1 /* ----------------------------------------------------------------------------
2 * This file was automatically generated by SWIG (http://www.swig.org).
5 * This file is not intended to be easily readable and contains a number of
6 * coding conventions designed to improve portability and efficiency. Do not make
7 * changes to this file unless you know what you are doing--modify the SWIG
8 * interface file instead.
9 * ----------------------------------------------------------------------------- */
12 #define SWIG_CASTRANK_MODE
14 /* -----------------------------------------------------------------------------
15 * This section contains generic SWIG labels for method/variable
16 * declarations/attributes, and other compiler dependent labels.
17 * ----------------------------------------------------------------------------- */
19 /* template workaround for compilers that cannot correctly implement the C++ standard */
20 #ifndef SWIGTEMPLATEDISAMBIGUATOR
21 # if defined(__SUNPRO_CC) && (__SUNPRO_CC <= 0x560)
22 # define SWIGTEMPLATEDISAMBIGUATOR template
23 # elif defined(__HP_aCC)
24 /* Needed even with `aCC -AA' when `aCC -V' reports HP ANSI C++ B3910B A.03.55 */
25 /* If we find a maximum version that requires this, the test would be __HP_aCC <= 35500 for A.03.55 */
26 # define SWIGTEMPLATEDISAMBIGUATOR template
28 # define SWIGTEMPLATEDISAMBIGUATOR
32 /* inline attribute */
34 # if defined(__cplusplus) || (defined(__GNUC__) && !defined(__STRICT_ANSI__))
35 # define SWIGINLINE inline
41 /* attribute recognised by some compilers to avoid 'unused' warnings */
43 # if defined(__GNUC__)
44 # if !(defined(__cplusplus)) || (__GNUC__ > 3 || (__GNUC__ == 3 && __GNUC_MINOR__ >= 4))
45 # define SWIGUNUSED __attribute__ ((__unused__))
50 # define SWIGUNUSED __attribute__ ((__unused__))
56 #ifndef SWIG_MSC_UNSUPPRESS_4505
57 # if defined(_MSC_VER)
58 # pragma warning(disable : 4505) /* unreferenced local function has been removed */
62 #ifndef SWIGUNUSEDPARM
64 # define SWIGUNUSEDPARM(p)
66 # define SWIGUNUSEDPARM(p) p SWIGUNUSED
70 /* internal SWIG method */
72 # define SWIGINTERN static SWIGUNUSED
75 /* internal inline SWIG method */
76 #ifndef SWIGINTERNINLINE
77 # define SWIGINTERNINLINE SWIGINTERN SWIGINLINE
80 /* exporting methods */
81 #if (__GNUC__ >= 4) || (__GNUC__ == 3 && __GNUC_MINOR__ >= 4)
82 # ifndef GCC_HASCLASSVISIBILITY
83 # define GCC_HASCLASSVISIBILITY
88 # if defined(_WIN32) || defined(__WIN32__) || defined(__CYGWIN__)
89 # if defined(STATIC_LINKED)
92 # define SWIGEXPORT __declspec(dllexport)
95 # if defined(__GNUC__) && defined(GCC_HASCLASSVISIBILITY)
96 # define SWIGEXPORT __attribute__ ((visibility("default")))
103 /* calling conventions for Windows */
105 # if defined(_WIN32) || defined(__WIN32__) || defined(__CYGWIN__)
106 # define SWIGSTDCALL __stdcall
112 /* Deal with Microsoft's attempt at deprecating C standard runtime functions */
113 #if !defined(SWIG_NO_CRT_SECURE_NO_DEPRECATE) && defined(_MSC_VER) && !defined(_CRT_SECURE_NO_DEPRECATE)
114 # define _CRT_SECURE_NO_DEPRECATE
117 /* Deal with Microsoft's attempt at deprecating methods in the standard C++ library */
118 #if !defined(SWIG_NO_SCL_SECURE_NO_DEPRECATE) && defined(_MSC_VER) && !defined(_SCL_SECURE_NO_DEPRECATE)
119 # define _SCL_SECURE_NO_DEPRECATE
123 /* -----------------------------------------------------------------------------
126 * This file contains generic C API SWIG runtime support for pointer
128 * ----------------------------------------------------------------------------- */
130 /* This should only be incremented when either the layout of swig_type_info changes,
131 or for whatever reason, the runtime changes incompatibly */
132 #define SWIG_RUNTIME_VERSION "4"
134 /* define SWIG_TYPE_TABLE_NAME as "SWIG_TYPE_TABLE" */
135 #ifdef SWIG_TYPE_TABLE
136 # define SWIG_QUOTE_STRING(x) #x
137 # define SWIG_EXPAND_AND_QUOTE_STRING(x) SWIG_QUOTE_STRING(x)
138 # define SWIG_TYPE_TABLE_NAME SWIG_EXPAND_AND_QUOTE_STRING(SWIG_TYPE_TABLE)
140 # define SWIG_TYPE_TABLE_NAME
144 You can use the SWIGRUNTIME and SWIGRUNTIMEINLINE macros for
145 creating a static or dynamic library from the SWIG runtime code.
146 In 99.9% of the cases, SWIG just needs to declare them as 'static'.
148 But only do this if strictly necessary, ie, if you have problems
149 with your compiler or suchlike.
153 # define SWIGRUNTIME SWIGINTERN
156 #ifndef SWIGRUNTIMEINLINE
157 # define SWIGRUNTIMEINLINE SWIGRUNTIME SWIGINLINE
160 /* Generic buffer size */
161 #ifndef SWIG_BUFFER_SIZE
162 # define SWIG_BUFFER_SIZE 1024
165 /* Flags for pointer conversions */
166 #define SWIG_POINTER_DISOWN 0x1
167 #define SWIG_CAST_NEW_MEMORY 0x2
169 /* Flags for new pointer objects */
170 #define SWIG_POINTER_OWN 0x1
174 Flags/methods for returning states.
176 The SWIG conversion methods, as ConvertPtr, return and integer
177 that tells if the conversion was successful or not. And if not,
178 an error code can be returned (see swigerrors.swg for the codes).
180 Use the following macros/flags to set or process the returning
183 In old versions of SWIG, code such as the following was usually written:
185 if (SWIG_ConvertPtr(obj,vptr,ty.flags) != -1) {
191 Now you can be more explicit:
193 int res = SWIG_ConvertPtr(obj,vptr,ty.flags);
194 if (SWIG_IsOK(res)) {
200 which is the same really, but now you can also do
203 int res = SWIG_ConvertPtr(obj,(void **)(&ptr),ty.flags);
204 if (SWIG_IsOK(res)) {
206 if (SWIG_IsNewObj(res) {
216 I.e., now SWIG_ConvertPtr can return new objects and you can
217 identify the case and take care of the deallocation. Of course that
218 also requires SWIG_ConvertPtr to return new result values, such as
220 int SWIG_ConvertPtr(obj, ptr,...) {
222 if (<need new object>) {
223 *ptr = <ptr to new allocated object>;
226 *ptr = <ptr to old object>;
234 Of course, returning the plain '0(success)/-1(fail)' still works, but you can be
235 more explicit by returning SWIG_BADOBJ, SWIG_ERROR or any of the
238 Finally, if the SWIG_CASTRANK_MODE is enabled, the result code
239 allows to return the 'cast rank', for example, if you have this
246 food(1) // cast rank '1' (1 -> 1.0)
247 fooi(1) // cast rank '0'
249 just use the SWIG_AddCast()/SWIG_CheckState()
253 #define SWIG_ERROR (-1)
254 #define SWIG_IsOK(r) (r >= 0)
255 #define SWIG_ArgError(r) ((r != SWIG_ERROR) ? r : SWIG_TypeError)
257 /* The CastRankLimit says how many bits are used for the cast rank */
258 #define SWIG_CASTRANKLIMIT (1 << 8)
259 /* The NewMask denotes the object was created (using new/malloc) */
260 #define SWIG_NEWOBJMASK (SWIG_CASTRANKLIMIT << 1)
261 /* The TmpMask is for in/out typemaps that use temporal objects */
262 #define SWIG_TMPOBJMASK (SWIG_NEWOBJMASK << 1)
263 /* Simple returning values */
264 #define SWIG_BADOBJ (SWIG_ERROR)
265 #define SWIG_OLDOBJ (SWIG_OK)
266 #define SWIG_NEWOBJ (SWIG_OK | SWIG_NEWOBJMASK)
267 #define SWIG_TMPOBJ (SWIG_OK | SWIG_TMPOBJMASK)
268 /* Check, add and del mask methods */
269 #define SWIG_AddNewMask(r) (SWIG_IsOK(r) ? (r | SWIG_NEWOBJMASK) : r)
270 #define SWIG_DelNewMask(r) (SWIG_IsOK(r) ? (r & ~SWIG_NEWOBJMASK) : r)
271 #define SWIG_IsNewObj(r) (SWIG_IsOK(r) && (r & SWIG_NEWOBJMASK))
272 #define SWIG_AddTmpMask(r) (SWIG_IsOK(r) ? (r | SWIG_TMPOBJMASK) : r)
273 #define SWIG_DelTmpMask(r) (SWIG_IsOK(r) ? (r & ~SWIG_TMPOBJMASK) : r)
274 #define SWIG_IsTmpObj(r) (SWIG_IsOK(r) && (r & SWIG_TMPOBJMASK))
277 #if defined(SWIG_CASTRANK_MODE)
278 # ifndef SWIG_TypeRank
279 # define SWIG_TypeRank unsigned long
281 # ifndef SWIG_MAXCASTRANK /* Default cast allowed */
282 # define SWIG_MAXCASTRANK (2)
284 # define SWIG_CASTRANKMASK ((SWIG_CASTRANKLIMIT) -1)
285 # define SWIG_CastRank(r) (r & SWIG_CASTRANKMASK)
286 SWIGINTERNINLINE int SWIG_AddCast(int r) {
287 return SWIG_IsOK(r) ? ((SWIG_CastRank(r) < SWIG_MAXCASTRANK) ? (r + 1) : SWIG_ERROR) : r;
289 SWIGINTERNINLINE int SWIG_CheckState(int r) {
290 return SWIG_IsOK(r) ? SWIG_CastRank(r) + 1 : 0;
292 #else /* no cast-rank mode */
293 # define SWIG_AddCast
294 # define SWIG_CheckState(r) (SWIG_IsOK(r) ? 1 : 0)
304 typedef void *(*swig_converter_func)(void *, int *);
305 typedef struct swig_type_info *(*swig_dycast_func)(void **);
307 /* Structure to store information on one type */
308 typedef struct swig_type_info {
309 const char *name; /* mangled name of this type */
310 const char *str; /* human readable name of this type */
311 swig_dycast_func dcast; /* dynamic cast function down a hierarchy */
312 struct swig_cast_info *cast; /* linked list of types that can cast into this type */
313 void *clientdata; /* language specific type data */
314 int owndata; /* flag if the structure owns the clientdata */
317 /* Structure to store a type and conversion function used for casting */
318 typedef struct swig_cast_info {
319 swig_type_info *type; /* pointer to type that is equivalent to this type */
320 swig_converter_func converter; /* function to cast the void pointers */
321 struct swig_cast_info *next; /* pointer to next cast in linked list */
322 struct swig_cast_info *prev; /* pointer to the previous cast */
325 /* Structure used to store module information
326 * Each module generates one structure like this, and the runtime collects
327 * all of these structures and stores them in a circularly linked list.*/
328 typedef struct swig_module_info {
329 swig_type_info **types; /* Array of pointers to swig_type_info structures that are in this module */
330 size_t size; /* Number of types in this module */
331 struct swig_module_info *next; /* Pointer to next element in circularly linked list */
332 swig_type_info **type_initial; /* Array of initially generated type structures */
333 swig_cast_info **cast_initial; /* Array of initially generated casting structures */
334 void *clientdata; /* Language specific module data */
338 Compare two type names skipping the space characters, therefore
339 "char*" == "char *" and "Class<int>" == "Class<int >", etc.
