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Code Editor : mzrun.swg
/* ----------------------------------------------------------------------------- * mzrun.swg * ----------------------------------------------------------------------------- */ #include <stdio.h> #include <string.h> #include <stdlib.h> #include <limits.h> #include <escheme.h> #include <assert.h> #ifdef __cplusplus extern "C" { #endif /* Common SWIG API */ #define SWIG_ConvertPtr(s, result, type, flags) \ SWIG_MzScheme_ConvertPtr(s, result, type, flags) #define SWIG_NewPointerObj(ptr, type, owner) \ SWIG_MzScheme_NewPointerObj((void *)ptr, type, owner) #define SWIG_MustGetPtr(s, type, argnum, flags) \ SWIG_MzScheme_MustGetPtr(s, type, argnum, flags, FUNC_NAME, argc, argv) #define SWIG_contract_assert(expr,msg) \ if (!(expr)) { \ char *m=(char *) scheme_malloc(strlen(msg)+1000); \ sprintf(m,"SWIG contract, assertion failed: function=%s, message=%s", \ (char *) FUNC_NAME,(char *) msg); \ scheme_signal_error(m); \ } /* Runtime API */ #define SWIG_GetModule(clientdata) SWIG_MzScheme_GetModule((Scheme_Env *)(clientdata)) #define SWIG_SetModule(clientdata, pointer) SWIG_MzScheme_SetModule((Scheme_Env *) (clientdata), pointer) #define SWIG_MODULE_CLIENTDATA_TYPE Scheme_Env * /* MzScheme-specific SWIG API */ #define SWIG_malloc(size) SWIG_MzScheme_Malloc(size, FUNC_NAME) #define SWIG_free(mem) free(mem) #define SWIG_NewStructFromPtr(ptr,type) \ _swig_convert_struct_##type##(ptr) #define MAXVALUES 6 #define swig_make_boolean(b) (b ? scheme_true : scheme_false) static long SWIG_convert_integer(Scheme_Object *o, long lower_bound, long upper_bound, const char *func_name, int argnum, int argc, Scheme_Object **argv) { long value; int status = scheme_get_int_val(o, &value); if (!status) scheme_wrong_type(func_name, "integer", argnum, argc, argv); if (value < lower_bound || value > upper_bound) scheme_wrong_type(func_name, "integer", argnum, argc, argv); return value; } static int SWIG_is_integer(Scheme_Object *o) { long value; return scheme_get_int_val(o, &value); } static unsigned long SWIG_convert_unsigned_integer(Scheme_Object *o, unsigned long lower_bound, unsigned long upper_bound, const char *func_name, int argnum, int argc, Scheme_Object **argv) { unsigned long value; int status = scheme_get_unsigned_int_val(o, &value); if (!status) scheme_wrong_type(func_name, "integer", argnum, argc, argv); if (value < lower_bound || value > upper_bound) scheme_wrong_type(func_name, "integer", argnum, argc, argv); return value; } static int SWIG_is_unsigned_integer(Scheme_Object *o) { unsigned long value; return scheme_get_unsigned_int_val(o, &value); } /* ----------------------------------------------------------------------- * mzscheme 30X support code * ----------------------------------------------------------------------- */ #ifndef SCHEME_STR_VAL #define MZSCHEME30X 1 #endif #ifdef MZSCHEME30X /* * This is MZSCHEME 299.100 or higher (30x). From version 299.100 of * mzscheme upwards, strings are in unicode. These functions convert * to and from utf8 encodings of these strings. NB! strlen(s) will be * the size in bytes of the string, not the actual length. */ #define SCHEME_STR_VAL(obj) SCHEME_BYTE_STR_VAL(scheme_char_string_to_byte_string(obj)) #define