long int my_ssize_t;
typedef char *buf_t;
buf_t seek_read (const iso9660_t *p_iso,
lsn_t start, long int i_size,
/*out*/ my_ssize_t *pi_size) {
char *p_buf = calloc(ISO_BLOCKSIZE, i_size);
*pi_size = iso9660_iso_seek_read(p_iso, p_buf, start, i_size);
return p_buf;
}
iso9660_pvd_t *fs_read_pvd ( const CdIo_t *p_cdio ) {
static iso9660_pvd_t pvd;
bool b_ok = iso9660_fs_read_pvd ( p_cdio, &pvd );
if (!b_ok) return NULL;
return &pvd;
}
iso9660_pvd_t *ifs_read_pvd ( const iso9660_t *p_iso ) {
static iso9660_pvd_t pvd;
bool b_ok = iso9660_ifs_read_pvd ( p_iso, &pvd );
if (!b_ok) return NULL;
return &pvd;
}
iso9660_dtime_t *
set_dtime ( int tm_sec, int tm_min, int tm_hour, int tm_mday, int tm_mon,
int tm_year)
{
struct tm tm = { tm_sec, tm_min, tm_hour, tm_mday, tm_mon, tm_year, 0, 0 };
static iso9660_dtime_t dtime;
iso9660_set_dtime (&tm, &dtime);
return &dtime;
}
iso9660_ltime_t *
set_ltime ( int tm_sec, int tm_min, int tm_hour, int tm_mday, int tm_mon,
int tm_year)
{
struct tm tm = { tm_sec, tm_min, tm_hour, tm_mday, tm_mon, tm_year, 0, 0 };
static iso9660_ltime_t ldate;
iso9660_set_ltime (&tm, &ldate);
return &ldate;
}
bool get_dtime (const iso9660_dtime_t *dtime, bool use_localtime,
int *tm_sec, int *tm_min, int *tm_hour, int *tm_mday,
int *tm_mon, int *tm_year, int *tm_wday, int *tm_yday,
int *tm_isdst)
{
struct tm tm;
bool b_okay = iso9660_get_dtime (dtime, use_localtime, &tm);
if (b_okay) {
*tm_sec = tm.tm_sec;
*tm_min = tm.tm_min;
*tm_hour = tm.tm_hour;
*tm_mon = tm.tm_mon;
*tm_mday = tm.tm_mday;
*tm_year = tm.tm_year;
*tm_wday = tm.tm_wday;
*tm_yday = tm.tm_yday;
*tm_isdst = tm.tm_isdst;
}
return b_okay;
}
bool get_ltime (const iso9660_ltime_t *p_ldate,
int *tm_sec, int *tm_min, int *tm_hour, int *tm_mday,
int *tm_mon, int *tm_year, int *tm_wday, int *tm_yday,
int *tm_isdst)
{
struct tm tm;
bool b_okay = iso9660_get_ltime (p_ldate, &tm);
if (b_okay) {
*tm_sec = tm.tm_sec;
*tm_min = tm.tm_min;
*tm_hour = tm.tm_hour;
*tm_mon = tm.tm_mon;
*tm_mday = tm.tm_mday;
*tm_year = tm.tm_year;
*tm_wday = tm.tm_wday;
*tm_yday = tm.tm_yday;
*tm_isdst = tm.tm_isdst;
}
return b_okay;
}
char *
name_translate(const char *psz_oldname) {
char *psz_newname=calloc(sizeof(char), strlen(psz_oldname));
iso9660_name_translate(psz_oldname, psz_newname);
return psz_newname;
}
char *
name_translate_ext(const char *psz_oldname, uint8_t i_joliet_level) {
char *psz_newname=calloc(sizeof(char), strlen(psz_oldname));
iso9660_name_translate_ext(psz_oldname, psz_newname, i_joliet_level);
return psz_newname;
}
char *
strncpy_pad(const char src[], size_t len, enum strncpy_pad_check _check) {
char *dst = calloc(sizeof(char), len+1);
return iso9660_strncpy_pad(dst, src, len, _check);
}
IsoStatList_t *fs_readdir (CdIo_t *p_cdio, const char psz_path[])
{
CdioList_t *p_statlist = iso9660_fs_readdir (p_cdio, psz_path, false);
return p_statlist;
}
IsoStatList_t *ifs_readdir (iso9660_t *p_iso, const char psz_path[])
{
CdioList_t *p_statlist = iso9660_ifs_readdir (p_iso, psz_path);
return p_statlist;
}
char *
ifs_get_application_id(iso9660_t *p_iso) {
char *psz;
bool ok = iso9660_ifs_get_application_id(p_iso, &psz);
if (!ok) return NULL;
return psz;
}
char *
ifs_get_preparer_id(iso9660_t *p_iso) {
char *psz;
bool ok = iso9660_ifs_get_preparer_id(p_iso, &psz);
if (!ok) return NULL;
return psz;
}
char *
ifs_get_publisher_id(iso9660_t *p_iso) {
char *psz;
bool ok = iso9660_ifs_get_publisher_id(p_iso, &psz);
if (!ok) return NULL;
return psz;
}
char *
ifs_get_system_id(iso9660_t *p_iso) {
char *psz;
bool ok = iso9660_ifs_get_system_id(p_iso, &psz);
if (!ok) return NULL;
return psz;
}
char *
ifs_get_volume_id(iso9660_t *p_iso) {
char *psz;
bool ok = iso9660_ifs_get_volume_id(p_iso, &psz);
if (!ok) return NULL;
return psz;
}
char *
ifs_get_volumeset_id(iso9660_t *p_iso) {
char *psz;
bool ok = iso9660_ifs_get_volumeset_id(p_iso, &psz);
if (!ok) return NULL;
return psz;
}
#ifdef PERL_OBJECT
#define MAGIC_CLASS _wrap_perliso9660_var::
class _wrap_perliso9660_var : public CPerlObj {
public:
#else
#define MAGIC_CLASS
#endif
SWIGCLASS_STATIC int swig_magic_readonly(pTHX_ SV *sv, MAGIC *mg) {
MAGIC_PPERL
sv = sv; mg = mg;
croak("Value is read-only.");
return 0;
}
#ifdef PERL_OBJECT
};
#endif
#ifdef __cplusplus
extern "C" {
#endif
XS(_wrap_cdio_read_sectors) {
{
CdIo_t *arg1 = (CdIo_t *) 0 ;
void *arg2 = (void *) 0 ;
lsn_t arg3 ;
cdio_read_mode_t arg4 ;
unsigned int arg5 ;
driver_return_code_t result;
int argvi = 0;
dXSARGS;
if ((items < 5) || (items > 5)) {
SWIG_croak("Usage: cdio_read_sectors(p_cdio,p_buf,i_lsn,read_mode,i_blocks);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_CdIo_t,0) < 0) {
SWIG_croak("Type error in argument 1 of cdio_read_sectors. Expected _p_CdIo_t");
}
}
{
if (SWIG_ConvertPtr(ST(1), (void **) &arg2, 0,0) < 0) {
SWIG_croak("Type error in argument 2 of cdio_read_sectors. Expected _p_void");
}
}
arg3 = (lsn_t) SvIV(ST(2));
arg4 = (cdio_read_mode_t) SvIV(ST(3));
arg5 = (unsigned int) SvUV(ST(4));
result = (driver_return_code_t)cdio_read_sectors((CdIo_t const *)arg1,arg2,arg3,(cdio_read_mode_t )arg4,arg5);
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi++), (IV) result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_cdio_eject_media_drive) {
{
char *arg1 = (char *) 0 ;
driver_return_code_t result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: cdio_eject_media_drive(psz_drive);");
}
if (!SvOK((SV*) ST(0))) arg1 = 0;
else arg1 = (char *) SvPV(ST(0), PL_na);
result = (driver_return_code_t)cdio_eject_media_drive((char const *)arg1);
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi++), (IV) result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_open_iso) {
{
char *arg1 = (char *) 0 ;
iso9660_t *result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: open_iso(psz_path);");
}
if (!SvOK((SV*) ST(0))) arg1 = 0;
else arg1 = (char *) SvPV(ST(0), PL_na);
result = (iso9660_t *)iso9660_open((char const *)arg1);
ST(argvi) = sv_newmortal();
SWIG_MakePtr(ST(argvi++), (void *) result, SWIGTYPE_p_iso9660_t, 0|0);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_open_ext) {
{
char *arg1 = (char *) 0 ;
iso_extension_mask_t arg2 ;
iso9660_t *result;
int argvi = 0;
dXSARGS;
if ((items < 2) || (items > 2)) {
SWIG_croak("Usage: open_ext(psz_path,iso_extension_mask);");
}
if (!SvOK((SV*) ST(0))) arg1 = 0;
else arg1 = (char *) SvPV(ST(0), PL_na);
arg2 = (iso_extension_mask_t) SvUV(ST(1));
result = (iso9660_t *)iso9660_open_ext((char const *)arg1,arg2);
ST(argvi) = sv_newmortal();
SWIG_MakePtr(ST(argvi++), (void *) result, SWIGTYPE_p_iso9660_t, 0|0);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_open_fuzzy) {
{
char *arg1 = (char *) 0 ;
unsigned int arg2 ;
iso9660_t *result;
int argvi = 0;
dXSARGS;
if ((items < 2) || (items > 2)) {
SWIG_croak("Usage: open_fuzzy(psz_path,i_fuzz);");
}
if (!SvOK((SV*) ST(0))) arg1 = 0;
else arg1 = (char *) SvPV(ST(0), PL_na);
arg2 = (unsigned int) SvUV(ST(1));
result = (iso9660_t *)iso9660_open_fuzzy((char const *)arg1,arg2);
ST(argvi) = sv_newmortal();
SWIG_MakePtr(ST(argvi++), (void *) result, SWIGTYPE_p_iso9660_t, 0|0);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_iso9660_open_fuzzy_ext) {