341 Return 0 when the two name types are equivalent, as in
342 strncmp, but skipping ' '.
345 SWIG_TypeNameComp(const char *f1, const char *l1,
346 const char *f2, const char *l2) {
347 for (;(f1 != l1) && (f2 != l2); ++f1, ++f2) {
348 while ((*f1 == ' ') && (f1 != l1)) ++f1;
349 while ((*f2 == ' ') && (f2 != l2)) ++f2;
350 if (*f1 != *f2) return (*f1 > *f2) ? 1 : -1;
352 return (int)((l1 - f1) - (l2 - f2));
356 Check type equivalence in a name list like <name1>|<name2>|...
357 Return 0 if not equal, 1 if equal
360 SWIG_TypeEquiv(const char *nb, const char *tb) {
362 const char* te = tb + strlen(tb);
364 while (!equiv && *ne) {
365 for (nb = ne; *ne; ++ne) {
366 if (*ne == '|') break;
368 equiv = (SWIG_TypeNameComp(nb, ne, tb, te) == 0) ? 1 : 0;
375 Check type equivalence in a name list like <name1>|<name2>|...
376 Return 0 if equal, -1 if nb < tb, 1 if nb > tb
379 SWIG_TypeCompare(const char *nb, const char *tb) {
381 const char* te = tb + strlen(tb);
383 while (!equiv && *ne) {
384 for (nb = ne; *ne; ++ne) {
385 if (*ne == '|') break;
387 equiv = (SWIG_TypeNameComp(nb, ne, tb, te) == 0) ? 1 : 0;
397 SWIGRUNTIME swig_cast_info *
398 SWIG_TypeCheck(const char *c, swig_type_info *ty) {
400 swig_cast_info *iter = ty->cast;
402 if (strcmp(iter->type->name, c) == 0) {
403 if (iter == ty->cast)
405 /* Move iter to the top of the linked list */
406 iter->prev->next = iter->next;
408 iter->next->prev = iter->prev;
409 iter->next = ty->cast;
411 if (ty->cast) ty->cast->prev = iter;
422 Identical to SWIG_TypeCheck, except strcmp is replaced with a pointer comparison
424 SWIGRUNTIME swig_cast_info *
425 SWIG_TypeCheckStruct(swig_type_info *from, swig_type_info *ty) {
427 swig_cast_info *iter = ty->cast;
429 if (iter->type == from) {
430 if (iter == ty->cast)
432 /* Move iter to the top of the linked list */
433 iter->prev->next = iter->next;
435 iter->next->prev = iter->prev;
436 iter->next = ty->cast;
438 if (ty->cast) ty->cast->prev = iter;
449 Cast a pointer up an inheritance hierarchy
451 SWIGRUNTIMEINLINE void *
452 SWIG_TypeCast(swig_cast_info *ty, void *ptr, int *newmemory) {
453 return ((!ty) || (!ty->converter)) ? ptr : (*ty->converter)(ptr, newmemory);
457 Dynamic pointer casting. Down an inheritance hierarchy
459 SWIGRUNTIME swig_type_info *
460 SWIG_TypeDynamicCast(swig_type_info *ty, void **ptr) {
461 swig_type_info *lastty = ty;
462 if (!ty || !ty->dcast) return ty;
463 while (ty && (ty->dcast)) {
464 ty = (*ty->dcast)(ptr);
471 Return the name associated with this type
473 SWIGRUNTIMEINLINE const char *
474 SWIG_TypeName(const swig_type_info *ty) {
479 Return the pretty name associated with this type,
480 that is an unmangled type name in a form presentable to the user.
482 SWIGRUNTIME const char *
483 SWIG_TypePrettyName(const swig_type_info *type) {
484 /* The "str" field contains the equivalent pretty names of the
485 type, separated by vertical-bar characters. We choose
486 to print the last name, as it is often (?) the most
488 if (!type) return NULL;
489 if (type->str != NULL) {
490 const char *last_name = type->str;
492 for (s = type->str; *s; s++)
493 if (*s == '|') last_name = s+1;
501 Set the clientdata field for a type
504 SWIG_TypeClientData(swig_type_info *ti, void *clientdata) {
505 swig_cast_info *cast = ti->cast;
506 /* if (ti->clientdata == clientdata) return; */
507 ti->clientdata = clientdata;
510 if (!cast->converter) {
511 swig_type_info *tc = cast->type;
512 if (!tc->clientdata) {
513 SWIG_TypeClientData(tc, clientdata);
520 SWIG_TypeNewClientData(swig_type_info *ti, void *clientdata) {
521 SWIG_TypeClientData(ti, clientdata);
526 Search for a swig_type_info structure only by mangled name
527 Search is a O(log #types)
529 We start searching at module start, and finish searching when start == end.
530 Note: if start == end at the beginning of the function, we go all the way around
533 SWIGRUNTIME swig_type_info *
534 SWIG_MangledTypeQueryModule(swig_module_info *start,
535 swig_module_info *end,
537 swig_module_info *iter = start;
540 register size_t l = 0;
541 register size_t r = iter->size - 1;
543 /* since l+r >= 0, we can (>> 1) instead (/ 2) */
544 register size_t i = (l + r) >> 1;
545 const char *iname = iter->types[i]->name;
547 register int compare = strcmp(name, iname);
549 return iter->types[i];
550 } else if (compare < 0) {
556 } else if (compare > 0) {
560 break; /* should never happen */
565 } while (iter != end);
570 Search for a swig_type_info structure for either a mangled name or a human readable name.
571 It first searches the mangled names of the types, which is a O(log #types)
572 If a type is not found it then searches the human readable names, which is O(#types).
574 We start searching at module start, and finish searching when start == end.
575 Note: if start == end at the beginning of the function, we go all the way around
578 SWIGRUNTIME swig_type_info *
579 SWIG_TypeQueryModule(swig_module_info *start,
580 swig_module_info *end,
582 /* STEP 1: Search the name field using binary search */
583 swig_type_info *ret = SWIG_MangledTypeQueryModule(start, end, name);
587 /* STEP 2: If the type hasn't been found, do a complete search
588 of the str field (the human readable name) */
589 swig_module_info *iter = start;
591 register size_t i = 0;
592 for (; i < iter->size; ++i) {
593 if (iter->types[i]->str && (SWIG_TypeEquiv(iter->types[i]->str, name)))
594 return iter->types[i];
597 } while (iter != end);
600 /* neither found a match */
605 Pack binary data into a string
608 SWIG_PackData(char *c, void *ptr, size_t sz) {
609 static const char hex[17] = "0123456789abcdef";
610 register const unsigned char *u = (unsigned char *) ptr;
611 register const unsigned char *eu = u + sz;
612 for (; u != eu; ++u) {
613 register unsigned char uu = *u;
614 *(c++) = hex[(uu & 0xf0) >> 4];
615 *(c++) = hex[uu & 0xf];
621 Unpack binary data from a string
623 SWIGRUNTIME const char *
624 SWIG_UnpackData(const char *c, void *ptr, size_t sz) {
625 register unsigned char *u = (unsigned char *) ptr;
626 register const unsigned char *eu = u + sz;
627 for (; u != eu; ++u) {
628 register char d = *(c++);
629 register unsigned char uu;
630 if ((d >= '0') && (d <= '9'))
631 uu = ((d - '0') << 4);
632 else if ((d >= 'a') && (d <= 'f'))
633 uu = ((d - ('a'-10)) << 4);
637 if ((d >= '0') && (d <= '9'))
639 else if ((d >= 'a') && (d <= 'f'))
640 uu |= (d - ('a'-10));