SCHEME_STRLEN_VAL(obj) SCHEME_BYTE_STRLEN_VAL(scheme_char_string_to_byte_string(obj)) #define SCHEME_STRINGP(obj) SCHEME_CHAR_STRINGP(obj) #define scheme_make_string(s) scheme_make_utf8_string(s) #define scheme_make_sized_string(s,l) scheme_make_sized_utf8_string(s,l) #define scheme_make_sized_offset_string(s,d,l) \ scheme_make_sized_offset_utf8_string(s,d,l) #define SCHEME_MAKE_STRING(s) scheme_make_utf8_string(s) #else #define SCHEME_MAKE_STRING(s) scheme_make_string_without_copying(s) #endif /* ----------------------------------------------------------------------- * End of mzscheme 30X support code * ----------------------------------------------------------------------- */ struct swig_mz_proxy { Scheme_Type mztype; swig_type_info *type; void *object; }; static Scheme_Type swig_type; static void mz_free_swig(void *p, void *data) { struct swig_mz_proxy *proxy = (struct swig_mz_proxy *) p; if (SCHEME_NULLP((Scheme_Object*)p) || SCHEME_TYPE((Scheme_Object*)p) != swig_type) return; if (proxy->type) { if (proxy->type->clientdata) { ((Scheme_Prim *)proxy->type->clientdata)(1, (Scheme_Object **)&proxy); } } } static Scheme_Object * SWIG_MzScheme_NewPointerObj(void *ptr, swig_type_info *type, int owner) { struct swig_mz_proxy *new_proxy; new_proxy = (struct swig_mz_proxy *) scheme_malloc(sizeof(struct swig_mz_proxy)); new_proxy->mztype = swig_type; new_proxy->type = type; new_proxy->object = ptr; if (owner) { scheme_add_finalizer(new_proxy, mz_free_swig, NULL); } return (Scheme_Object *) new_proxy; } static int SWIG_MzScheme_ConvertPtr(Scheme_Object *s, void **result, swig_type_info *type, int flags) { swig_cast_info *cast; if (SCHEME_NULLP(s)) { *result = NULL; return (flags & SWIG_POINTER_NO_NULL) ? SWIG_NullReferenceError : SWIG_OK; } else if (SCHEME_TYPE(s) == swig_type) { struct swig_mz_proxy *proxy = (struct swig_mz_proxy *) s; if (type) { cast = SWIG_TypeCheckStruct(proxy->type, type); if (cast) { int newmemory = 0; *result = SWIG_TypeCast(cast, proxy->object, &newmemory); assert(!newmemory); /* newmemory handling not yet implemented */ return 0; } else { return 1; } } else { *result = proxy->object; return 0; } } return 1; } static SWIGINLINE void * SWIG_MzScheme_MustGetPtr(Scheme_Object *s, swig_type_info *type, int argnum, int flags, const char *func_name, int argc, Scheme_Object **argv) { void *result; if (SWIG_MzScheme_ConvertPtr(s, &result, type, flags)) { scheme_wrong_type(func_name, type->str ? type->str : "void *", argnum - 1, argc, argv); } return result; } static SWIGINLINE void * SWIG_MzScheme_Malloc(size_t size, const char *func_name) { void *p = malloc(size); if (p == NULL) { scheme_signal_error("swig-memory-error"); } else return p; } static Scheme_Object * SWIG_MzScheme_PackageValues(int num, Scheme_Object **values) { /* ignore first value if void */ if (num > 0 && SCHEME_VOIDP(values[0])) num--, values++; if (num == 0) return scheme_void; else if (num == 1) return values[0]; else return scheme_values(num, values); } #ifndef scheme_make_inspector #define scheme_make_inspector(x,y) \ _scheme_apply(scheme_builtin_value("make-inspector"), x, y) #endif /* Function to create a new struct. */ static Scheme_Object * SWIG_MzScheme_new_scheme_struct (Scheme_Env* env, const char* basename, int