{
char *arg1 = (char *) 0 ;
iso_extension_mask_t arg2 ;
unsigned int arg3 ;
iso9660_t *result;
int argvi = 0;
dXSARGS;
if ((items < 3) || (items > 3)) {
SWIG_croak("Usage: iso9660_open_fuzzy_ext(psz_path,iso_extension_mask,i_fuzz);");
}
if (!SvOK((SV*) ST(0))) arg1 = 0;
else arg1 = (char *) SvPV(ST(0), PL_na);
arg2 = (iso_extension_mask_t) SvUV(ST(1));
arg3 = (unsigned int) SvUV(ST(2));
result = (iso9660_t *)iso9660_open_fuzzy_ext((char const *)arg1,arg2,arg3);
ST(argvi) = sv_newmortal();
SWIG_MakePtr(ST(argvi++), (void *) result, SWIGTYPE_p_iso9660_t, 0|0);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_ifs_fuzzy_read_superblock) {
{
iso9660_t *arg1 = (iso9660_t *) 0 ;
iso_extension_mask_t arg2 ;
unsigned int arg3 ;
bool result;
int argvi = 0;
dXSARGS;
if ((items < 3) || (items > 3)) {
SWIG_croak("Usage: ifs_fuzzy_read_superblock(p_iso,iso_extension_mask,i_fuzz);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_t,0) < 0) {
SWIG_croak("Type error in argument 1 of ifs_fuzzy_read_superblock. Expected _p_iso9660_t");
}
}
arg2 = (iso_extension_mask_t) SvUV(ST(1));
arg3 = (unsigned int) SvUV(ST(2));
result = (bool)iso9660_ifs_fuzzy_read_superblock(arg1,arg2,arg3);
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi++), (IV) result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_close) {
{
iso9660_t *arg1 = (iso9660_t *) 0 ;
bool result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: close(p_iso);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_t,0) < 0) {
SWIG_croak("Type error in argument 1 of close. Expected _p_iso9660_t");
}
}
result = (bool)iso9660_close(arg1);
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi++), (IV) result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_seek_read) {
{
iso9660_t *arg1 = (iso9660_t *) 0 ;
lsn_t arg2 ;
long arg3 ;
my_ssize_t *arg4 = (my_ssize_t *) 0 ;
buf_t result;
long temp4 ;
int argvi = 0;
dXSARGS;
arg4 = &temp4;
if ((items < 3) || (items > 3)) {
SWIG_croak("Usage: seek_read(p_iso,start,i_size);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_t,0) < 0) {
SWIG_croak("Type error in argument 1 of seek_read. Expected _p_iso9660_t");
}
}
arg2 = (lsn_t) SvIV(ST(1));
arg3 = (long) SvIV(ST(2));
result = (buf_t)seek_read((iso9660_t const *)arg1,arg2,arg3,arg4);
{
/* result is of type buf_t */
ST(argvi) = sv_newmortal();
if (result) {
/* I don't yet know how to pick up arg4 another way.
THIS MEANS ARG3 MUST ALWAYS BE THE SIZE. */
sv_setpvn((SV*)ST(argvi++), (char *) result, *arg4);
/* Don't leak memory. return value was malloc'd by libcdio. */
/* free(result); */
} else {
sv_setsv((SV*)ST(argvi++), &PL_sv_undef);
}
}
{
if (argvi >= items) {
EXTEND(sp,1);
}
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi),(IV) *(arg4));
argvi++;
}
free(result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_fs_read_pvd) {
{
CdIo_t *arg1 = (CdIo_t *) 0 ;
iso9660_pvd_t *result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: fs_read_pvd(p_cdio);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_CdIo_t,0) < 0) {
SWIG_croak("Type error in argument 1 of fs_read_pvd. Expected _p_CdIo_t");
}
}
result = (iso9660_pvd_t *)fs_read_pvd((CdIo_t const *)arg1);
ST(argvi) = sv_newmortal();
SWIG_MakePtr(ST(argvi++), (void *) result, SWIGTYPE_p_iso9660_pvd_t, 0|0);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_ifs_read_pvd) {
{
iso9660_t *arg1 = (iso9660_t *) 0 ;
iso9660_pvd_t *result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: ifs_read_pvd(p_iso);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_t,0) < 0) {
SWIG_croak("Type error in argument 1 of ifs_read_pvd. Expected _p_iso9660_t");
}
}
result = (iso9660_pvd_t *)ifs_read_pvd((iso9660_t const *)arg1);
ST(argvi) = sv_newmortal();
SWIG_MakePtr(ST(argvi++), (void *) result, SWIGTYPE_p_iso9660_pvd_t, 0|0);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_fs_read_superblock) {
{
CdIo_t *arg1 = (CdIo_t *) 0 ;
iso_extension_mask_t arg2 ;
bool result;
int argvi = 0;
dXSARGS;
if ((items < 2) || (items > 2)) {
SWIG_croak("Usage: fs_read_superblock(p_cdio,iso_extension_mask);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_CdIo_t,0) < 0) {
SWIG_croak("Type error in argument 1 of fs_read_superblock. Expected _p_CdIo_t");
}
}
arg2 = (iso_extension_mask_t) SvUV(ST(1));
result = (bool)iso9660_fs_read_superblock(arg1,arg2);
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi++), (IV) result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_ifs_read_superblock) {
{
iso9660_t *arg1 = (iso9660_t *) 0 ;
iso_extension_mask_t arg2 ;
bool result;
int argvi = 0;
dXSARGS;
if ((items < 2) || (items > 2)) {
SWIG_croak("Usage: ifs_read_superblock(p_iso,iso_extension_mask);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_t,0) < 0) {
SWIG_croak("Type error in argument 1 of ifs_read_superblock. Expected _p_iso9660_t");
}
}
arg2 = (iso_extension_mask_t) SvUV(ST(1));
result = (bool)iso9660_ifs_read_superblock(arg1,arg2);
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi++), (IV) result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_set_dtime) {
{
int arg1 ;
int arg2 ;
int arg3 ;
int arg4 ;
int arg5 ;
int arg6 ;
iso9660_dtime_t *result;
int argvi = 0;
dXSARGS;
if ((items < 6) || (items > 6)) {
SWIG_croak("Usage: set_dtime(tm_sec,tm_min,tm_hour,tm_mday,tm_mon,tm_year);");
}
arg1 = (int) SvIV(ST(0));
arg2 = (int) SvIV(ST(1));
arg3 = (int) SvIV(ST(2));
arg4 = (int) SvIV(ST(3));
arg5 = (int) SvIV(ST(4));
arg6 = (int) SvIV(ST(5));
result = (iso9660_dtime_t *)set_dtime(arg1,arg2,arg3,arg4,arg5,arg6);
ST(argvi) = sv_newmortal();
SWIG_MakePtr(ST(argvi++), (void *) result, SWIGTYPE_p_iso9660_dtime_t, 0|0);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_set_ltime) {
{
int arg1 ;
int arg2 ;
int arg3 ;
int arg4 ;
int arg5 ;
int arg6 ;
iso9660_ltime_t *result;
int argvi = 0;
dXSARGS;
if ((items < 6) || (items > 6)) {
SWIG_croak("Usage: set_ltime(tm_sec,tm_min,tm_hour,tm_mday,tm_mon,tm_year);");
}
arg1 = (int) SvIV(ST(0));
arg2 = (int) SvIV(ST(1));
arg3 = (int) SvIV(ST(2));
arg4 = (int) SvIV(ST(3));
arg5 = (int) SvIV(ST(4));
arg6 = (int) SvIV(ST(5));
result = (iso9660_ltime_t *)set_ltime(arg1,arg2,arg3,arg4,arg5,arg6);
ST(argvi) = sv_newmortal();
SWIG_MakePtr(ST(argvi++), (void *) result, SWIGTYPE_p_iso9660_ltime_t, 0|0);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_get_dtime) {
{
iso9660_dtime_t *arg1 = (iso9660_dtime_t *) 0 ;
bool arg2 ;
int *arg3 = (int *) 0 ;
int *arg4 = (int *) 0 ;
int *arg5 = (int *) 0 ;
int *arg6 = (int *) 0 ;
int *arg7 = (int *) 0 ;
int *arg8 = (int *) 0 ;
int *arg9 = (int *) 0 ;
int *arg10 = (int *) 0 ;
int *arg11 = (int *) 0 ;
bool result;
int temp3 ;
int temp4 ;
int temp5 ;
int temp6 ;
int temp7 ;
int temp8 ;
int temp9 ;
int temp10 ;
int temp11 ;
int argvi = 0;
dXSARGS;
arg3 = &temp3;
arg4 = &temp4;
arg5 = &temp5;
arg6 = &temp6;
arg7 = &temp7;
arg8 = &temp8;
arg9 = &temp9;
arg10 = &temp10;
arg11 = &temp11;
if ((items < 2) || (items > 2)) {
SWIG_croak("Usage: get_dtime(dtime,use_localtime);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_dtime_t,0) < 0) {
SWIG_croak("Type error in argument 1 of get_dtime. Expected _p_iso9660_dtime_t");