649 Pack 'void *' into a string buffer.
652 SWIG_PackVoidPtr(char *buff, void *ptr, const char *name, size_t bsz) {
654 if ((2*sizeof(void *) + 2) > bsz) return 0;
656 r = SWIG_PackData(r,&ptr,sizeof(void *));
657 if (strlen(name) + 1 > (bsz - (r - buff))) return 0;
662 SWIGRUNTIME const char *
663 SWIG_UnpackVoidPtr(const char *c, void **ptr, const char *name) {
665 if (strcmp(c,"NULL") == 0) {
672 return SWIG_UnpackData(++c,ptr,sizeof(void *));
676 SWIG_PackDataName(char *buff, void *ptr, size_t sz, const char *name, size_t bsz) {
678 size_t lname = (name ? strlen(name) : 0);
679 if ((2*sz + 2 + lname) > bsz) return 0;
681 r = SWIG_PackData(r,ptr,sz);
683 strncpy(r,name,lname+1);
690 SWIGRUNTIME const char *
691 SWIG_UnpackDataName(const char *c, void *ptr, size_t sz, const char *name) {
693 if (strcmp(c,"NULL") == 0) {
700 return SWIG_UnpackData(++c,ptr,sz);
708 #define SWIG_UnknownError -1
709 #define SWIG_IOError -2
710 #define SWIG_RuntimeError -3
711 #define SWIG_IndexError -4
712 #define SWIG_TypeError -5
713 #define SWIG_DivisionByZero -6
714 #define SWIG_OverflowError -7
715 #define SWIG_SyntaxError -8
716 #define SWIG_ValueError -9
717 #define SWIG_SystemError -10
718 #define SWIG_AttributeError -11
719 #define SWIG_MemoryError -12
720 #define SWIG_NullReferenceError -13
725 /* Needed on some windows machines---since MS plays funny games with the header files under C++ */
734 /* Add in functionality missing in older versions of Perl. Much of this is based on Devel-PPPort on cpan. */
736 /* Add PERL_REVISION, PERL_VERSION, PERL_SUBVERSION if missing */
737 #ifndef PERL_REVISION
738 # if !defined(__PATCHLEVEL_H_INCLUDED__) && !(defined(PATCHLEVEL) && defined(SUBVERSION))
739 # define PERL_PATCHLEVEL_H_IMPLICIT
740 # include <patchlevel.h>
742 # if !(defined(PERL_VERSION) || (defined(SUBVERSION) && defined(PATCHLEVEL)))
743 # include <could_not_find_Perl_patchlevel.h>
745 # ifndef PERL_REVISION
746 # define PERL_REVISION (5)
747 # define PERL_VERSION PATCHLEVEL
748 # define PERL_SUBVERSION SUBVERSION
752 #if defined(WIN32) && defined(PERL_OBJECT) && !defined(PerlIO_exportFILE)
753 #define PerlIO_exportFILE(fh,fl) (FILE*)(fh)
757 # define SvIOK_UV(sv) (SvIOK(sv) && (SvUVX(sv) == SvIVX(sv)))
761 # define SvUOK(sv) SvIOK_UV(sv)
764 #if ((PERL_VERSION < 4) || ((PERL_VERSION == 4) && (PERL_SUBVERSION <= 5)))
765 # define PL_sv_undef sv_undef
767 # define PL_errgv errgv
768 # define PL_sv_no sv_no
769 # define PL_sv_yes sv_yes
770 # define PL_markstack_ptr markstack_ptr
775 # define IVSIZE LONGSIZE
777 # define IVSIZE 4 /* A bold guess, but the best we can make. */
782 # if (IVSIZE == PTRSIZE) && (UVSIZE == PTRSIZE)
784 # define INT2PTR(any,d) (any)(d)
786 # if PTRSIZE == LONGSIZE
787 # define PTRV unsigned long
789 # define PTRV unsigned
791 # define INT2PTR(any,d) (any)(PTRV)(d)
794 # define NUM2PTR(any,d) (any)(PTRV)(d)
795 # define PTR2IV(p) INT2PTR(IV,p)
796 # define PTR2UV(p) INT2PTR(UV,p)
797 # define PTR2NV(p) NUM2PTR(NV,p)
799 # if PTRSIZE == LONGSIZE
800 # define PTR2ul(p) (unsigned long)(p)
802 # define PTR2ul(p) INT2PTR(unsigned long,p)
804 #endif /* !INT2PTR */
807 # define SvPV_nolen(x) SvPV(x,PL_na)
811 # define get_sv perl_get_sv
815 # define ERRSV get_sv("@",FALSE)
827 /* -----------------------------------------------------------------------------
829 * ----------------------------------------------------------------------------- */
831 SWIGINTERN const char*
832 SWIG_Perl_ErrorType(int code) {
833 const char* type = 0;
835 case SWIG_MemoryError:
836 type = "MemoryError";
841 case SWIG_RuntimeError:
842 type = "RuntimeError";
844 case SWIG_IndexError:
850 case SWIG_DivisionByZero:
851 type = "ZeroDivisionError";
853 case SWIG_OverflowError:
854 type = "OverflowError";
856 case SWIG_SyntaxError:
857 type = "SyntaxError";
859 case SWIG_ValueError:
862 case SWIG_SystemError:
863 type = "SystemError";
865 case SWIG_AttributeError:
866 type = "AttributeError";
869 type = "RuntimeError";
877 /* -----------------------------------------------------------------------------
880 * This file contains the runtime support for Perl modules
881 * and includes code for managing global variables and pointer
883 * ----------------------------------------------------------------------------- */
886 #define SWIG_PERL_OBJECT_DECL CPerlObj *SWIGUNUSEDPARM(pPerl),
887 #define SWIG_PERL_OBJECT_CALL pPerl,
889 #define SWIG_PERL_OBJECT_DECL
890 #define SWIG_PERL_OBJECT_CALL
893 /* Common SWIG API */
895 /* for raw pointers */
896 #define SWIG_ConvertPtr(obj, pp, type, flags) SWIG_Perl_ConvertPtr(SWIG_PERL_OBJECT_CALL obj, pp, type, flags)
897 #define SWIG_NewPointerObj(p, type, flags) SWIG_Perl_NewPointerObj(SWIG_PERL_OBJECT_CALL p, type, flags)
899 /* for raw packed data */
900 #define SWIG_ConvertPacked(obj, p, s, type) SWIG_Perl_ConvertPacked(SWIG_PERL_OBJECT_CALL obj, p, s, type)
901 #define SWIG_NewPackedObj(p, s, type) SWIG_Perl_NewPackedObj(SWIG_PERL_OBJECT_CALL p, s, type)
903 /* for class or struct pointers */
904 #define SWIG_ConvertInstance(obj, pptr, type, flags) SWIG_ConvertPtr(obj, pptr, type, flags)
905 #define SWIG_NewInstanceObj(ptr, type, flags) SWIG_NewPointerObj(ptr, type, flags)
907 /* for C or C++ function pointers */
908 #define SWIG_ConvertFunctionPtr(obj, pptr, type) SWIG_ConvertPtr(obj, pptr, type, 0)
909 #define SWIG_NewFunctionPtrObj(ptr, type) SWIG_NewPointerObj(ptr, type, 0)
911 /* for C++ member pointers, ie, member methods */
912 #define SWIG_ConvertMember(obj, ptr, sz, ty) SWIG_ConvertPacked(obj, ptr, sz, ty)
913 #define SWIG_NewMemberObj(ptr, sz, type) SWIG_NewPackedObj(ptr, sz, type)
918 #define SWIG_GetModule(clientdata) SWIG_Perl_GetModule()
919 #define SWIG_SetModule(clientdata, pointer) SWIG_Perl_SetModule(pointer)
922 /* Error manipulation */
924 #define SWIG_ErrorType(code) SWIG_Perl_ErrorType(code)
925 #define SWIG_Error(code, msg) sv_setpvf(GvSV(PL_errgv),"%s %s\n", SWIG_ErrorType(code), msg)
926 #define SWIG_fail goto fail
928 /* Perl-specific SWIG API */
930 #define SWIG_MakePtr(sv, ptr, type, flags) SWIG_Perl_MakePtr(SWIG_PERL_OBJECT_CALL sv, ptr, type, flags)
931 #define SWIG_MakePackedObj(sv, p, s, type) SWIG_Perl_MakePackedObj(SWIG_PERL_OBJECT_CALL sv, p, s, type)
932 #define SWIG_SetError(str) SWIG_Error(SWIG_RuntimeError, str)
935 #define SWIG_PERL_DECL_ARGS_1(arg1) (SWIG_PERL_OBJECT_DECL arg1)
936 #define SWIG_PERL_CALL_ARGS_1(arg1) (SWIG_PERL_OBJECT_CALL arg1)
937 #define SWIG_PERL_DECL_ARGS_2(arg1, arg2) (SWIG_PERL_OBJECT_DECL arg1, arg2)
938 #define SWIG_PERL_CALL_ARGS_2(arg1, arg2) (SWIG_PERL_OBJECT_CALL arg1, arg2)
940 /* -----------------------------------------------------------------------------
941 * pointers/data manipulation
942 * ----------------------------------------------------------------------------- */
944 /* For backward compatibility only */
945 #define SWIG_POINTER_EXCEPTION 0
951 #define SWIG_OWNER SWIG_POINTER_OWN
952 #define SWIG_SHADOW SWIG_OWNER << 1
954 #define SWIG_MAYBE_PERL_OBJECT SWIG_PERL_OBJECT_DECL
956 /* SWIG Perl macros */
958 /* Macro to declare an XS function */
960 # define XSPROTO(name) void name(pTHX_ CV* cv)
963 /* Macro to call an XS function */
965 # define SWIG_CALLXS(_name) _name(cv,pPerl)
967 # ifndef MULTIPLICITY
968 # define SWIG_CALLXS(_name) _name(cv)
970 # define SWIG_CALLXS(_name) _name(PERL_GET_THX, cv)
975 #define MAGIC_PPERL CPerlObj *pPerl = (CPerlObj *) this;
980 typedef int (CPerlObj::*SwigMagicFunc)(SV *, MAGIC *);
985 #define SWIG_MAGIC(a,b) (SV *a, MAGIC *b)
986 #define SWIGCLASS_STATIC
988 #else /* PERL_OBJECT */
991 #define SWIGCLASS_STATIC static SWIGUNUSED
994 #define SWIG_MAGIC(a,b) (SV *a, MAGIC *b)
999 typedef int (*SwigMagicFunc)(SV *, MAGIC *);
1004 #else /* MULTIPLICITY */
1006 #define SWIG_MAGIC(a,b) (struct interpreter *interp, SV *a, MAGIC *b)
1011 typedef int (*SwigMagicFunc)(struct interpreter *, SV *, MAGIC *);
1016 #endif /* MULTIPLICITY */
1017 #endif /* PERL_OBJECT */
1019 /* Workaround for bug in perl 5.6.x croak and earlier */
1020 #if (PERL_VERSION < 8)
1022 # define SWIG_croak_null() SWIG_Perl_croak_null(pPerl)
1023 static void SWIG_Perl_croak_null(CPerlObj *pPerl)
1025 static void SWIG_croak_null()
1029 # if (PERL_VERSION < 6)
1032 if (SvOK(err) && !SvROK(err)) croak("%_", err);
1037 # define SWIG_croak_null() croak(Nullch)
1042 Define how strict is the cast between strings and integers/doubles
1043 when overloading between these types occurs.
1045 The default is making it as strict as possible by using SWIG_AddCast
1048 You can use -DSWIG_PERL_NO_STRICT_STR2NUM at compilation time to
1049 disable the SWIG_AddCast, making the casting between string and
1050 numbers less strict.
1052 In the end, we try to solve the overloading between strings and
1053 numerical types in the more natural way, but if you can avoid it,
1054 well, avoid it using %rename, for example.
