mirror of
https://github.com/nillerusr/source-engine.git
synced 2024-12-23 14:46:53 +00:00
570 lines
17 KiB
Plaintext
570 lines
17 KiB
Plaintext
/* -----------------------------------------------------------------------------
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* swigrun.swg
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*
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* This file contains generic CAPI SWIG runtime support for pointer
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* type checking.
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* ----------------------------------------------------------------------------- */
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/* This should only be incremented when either the layout of swig_type_info changes,
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or for whatever reason, the runtime changes incompatibly */
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#define SWIG_RUNTIME_VERSION "4"
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/* define SWIG_TYPE_TABLE_NAME as "SWIG_TYPE_TABLE" */
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#ifdef SWIG_TYPE_TABLE
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# define SWIG_QUOTE_STRING(x) #x
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# define SWIG_EXPAND_AND_QUOTE_STRING(x) SWIG_QUOTE_STRING(x)
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# define SWIG_TYPE_TABLE_NAME SWIG_EXPAND_AND_QUOTE_STRING(SWIG_TYPE_TABLE)
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#else
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# define SWIG_TYPE_TABLE_NAME
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#endif
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/*
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You can use the SWIGRUNTIME and SWIGRUNTIMEINLINE macros for
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creating a static or dynamic library from the swig runtime code.
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In 99.9% of the cases, swig just needs to declare them as 'static'.
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But only do this if is strictly necessary, ie, if you have problems
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with your compiler or so.
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*/
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#ifndef SWIGRUNTIME
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# define SWIGRUNTIME SWIGINTERN
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#endif
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#ifndef SWIGRUNTIMEINLINE
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# define SWIGRUNTIMEINLINE SWIGRUNTIME SWIGINLINE
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#endif
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/* Generic buffer size */
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#ifndef SWIG_BUFFER_SIZE
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# define SWIG_BUFFER_SIZE 1024
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#endif
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/* Flags for pointer conversions */
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#define SWIG_POINTER_DISOWN 0x1
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#define SWIG_CAST_NEW_MEMORY 0x2
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/* Flags for new pointer objects */
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#define SWIG_POINTER_OWN 0x1
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/*
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Flags/methods for returning states.
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The swig conversion methods, as ConvertPtr, return and integer
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that tells if the conversion was successful or not. And if not,
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an error code can be returned (see swigerrors.swg for the codes).
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Use the following macros/flags to set or process the returning
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states.
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In old swig versions, you usually write code as:
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if (SWIG_ConvertPtr(obj,vptr,ty.flags) != -1) {
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// success code
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} else {
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//fail code
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}
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Now you can be more explicit as:
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int res = SWIG_ConvertPtr(obj,vptr,ty.flags);
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if (SWIG_IsOK(res)) {
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// success code
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} else {
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// fail code
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}
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that seems to be the same, but now you can also do
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Type *ptr;
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int res = SWIG_ConvertPtr(obj,(void **)(&ptr),ty.flags);
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if (SWIG_IsOK(res)) {
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// success code
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if (SWIG_IsNewObj(res) {
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...
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delete *ptr;
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} else {
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...
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}
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} else {
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// fail code
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}
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I.e., now SWIG_ConvertPtr can return new objects and you can
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identify the case and take care of the deallocation. Of course that
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requires also to SWIG_ConvertPtr to return new result values, as
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int SWIG_ConvertPtr(obj, ptr,...) {
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if (<obj is ok>) {
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if (<need new object>) {
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*ptr = <ptr to new allocated object>;
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return SWIG_NEWOBJ;
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} else {
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*ptr = <ptr to old object>;
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return SWIG_OLDOBJ;
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}
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} else {
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return SWIG_BADOBJ;
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}
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}
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Of course, returning the plain '0(success)/-1(fail)' still works, but you can be
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more explicit by returning SWIG_BADOBJ, SWIG_ERROR or any of the
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swig errors code.