}
}
arg2 = (bool) SvIV(ST(1));
result = (bool)get_dtime((iso9660_dtime_t const *)arg1,arg2,arg3,arg4,arg5,arg6,arg7,arg8,arg9,arg10,arg11);
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi++), (IV) result);
{
if (argvi >= items) {
EXTEND(sp,1);
}
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi),(IV) *(arg3));
argvi++;
}
{
if (argvi >= items) {
EXTEND(sp,1);
}
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi),(IV) *(arg4));
argvi++;
}
{
if (argvi >= items) {
EXTEND(sp,1);
}
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi),(IV) *(arg5));
argvi++;
}
{
if (argvi >= items) {
EXTEND(sp,1);
}
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi),(IV) *(arg6));
argvi++;
}
{
if (argvi >= items) {
EXTEND(sp,1);
}
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi),(IV) *(arg7));
argvi++;
}
{
if (argvi >= items) {
EXTEND(sp,1);
}
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi),(IV) *(arg8));
argvi++;
}
{
if (argvi >= items) {
EXTEND(sp,1);
}
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi),(IV) *(arg9));
argvi++;
}
{
if (argvi >= items) {
EXTEND(sp,1);
}
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi),(IV) *(arg10));
argvi++;
}
{
if (argvi >= items) {
EXTEND(sp,1);
}
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi),(IV) *(arg11));
argvi++;
}
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_get_ltime) {
{
iso9660_ltime_t *arg1 = (iso9660_ltime_t *) 0 ;
int *arg2 = (int *) 0 ;
int *arg3 = (int *) 0 ;
int *arg4 = (int *) 0 ;
int *arg5 = (int *) 0 ;
int *arg6 = (int *) 0 ;
int *arg7 = (int *) 0 ;
int *arg8 = (int *) 0 ;
int *arg9 = (int *) 0 ;
int *arg10 = (int *) 0 ;
bool result;
int temp2 ;
int temp3 ;
int temp4 ;
int temp5 ;
int temp6 ;
int temp7 ;
int temp8 ;
int temp9 ;
int temp10 ;
int argvi = 0;
dXSARGS;
arg2 = &temp2;
arg3 = &temp3;
arg4 = &temp4;
arg5 = &temp5;
arg6 = &temp6;
arg7 = &temp7;
arg8 = &temp8;
arg9 = &temp9;
arg10 = &temp10;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: get_ltime(dtime);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_ltime_t,0) < 0) {
SWIG_croak("Type error in argument 1 of get_ltime. Expected _p_iso9660_ltime_t");
}
}
result = (bool)get_ltime((iso9660_ltime_t const *)arg1,arg2,arg3,arg4,arg5,arg6,arg7,arg8,arg9,arg10);
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi++), (IV) result);
{
if (argvi >= items) {
EXTEND(sp,1);
}
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi),(IV) *(arg2));
argvi++;
}
{
if (argvi >= items) {
EXTEND(sp,1);
}
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi),(IV) *(arg3));
argvi++;
}
{
if (argvi >= items) {
EXTEND(sp,1);
}
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi),(IV) *(arg4));
argvi++;
}
{
if (argvi >= items) {
EXTEND(sp,1);
}
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi),(IV) *(arg5));
argvi++;
}
{
if (argvi >= items) {
EXTEND(sp,1);
}
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi),(IV) *(arg6));
argvi++;
}
{
if (argvi >= items) {
EXTEND(sp,1);
}
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi),(IV) *(arg7));
argvi++;
}
{
if (argvi >= items) {
EXTEND(sp,1);
}
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi),(IV) *(arg8));
argvi++;
}
{
if (argvi >= items) {
EXTEND(sp,1);
}
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi),(IV) *(arg9));
argvi++;
}
{
if (argvi >= items) {
EXTEND(sp,1);
}
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi),(IV) *(arg10));
argvi++;
}
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_is_dchar) {
{
int arg1 ;
bool result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: is_dchar(c);");
}
arg1 = (int) SvIV(ST(0));
result = (bool)iso9660_isdchar(arg1);
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi++), (IV) result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_is_achar) {
{
int arg1 ;
bool result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: is_achar(c);");
}
arg1 = (int) SvIV(ST(0));
result = (bool)iso9660_isachar(arg1);
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi++), (IV) result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_name_translate) {
{
char *arg1 = (char *) 0 ;
char *result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: name_translate(psz_oldname);");
}
if (!SvOK((SV*) ST(0))) arg1 = 0;
else arg1 = (char *) SvPV(ST(0), PL_na);
result = (char *)name_translate((char const *)arg1);
ST(argvi) = sv_newmortal();
if (result) {
sv_setpv((SV*)ST(argvi++), (char *) result);
} else {
sv_setsv((SV*)ST(argvi++), &PL_sv_undef);
}
free(result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_name_translate_ext) {
{
char *arg1 = (char *) 0 ;
unsigned char arg2 ;
char *result;
int argvi = 0;
dXSARGS;
if ((items < 2) || (items > 2)) {
SWIG_croak("Usage: name_translate_ext(psz_oldname,i_joliet_level);");
}
if (!SvOK((SV*) ST(0))) arg1 = 0;
else arg1 = (char *) SvPV(ST(0), PL_na);
arg2 = (unsigned char) SvUV(ST(1));
result = (char *)name_translate_ext((char const *)arg1,arg2);
ST(argvi) = sv_newmortal();
if (result) {
sv_setpv((SV*)ST(argvi++), (char *) result);
} else {
sv_setsv((SV*)ST(argvi++), &PL_sv_undef);
}
free(result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_strncpy_pad) {
{
char *arg1 ;
size_t arg2 ;
enum strncpy_pad_check arg3 ;
char *result;
int argvi = 0;
dXSARGS;
if ((items < 3) || (items > 3)) {
SWIG_croak("Usage: strncpy_pad(src,len,_check);");
}
arg1 = SvPV(ST(0),PL_na);
arg2 = (size_t) SvUV(ST(1));
arg3 = (enum strncpy_pad_check) SvIV(ST(2));
result = (char *)strncpy_pad((char const (*))arg1,arg2,(enum strncpy_pad_check )arg3);
ST(argvi) = sv_newmortal();
if (result) {
sv_setpv((SV*)ST(argvi++), (char *) result);
} else {
sv_setsv((SV*)ST(argvi++), &PL_sv_undef);
}
free(result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_dirname_valid_p) {
{
char *arg1 ;
bool result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: dirname_valid_p(psz_path);");
}
arg1 = SvPV(ST(0),PL_na);
result = (bool)iso9660_dirname_valid_p((char const (*))arg1);
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi++), (IV) result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_pathname_isofy) {
{
char *arg1 ;
unsigned int arg2 ;
char *result;
int argvi = 0;
dXSARGS;
if ((items < 2) || (items > 2)) {
SWIG_croak("Usage: pathname_isofy(psz_path,i_version);");
}
arg1 = SvPV(ST(0),PL_na);
arg2 = (unsigned int) SvUV(ST(1));
result = (char *)iso9660_pathname_isofy((char const (*))arg1,arg2);
ST(argvi) = sv_newmortal();
if (result) {
sv_setpv((SV*)ST(argvi++), (char *) result);
} else {
sv_setsv((SV*)ST(argvi++), &PL_sv_undef);
}
free(result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_pathname_valid_p) {
{
char *arg1 ;
bool result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: pathname_valid_p(psz_path);");
}
arg1 = SvPV(ST(0),PL_na);
result = (bool)iso9660_pathname_valid_p((char const (*))arg1);
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi++), (IV) result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_fs_find_lsn) {
{
CdIo_t *arg1 = (CdIo_t *) 0 ;
lsn_t arg2 ;
IsoStat_t *result;
int argvi = 0;
dXSARGS;
if ((items < 2) || (items > 2)) {