1056 #ifndef SWIG_PERL_NO_STRICT_STR2NUM
1057 # ifndef SWIG_PERL_STRICT_STR2NUM
1058 # define SWIG_PERL_STRICT_STR2NUM
1061 #ifdef SWIG_PERL_STRICT_STR2NUM
1062 /* string takes precedence */
1063 #define SWIG_Str2NumCast(x) SWIG_AddCast(x)
1065 /* number takes precedence */
1066 #define SWIG_Str2NumCast(x) x
1073 SWIGRUNTIME const char *
1074 SWIG_Perl_TypeProxyName(const swig_type_info *type) {
1075 if (!type) return NULL;
1076 if (type->clientdata != NULL) {
1077 return (const char*) type->clientdata;
1084 /* Identical to SWIG_TypeCheck, except for strcmp comparison */
1085 SWIGRUNTIME swig_cast_info *
1086 SWIG_TypeProxyCheck(const char *c, swig_type_info *ty) {
1088 swig_cast_info *iter = ty->cast;
1090 if ( (!iter->type->clientdata && (strcmp(iter->type->name, c) == 0)) ||
1091 (iter->type->clientdata && (strcmp((char*)iter->type->clientdata, c) == 0)) ) {
1092 if (iter == ty->cast)
1094 /* Move iter to the top of the linked list */
1095 iter->prev->next = iter->next;
1097 iter->next->prev = iter->prev;
1098 iter->next = ty->cast;
1100 if (ty->cast) ty->cast->prev = iter;
1110 /* Function for getting a pointer value */
1113 SWIG_Perl_ConvertPtr(SWIG_MAYBE_PERL_OBJECT SV *sv, void **ptr, swig_type_info *_t, int flags) {
1115 void *voidptr = (void *)0;
1117 /* If magical, apply more magic */
1121 /* Check to see if this is an object */
1122 if (sv_isobject(sv)) {
1124 tsv = (SV*) SvRV(sv);
1125 if ((SvTYPE(tsv) == SVt_PVHV)) {
1127 if (SvMAGICAL(tsv)) {
1128 mg = mg_find(tsv,'P');
1131 if (sv_isobject(sv)) {
1132 tsv = (SV*)SvRV(sv);
1142 voidptr = INT2PTR(void *,tmp);
1143 } else if (! SvOK(sv)) { /* Check for undef */
1144 *(ptr) = (void *) 0;
1146 } else if (SvTYPE(sv) == SVt_RV) { /* Check for NULL pointer */
1148 *(ptr) = (void *) 0;
1153 } else { /* Don't know what it is */
1157 /* Now see if the types match */
1158 char *_c = HvNAME(SvSTASH(SvRV(sv)));
1159 tc = SWIG_TypeProxyCheck(_c,_t);
1165 *ptr = SWIG_TypeCast(tc,voidptr,&newmemory);
1166 assert(!newmemory); /* newmemory handling not yet implemented */
1173 * DISOWN implementation: we need a perl guru to check this one.
1175 if (tsv && (flags & SWIG_POINTER_DISOWN)) {
1177 * almost copy paste code from below SWIG_POINTER_OWN setting
1180 HV *stash = SvSTASH(SvRV(obj));
1181 GV *gv = *(GV**) hv_fetch(stash, "OWNER", 5, TRUE);
1185 * To set ownership (see below), a newSViv(1) entry is added.
1186 * Hence, to remove ownership, we delete the entry.
1188 if (hv_exists_ent(hv, obj, 0)) {
1189 hv_delete_ent(hv, obj, 0, 0);
1197 SWIG_Perl_MakePtr(SWIG_MAYBE_PERL_OBJECT SV *sv, void *ptr, swig_type_info *t, int flags) {
1198 if (ptr && (flags & SWIG_SHADOW)) {
1203 sv_setref_pv(obj, (char *) SWIG_Perl_TypeProxyName(t), ptr);
1204 stash=SvSTASH(SvRV(obj));
1205 if (flags & SWIG_POINTER_OWN) {
1207 GV *gv=*(GV**)hv_fetch(stash, "OWNER", 5, TRUE);
1209 gv_init(gv, stash, "OWNER", 5, FALSE);
1211 hv_store_ent(hv, obj, newSViv(1), 0);
1213 sv_magic((SV *)hash, (SV *)obj, 'P', Nullch, 0);
1215 self=newRV_noinc((SV *)hash);
1217 SvREFCNT_dec((SV *)self);
1218 sv_bless(sv, stash);
1221 sv_setref_pv(sv, (char *) SWIG_Perl_TypeProxyName(t), ptr);
1225 SWIGRUNTIMEINLINE SV *
1226 SWIG_Perl_NewPointerObj(SWIG_MAYBE_PERL_OBJECT void *ptr, swig_type_info *t, int flags) {
1227 SV *result = sv_newmortal();
1228 SWIG_MakePtr(result, ptr, t, flags);
1233 SWIG_Perl_MakePackedObj(SWIG_MAYBE_PERL_OBJECT SV *sv, void *ptr, int sz, swig_type_info *type) {
1236 if ((2*sz + 1 + strlen(SWIG_Perl_TypeProxyName(type))) > 1000) return;
1238 r = SWIG_PackData(r,ptr,sz);
1239 strcpy(r,SWIG_Perl_TypeProxyName(type));
1240 sv_setpv(sv, result);
1244 SWIG_Perl_NewPackedObj(SWIG_MAYBE_PERL_OBJECT void *ptr, int sz, swig_type_info *type) {
1245 SV *result = sv_newmortal();
1246 SWIG_Perl_MakePackedObj(result, ptr, sz, type);
1250 /* Convert a packed value value */
1252 SWIG_Perl_ConvertPacked(SWIG_MAYBE_PERL_OBJECT SV *obj, void *ptr, int sz, swig_type_info *ty) {
1256 if ((!obj) || (!SvOK(obj))) return SWIG_ERROR;
1257 c = SvPV_nolen(obj);
1258 /* Pointer values must start with leading underscore */
1259 if (*c != '_') return SWIG_ERROR;
1261 c = SWIG_UnpackData(c,ptr,sz);
1263 tc = SWIG_TypeCheck(c,ty);
1264 if (!tc) return SWIG_ERROR;
1270 /* Macros for low-level exception handling */
1271 #define SWIG_croak(x) { SWIG_Error(SWIG_RuntimeError, x); SWIG_fail; }
1274 typedef XSPROTO(SwigPerlWrapper);
1275 typedef SwigPerlWrapper *SwigPerlWrapperPtr;
1277 /* Structure for command table */
1280 SwigPerlWrapperPtr wrapper;
1281 } swig_command_info;
1283 /* Information for constant table */
1286 #define SWIG_FLOAT 2
1287 #define SWIG_STRING 3
1288 #define SWIG_POINTER 4
1289 #define SWIG_BINARY 5
1291 /* Constant information structure */
1292 typedef struct swig_constant_info {
1298 swig_type_info **ptype;
1299 } swig_constant_info;
1302 /* Structure for variable table */
1307 swig_type_info **type;
1308 } swig_variable_info;
1310 /* Magic variable code */
1312 #define swig_create_magic(s,a,b,c) _swig_create_magic(s,a,b,c)
1313 #ifndef MULTIPLICITY
1314 SWIGRUNTIME void _swig_create_magic(SV *sv, char *name, int (*set)(SV *, MAGIC *), int (*get)(SV *,MAGIC *))
1316 SWIGRUNTIME void _swig_create_magic(SV *sv, char *name, int (*set)(struct interpreter*, SV *, MAGIC *), int (*get)(struct interpreter*, SV *,MAGIC *))
1319 # define swig_create_magic(s,a,b,c) _swig_create_magic(pPerl,s,a,b,c)
1320 SWIGRUNTIME void _swig_create_magic(CPerlObj *pPerl, SV *sv, const char *name, int (CPerlObj::*set)(SV *, MAGIC *), int (CPerlObj::*get)(SV *, MAGIC *))
1324 sv_magic(sv,sv,'U',(char *) name,strlen(name));
1325 mg = mg_find(sv,'U');
1326 mg->mg_virtual = (MGVTBL *) malloc(sizeof(MGVTBL));
1327 mg->mg_virtual->svt_get = (SwigMagicFunc) get;
1328 mg->mg_virtual->svt_set = (SwigMagicFunc) set;
1329 mg->mg_virtual->svt_len = 0;
1330 mg->mg_virtual->svt_clear = 0;
1331 mg->mg_virtual->svt_free = 0;
1335 SWIGRUNTIME swig_module_info *
1336 SWIG_Perl_GetModule(void) {
1337 static void *type_pointer = (void *)0;
1340 /* first check if pointer already created */
1341 if (!type_pointer) {
1342 pointer = get_sv("swig_runtime_data::type_pointer" SWIG_RUNTIME_VERSION SWIG_TYPE_TABLE_NAME, FALSE | GV_ADDMULTI);
1343 if (pointer && SvOK(pointer)) {
1344 type_pointer = INT2PTR(swig_type_info **, SvIV(pointer));
1348 return (swig_module_info *) type_pointer;
1352 SWIG_Perl_SetModule(swig_module_info *module) {
1355 /* create a new pointer */
1356 pointer = get_sv("swig_runtime_data::type_pointer" SWIG_RUNTIME_VERSION SWIG_TYPE_TABLE_NAME, TRUE | GV_ADDMULTI);
1357 sv_setiv(pointer, PTR2IV(module));
1364 /* Workaround perl5 global namespace pollution. Note that undefining library
1365 * functions like fopen will not solve the problem on all platforms as fopen
1366 * might be a macro on Windows but not necessarily on other operating systems. */
1466 #define SWIG_exception_fail(code, msg) do { SWIG_Error(code, msg); SWIG_fail; } while(0)
1468 #define SWIG_contract_assert(expr, msg) if (!(expr)) { SWIG_Error(SWIG_RuntimeError, msg); SWIG_fail; } else
1472 #define SWIG_exception(code, msg) do { SWIG_Error(code, msg); SWIG_fail;; } while(0)
1475 /* -------- TYPES TABLE (BEGIN) -------- */
1477 #define SWIGTYPE_p_char swig_types[0]
1478 #define SWIGTYPE_p_double swig_types[1]
1479 #define SWIGTYPE_p_float swig_types[2]
1480 #define SWIGTYPE_p_gint16 swig_types[3]
1481 #define SWIGTYPE_p_gint32 swig_types[4]
1482 #define SWIGTYPE_p_gint64 swig_types[5]
1483 #define SWIGTYPE_p_gint8 swig_types[6]
1484 #define SWIGTYPE_p_guint16 swig_types[7]
1485 #define SWIGTYPE_p_guint32 swig_types[8]
1486 #define SWIGTYPE_p_guint64 swig_types[9]
1487 #define SWIGTYPE_p_guint8 swig_types[10]
1488 #define SWIGTYPE_p_int swig_types[11]
1489 #define SWIGTYPE_p_unsigned_char swig_types[12]
1490 static swig_type_info *swig_types[14];
1491 static swig_module_info swig_module = {swig_types, 13, 0, 0, 0, 0};