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Finally, if the SWIG_CASTRANK_MODE is enabled, the result code
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allows to return the 'cast rank', for example, if you have this
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int food(double)
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int fooi(int);
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and you call
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food(1) // cast rank '1' (1 -> 1.0)
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fooi(1) // cast rank '0'
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just use the SWIG_AddCast()/SWIG_CheckState()
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*/
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#define SWIG_OK (0)
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#define SWIG_ERROR (-1)
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#define SWIG_IsOK(r) (r >= 0)
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#define SWIG_ArgError(r) ((r != SWIG_ERROR) ? r : SWIG_TypeError)
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/* The CastRankLimit says how many bits are used for the cast rank */
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#define SWIG_CASTRANKLIMIT (1 << 8)
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/* The NewMask denotes the object was created (using new/malloc) */
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#define SWIG_NEWOBJMASK (SWIG_CASTRANKLIMIT << 1)
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/* The TmpMask is for in/out typemaps that use temporal objects */
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#define SWIG_TMPOBJMASK (SWIG_NEWOBJMASK << 1)
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/* Simple returning values */
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#define SWIG_BADOBJ (SWIG_ERROR)
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#define SWIG_OLDOBJ (SWIG_OK)
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#define SWIG_NEWOBJ (SWIG_OK | SWIG_NEWOBJMASK)
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#define SWIG_TMPOBJ (SWIG_OK | SWIG_TMPOBJMASK)
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/* Check, add and del mask methods */
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#define SWIG_AddNewMask(r) (SWIG_IsOK(r) ? (r | SWIG_NEWOBJMASK) : r)
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#define SWIG_DelNewMask(r) (SWIG_IsOK(r) ? (r & ~SWIG_NEWOBJMASK) : r)
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#define SWIG_IsNewObj(r) (SWIG_IsOK(r) && (r & SWIG_NEWOBJMASK))
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#define SWIG_AddTmpMask(r) (SWIG_IsOK(r) ? (r | SWIG_TMPOBJMASK) : r)
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#define SWIG_DelTmpMask(r) (SWIG_IsOK(r) ? (r & ~SWIG_TMPOBJMASK) : r)
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#define SWIG_IsTmpObj(r) (SWIG_IsOK(r) && (r & SWIG_TMPOBJMASK))
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/* Cast-Rank Mode */
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#if defined(SWIG_CASTRANK_MODE)
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# ifndef SWIG_TypeRank
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# define SWIG_TypeRank unsigned long
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# endif
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# ifndef SWIG_MAXCASTRANK /* Default cast allowed */
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# define SWIG_MAXCASTRANK (2)
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# endif
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# define SWIG_CASTRANKMASK ((SWIG_CASTRANKLIMIT) -1)
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# define SWIG_CastRank(r) (r & SWIG_CASTRANKMASK)
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SWIGINTERNINLINE int SWIG_AddCast(int r) {
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return SWIG_IsOK(r) ? ((SWIG_CastRank(r) < SWIG_MAXCASTRANK) ? (r + 1) : SWIG_ERROR) : r;
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}
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SWIGINTERNINLINE int SWIG_CheckState(int r) {
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return SWIG_IsOK(r) ? SWIG_CastRank(r) + 1 : 0;
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}
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#else /* no cast-rank mode */
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# define SWIG_AddCast
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# define SWIG_CheckState(r) (SWIG_IsOK(r) ? 1 : 0)
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#endif
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#include <string.h>
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#ifdef __cplusplus
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extern "C" {
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#endif
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typedef void *(*swig_converter_func)(void *, int *);
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typedef struct swig_type_info *(*swig_dycast_func)(void **);
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/* Structure to store information on one type */
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typedef struct swig_type_info {
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const char *name; /* mangled name of this type */
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const char *str; /* human readable name of this type */
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swig_dycast_func dcast; /* dynamic cast function down a hierarchy */
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struct swig_cast_info *cast; /* linked list of types that can cast into this type */
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void *clientdata; /* language specific type data */
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int owndata; /* flag if the structure owns the clientdata */
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} swig_type_info;
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/* Structure to store a type and conversion function used for casting */
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typedef struct swig_cast_info {
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swig_type_info *type; /* pointer to type that is equivalent to this type */
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swig_converter_func converter; /* function to cast the void pointers */
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struct swig_cast_info *next; /* pointer to next cast in linked list */
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struct swig_cast_info *prev; /* pointer to the previous cast */
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} swig_cast_info;
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/* Structure used to store module information
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* Each module generates one structure like this, and the runtime collects
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* all of these structures and stores them in a circularly linked list.*/
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typedef struct swig_module_info {
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swig_type_info **types; /* Array of pointers to swig_type_info structures that are in this module */
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size_t size; /* Number of types in this module */
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struct swig_module_info *next; /* Pointer to next element in circularly linked list */
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swig_type_info **type_initial; /* Array of initially generated type structures */
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swig_cast_info **cast_initial; /* Array of initially generated casting structures */
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void *clientdata; /* Language specific module data */
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} swig_module_info;
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/*
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Compare two type names skipping the space characters, therefore
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"char*" == "char *" and "Class<int>" == "Class<int >", etc.