SWIG_croak("Usage: fs_find_lsn(p_cdio,i_lsn);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_CdIo_t,0) < 0) {
SWIG_croak("Type error in argument 1 of fs_find_lsn. Expected _p_CdIo_t");
}
}
arg2 = (lsn_t) SvIV(ST(1));
result = (IsoStat_t *)iso9660_find_fs_lsn(arg1,arg2);
{
// result is of type IsoStatList_t
iso9660_stat_t *p_statbuf = result;
if (!result) goto out;
PPCODE:
/* Have perl compute the length of the string using strlen() */
XPUSHs(sv_2mortal(newSVpv(p_statbuf->filename, 0)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->lsn)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->size)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->secsize)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->type)));
argvi += 7;
free (p_statbuf);
out: ;
}
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_fs_stat) {
{
CdIo_t *arg1 = (CdIo_t *) 0 ;
char *arg2 ;
IsoStat_t *result;
int argvi = 0;
dXSARGS;
if ((items < 2) || (items > 2)) {
SWIG_croak("Usage: fs_stat(p_cdio,psz_path);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_CdIo_t,0) < 0) {
SWIG_croak("Type error in argument 1 of fs_stat. Expected _p_CdIo_t");
}
}
arg2 = SvPV(ST(1),PL_na);
result = (IsoStat_t *)iso9660_fs_stat(arg1,(char const (*))arg2);
{
// result is of type IsoStatList_t
iso9660_stat_t *p_statbuf = result;
if (!result) goto out;
PPCODE:
/* Have perl compute the length of the string using strlen() */
XPUSHs(sv_2mortal(newSVpv(p_statbuf->filename, 0)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->lsn)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->size)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->secsize)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->type)));
argvi += 7;
free (p_statbuf);
out: ;
}
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_fs_stat_translate) {
{
CdIo_t *arg1 = (CdIo_t *) 0 ;
char *arg2 ;
bool arg3 = (bool) false ;
IsoStat_t *result;
int argvi = 0;
dXSARGS;
if ((items < 2) || (items > 3)) {
SWIG_croak("Usage: fs_stat_translate(p_cdio,psz_path,b_mode2);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_CdIo_t,0) < 0) {
SWIG_croak("Type error in argument 1 of fs_stat_translate. Expected _p_CdIo_t");
}
}
arg2 = SvPV(ST(1),PL_na);
if (items > 2) {
arg3 = (bool) SvIV(ST(2));
}
result = (IsoStat_t *)iso9660_fs_stat_translate(arg1,(char const (*))arg2,arg3);
{
// result is of type IsoStatList_t
iso9660_stat_t *p_statbuf = result;
if (!result) goto out;
PPCODE:
/* Have perl compute the length of the string using strlen() */
XPUSHs(sv_2mortal(newSVpv(p_statbuf->filename, 0)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->lsn)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->size)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->secsize)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->type)));
argvi += 7;
free (p_statbuf);
out: ;
}
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_ifs_stat) {
{
iso9660_t *arg1 = (iso9660_t *) 0 ;
char *arg2 ;
IsoStat_t *result;
int argvi = 0;
dXSARGS;
if ((items < 2) || (items > 2)) {
SWIG_croak("Usage: ifs_stat(p_iso,psz_path);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_t,0) < 0) {
SWIG_croak("Type error in argument 1 of ifs_stat. Expected _p_iso9660_t");
}
}
arg2 = SvPV(ST(1),PL_na);
result = (IsoStat_t *)iso9660_ifs_stat(arg1,(char const (*))arg2);
{
// result is of type IsoStatList_t
iso9660_stat_t *p_statbuf = result;
if (!result) goto out;
PPCODE:
/* Have perl compute the length of the string using strlen() */
XPUSHs(sv_2mortal(newSVpv(p_statbuf->filename, 0)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->lsn)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->size)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->secsize)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->type)));
argvi += 7;
free (p_statbuf);
out: ;
}
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_ifs_stat_translate) {
{
iso9660_t *arg1 = (iso9660_t *) 0 ;
char *arg2 ;
IsoStat_t *result;
int argvi = 0;
dXSARGS;
if ((items < 2) || (items > 2)) {
SWIG_croak("Usage: ifs_stat_translate(p_iso,psz_path);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_t,0) < 0) {
SWIG_croak("Type error in argument 1 of ifs_stat_translate. Expected _p_iso9660_t");
}
}
arg2 = SvPV(ST(1),PL_na);
result = (IsoStat_t *)iso9660_ifs_stat_translate(arg1,(char const (*))arg2);
{
// result is of type IsoStatList_t
iso9660_stat_t *p_statbuf = result;
if (!result) goto out;
PPCODE:
/* Have perl compute the length of the string using strlen() */
XPUSHs(sv_2mortal(newSVpv(p_statbuf->filename, 0)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->lsn)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->size)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->secsize)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->type)));
argvi += 7;
free (p_statbuf);
out: ;
}
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_fs_readdir) {
{
CdIo_t *arg1 = (CdIo_t *) 0 ;
char *arg2 ;
IsoStatList_t *result;
int argvi = 0;
dXSARGS;
if ((items < 2) || (items > 2)) {
SWIG_croak("Usage: fs_readdir(p_cdio,psz_path);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_CdIo_t,0) < 0) {
SWIG_croak("Type error in argument 1 of fs_readdir. Expected _p_CdIo_t");
}
}
arg2 = SvPV(ST(1),PL_na);
result = (IsoStatList_t *)fs_readdir(arg1,(char const (*))arg2);
{
// result is of type IsoStatList_t
CdioList_t *p_entlist = result;
CdioListNode_t *p_entnode;
unsigned int num = 0;
if (!result) goto out;
PPCODE:
/* Figure out how many items in the array */
_CDIO_LIST_FOREACH (p_entnode, p_entlist) {
num +=5;
}
/* For each element in the array of strings, create a new
* mortalscalar, and stuff it into the above array. */
_CDIO_LIST_FOREACH (p_entnode, p_entlist) {
iso9660_stat_t *p_statbuf =
(iso9660_stat_t *) _cdio_list_node_data (p_entnode);
/* Have perl compute the length of the string using strlen() */
XPUSHs(sv_2mortal(newSVpv(p_statbuf->filename, 0)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->lsn)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->size)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->secsize)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->type)));
}
_cdio_list_free (p_entlist, true);
argvi += num + 2;
out: ;
}
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_ifs_readdir) {
{
iso9660_t *arg1 = (iso9660_t *) 0 ;
char *arg2 ;
IsoStatList_t *result;
int argvi = 0;
dXSARGS;
if ((items < 2) || (items > 2)) {
SWIG_croak("Usage: ifs_readdir(p_iso,psz_path);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_t,0) < 0) {
SWIG_croak("Type error in argument 1 of ifs_readdir. Expected _p_iso9660_t");
}
}
arg2 = SvPV(ST(1),PL_na);
result = (IsoStatList_t *)ifs_readdir(arg1,(char const (*))arg2);
{
// result is of type IsoStatList_t
CdioList_t *p_entlist = result;
CdioListNode_t *p_entnode;
unsigned int num = 0;
if (!result) goto out;
PPCODE:
/* Figure out how many items in the array */
_CDIO_LIST_FOREACH (p_entnode, p_entlist) {
num +=5;
}
/* For each element in the array of strings, create a new
* mortalscalar, and stuff it into the above array. */
_CDIO_LIST_FOREACH (p_entnode, p_entlist) {
iso9660_stat_t *p_statbuf =