1492 #define SWIG_TypeQuery(name) SWIG_TypeQueryModule(&swig_module, &swig_module, name)
1493 #define SWIG_MangledTypeQuery(name) SWIG_MangledTypeQueryModule(&swig_module, &swig_module, name)
1495 /* -------- TYPES TABLE (END) -------- */
1497 #define SWIG_init boot_Amanda__Tests
1499 #define SWIG_name "Amanda::Testsc::boot_Amanda__Tests"
1500 #define SWIG_prefix "Amanda::Testsc::"
1502 #define SWIGVERSION 0x010339
1503 #define SWIG_VERSION SWIGVERSION
1506 #define SWIG_as_voidptr(a) (void *)((const void *)(a))
1507 #define SWIG_as_voidptrptr(a) ((void)SWIG_as_voidptr(*a),(void**)(a))
1514 #ifndef MULTIPLICITY
1515 SWIGEXPORT void SWIG_init (CV* cv);
1517 SWIGEXPORT void SWIG_init (pTHXo_ CV* cv);
1520 SWIGEXPORT void SWIG_init (CV *cv, CPerlObj *);
1533 #include "simpleprng.h"
1538 * exercise bigint.c / integer.swg
1541 char *take_guint64(guint64 input) {
1542 if (input == G_MAXUINT64) return "MAX";
1543 if (input == 0) return "ZERO";
1547 char *take_gint64(gint64 input) {
1548 if (input == G_MAXINT64) return "MAX";
1549 if (input == G_MININT64) return "MIN";
1550 if (input == 0) return "ZERO";
1554 char *take_guint32(guint32 input) {
1555 if (input == G_MAXUINT32) return "MAX";
1556 if (input == 0) return "ZERO";
1560 char *take_gint32(gint32 input) {
1561 if (input == G_MAXINT32) return "MAX";
1562 if (input == G_MININT32) return "MIN";
1563 if (input == 0) return "ZERO";
1567 char *take_guint16(guint16 input) {
1568 if (input == G_MAXUINT16) return "MAX";
1569 if (input == 0) return "ZERO";
1573 char *take_gint16(gint16 input) {
1574 if (input == G_MAXINT16) return "MAX";
1575 if (input == G_MININT16) return "MIN";
1576 if (input == 0) return "ZERO";
1580 char *take_guint8(guint8 input) {
1581 if (input == G_MAXUINT8) return "MAX";
1582 if (input == 0) return "ZERO";
1586 char *take_gint8(gint8 input) {
1587 if (input == G_MAXINT8) return "MAX";
1588 if (input == G_MININT8) return "MIN";
1589 if (input == 0) return "ZERO";
1594 guint64 give_guint64(char *input) {
1595 if (input[0] == '+') return G_MAXUINT64;
1599 gint64 give_gint64(char *input) {
1600 if (input[0] == '-') return G_MININT64;
1601 if (input[0] == '+') return G_MAXINT64;
1605 guint32 give_guint32(char *input) {
1606 if (input[0] == '+') return G_MAXUINT32;
1610 gint32 give_gint32(char *input) {
1611 if (input[0] == '-') return G_MININT32;
1612 if (input[0] == '+') return G_MAXINT32;
1616 guint16 give_guint16(char *input) {
1617 if (input[0] == '+') return G_MAXUINT16;
1621 gint16 give_gint16(char *input) {
1622 if (input[0] == '-') return G_MININT16;
1623 if (input[0] == '+') return G_MAXINT16;
1627 guint8 give_guint8(char *input) {
1628 if (input[0] == '+') return G_MAXUINT8;
1632 gint8 give_gint8(char *input) {
1633 if (input[0] == '-') return G_MININT8;
1634 if (input[0] == '+') return G_MAXINT8;
1639 SWIGINTERNINLINE SV *
1640 SWIG_FromCharPtrAndSize(const char* carray, size_t size)
1642 SV *obj = sv_newmortal();
1644 sv_setpvn(obj, carray, size);
1646 sv_setsv(obj, &PL_sv_undef);
1652 SWIGINTERNINLINE SV *
1653 SWIG_FromCharPtr(const char *cptr)
1655 return SWIG_FromCharPtrAndSize(cptr, (cptr ? strlen(cptr) : 0));
1659 SWIGINTERN swig_type_info*
1660 SWIG_pchar_descriptor(void)
1662 static int init = 0;
1663 static swig_type_info* info = 0;
1665 info = SWIG_TypeQuery("_p_char");
1673 SWIG_AsCharPtrAndSize(SV *obj, char** cptr, size_t* psize, int *alloc)
1675 if (SvMAGICAL(obj)) {
1676 SV *tmp = sv_newmortal();
1682 char *cstr = SvPV(obj, len);
1683 size_t size = len + 1;
1686 if (*alloc == SWIG_NEWOBJ) {
1687 *cptr = (char *)memcpy((char *)malloc((size)*sizeof(char)), cstr, sizeof(char)*(size));
1690 *alloc = SWIG_OLDOBJ;
1694 if (psize) *psize = size;
1697 swig_type_info* pchar_descriptor = SWIG_pchar_descriptor();
1698 if (pchar_descriptor) {
1700 if (SWIG_ConvertPtr(obj, (void**)&vptr, pchar_descriptor, 0) == SWIG_OK) {
1701 if (cptr) *cptr = vptr;
1702 if (psize) *psize = vptr ? (strlen(vptr) + 1) : 0;
1703 if (alloc) *alloc = SWIG_OLDOBJ;
1708 return SWIG_TypeError;
1716 int sizeof_size_t(void) {
1717 return sizeof(size_t);
1723 /* write LENGTH bytes of random data to FILENAME, seeded with SEED */
1725 write_random_file(guint32 seed, size_t length, char *filename) {
1726 simpleprng_state_t prng;
1730 simpleprng_seed(&prng, seed);
1732 fd = open(filename, O_CREAT|O_WRONLY|O_TRUNC, 0666);
1734 g_critical(_("Could not open test file '%s': %s"), filename, strerror(errno));
1737 size_t to_write = min(sizeof(buf), length);
1740 simpleprng_fill_buffer(&prng, buf, to_write);
1742 written = full_write(fd, buf, to_write);
1743 if (written < to_write)
1744 g_critical(_("Error writing test file: %s"), strerror(errno));
1752 /* read LENGTH bytes of random data from FILENAME verifying it against
1753 * a PRNG seeded with SEED. Sends any error messages to stderr.
1755 * If check_eof is true, then check that the file is exactly LENGTH bytes long;
1756 * otherwise, trailing bytes (such as zero padding from a Device) are ignored.
1759 verify_random_file(guint32 seed, size_t length, char *filename, gboolean check_eof) {
1760 simpleprng_state_t prng;
1764 simpleprng_seed(&prng, seed);
1766 fd = open(filename, O_RDONLY, 0666);
1768 g_critical(_("Could not open test file '%s': %s"), filename, strerror(errno));
1771 size_t to_read = min(sizeof(buf), length);
1774 bytes_read = full_read(fd, buf, to_read);
1775 if (bytes_read < to_read) {
1777 g_critical(_("Error reading test file: %s"), strerror(errno));
1779 g_fprintf(stderr, _("Verify of '%s' failed: early EOF with %zd bytes left\n"),
1780 filename, length - bytes_read);
1785 if (!simpleprng_verify_buffer(&prng, buf, bytes_read))
1788 length -= bytes_read;
1791 /* verify that the file contains no extra bytes */
1793 if (read(fd, buf, 1)) {
1794 g_fprintf(stderr, _("Verify of '%s' failed: file is too long\n"), filename);
1809 SWIG_AsVal_double SWIG_PERL_DECL_ARGS_2(SV *obj, double *val)
1812 if (val) *val = SvNV(obj);
1814 } else if (SvIOK(obj)) {
1815 if (val) *val = (double) SvIV(obj);
1816 return SWIG_AddCast(SWIG_OK);
1818 const char *nptr = SvPV_nolen(obj);
1821 double v = strtod(nptr, &endptr);
1822 if (errno == ERANGE) {
1824 return SWIG_OverflowError;
1826 if (*endptr == '\0') {
1828 return SWIG_Str2NumCast(SWIG_OK);
1833 return SWIG_TypeError;
1843 SWIGINTERNINLINE int
1844 SWIG_CanCastAsInteger(double *d, double min, double max) {
1846 if ((min <= x && x <= max)) {
1847 double fx = floor(x);
1848 double cx = ceil(x);
1849 double rd = ((x - fx) < 0.5) ? fx : cx; /* simple rint */
1850 if ((errno == EDOM) || (errno == ERANGE)) {
1853 double summ, reps, diff;
1856 } else if (rd > x) {
1863 if (reps < 8*DBL_EPSILON) {
1874 SWIG_AsVal_unsigned_SS_long SWIG_PERL_DECL_ARGS_2(SV *obj, unsigned long *val)
1877 if (val) *val = SvUV(obj);
1879 } else if (SvIOK(obj)) {
1885 return SWIG_OverflowError;
1889 const char *nptr = SvPV_nolen(obj);
1894 v = strtoul(nptr, &endptr,0);
1895 if (errno == ERANGE) {
1897 return SWIG_OverflowError;
1899 if (*endptr == '\0') {
1901 return SWIG_Str2NumCast(SWIG_OK);
1907 int res = SWIG_AddCast(SWIG_AsVal_double SWIG_PERL_CALL_ARGS_2(obj,&d));
1908 if (SWIG_IsOK(res) && SWIG_CanCastAsInteger(&d, 0, ULONG_MAX)) {
1909 if (val) *val = (unsigned long)(d);
1914 return SWIG_TypeError;
1918 SWIGINTERNINLINE int
1919 SWIG_AsVal_size_t SWIG_PERL_DECL_ARGS_2(SV * obj, size_t *val)
1922 int res = SWIG_AsVal_unsigned_SS_long SWIG_PERL_CALL_ARGS_2(obj, val ? &v : 0);
1923 if (SWIG_IsOK(res) && val) *val = (size_t)(v);
1929 #if !defined(SWIG_NO_LLONG_MAX)
1930 # if !defined(LLONG_MAX) && defined(__GNUC__) && defined (__LONG_LONG_MAX__)
1931 # define LLONG_MAX __LONG_LONG_MAX__
1932 # define LLONG_MIN (-LLONG_MAX - 1LL)
1933 # define ULLONG_MAX (LLONG_MAX * 2ULL + 1ULL)
1939 SWIG_AsVal_long SWIG_PERL_DECL_ARGS_2(SV *obj, long* val)
1942 if (val) *val = SvIV(obj);
1946 const char *nptr = SvPV_nolen(obj);