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Return 0 when the two name types are equivalent, as in
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strncmp, but skipping ' '.
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*/
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SWIGRUNTIME int
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SWIG_TypeNameComp(const char *f1, const char *l1,
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const char *f2, const char *l2) {
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for (;(f1 != l1) && (f2 != l2); ++f1, ++f2) {
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while ((*f1 == ' ') && (f1 != l1)) ++f1;
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while ((*f2 == ' ') && (f2 != l2)) ++f2;
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if (*f1 != *f2) return (*f1 > *f2) ? 1 : -1;
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}
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return (int)((l1 - f1) - (l2 - f2));
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}
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/*
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Check type equivalence in a name list like <name1>|<name2>|...
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Return 0 if not equal, 1 if equal
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*/
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SWIGRUNTIME int
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SWIG_TypeEquiv(const char *nb, const char *tb) {
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int equiv = 0;
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const char* te = tb + strlen(tb);
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const char* ne = nb;
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while (!equiv && *ne) {
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for (nb = ne; *ne; ++ne) {
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if (*ne == '|') break;
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}
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equiv = (SWIG_TypeNameComp(nb, ne, tb, te) == 0) ? 1 : 0;
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if (*ne) ++ne;
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}
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return equiv;
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}
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/*
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Check type equivalence in a name list like <name1>|<name2>|...
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Return 0 if equal, -1 if nb < tb, 1 if nb > tb
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*/
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SWIGRUNTIME int
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SWIG_TypeCompare(const char *nb, const char *tb) {
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int equiv = 0;
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const char* te = tb + strlen(tb);
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const char* ne = nb;
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while (!equiv && *ne) {
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for (nb = ne; *ne; ++ne) {
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if (*ne == '|') break;
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}
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equiv = (SWIG_TypeNameComp(nb, ne, tb, te) == 0) ? 1 : 0;
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if (*ne) ++ne;
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}
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return equiv;
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}
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/* think of this as a c++ template<> or a scheme macro */
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#define SWIG_TypeCheck_Template(comparison, ty) \
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if (ty) { \
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swig_cast_info *iter = ty->cast; \
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while (iter) { \
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if (comparison) { \
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if (iter == ty->cast) return iter; \
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/* Move iter to the top of the linked list */ \
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iter->prev->next = iter->next; \
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if (iter->next) \
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iter->next->prev = iter->prev; \
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iter->next = ty->cast; \
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iter->prev = 0; \
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if (ty->cast) ty->cast->prev = iter; \
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ty->cast = iter; \
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return iter; \
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} \
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iter = iter->next; \
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} \
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} \
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return 0
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/*
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Check the typename
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*/
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SWIGRUNTIME swig_cast_info *
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SWIG_TypeCheck(const char *c, swig_type_info *ty) {
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SWIG_TypeCheck_Template(strcmp(iter->type->name, c) == 0, ty);
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}
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/* Same as previous function, except strcmp is replaced with a pointer comparison */
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SWIGRUNTIME swig_cast_info *
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SWIG_TypeCheckStruct(swig_type_info *from, swig_type_info *into) {
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SWIG_TypeCheck_Template(iter->type == from, into);
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}
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/*
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Cast a pointer up an inheritance hierarchy
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*/
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SWIGRUNTIMEINLINE void *
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SWIG_TypeCast(swig_cast_info *ty, void *ptr, int *newmemory) {
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return ((!ty) || (!ty->converter)) ? ptr : (*ty->converter)(ptr, newmemory);
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}
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/*
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Dynamic pointer casting. Down an inheritance hierarchy
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*/
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SWIGRUNTIME swig_type_info *
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SWIG_TypeDynamicCast(swig_type_info *ty, void **ptr) {
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swig_type_info *lastty = ty;
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if (!ty || !ty->dcast) return ty;
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while (ty && (ty->dcast)) {
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ty = (*ty->dcast)(ptr);
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if (ty) lastty = ty;
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}
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return lastty;
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}
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/*
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Return the name associated with this type
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*/
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SWIGRUNTIMEINLINE const char *
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SWIG_TypeName(const swig_type_info *ty) {
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return ty->name;
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}
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/*
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Return the pretty name associated with this type,
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that is an unmangled type name in a form presentable to the user.