(iso9660_stat_t *) _cdio_list_node_data (p_entnode);
/* Have perl compute the length of the string using strlen() */
XPUSHs(sv_2mortal(newSVpv(p_statbuf->filename, 0)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->lsn)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->size)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->secsize)));
XPUSHs(sv_2mortal(newSViv(p_statbuf->type)));
}
_cdio_list_free (p_entlist, true);
argvi += num + 2;
out: ;
}
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_get_application_id) {
{
iso9660_pvd_t *arg1 = (iso9660_pvd_t *) 0 ;
char *result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: get_application_id(p_pvd);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_pvd_t,0) < 0) {
SWIG_croak("Type error in argument 1 of get_application_id. Expected _p_iso9660_pvd_t");
}
}
result = (char *)iso9660_get_application_id(arg1);
ST(argvi) = sv_newmortal();
if (result) {
sv_setpv((SV*)ST(argvi++), (char *) result);
} else {
sv_setsv((SV*)ST(argvi++), &PL_sv_undef);
}
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_ifs_get_application_id) {
{
iso9660_t *arg1 = (iso9660_t *) 0 ;
char *result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: ifs_get_application_id(p_iso);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_t,0) < 0) {
SWIG_croak("Type error in argument 1 of ifs_get_application_id. Expected _p_iso9660_t");
}
}
result = (char *)ifs_get_application_id(arg1);
ST(argvi) = sv_newmortal();
if (result) {
sv_setpv((SV*)ST(argvi++), (char *) result);
} else {
sv_setsv((SV*)ST(argvi++), &PL_sv_undef);
}
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_get_joliet_level) {
{
iso9660_t *arg1 = (iso9660_t *) 0 ;
unsigned char result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: get_joliet_level(p_iso);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_t,0) < 0) {
SWIG_croak("Type error in argument 1 of get_joliet_level. Expected _p_iso9660_t");
}
}
result = (unsigned char)iso9660_ifs_get_joliet_level(arg1);
ST(argvi) = sv_newmortal();
sv_setuv(ST(argvi++), (UV) result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_get_dir_len) {
{
iso9660_dir_t *arg1 = (iso9660_dir_t *) 0 ;
unsigned char result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: get_dir_len(p_idr);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_dir_t,0) < 0) {
SWIG_croak("Type error in argument 1 of get_dir_len. Expected _p_iso9660_dir_t");
}
}
result = (unsigned char)iso9660_get_dir_len((iso9660_dir_t const *)arg1);
ST(argvi) = sv_newmortal();
sv_setuv(ST(argvi++), (UV) result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_iso9660_dir_to_name) {
{
iso9660_dir_t *arg1 = (iso9660_dir_t *) 0 ;
char *result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: iso9660_dir_to_name(p_iso9660_dir);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_dir_t,0) < 0) {
SWIG_croak("Type error in argument 1 of iso9660_dir_to_name. Expected _p_iso9660_dir_t");
}
}
result = (char *)iso9660_dir_to_name((iso9660_dir_t const *)arg1);
ST(argvi) = sv_newmortal();
if (result) {
sv_setpv((SV*)ST(argvi++), (char *) result);
} else {
sv_setsv((SV*)ST(argvi++), &PL_sv_undef);
}
free(result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_get_preparer_id) {
{
iso9660_pvd_t *arg1 = (iso9660_pvd_t *) 0 ;
char *result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: get_preparer_id(p_pvd);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_pvd_t,0) < 0) {
SWIG_croak("Type error in argument 1 of get_preparer_id. Expected _p_iso9660_pvd_t");
}
}
result = (char *)iso9660_get_preparer_id((iso9660_pvd_t const *)arg1);
ST(argvi) = sv_newmortal();
if (result) {
sv_setpv((SV*)ST(argvi++), (char *) result);
} else {
sv_setsv((SV*)ST(argvi++), &PL_sv_undef);
}
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_ifs_get_preparer_id) {
{
iso9660_t *arg1 = (iso9660_t *) 0 ;
char *result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: ifs_get_preparer_id(p_iso);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_t,0) < 0) {
SWIG_croak("Type error in argument 1 of ifs_get_preparer_id. Expected _p_iso9660_t");
}
}
result = (char *)ifs_get_preparer_id(arg1);
ST(argvi) = sv_newmortal();
if (result) {
sv_setpv((SV*)ST(argvi++), (char *) result);
} else {
sv_setsv((SV*)ST(argvi++), &PL_sv_undef);
}
free(result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_get_publisher_id) {
{
iso9660_pvd_t *arg1 = (iso9660_pvd_t *) 0 ;
char *result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: get_publisher_id(p_pvd);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_pvd_t,0) < 0) {
SWIG_croak("Type error in argument 1 of get_publisher_id. Expected _p_iso9660_pvd_t");
}
}
result = (char *)iso9660_get_publisher_id((iso9660_pvd_t const *)arg1);
ST(argvi) = sv_newmortal();
if (result) {
sv_setpv((SV*)ST(argvi++), (char *) result);
} else {
sv_setsv((SV*)ST(argvi++), &PL_sv_undef);
}
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_ifs_get_publisher_id) {
{
iso9660_t *arg1 = (iso9660_t *) 0 ;
char *result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: ifs_get_publisher_id(p_iso);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_t,0) < 0) {
SWIG_croak("Type error in argument 1 of ifs_get_publisher_id. Expected _p_iso9660_t");
}
}
result = (char *)ifs_get_publisher_id(arg1);
ST(argvi) = sv_newmortal();
if (result) {
sv_setpv((SV*)ST(argvi++), (char *) result);
} else {
sv_setsv((SV*)ST(argvi++), &PL_sv_undef);
}
free(result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_get_pvd_type) {
{
iso9660_pvd_t *arg1 = (iso9660_pvd_t *) 0 ;
unsigned char result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: get_pvd_type(p_pvd);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_pvd_t,0) < 0) {
SWIG_croak("Type error in argument 1 of get_pvd_type. Expected _p_iso9660_pvd_t");
}
}
result = (unsigned char)iso9660_get_pvd_type((iso9660_pvd_t const *)arg1);
ST(argvi) = sv_newmortal();
sv_setuv(ST(argvi++), (UV) result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_get_pvd_id) {
{
iso9660_pvd_t *arg1 = (iso9660_pvd_t *) 0 ;
char *result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: get_pvd_id(p_pvd);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_pvd_t,0) < 0) {
SWIG_croak("Type error in argument 1 of get_pvd_id. Expected _p_iso9660_pvd_t");
}
}
result = (char *)iso9660_get_pvd_id((iso9660_pvd_t const *)arg1);
ST(argvi) = sv_newmortal();
if (result) {
sv_setpv((SV*)ST(argvi++), (char *) result);
} else {
sv_setsv((SV*)ST(argvi++), &PL_sv_undef);
}
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_get_pvd_space_size) {
{
iso9660_pvd_t *arg1 = (iso9660_pvd_t *) 0 ;
int result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: get_pvd_space_size(p_pvd);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_pvd_t,0) < 0) {
SWIG_croak("Type error in argument 1 of get_pvd_space_size. Expected _p_iso9660_pvd_t");
}
}
result = (int)iso9660_get_pvd_space_size((iso9660_pvd_t const *)arg1);
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi++), (IV) result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_get_pvd_block_size) {
{