1951 v = strtol(nptr, &endptr,0);
1952 if (errno == ERANGE) {
1954 return SWIG_OverflowError;
1956 if (*endptr == '\0') {
1958 return SWIG_Str2NumCast(SWIG_OK);
1964 int res = SWIG_AddCast(SWIG_AsVal_double SWIG_PERL_CALL_ARGS_2(obj,&d));
1965 if (SWIG_IsOK(res) && SWIG_CanCastAsInteger(&d, LONG_MIN, LONG_MAX)) {
1966 if (val) *val = (long)(d);
1971 return SWIG_TypeError;
1976 SWIG_AsVal_int SWIG_PERL_DECL_ARGS_2(SV * obj, int *val)
1979 int res = SWIG_AsVal_long SWIG_PERL_CALL_ARGS_2(obj, &v);
1980 if (SWIG_IsOK(res)) {
1981 if ((v < INT_MIN || v > INT_MAX)) {
1982 return SWIG_OverflowError;
1984 if (val) *val = (int)(v);
1992 thread_fn(gpointer data)
2008 thd = g_thread_create(thread_fn, (gpointer)&data, TRUE, NULL);
2010 g_assert(data == 1);
2018 #define MAGIC_CLASS _wrap_Amanda__Tests_var::
2019 class _wrap_Amanda__Tests_var : public CPerlObj {
2024 SWIGCLASS_STATIC int swig_magic_readonly(pTHX_ SV *SWIGUNUSEDPARM(sv), MAGIC *SWIGUNUSEDPARM(mg)) {
2026 croak("Value is read-only.");
2042 XS(_wrap_take_guint64) {
2049 if ((items < 1) || (items > 1)) {
2050 SWIG_croak("Usage: take_guint64(input);");
2053 arg1 = amglue_SvU64(ST(0));
2055 result = (char *)take_guint64(arg1);
2056 ST(argvi) = SWIG_FromCharPtr((const char *)result); argvi++ ;
2064 XS(_wrap_take_gint64) {
2071 if ((items < 1) || (items > 1)) {
2072 SWIG_croak("Usage: take_gint64(input);");
2075 arg1 = amglue_SvI64(ST(0));
2077 result = (char *)take_gint64(arg1);
2078 ST(argvi) = SWIG_FromCharPtr((const char *)result); argvi++ ;
2086 XS(_wrap_take_guint32) {
2093 if ((items < 1) || (items > 1)) {
2094 SWIG_croak("Usage: take_guint32(input);");
2097 arg1 = amglue_SvU32(ST(0));
2099 result = (char *)take_guint32(arg1);
2100 ST(argvi) = SWIG_FromCharPtr((const char *)result); argvi++ ;
2108 XS(_wrap_take_gint32) {
2115 if ((items < 1) || (items > 1)) {
2116 SWIG_croak("Usage: take_gint32(input);");
2119 arg1 = amglue_SvI32(ST(0));
2121 result = (char *)take_gint32(arg1);
2122 ST(argvi) = SWIG_FromCharPtr((const char *)result); argvi++ ;
2130 XS(_wrap_take_guint16) {
2137 if ((items < 1) || (items > 1)) {
2138 SWIG_croak("Usage: take_guint16(input);");
2141 arg1 = amglue_SvU16(ST(0));
2143 result = (char *)take_guint16(arg1);
2144 ST(argvi) = SWIG_FromCharPtr((const char *)result); argvi++ ;
2152 XS(_wrap_take_gint16) {
2159 if ((items < 1) || (items > 1)) {
2160 SWIG_croak("Usage: take_gint16(input);");
2163 arg1 = amglue_SvI16(ST(0));
2165 result = (char *)take_gint16(arg1);
2166 ST(argvi) = SWIG_FromCharPtr((const char *)result); argvi++ ;
2174 XS(_wrap_take_guint8) {
2181 if ((items < 1) || (items > 1)) {
2182 SWIG_croak("Usage: take_guint8(input);");
2185 arg1 = amglue_SvU8(ST(0));
2187 result = (char *)take_guint8(arg1);
2188 ST(argvi) = SWIG_FromCharPtr((const char *)result); argvi++ ;
2196 XS(_wrap_take_gint8) {
2203 if ((items < 1) || (items > 1)) {
2204 SWIG_croak("Usage: take_gint8(input);");
2207 arg1 = amglue_SvI8(ST(0));
2209 result = (char *)take_gint8(arg1);
2210 ST(argvi) = SWIG_FromCharPtr((const char *)result); argvi++ ;
2218 XS(_wrap_give_guint64) {
2220 char *arg1 = (char *) 0 ;
2228 if ((items < 1) || (items > 1)) {
2229 SWIG_croak("Usage: give_guint64(input);");
2231 res1 = SWIG_AsCharPtrAndSize(ST(0), &buf1, NULL, &alloc1);
2232 if (!SWIG_IsOK(res1)) {
2233 SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "give_guint64" "', argument " "1"" of type '" "char *""'");
2235 arg1 = (char *)(buf1);
2236 result = give_guint64(arg1);
2239 SP += argvi; PUTBACK;
2240 for_stack = sv_2mortal(amglue_newSVu64(result));
2241 SPAGAIN; SP -= argvi;
2242 ST(argvi) = for_stack;
2245 if (alloc1 == SWIG_NEWOBJ) free((char*)buf1);
2248 if (alloc1 == SWIG_NEWOBJ) free((char*)buf1);
2254 XS(_wrap_give_gint64) {
2256 char *arg1 = (char *) 0 ;
2264 if ((items < 1) || (items > 1)) {
2265 SWIG_croak("Usage: give_gint64(input);");
2267 res1 = SWIG_AsCharPtrAndSize(ST(0), &buf1, NULL, &alloc1);
2268 if (!SWIG_IsOK(res1)) {
2269 SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "give_gint64" "', argument " "1"" of type '" "char *""'");
2271 arg1 = (char *)(buf1);
2272 result = give_gint64(arg1);
2275 SP += argvi; PUTBACK;
2276 for_stack = sv_2mortal(amglue_newSVi64(result));
2277 SPAGAIN; SP -= argvi;
2278 ST(argvi) = for_stack;
2281 if (alloc1 == SWIG_NEWOBJ) free((char*)buf1);
2284 if (alloc1 == SWIG_NEWOBJ) free((char*)buf1);
2290 XS(_wrap_give_guint32) {
2292 char *arg1 = (char *) 0 ;
2300 if ((items < 1) || (items > 1)) {
2301 SWIG_croak("Usage: give_guint32(input);");
2303 res1 = SWIG_AsCharPtrAndSize(ST(0), &buf1, NULL, &alloc1);
2304 if (!SWIG_IsOK(res1)) {
2305 SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "give_guint32" "', argument " "1"" of type '" "char *""'");
2307 arg1 = (char *)(buf1);
2308 result = give_guint32(arg1);
2311 SP += argvi; PUTBACK;
2312 for_stack = sv_2mortal(amglue_newSVu64(result));
2313 SPAGAIN; SP -= argvi;
2314 ST(argvi) = for_stack;
2317 if (alloc1 == SWIG_NEWOBJ) free((char*)buf1);
2320 if (alloc1 == SWIG_NEWOBJ) free((char*)buf1);
2326 XS(_wrap_give_gint32) {
2328 char *arg1 = (char *) 0 ;
2336 if ((items < 1) || (items > 1)) {
2337 SWIG_croak("Usage: give_gint32(input);");
2339 res1 = SWIG_AsCharPtrAndSize(ST(0), &buf1, NULL, &alloc1);
2340 if (!SWIG_IsOK(res1)) {
2341 SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "give_gint32" "', argument " "1"" of type '" "char *""'");
2343 arg1 = (char *)(buf1);
2344 result = give_gint32(arg1);
2347 SP += argvi; PUTBACK;
2348 for_stack = sv_2mortal(amglue_newSVi64(result));
2349 SPAGAIN; SP -= argvi;
2350 ST(argvi) = for_stack;
2353 if (alloc1 == SWIG_NEWOBJ) free((char*)buf1);
2356 if (alloc1 == SWIG_NEWOBJ) free((char*)buf1);
2362 XS(_wrap_give_guint16) {
2364 char *arg1 = (char *) 0 ;
2372 if ((items < 1) || (items > 1)) {
2373 SWIG_croak("Usage: give_guint16(input);");
2375 res1 = SWIG_AsCharPtrAndSize(ST(0), &buf1, NULL, &alloc1);
2376 if (!SWIG_IsOK(res1)) {
2377 SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "give_guint16" "', argument " "1"" of type '" "char *""'");
2379 arg1 = (char *)(buf1);
2380 result = give_guint16(arg1);
2383 SP += argvi; PUTBACK;
2384 for_stack = sv_2mortal(amglue_newSVu64(result));
2385 SPAGAIN; SP -= argvi;
2386 ST(argvi) = for_stack;
2389 if (alloc1 == SWIG_NEWOBJ) free((char*)buf1);
2392 if (alloc1 == SWIG_NEWOBJ) free((char*)buf1);
2398 XS(_wrap_give_gint16) {
2400 char *arg1 = (char *) 0 ;
2408 if ((items < 1) || (items > 1)) {
2409 SWIG_croak("Usage: give_gint16(input);");
2411 res1 = SWIG_AsCharPtrAndSize(ST(0), &buf1, NULL, &alloc1);
2412 if (!SWIG_IsOK(res1)) {
2413 SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "give_gint16" "', argument " "1"" of type '" "char *""'");
2415 arg1 = (char *)(buf1);
2416 result = give_gint16(arg1);
2419 SP += argvi; PUTBACK;
2420 for_stack = sv_2mortal(amglue_newSVi64(result));
2421 SPAGAIN; SP -= argvi;
2422 ST(argvi) = for_stack;
2425 if (alloc1 == SWIG_NEWOBJ) free((char*)buf1);
2428 if (alloc1 == SWIG_NEWOBJ) free((char*)buf1);
2434 XS(_wrap_give_guint8) {
2436 char *arg1 = (char *) 0 ;
2444 if ((items < 1) || (items > 1)) {
2445 SWIG_croak("Usage: give_guint8(input);");
2447 res1 = SWIG_AsCharPtrAndSize(ST(0), &buf1, NULL, &alloc1);
2448 if (!SWIG_IsOK(res1)) {
2449 SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "give_guint8" "', argument " "1"" of type '" "char *""'");
2451 arg1 = (char *)(buf1);
2452 result = give_guint8(arg1);
2455 SP += argvi; PUTBACK;
2456 for_stack = sv_2mortal(amglue_newSVu64(result));
2457 SPAGAIN; SP -= argvi;
2458 ST(argvi) = for_stack;
2461 if (alloc1 == SWIG_NEWOBJ) free((char*)buf1);
2464 if (alloc1 == SWIG_NEWOBJ) free((char*)buf1);
2470 XS(_wrap_give_gint8) {
2472 char *arg1 = (char *) 0 ;
2480 if ((items < 1) || (items > 1)) {
2481 SWIG_croak("Usage: give_gint8(input);");
2483 res1 = SWIG_AsCharPtrAndSize(ST(0), &buf1, NULL, &alloc1);