num_fields, char** field_names) { Scheme_Object *new_type; int count_out, i; Scheme_Object **struct_names; Scheme_Object **vals; Scheme_Object **a = (Scheme_Object**) \ scheme_malloc(num_fields*sizeof(Scheme_Object*)); for (i=0; i<num_fields; ++i) { a[i] = (Scheme_Object*) scheme_intern_symbol(field_names[i]); } new_type = scheme_make_struct_type(scheme_intern_symbol(basename), NULL /*super_type*/, scheme_make_inspector(0, NULL), num_fields, 0 /* auto_fields */, NULL /* auto_val */, NULL /* properties */ #ifdef MZSCHEME30X ,NULL /* Guard */ #endif ); struct_names = scheme_make_struct_names(scheme_intern_symbol(basename), scheme_build_list(num_fields,a), 0 /*flags*/, &count_out); vals = scheme_make_struct_values(new_type, struct_names, count_out, 0); for (i = 0; i < count_out; i++) scheme_add_global_symbol(struct_names[i], vals[i],env); return new_type; } #if defined(_WIN32) || defined(__WIN32__) #define __OS_WIN32 #endif #ifdef __OS_WIN32 #include <windows.h> #else #include <dlfcn.h> #endif static char **mz_dlopen_libraries=NULL; static void **mz_libraries=NULL; static char **mz_dynload_libpaths=NULL; static void mz_set_dlopen_libraries(const char *_libs) { int i,k,n; int mz_dynload_debug=(1==0); char *extra_paths[1000]; char *EP; { char *dbg=getenv("MZ_DYNLOAD_DEBUG"); if (dbg!=NULL) { mz_dynload_debug=atoi(dbg); } } { char *ep=getenv("MZ_DYNLOAD_LIBPATH"); int i,k,j; k=0; if (ep!=NULL) { EP=strdup(ep); for(i=0,j=0;EP[i]!='\0';i++) { if (EP[i]==':') { EP[i]='\0'; extra_paths[k++]=&EP[j]; j=i+1; } } if (j!=i) { extra_paths[k++]=&EP[j]; } } else { EP=strdup(""); } extra_paths[k]=NULL; k+=1; if (mz_dynload_debug) { fprintf(stderr,"SWIG:mzscheme:MZ_DYNLOAD_LIBPATH=%s\n",(ep==NULL) ? "(null)" : ep); fprintf(stderr,"SWIG:mzscheme:extra_paths[%d]\n",k-1); for(i=0;i<k-1;i++) { fprintf(stderr,"SWIG:mzscheme:extra_paths[%d]=%s\n",i,extra_paths[i]); } } mz_dynload_libpaths=(char **) malloc(sizeof(char *)*k); for(i=0;i<k;i++) { if (extra_paths[i]!=NULL) { mz_dynload_libpaths[i]=strdup(extra_paths[i]); } else { mz_dynload_libpaths[i]=NULL; } } if (mz_dynload_debug) { int i; for(i=0;extra_paths[i]!=NULL;i++) { fprintf(stderr,"SWIG:mzscheme:%s\n",extra_paths[i]); } } } { #ifdef MZ_DYNLOAD_LIBS char *libs=(char *) malloc((strlen(MZ_DYNLOAD_LIBS)+1)*sizeof(char)); strcpy(libs,MZ_DYNLOAD_LIBS); #else char *libs=(char *) malloc((strlen(_libs)+1)*sizeof(char)); strcpy(libs,_libs); #endif for(i=0,n=strlen(libs),k=0;i<n;i++) { if (libs[i]==',') { k+=1; } } k+=1; mz_dlopen_libraries=(char **) malloc(sizeof(char *)*(k+1)); mz_dlopen_libraries[0]=libs; for(i=0,k=1,n=strlen(libs);i<n;i++) { if (libs[i]==',') { libs[i]='\0'; mz_dlopen_libraries[k++]=&libs[i+1]; i+=1; } } if (mz_dynload_debug) { fprintf(stderr,"k=%d\n",k); } mz_dlopen_libraries[k]=NULL; free(EP); } } static void *mz_load_function(char *function) { int mz_dynload_debug=(1==0); { char *dbg=getenv("MZ_DYNLOAD_DEBUG"); if (dbg!=NULL) { mz_dynload_debug=atoi(dbg); } } if (mz_dlopen_libraries==NULL) { return NULL; } else { if (mz_libraries==NULL) { int i,n; for(n=0;mz_dlopen_libraries[n]!