iso9660_pvd_t *arg1 = (iso9660_pvd_t *) 0 ;
int result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: get_pvd_block_size(p_pvd);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_pvd_t,0) < 0) {
SWIG_croak("Type error in argument 1 of get_pvd_block_size. Expected _p_iso9660_pvd_t");
}
}
result = (int)iso9660_get_pvd_block_size((iso9660_pvd_t const *)arg1);
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi++), (IV) result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_get_pvd_version) {
{
iso9660_pvd_t *arg1 = (iso9660_pvd_t *) 0 ;
int result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: get_pvd_version(pvd);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_pvd_t,0) < 0) {
SWIG_croak("Type error in argument 1 of get_pvd_version. Expected _p_iso9660_pvd_t");
}
}
result = (int)iso9660_get_pvd_version((iso9660_pvd_t const *)arg1);
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi++), (IV) result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_get_system_id) {
{
iso9660_pvd_t *arg1 = (iso9660_pvd_t *) 0 ;
char *result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: get_system_id(p_pvd);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_pvd_t,0) < 0) {
SWIG_croak("Type error in argument 1 of get_system_id. Expected _p_iso9660_pvd_t");
}
}
result = (char *)iso9660_get_system_id((iso9660_pvd_t const *)arg1);
ST(argvi) = sv_newmortal();
if (result) {
sv_setpv((SV*)ST(argvi++), (char *) result);
} else {
sv_setsv((SV*)ST(argvi++), &PL_sv_undef);
}
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_ifs_get_system_id) {
{
iso9660_t *arg1 = (iso9660_t *) 0 ;
char *result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: ifs_get_system_id(p_iso);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_t,0) < 0) {
SWIG_croak("Type error in argument 1 of ifs_get_system_id. Expected _p_iso9660_t");
}
}
result = (char *)ifs_get_system_id(arg1);
ST(argvi) = sv_newmortal();
if (result) {
sv_setpv((SV*)ST(argvi++), (char *) result);
} else {
sv_setsv((SV*)ST(argvi++), &PL_sv_undef);
}
free(result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_get_root_lsn) {
{
iso9660_pvd_t *arg1 = (iso9660_pvd_t *) 0 ;
lsn_t result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: get_root_lsn(p_pvd);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_pvd_t,0) < 0) {
SWIG_croak("Type error in argument 1 of get_root_lsn. Expected _p_iso9660_pvd_t");
}
}
result = (lsn_t)iso9660_get_root_lsn((iso9660_pvd_t const *)arg1);
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi++), (IV) result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_get_volume_id) {
{
iso9660_pvd_t *arg1 = (iso9660_pvd_t *) 0 ;
char *result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: get_volume_id(p_pvd);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_pvd_t,0) < 0) {
SWIG_croak("Type error in argument 1 of get_volume_id. Expected _p_iso9660_pvd_t");
}
}
result = (char *)iso9660_get_volume_id((iso9660_pvd_t const *)arg1);
ST(argvi) = sv_newmortal();
if (result) {
sv_setpv((SV*)ST(argvi++), (char *) result);
} else {
sv_setsv((SV*)ST(argvi++), &PL_sv_undef);
}
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_ifs_get_volume_id) {
{
iso9660_t *arg1 = (iso9660_t *) 0 ;
char *result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: ifs_get_volume_id(p_iso);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_t,0) < 0) {
SWIG_croak("Type error in argument 1 of ifs_get_volume_id. Expected _p_iso9660_t");
}
}
result = (char *)ifs_get_volume_id(arg1);
ST(argvi) = sv_newmortal();
if (result) {
sv_setpv((SV*)ST(argvi++), (char *) result);
} else {
sv_setsv((SV*)ST(argvi++), &PL_sv_undef);
}
free(result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_get_volumeset_id) {
{
iso9660_pvd_t *arg1 = (iso9660_pvd_t *) 0 ;
char *result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: get_volumeset_id(p_pvd);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_pvd_t,0) < 0) {
SWIG_croak("Type error in argument 1 of get_volumeset_id. Expected _p_iso9660_pvd_t");
}
}
result = (char *)iso9660_get_volumeset_id((iso9660_pvd_t const *)arg1);
ST(argvi) = sv_newmortal();
if (result) {
sv_setpv((SV*)ST(argvi++), (char *) result);
} else {
sv_setsv((SV*)ST(argvi++), &PL_sv_undef);
}
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_ifs_get_volumeset_id) {
{
iso9660_t *arg1 = (iso9660_t *) 0 ;
char *result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: ifs_get_volumeset_id(p_iso);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_t,0) < 0) {
SWIG_croak("Type error in argument 1 of ifs_get_volumeset_id. Expected _p_iso9660_t");
}
}
result = (char *)ifs_get_volumeset_id(arg1);
ST(argvi) = sv_newmortal();
if (result) {
sv_setpv((SV*)ST(argvi++), (char *) result);
} else {
sv_setsv((SV*)ST(argvi++), &PL_sv_undef);
}
free(result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_pathtable_init) {
{
void *arg1 = (void *) 0 ;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: pathtable_init(pt);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, 0,0) < 0) {
SWIG_croak("Type error in argument 1 of pathtable_init. Expected _p_void");
}
}
iso9660_pathtable_init(arg1);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_pathtable_get_size) {
{
void *arg1 = (void *) 0 ;
unsigned int result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: pathtable_get_size(pt);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, 0,0) < 0) {
SWIG_croak("Type error in argument 1 of pathtable_get_size. Expected _p_void");
}
}
result = (unsigned int)iso9660_pathtable_get_size((void const *)arg1);
ST(argvi) = sv_newmortal();
sv_setuv(ST(argvi++), (UV) result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_pathtable_l_add_entry) {
{
void *arg1 = (void *) 0 ;
char *arg2 ;
unsigned int arg3 ;
unsigned int arg4 ;
unsigned int result;
int argvi = 0;
dXSARGS;
if ((items < 4) || (items > 4)) {
SWIG_croak("Usage: pathtable_l_add_entry(pt,name,extent,parent);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, 0,0) < 0) {
SWIG_croak("Type error in argument 1 of pathtable_l_add_entry. Expected _p_void");
}
}
arg2 = SvPV(ST(1),PL_na);
arg3 = (unsigned int) SvUV(ST(2));
arg4 = (unsigned int) SvUV(ST(3));
result = (unsigned int)iso9660_pathtable_l_add_entry(arg1,(char const (*))arg2,arg3,arg4);
ST(argvi) = sv_newmortal();
sv_setuv(ST(argvi++), (UV) result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_pathtable_m_add_entry) {
{
void *arg1 = (void *) 0 ;
char *arg2 ;
unsigned int arg3 ;
unsigned int arg4 ;
unsigned int result;
int argvi = 0;
dXSARGS;
if ((items < 4) || (items > 4)) {
SWIG_croak("Usage: pathtable_m_add_entry(pt,name,extent,parent);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, 0,0) < 0) {
SWIG_croak("Type error in argument 1 of pathtable_m_add_entry. Expected _p_void");
}
}
arg2 = SvPV(ST(1),PL_na);
arg3 = (unsigned int) SvUV(ST(2));
arg4 = (unsigned int) SvUV(ST(3));
result = (unsigned int)iso9660_pathtable_m_add_entry(arg1,(char const (*))arg2,arg3,arg4);
ST(argvi) = sv_newmortal();
sv_setuv(ST(argvi++), (UV) result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_set_evd) {