2484 if (!SWIG_IsOK(res1)) {
2485 SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "give_gint8" "', argument " "1"" of type '" "char *""'");
2487 arg1 = (char *)(buf1);
2488 result = give_gint8(arg1);
2491 SP += argvi; PUTBACK;
2492 for_stack = sv_2mortal(amglue_newSVi64(result));
2493 SPAGAIN; SP -= argvi;
2494 ST(argvi) = for_stack;
2497 if (alloc1 == SWIG_NEWOBJ) free((char*)buf1);
2500 if (alloc1 == SWIG_NEWOBJ) free((char*)buf1);
2506 XS(_wrap_sizeof_size_t) {
2512 if ((items < 0) || (items > 0)) {
2513 SWIG_croak("Usage: sizeof_size_t();");
2515 result = (int)sizeof_size_t();
2518 SP += argvi; PUTBACK;
2519 for_stack = sv_2mortal(amglue_newSVi64(result));
2520 SPAGAIN; SP -= argvi;
2521 ST(argvi) = for_stack;
2531 XS(_wrap_write_random_file) {
2535 char *arg3 = (char *) 0 ;
2542 if ((items < 3) || (items > 3)) {
2543 SWIG_croak("Usage: write_random_file(seed,length,filename);");
2546 arg1 = amglue_SvU32(ST(0));
2549 if (sizeof(size_t) == 1) {
2550 arg2 = amglue_SvU8(ST(1));
2551 } else if (sizeof(size_t) == 2) {
2552 arg2 = amglue_SvU16(ST(1));
2553 } else if (sizeof(size_t) == 4) {
2554 arg2 = amglue_SvU32(ST(1));
2555 } else if (sizeof(size_t) == 8) {
2556 arg2 = amglue_SvU64(ST(1));
2558 croak("Unexpected size_t >64 bits?"); /* should be optimized out unless sizeof(size_t) > 8 */
2561 res3 = SWIG_AsCharPtrAndSize(ST(2), &buf3, NULL, &alloc3);
2562 if (!SWIG_IsOK(res3)) {
2563 SWIG_exception_fail(SWIG_ArgError(res3), "in method '" "write_random_file" "', argument " "3"" of type '" "char *""'");
2565 arg3 = (char *)(buf3);
2566 write_random_file(arg1,arg2,arg3);
2567 ST(argvi) = sv_newmortal();
2569 if (alloc3 == SWIG_NEWOBJ) free((char*)buf3);
2573 if (alloc3 == SWIG_NEWOBJ) free((char*)buf3);
2579 XS(_wrap_verify_random_file) {
2583 char *arg3 = (char *) 0 ;
2592 if ((items < 4) || (items > 4)) {
2593 SWIG_croak("Usage: verify_random_file(seed,length,filename,check_eof);");
2596 arg1 = amglue_SvU32(ST(0));
2599 if (sizeof(size_t) == 1) {
2600 arg2 = amglue_SvU8(ST(1));
2601 } else if (sizeof(size_t) == 2) {
2602 arg2 = amglue_SvU16(ST(1));
2603 } else if (sizeof(size_t) == 4) {
2604 arg2 = amglue_SvU32(ST(1));
2605 } else if (sizeof(size_t) == 8) {
2606 arg2 = amglue_SvU64(ST(1));
2608 croak("Unexpected size_t >64 bits?"); /* should be optimized out unless sizeof(size_t) > 8 */
2611 res3 = SWIG_AsCharPtrAndSize(ST(2), &buf3, NULL, &alloc3);
2612 if (!SWIG_IsOK(res3)) {
2613 SWIG_exception_fail(SWIG_ArgError(res3), "in method '" "verify_random_file" "', argument " "3"" of type '" "char *""'");
2615 arg3 = (char *)(buf3);
2617 if (sizeof(signed int) == 1) {
2618 arg4 = amglue_SvI8(ST(3));
2619 } else if (sizeof(signed int) == 2) {
2620 arg4 = amglue_SvI16(ST(3));
2621 } else if (sizeof(signed int) == 4) {
2622 arg4 = amglue_SvI32(ST(3));
2623 } else if (sizeof(signed int) == 8) {
2624 arg4 = amglue_SvI64(ST(3));
2626 g_critical("Unexpected signed int >64 bits?"); /* should be optimized out unless sizeof(signed int) > 8 */
2629 result = (gboolean)verify_random_file(arg1,arg2,arg3,arg4);
2632 ST(argvi) = &PL_sv_yes;
2634 ST(argvi) = &PL_sv_no;
2638 if (alloc3 == SWIG_NEWOBJ) free((char*)buf3);
2643 if (alloc3 == SWIG_NEWOBJ) free((char*)buf3);
2650 XS(_wrap_try_threads) {
2655 if ((items < 0) || (items > 0)) {
2656 SWIG_croak("Usage: try_threads();");
2659 ST(argvi) = sv_newmortal();
2668 /* -------- TYPE CONVERSION AND EQUIVALENCE RULES (BEGIN) -------- */
2670 static swig_type_info _swigt__p_char = {"_p_char", "gchar *|char *", 0, 0, (void*)0, 0};
2671 static swig_type_info _swigt__p_double = {"_p_double", "double *|gdouble *", 0, 0, (void*)0, 0};
2672 static swig_type_info _swigt__p_float = {"_p_float", "float *|gfloat *", 0, 0, (void*)0, 0};
2673 static swig_type_info _swigt__p_gint16 = {"_p_gint16", "gint16 *", 0, 0, (void*)0, 0};
2674 static swig_type_info _swigt__p_gint32 = {"_p_gint32", "gint32 *", 0, 0, (void*)0, 0};
2675 static swig_type_info _swigt__p_gint64 = {"_p_gint64", "gint64 *", 0, 0, (void*)0, 0};
2676 static swig_type_info _swigt__p_gint8 = {"_p_gint8", "gint8 *", 0, 0, (void*)0, 0};
2677 static swig_type_info _swigt__p_guint16 = {"_p_guint16", "guint16 *", 0, 0, (void*)0, 0};
2678 static swig_type_info _swigt__p_guint32 = {"_p_guint32", "guint32 *", 0, 0, (void*)0, 0};
2679 static swig_type_info _swigt__p_guint64 = {"_p_guint64", "guint64 *", 0, 0, (void*)0, 0};
2680 static swig_type_info _swigt__p_guint8 = {"_p_guint8", "guint8 *", 0, 0, (void*)0, 0};
2681 static swig_type_info _swigt__p_int = {"_p_int", "int *|gboolean *", 0, 0, (void*)0, 0};
2682 static swig_type_info _swigt__p_unsigned_char = {"_p_unsigned_char", "guchar *|unsigned char *", 0, 0, (void*)0, 0};
2684 static swig_type_info *swig_type_initial[] = {
2697 &_swigt__p_unsigned_char,
2700 static swig_cast_info _swigc__p_char[] = { {&_swigt__p_char, 0, 0, 0},{0, 0, 0, 0}};
2701 static swig_cast_info _swigc__p_double[] = { {&_swigt__p_double, 0, 0, 0},{0, 0, 0, 0}};
2702 static swig_cast_info _swigc__p_float[] = { {&_swigt__p_float, 0, 0, 0},{0, 0, 0, 0}};
2703 static swig_cast_info _swigc__p_gint16[] = { {&_swigt__p_gint16, 0, 0, 0},{0, 0, 0, 0}};
2704 static swig_cast_info _swigc__p_gint32[] = { {&_swigt__p_gint32, 0, 0, 0},{0, 0, 0, 0}};
2705 static swig_cast_info _swigc__p_gint64[] = { {&_swigt__p_gint64, 0, 0, 0},{0, 0, 0, 0}};
2706 static swig_cast_info _swigc__p_gint8[] = { {&_swigt__p_gint8, 0, 0, 0},{0, 0, 0, 0}};
2707 static swig_cast_info _swigc__p_guint16[] = { {&_swigt__p_guint16, 0, 0, 0},{0, 0, 0, 0}};
2708 static swig_cast_info _swigc__p_guint32[] = { {&_swigt__p_guint32, 0, 0, 0},{0, 0, 0, 0}};
2709 static swig_cast_info _swigc__p_guint64[] = { {&_swigt__p_guint64, 0, 0, 0},{0, 0, 0, 0}};
2710 static swig_cast_info _swigc__p_guint8[] = { {&_swigt__p_guint8, 0, 0, 0},{0, 0, 0, 0}};
2711 static swig_cast_info _swigc__p_int[] = { {&_swigt__p_int, 0, 0, 0},{0, 0, 0, 0}};
2712 static swig_cast_info _swigc__p_unsigned_char[] = { {&_swigt__p_unsigned_char, 0, 0, 0},{0, 0, 0, 0}};
2714 static swig_cast_info *swig_cast_initial[] = {
2727 _swigc__p_unsigned_char,
2731 /* -------- TYPE CONVERSION AND EQUIVALENCE RULES (END) -------- */
2733 static swig_constant_info swig_constants[] = {
2739 static swig_variable_info swig_variables[] = {
2742 static swig_command_info swig_commands[] = {
2743 {"Amanda::Testsc::take_guint64", _wrap_take_guint64},
2744 {"Amanda::Testsc::take_gint64", _wrap_take_gint64},
2745 {"Amanda::Testsc::take_guint32", _wrap_take_guint32},
2746 {"Amanda::Testsc::take_gint32", _wrap_take_gint32},
2747 {"Amanda::Testsc::take_guint16", _wrap_take_guint16},
2748 {"Amanda::Testsc::take_gint16", _wrap_take_gint16},
2749 {"Amanda::Testsc::take_guint8", _wrap_take_guint8},
2750 {"Amanda::Testsc::take_gint8", _wrap_take_gint8},
2751 {"Amanda::Testsc::give_guint64", _wrap_give_guint64},
2752 {"Amanda::Testsc::give_gint64", _wrap_give_gint64},
2753 {"Amanda::Testsc::give_guint32", _wrap_give_guint32},
2754 {"Amanda::Testsc::give_gint32", _wrap_give_gint32},
2755 {"Amanda::Testsc::give_guint16", _wrap_give_guint16},
2756 {"Amanda::Testsc::give_gint16", _wrap_give_gint16},
2757 {"Amanda::Testsc::give_guint8", _wrap_give_guint8},
2758 {"Amanda::Testsc::give_gint8", _wrap_give_gint8},
2759 {"Amanda::Testsc::sizeof_size_t", _wrap_sizeof_size_t},
2760 {"Amanda::Testsc::write_random_file", _wrap_write_random_file},
2761 {"Amanda::Testsc::verify_random_file", _wrap_verify_random_file},
2762 {"Amanda::Testsc::try_threads", _wrap_try_threads},
2765 /* -----------------------------------------------------------------------------
2766 * Type initialization:
2767 * This problem is tough by the requirement that no dynamic
2768 * memory is used. Also, since swig_type_info structures store pointers to
2769 * swig_cast_info structures and swig_cast_info structures store pointers back
2770 * to swig_type_info structures, we need some lookup code at initialization.