=NULL;n++); if (mz_dynload_debug) { fprintf(stderr,"SWIG:mzscheme:n=%d\n",n); } mz_libraries=(void **) malloc(sizeof(void*)*n); for(i=0;i<n;i++) { if (mz_dynload_debug) { fprintf(stderr,"SWIG:mzscheme:loading %s\n",mz_dlopen_libraries[i]); } #ifdef __OS_WIN32 mz_libraries[i]=(void *) LoadLibrary(mz_dlopen_libraries[i]); #else mz_libraries[i]=(void *) dlopen(mz_dlopen_libraries[i],RTLD_LAZY); #endif if (mz_libraries[i]==NULL) { int k; char *libp; for(k=0;mz_dynload_libpaths[k]!=NULL && mz_libraries[i]==NULL;k++) { int L=strlen(mz_dynload_libpaths[k])+strlen("\\")+strlen(mz_dlopen_libraries[i])+1; libp=(char *) malloc(L*sizeof(char)); #ifdef __OS_WIN32 sprintf(libp,"%s\\%s",mz_dynload_libpaths[k],mz_dlopen_libraries[i]); mz_libraries[i]=(void *) LoadLibrary(libp); #else sprintf(libp,"%s/%s",mz_dynload_libpaths[k],mz_dlopen_libraries[i]); mz_libraries[i]=(void *) dlopen(libp,RTLD_LAZY); #endif if (mz_dynload_debug) { fprintf(stderr,"SWIG:mzscheme:trying %s --> %p\n",libp,mz_libraries[i]); } free(libp); } } } } { int i; void *func=NULL; for(i=0;mz_dlopen_libraries[i]!=NULL && func==NULL;i++) { if (mz_libraries[i]!=NULL) { #ifdef __OS_WIN32 func=GetProcAddress(mz_libraries[i],function); #else func=dlsym(mz_libraries[i],function); #endif } if (mz_dynload_debug) { fprintf(stderr, "SWIG:mzscheme:library:%s;dlopen=%p,function=%s,func=%p\n", mz_dlopen_libraries[i],mz_libraries[i],function,func ); } } return func; } } } /* The interpreter will store a pointer to this structure in a global variable called swig-runtime-data-type-pointer. The instance of this struct is only used if no other module has yet been loaded */ struct swig_mzscheme_runtime_data { swig_module_info *module_head; Scheme_Type type; }; static struct swig_mzscheme_runtime_data swig_mzscheme_runtime_data; static swig_module_info * SWIG_MzScheme_GetModule(Scheme_Env *env) { Scheme_Object *pointer, *symbol; struct swig_mzscheme_runtime_data *data; /* first check if pointer already created */ symbol = scheme_intern_symbol("swig-runtime-data-type-pointer" SWIG_RUNTIME_VERSION SWIG_TYPE_TABLE_NAME); pointer = scheme_lookup_global(symbol, env); if (pointer && SCHEME_CPTRP(pointer)) { data = (struct swig_mzscheme_runtime_data *) SCHEME_CPTR_VAL(pointer); swig_type = data->type; return data->module_head; } else { return NULL; } } static void SWIG_MzScheme_SetModule(Scheme_Env *env, swig_module_info *module) { Scheme_Object *pointer, *symbol; struct swig_mzscheme_runtime_data *data; /* first check if pointer already created */ symbol = scheme_intern_symbol("swig-runtime-data-type-pointer" SWIG_RUNTIME_VERSION SWIG_TYPE_TABLE_NAME); pointer = scheme_lookup_global(symbol, env); if (pointer && SCHEME_CPTRP(pointer)) { data = (struct swig_mzscheme_runtime_data *) SCHEME_CPTR_VAL(pointer); swig_type = data->type; data->module_head = module; } else { /* create a new type for wrapped pointer values */ swig_type = scheme_make_type((char *)"swig"); swig_mzscheme_runtime_data.module_head = module; swig_mzscheme_runtime_data.type = swig_type; /* create a new pointer */ #ifndef MZSCHEME30X pointer = scheme_make_cptr((void *) &swig_mzscheme_runtime_data, "swig_mzscheme_runtime_data"); #else pointer = scheme_make_cptr((void *) &swig_mzscheme_runtime_data, scheme_make_byte_string("swig_mzscheme_runtime_data")); #endif scheme_add_global_symbol(symbol, pointer, env); } } #ifdef __cplusplus } #endif
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