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*/
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SWIGRUNTIME const char *
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SWIG_TypePrettyName(const swig_type_info *type) {
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/* The "str" field contains the equivalent pretty names of the
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type, separated by vertical-bar characters. We choose
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to print the last name, as it is often (?) the most
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specific. */
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if (!type) return NULL;
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if (type->str != NULL) {
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const char *last_name = type->str;
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const char *s;
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for (s = type->str; *s; s++)
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if (*s == '|') last_name = s+1;
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return last_name;
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}
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else
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return type->name;
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}
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/*
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Set the clientdata field for a type
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*/
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SWIGRUNTIME void
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SWIG_TypeClientData(swig_type_info *ti, void *clientdata) {
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swig_cast_info *cast = ti->cast;
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/* if (ti->clientdata == clientdata) return; */
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ti->clientdata = clientdata;
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while (cast) {
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if (!cast->converter) {
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swig_type_info *tc = cast->type;
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if (!tc->clientdata) {
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SWIG_TypeClientData(tc, clientdata);
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}
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}
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cast = cast->next;
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}
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}
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SWIGRUNTIME void
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SWIG_TypeNewClientData(swig_type_info *ti, void *clientdata) {
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SWIG_TypeClientData(ti, clientdata);
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ti->owndata = 1;
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}
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/*
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Search for a swig_type_info structure only by mangled name
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Search is a O(log #types)
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We start searching at module start, and finish searching when start == end.
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Note: if start == end at the beginning of the function, we go all the way around
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the circular list.
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*/
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SWIGRUNTIME swig_type_info *
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SWIG_MangledTypeQueryModule(swig_module_info *start,
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swig_module_info *end,
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const char *name) {
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swig_module_info *iter = start;
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do {
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if (iter->size) {
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register size_t l = 0;
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register size_t r = iter->size - 1;
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do {
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/* since l+r >= 0, we can (>> 1) instead (/ 2) */
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register size_t i = (l + r) >> 1;
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const char *iname = iter->types[i]->name;
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if (iname) {
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register int compare = strcmp(name, iname);
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if (compare == 0) {
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return iter->types[i];
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} else if (compare < 0) {
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if (i) {
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r = i - 1;
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} else {
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break;
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}
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} else if (compare > 0) {
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l = i + 1;
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}
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} else {
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break; /* should never happen */
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}
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} while (l <= r);
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}
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iter = iter->next;
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} while (iter != end);
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return 0;
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}
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/*
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Search for a swig_type_info structure for either a mangled name or a human readable name.
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It first searches the mangled names of the types, which is a O(log #types)
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If a type is not found it then searches the human readable names, which is O(#types).
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|
We start searching at module start, and finish searching when start == end.
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Note: if start == end at the beginning of the function, we go all the way around
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the circular list.
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*/
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SWIGRUNTIME swig_type_info *
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SWIG_TypeQueryModule(swig_module_info *start,
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swig_module_info *end,
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const char *name) {
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/* STEP 1: Search the name field using binary search */
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swig_type_info *ret = SWIG_MangledTypeQueryModule(start, end, name);
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if (ret) {
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return ret;
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} else {
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/* STEP 2: If the type hasn't been found, do a complete search
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of the str field (the human readable name) */
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swig_module_info *iter = start;
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do {
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register size_t i = 0;
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for (; i < iter->size; ++i) {
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if (iter->types[i]->str && (SWIG_TypeEquiv(iter->types[i]->str, name)))
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return iter->types[i];
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}
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iter = iter->next;
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} while (iter != end);
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}
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/* neither found a match */
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return 0;
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}
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/*
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Pack binary data into a string
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*/
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SWIGRUNTIME char *
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SWIG_PackData(char *c, void *ptr, size_t sz) {
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static const char hex[17] = "0123456789abcdef";
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register const unsigned char *u = (unsigned char *) ptr;
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register const unsigned char *eu = u + sz;
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for (; u != eu; ++u) {
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register unsigned char uu = *u;
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*(c++) = hex[(uu & 0xf0) >> 4];
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*(c++) = hex[uu & 0xf];
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}
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return c;
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}
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/*
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Unpack binary data from a string
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*/
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SWIGRUNTIME const char *
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SWIG_UnpackData(const char *c, void *ptr, size_t sz) {
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register unsigned char *u = (unsigned char *) ptr;
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register const unsigned char *eu = u + sz;
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for (; u != eu; ++u) {
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register char d = *(c++);
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register unsigned char uu;
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if ((d >= '0') && (d <= '9'))
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uu = ((d - '0') << 4);
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else if ((d >= 'a') && (d <= 'f'))
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uu = ((d - ('a'-10)) << 4);
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|
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;
|
|
}
|
|
|
|
/*
|
|
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
|