{
void *arg1 = (void *) 0 ;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: set_evd(pd);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, 0,0) < 0) {
SWIG_croak("Type error in argument 1 of set_evd. Expected _p_void");
}
}
iso9660_set_evd(arg1);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
XS(_wrap_is_xa) {
{
iso9660_t *arg1 = (iso9660_t *) 0 ;
bool result;
int argvi = 0;
dXSARGS;
if ((items < 1) || (items > 1)) {
SWIG_croak("Usage: is_xa(p_iso);");
}
{
if (SWIG_ConvertPtr(ST(0), (void **) &arg1, SWIGTYPE_p_iso9660_t,0) < 0) {
SWIG_croak("Type error in argument 1 of is_xa. Expected _p_iso9660_t");
}
}
result = (bool)iso9660_ifs_is_xa((iso9660_t const *)arg1);
ST(argvi) = sv_newmortal();
sv_setiv(ST(argvi++), (IV) result);
XSRETURN(argvi);
fail:
;
}
croak(Nullch);
}
/* -------- TYPE CONVERSION AND EQUIVALENCE RULES (BEGIN) -------- */
static swig_type_info _swigt__p_size_t[] = {{"_p_size_t", 0, "size_t *", 0, 0, 0, 0},{"_p_size_t", 0, 0, 0, 0, 0, 0},{0, 0, 0, 0, 0, 0, 0}};
static swig_type_info _swigt__p_iso9660_ltime_t[] = {{"_p_iso9660_ltime_t", 0, "iso9660_ltime_t *", 0, 0, 0, 0},{"_p_iso9660_ltime_t", 0, 0, 0, 0, 0, 0},{0, 0, 0, 0, 0, 0, 0}};
static swig_type_info _swigt__p_iso9660_dtime_t[] = {{"_p_iso9660_dtime_t", 0, "iso9660_dtime_t *", 0, 0, 0, 0},{"_p_iso9660_dtime_t", 0, 0, 0, 0, 0, 0},{0, 0, 0, 0, 0, 0, 0}};
static swig_type_info _swigt__p_unsigned_char[] = {{"_p_unsigned_char", 0, "unsigned char *|iso_extension_mask_t *", 0, 0, 0, 0},{"_p_unsigned_char", 0, 0, 0, 0, 0, 0},{0, 0, 0, 0, 0, 0, 0}};
static swig_type_info _swigt__p_iso9660_t[] = {{"_p_iso9660_t", 0, "iso9660_t *", 0, 0, 0, 0},{"_p_iso9660_t", 0, 0, 0, 0, 0, 0},{0, 0, 0, 0, 0, 0, 0}};
static swig_type_info _swigt__p_unsigned_int[] = {{"_p_unsigned_int", 0, "unsigned int *|cdio_drive_misc_cap_t *", 0, 0, 0, 0},{"_p_unsigned_int", 0, 0, 0, 0, 0, 0},{0, 0, 0, 0, 0, 0, 0}};
static swig_type_info _swigt__p_cdio_read_mode_t[] = {{"_p_cdio_read_mode_t", 0, "enum cdio_read_mode_t *|cdio_read_mode_t *", 0, 0, 0, 0},{"_p_cdio_read_mode_t", 0, 0, 0, 0, 0, 0},{0, 0, 0, 0, 0, 0, 0}};
static swig_type_info _swigt__p_char[] = {{"_p_char", 0, "char *", 0, 0, 0, 0},{"_p_char", 0, 0, 0, 0, 0, 0},{0, 0, 0, 0, 0, 0, 0}};
static swig_type_info _swigt__p_CdIo_t[] = {{"_p_CdIo_t", 0, "CdIo_t *", 0, 0, 0, 0},{"_p_CdIo_t", 0, 0, 0, 0, 0, 0},{0, 0, 0, 0, 0, 0, 0}};
static swig_type_info _swigt__p_iso9660_stat_t[] = {{"_p_iso9660_stat_t", 0, "iso9660_stat_t *|IsoStat_t *", 0, 0, 0, 0},{"_p_iso9660_stat_t", 0, 0, 0, 0, 0, 0},{0, 0, 0, 0, 0, 0, 0}};
static swig_type_info _swigt__p_long[] = {{"_p_long", 0, "long *|my_ssize_t *", 0, 0, 0, 0},{"_p_long", 0, 0, 0, 0, 0, 0},{0, 0, 0, 0, 0, 0, 0}};
static swig_type_info _swigt__p_iso9660_pvd_t[] = {{"_p_iso9660_pvd_t", 0, "iso9660_pvd_t *", 0, 0, 0, 0},{"_p_iso9660_pvd_t", 0, 0, 0, 0, 0, 0},{0, 0, 0, 0, 0, 0, 0}};
static swig_type_info _swigt__p_CdioList_t[] = {{"_p_CdioList_t", 0, "CdioList_t *|IsoStatList_t *", 0, 0, 0, 0},{"_p_CdioList_t", 0, 0, 0, 0, 0, 0},{0, 0, 0, 0, 0, 0, 0}};
static swig_type_info _swigt__p_iso9660_dir_t[] = {{"_p_iso9660_dir_t", 0, "iso9660_dir_t *", 0, 0, 0, 0},{"_p_iso9660_dir_t", 0, 0, 0, 0, 0, 0},{0, 0, 0, 0, 0, 0, 0}};
static swig_type_info _swigt__p_int[] = {{"_p_int", 0, "int *", 0, 0, 0, 0},{"_p_int", 0, 0, 0, 0, 0, 0},{0, 0, 0, 0, 0, 0, 0}};
static swig_type_info *swig_types_initial[] = {
_swigt__p_size_t,
_swigt__p_iso9660_ltime_t,
_swigt__p_iso9660_dtime_t,
_swigt__p_unsigned_char,
_swigt__p_iso9660_t,
_swigt__p_unsigned_int,
_swigt__p_cdio_read_mode_t,
_swigt__p_char,
_swigt__p_CdIo_t,
_swigt__p_iso9660_stat_t,
_swigt__p_long,
_swigt__p_iso9660_pvd_t,
_swigt__p_CdioList_t,
_swigt__p_iso9660_dir_t,
_swigt__p_int,
0
};
/* -------- TYPE CONVERSION AND EQUIVALENCE RULES (END) -------- */
static swig_constant_info swig_constants[] = {
{ SWIG_INT, (char *) SWIG_prefix "VERSION_NUM", (long) LIBCDIO_VERSION_NUM, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "INVALID_LBA", (long) CDIO_INVALID_LBA, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "INVALID_LSN", (long) CDIO_INVALID_LSN, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "CD_FRAMESIZE", (long) CDIO_CD_FRAMESIZE, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "CD_FRAMESIZE_RAW", (long) CDIO_CD_FRAMESIZE_RAW, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "ISO_BLOCKSIZE", (long) CDIO_CD_FRAMESIZE, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "M2F2_SECTOR_SIZE", (long) M2F2_SECTOR_SIZE, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "M2RAW_SECTOR_SIZE", (long) M2RAW_SECTOR_SIZE, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "CDIO_READ_MODE_AUDIO", (long) CDIO_READ_MODE_AUDIO, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "CDIO_READ_MODE_M1F1", (long) CDIO_READ_MODE_M1F1, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "CDIO_READ_MODE_M1F2", (long) CDIO_READ_MODE_M1F2, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "CDIO_READ_MODE_M2F1", (long) CDIO_READ_MODE_M2F1, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "CDIO_READ_MODE_M2F2", (long) CDIO_READ_MODE_M2F2, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "PVD_SECTOR", (long) ISO_PVD_SECTOR, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "EVD_SECTOR", (long) ISO_EVD_SECTOR, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "LEN_ISONAME", (long) LEN_ISONAME, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "MAX_SYSTEM_ID", (long) ISO_MAX_SYSTEM_ID, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "MAX_ISONAME", (long) MAX_ISONAME, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "MAX_PREPARER_ID", (long) ISO_MAX_PREPARER_ID, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "MAX_ISOPATHNAME", (long) MAX_ISOPATHNAME, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "FILE", (long) ISO_FILE, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "EXISTENCE", (long) ISO_EXISTENCE, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "DIRECTORY", (long) ISO_DIRECTORY, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "ASSOCIATED", (long) ISO_ASSOCIATED, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "RECORD", (long) ISO_RECORD, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "PROTECTION", (long) 16, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "DRESERVED1", (long) ISO_DRESERVED1, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "DRESERVED2", (long) ISO_DRESERVED2, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "MULTIEXTENT", (long) ISO_MULTIEXTENT, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "VD_BOOT_RECORD", (long) ISO_VD_BOOT_RECORD, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "VD_PRIMARY", (long) ISO_VD_PRIMARY, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "VD_SUPPLEMENTARY", (long) ISO_VD_SUPPLEMENTARY, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "VD_PARITION", (long) ISO_VD_PARITION, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "VD_END", (long) ISO_VD_END, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "MAX_PUBLISHER_ID", (long) ISO_MAX_PUBLISHER_ID, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "MAX_APPLICATION_ID", (long) ISO_MAX_APPLICATION_ID, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "MAX_VOLUME_ID", (long) ISO_MAX_VOLUME_ID, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "MAX_VOLUMESET_ID", (long) ISO_MAX_VOLUMESET_ID, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "STANDARD_ID", (long) ISO_STANDARD_ID, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "NOCHECK", (long) ISO9660_NOCHECK, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "SEVEN_BIT", (long) ISO9660_7BIT, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "ACHARS", (long) ISO9660_ACHARS, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "DCHARS", (long) ISO9660_DCHARS, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "EXTENSION_JOLIET_LEVEL1", (long) ISO_EXTENSION_JOLIET_LEVEL1, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "EXTENSION_JOLIET_LEVEL2", (long) ISO_EXTENSION_JOLIET_LEVEL2, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "EXTENSION_JOLIET_LEVEL3", (long) ISO_EXTENSION_JOLIET_LEVEL3, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "EXTENSION_ROCK_RIDGE", (long) ISO_EXTENSION_ROCK_RIDGE, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "EXTENSION_HIGH_SIERRA", (long) ISO_EXTENSION_HIGH_SIERRA, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "EXTENSION_ALL", (long) ISO_EXTENSION_ALL, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "EXTENSION_NONE", (long) ISO_EXTENSION_NONE, 0, 0, 0},
{ SWIG_INT, (char *) SWIG_prefix "EXTENSION_JOLIET", (long) ISO_EXTENSION_JOLIET, 0, 0, 0},
{0,0,0,0,0,0}
};
#ifdef __cplusplus
}
#endif
static swig_variable_info swig_variables[] = {
{0,0,0,0}
};
static swig_command_info swig_commands[] = {
{"perliso9660c::cdio_read_sectors", _wrap_cdio_read_sectors},
{"perliso9660c::cdio_eject_media_drive", _wrap_cdio_eject_media_drive},
{"perliso9660c::open_iso", _wrap_open_iso},
{"perliso9660c::open_ext", _wrap_open_ext},
{"perliso9660c::open_fuzzy", _wrap_open_fuzzy},
{"perliso9660c::iso9660_open_fuzzy_ext", _wrap_iso9660_open_fuzzy_ext},
{"perliso9660c::ifs_fuzzy_read_superblock", _wrap_ifs_fuzzy_read_superblock},
{"perliso9660c::close", _wrap_close},
{"perliso9660c::seek_read", _wrap_seek_read},
{"perliso9660c::fs_read_pvd", _wrap_fs_read_pvd},
{"perliso9660c::ifs_read_pvd", _wrap_ifs_read_pvd},
{"perliso9660c::fs_read_superblock", _wrap_fs_read_superblock},
{"perliso9660c::ifs_read_superblock", _wrap_ifs_read_superblock},
{"perliso9660c::set_dtime", _wrap_set_dtime},
{"perliso9660c::set_ltime", _wrap_set_ltime},
{"perliso9660c::get_dtime", _wrap_get_dtime},
{"perliso9660c::get_ltime", _wrap_get_ltime},
{"perliso9660c::is_dchar", _wrap_is_dchar},
{"perliso9660c::is_achar", _wrap_is_achar},
{"perliso9660c::name_translate", _wrap_name_translate},
{"perliso9660c::name_translate_ext", _wrap_name_translate_ext},
{"perliso9660c::strncpy_pad", _wrap_strncpy_pad},
{"perliso9660c::dirname_valid_p", _wrap_dirname_valid_p},
{"perliso9660c::pathname_isofy", _wrap_pathname_isofy},
{"perliso9660c::pathname_valid_p", _wrap_pathname_valid_p},
{"perliso9660c::fs_find_lsn", _wrap_fs_find_lsn},
{"perliso9660c::fs_stat", _wrap_fs_stat},
{"perliso9660c::fs_stat_translate", _wrap_fs_stat_translate},
{"perliso9660c::ifs_stat", _wrap_ifs_stat},
{"perliso9660c::ifs_stat_translate", _wrap_ifs_stat_translate},
{"perliso9660c::fs_readdir", _wrap_fs_readdir},
{"perliso9660c::ifs_readdir", _wrap_ifs_readdir},
{"perliso9660c::get_application_id", _wrap_get_application_id},
{"perliso9660c::ifs_get_application_id", _wrap_ifs_get_application_id},
{"perliso9660c::get_joliet_level", _wrap_get_joliet_level},
{"perliso9660c::get_dir_len", _wrap_get_dir_len},
{"perliso9660c::iso9660_dir_to_name", _wrap_iso9660_dir_to_name},
{"perliso9660c::get_preparer_id", _wrap_get_preparer_id},
{"perliso9660c::ifs_get_preparer_id", _wrap_ifs_get_preparer_id},
{"perliso9660c::get_publisher_id", _wrap_get_publisher_id},
{"perliso9660c::ifs_get_publisher_id", _wrap_ifs_get_publisher_id},
{"perliso9660c::get_pvd_type", _wrap_get_pvd_type},
{"perliso9660c::get_pvd_id", _wrap_get_pvd_id},
{"perliso9660c::get_pvd_space_size", _wrap_get_pvd_space_size},
{"perliso9660c::get_pvd_block_size", _wrap_get_pvd_block_size},
{"perliso9660c::get_pvd_version", _wrap_get_pvd_version},
{"perliso9660c::get_system_id", _wrap_get_system_id},
{"perliso9660c::ifs_get_system_id", _wrap_ifs_get_system_id},
{"perliso9660c::get_root_lsn", _wrap_get_root_lsn},
{"perliso9660c::get_volume_id", _wrap_get_volume_id},
{"perliso9660c::ifs_get_volume_id", _wrap_ifs_get_volume_id},
{"perliso9660c::get_volumeset_id", _wrap_get_volumeset_id},
{"perliso9660c::ifs_get_volumeset_id", _wrap_ifs_get_volumeset_id},
{"perliso9660c::pathtable_init", _wrap_pathtable_init},
{"perliso9660c::pathtable_get_size", _wrap_pathtable_get_size},
{"perliso9660c::pathtable_l_add_entry", _wrap_pathtable_l_add_entry},
{"perliso9660c::pathtable_m_add_entry", _wrap_pathtable_m_add_entry},
{"perliso9660c::set_evd", _wrap_set_evd},
{"perliso9660c::is_xa", _wrap_is_xa},
{0,0}
};
static void SWIG_Perl_SetTypeListHandle(swig_type_info **handle) {
SV *pointer;
/* create a new pointer */
pointer = get_sv("swig_runtime_data::type_pointer" SWIG_RUNTIME_VERSION SWIG_TYPE_TABLE_NAME, TRUE);
sv_setiv(pointer, PTR2IV(swig_type_list_handle));
}
static swig_type_info **
SWIG_Perl_LookupTypePointer(swig_type_info **type_list_handle) {
swig_type_info **type_pointer;
/* first check if module already created */
type_pointer = SWIG_Perl_GetTypeListHandle();
if (type_pointer) {
return type_pointer;
} else {
/* create a new module and variable */
SWIG_Perl_SetTypeListHandle(type_list_handle);
return type_list_handle;
}
}
#ifdef __cplusplus
extern "C"
#endif
XS(SWIG_init) {
dXSARGS;
int i;
static int _init = 0;
if (!_init) {
swig_type_list_handle = SWIG_Perl_LookupTypePointer(swig_type_list_handle);
for (i = 0; swig_types_initial[i]; i++) {
swig_types[i] = SWIG_TypeRegister(swig_types_initial[i]);
}
_init = 1;
}
/* Install commands */
for (i = 0; swig_commands[i].name; i++) {
newXS((char*) swig_commands[i].name,swig_commands[i].wrapper, (char*)__FILE__);
}
/* Install variables */
for (i = 0; swig_variables[i].name; i++) {
SV *sv;
sv = perl_get_sv((char*) swig_variables[i].name, TRUE | 0x2);
if (swig_variables[i].type) {
SWIG_MakePtr(sv,(void *)1, *swig_variables[i].type,0);
} else {
sv_setiv(sv,(IV) 0);
}
swig_create_magic(sv, (char *) swig_variables[i].name, swig_variables[i].set, swig_variables[i].get);
}
/* Install constant */
for (i = 0; swig_constants[i].type; i++) {
SV *sv;
sv = perl_get_sv((char*)swig_constants[i].name, TRUE | 0x2);
switch(swig_constants[i].type) {
case SWIG_INT:
sv_setiv(sv, (IV) swig_constants[i].lvalue);
break;
case SWIG_FLOAT:
sv_setnv(sv, (double) swig_constants[i].dvalue);
break;
case SWIG_STRING:
sv_setpv(sv, (char *) swig_constants[i].pvalue);
break;
case SWIG_POINTER:
SWIG_MakePtr(sv, swig_constants[i].pvalue, *(swig_constants[i].ptype),0);
break;
case SWIG_BINARY:
SWIG_MakePackedObj(sv, swig_constants[i].pvalue, swig_constants[i].lvalue, *(swig_constants[i].ptype));
break;
default:
break;
}
SvREADONLY_on(sv);
}
ST(0) = &PL_sv_yes;
XSRETURN(1);
}
|