2771 * The idea is that swig generates all the structures that are needed.
2772 * The runtime then collects these partially filled structures.
2773 * The SWIG_InitializeModule function takes these initial arrays out of
2774 * swig_module, and does all the lookup, filling in the swig_module.types
2775 * array with the correct data and linking the correct swig_cast_info
2776 * structures together.
2778 * The generated swig_type_info structures are assigned staticly to an initial
2779 * array. We just loop through that array, and handle each type individually.
2780 * First we lookup if this type has been already loaded, and if so, use the
2781 * loaded structure instead of the generated one. Then we have to fill in the
2782 * cast linked list. The cast data is initially stored in something like a
2783 * two-dimensional array. Each row corresponds to a type (there are the same
2784 * number of rows as there are in the swig_type_initial array). Each entry in
2785 * a column is one of the swig_cast_info structures for that type.
2786 * The cast_initial array is actually an array of arrays, because each row has
2787 * a variable number of columns. So to actually build the cast linked list,
2788 * we find the array of casts associated with the type, and loop through it
2789 * adding the casts to the list. The one last trick we need to do is making
2790 * sure the type pointer in the swig_cast_info struct is correct.
2792 * First off, we lookup the cast->type name to see if it is already loaded.
2793 * There are three cases to handle:
2794 * 1) If the cast->type has already been loaded AND the type we are adding
2795 * casting info to has not been loaded (it is in this module), THEN we
2796 * replace the cast->type pointer with the type pointer that has already
2798 * 2) If BOTH types (the one we are adding casting info to, and the
2799 * cast->type) are loaded, THEN the cast info has already been loaded by
2800 * the previous module so we just ignore it.
2801 * 3) Finally, if cast->type has not already been loaded, then we add that
2802 * swig_cast_info to the linked list (because the cast->type) pointer will
2804 * ----------------------------------------------------------------------------- */
2814 #define SWIGRUNTIME_DEBUG
2819 SWIG_InitializeModule(void *clientdata) {
2821 swig_module_info *module_head, *iter;
2824 clientdata = clientdata;
2826 /* check to see if the circular list has been setup, if not, set it up */
2827 if (swig_module.next==0) {
2828 /* Initialize the swig_module */
2829 swig_module.type_initial = swig_type_initial;
2830 swig_module.cast_initial = swig_cast_initial;
2831 swig_module.next = &swig_module;
2837 /* Try and load any already created modules */
2838 module_head = SWIG_GetModule(clientdata);
2840 /* This is the first module loaded for this interpreter */
2841 /* so set the swig module into the interpreter */
2842 SWIG_SetModule(clientdata, &swig_module);
2843 module_head = &swig_module;
2845 /* the interpreter has loaded a SWIG module, but has it loaded this one? */
2849 if (iter==&swig_module) {
2854 } while (iter!= module_head);
2856 /* if the is found in the list, then all is done and we may leave */
2858 /* otherwise we must add out module into the list */
2859 swig_module.next = module_head->next;
2860 module_head->next = &swig_module;
2863 /* When multiple interpeters are used, a module could have already been initialized in
2864 a different interpreter, but not yet have a pointer in this interpreter.
2865 In this case, we do not want to continue adding types... everything should be
2867 if (init == 0) return;
2869 /* Now work on filling in swig_module.types */
2870 #ifdef SWIGRUNTIME_DEBUG
2871 printf("SWIG_InitializeModule: size %d\n", swig_module.size);
2873 for (i = 0; i < swig_module.size; ++i) {
2874 swig_type_info *type = 0;
2875 swig_type_info *ret;
2876 swig_cast_info *cast;
2878 #ifdef SWIGRUNTIME_DEBUG
2879 printf("SWIG_InitializeModule: type %d %s\n", i, swig_module.type_initial[i]->name);
2882 /* if there is another module already loaded */
2883 if (swig_module.next != &swig_module) {
2884 type = SWIG_MangledTypeQueryModule(swig_module.next, &swig_module, swig_module.type_initial[i]->name);
2887 /* Overwrite clientdata field */
2888 #ifdef SWIGRUNTIME_DEBUG
2889 printf("SWIG_InitializeModule: found type %s\n", type->name);
2891 if (swig_module.type_initial[i]->clientdata) {
2892 type->clientdata = swig_module.type_initial[i]->clientdata;
2893 #ifdef SWIGRUNTIME_DEBUG
2894 printf("SWIG_InitializeModule: found and overwrite type %s \n", type->name);
2898 type = swig_module.type_initial[i];
2901 /* Insert casting types */
2902 cast = swig_module.cast_initial[i];
2903 while (cast->type) {
2904 /* Don't need to add information already in the list */
2906 #ifdef SWIGRUNTIME_DEBUG
2907 printf("SWIG_InitializeModule: look cast %s\n", cast->type->name);
2909 if (swig_module.next != &swig_module) {
2910 ret = SWIG_MangledTypeQueryModule(swig_module.next, &swig_module, cast->type->name);
2911 #ifdef SWIGRUNTIME_DEBUG
2912 if (ret) printf("SWIG_InitializeModule: found cast %s\n", ret->name);
2916 if (type == swig_module.type_initial[i]) {
2917 #ifdef SWIGRUNTIME_DEBUG
2918 printf("SWIG_InitializeModule: skip old type %s\n", ret->name);
2923 /* Check for casting already in the list */
2924 swig_cast_info *ocast = SWIG_TypeCheck(ret->name, type);
2925 #ifdef SWIGRUNTIME_DEBUG
2926 if (ocast) printf("SWIG_InitializeModule: skip old cast %s\n", ret->name);
2928 if (!ocast) ret = 0;
2933 #ifdef SWIGRUNTIME_DEBUG
2934 printf("SWIG_InitializeModule: adding cast %s\n", cast->type->name);
2937 type->cast->prev = cast;
2938 cast->next = type->cast;
2944 /* Set entry in modules->types array equal to the type */
2945 swig_module.types[i] = type;
2947 swig_module.types[i] = 0;
2949 #ifdef SWIGRUNTIME_DEBUG
2950 printf("**** SWIG_InitializeModule: Cast List ******\n");
2951 for (i = 0; i < swig_module.size; ++i) {
2953 swig_cast_info *cast = swig_module.cast_initial[i];
2954 printf("SWIG_InitializeModule: type %d %s\n", i, swig_module.type_initial[i]->name);
2955 while (cast->type) {
2956 printf("SWIG_InitializeModule: cast type %s\n", cast->type->name);
2960 printf("---- Total casts: %d\n",j);
2962 printf("**** SWIG_InitializeModule: Cast List ******\n");
2966 /* This function will propagate the clientdata field of type to
2967 * any new swig_type_info structures that have been added into the list
2968 * of equivalent types. It is like calling
2969 * SWIG_TypeClientData(type, clientdata) a second time.
2972 SWIG_PropagateClientData(void) {
2974 swig_cast_info *equiv;
2975 static int init_run = 0;
2977 if (init_run) return;
2980 for (i = 0; i < swig_module.size; i++) {
2981 if (swig_module.types[i]->clientdata) {
2982 equiv = swig_module.types[i]->cast;
2984 if (!equiv->converter) {
2985 if (equiv->type && !equiv->type->clientdata)
2986 SWIG_TypeClientData(equiv->type, swig_module.types[i]->clientdata);
2988 equiv = equiv->next;
3012 SWIG_InitializeModule(0);
3014 /* Install commands */
3015 for (i = 0; swig_commands[i].name; i++) {
3016 newXS((char*) swig_commands[i].name,swig_commands[i].wrapper, (char*)__FILE__);
3019 /* Install variables */
3020 for (i = 0; swig_variables[i].name; i++) {
3022 sv = get_sv((char*) swig_variables[i].name, TRUE | 0x2 | GV_ADDMULTI);
3023 if (swig_variables[i].type) {
3024 SWIG_MakePtr(sv,(void *)1, *swig_variables[i].type,0);
3026 sv_setiv(sv,(IV) 0);
3028 swig_create_magic(sv, (char *) swig_variables[i].name, swig_variables[i].set, swig_variables[i].get);
3031 /* Install constant */
3032 for (i = 0; swig_constants[i].type; i++) {
3034 sv = get_sv((char*)swig_constants[i].name, TRUE | 0x2 | GV_ADDMULTI);
3035 switch(swig_constants[i].type) {
3037 sv_setiv(sv, (IV) swig_constants[i].lvalue);
3040 sv_setnv(sv, (double) swig_constants[i].dvalue);
3043 sv_setpv(sv, (char *) swig_constants[i].pvalue);
3046 SWIG_MakePtr(sv, swig_constants[i].pvalue, *(swig_constants[i].ptype),0);
3049 SWIG_MakePackedObj(sv, swig_constants[i].pvalue, swig_constants[i].lvalue, *(swig_constants[i].ptype));