/* Code generated from eC source file: ast.ec */ #if defined(_WIN32) #define __runtimePlatform 1 #elif defined(__APPLE__) #define __runtimePlatform 3 #else #define __runtimePlatform 2 #endif #if defined(__GNUC__) typedef long long int64; typedef unsigned long long uint64; #ifndef _WIN32 #define __declspec(x) #endif #elif defined(__TINYC__) #include #define __builtin_va_list va_list #define __builtin_va_start va_start #define __builtin_va_end va_end #ifdef _WIN32 #define strcasecmp stricmp #define strncasecmp strnicmp #define __declspec(x) __attribute__((x)) #else #define __declspec(x) #endif typedef long long int64; typedef unsigned long long uint64; #else typedef __int64 int64; typedef unsigned __int64 uint64; #endif #ifdef __BIG_ENDIAN__ #define __ENDIAN_PAD(x) (8 - (x)) #else #define __ENDIAN_PAD(x) 0 #endif #if defined(_WIN32) # if defined(__GNUC__) || defined(__TINYC__) # define ecere_stdcall __attribute__((__stdcall__)) # define ecere_gcc_struct __attribute__((gcc_struct)) # else # define ecere_stdcall __stdcall # define ecere_gcc_struct # endif #else # define ecere_stdcall # define ecere_gcc_struct #endif #include #include enum yytokentype { IDENTIFIER = 258, CONSTANT = 259, STRING_LITERAL = 260, SIZEOF = 261, PTR_OP = 262, INC_OP = 263, DEC_OP = 264, LEFT_OP = 265, RIGHT_OP = 266, LE_OP = 267, GE_OP = 268, EQ_OP = 269, NE_OP = 270, AND_OP = 271, OR_OP = 272, MUL_ASSIGN = 273, DIV_ASSIGN = 274, MOD_ASSIGN = 275, ADD_ASSIGN = 276, SUB_ASSIGN = 277, LEFT_ASSIGN = 278, RIGHT_ASSIGN = 279, AND_ASSIGN = 280, XOR_ASSIGN = 281, OR_ASSIGN = 282, TYPE_NAME = 283, TYPEDEF = 284, EXTERN = 285, STATIC = 286, AUTO = 287, REGISTER = 288, CHAR = 289, SHORT = 290, INT = 291, UINT = 292, INT64 = 293, INT128 = 294, LONG = 295, SIGNED = 296, UNSIGNED = 297, FLOAT = 298, DOUBLE = 299, CONST = 300, VOLATILE = 301, VOID = 302, VALIST = 303, STRUCT = 304, UNION = 305, ENUM = 306, ELLIPSIS = 307, CASE = 308, DEFAULT = 309, IF = 310, SWITCH = 311, WHILE = 312, DO = 313, FOR = 314, GOTO = 315, CONTINUE = 316, BREAK = 317, RETURN = 318, IFX = 319, ELSE = 320, CLASS = 321, THISCLASS = 322, CLASS_NAME = 323, PROPERTY = 324, SETPROP = 325, GETPROP = 326, NEWOP = 327, RENEW = 328, DELETE = 329, EXT_DECL = 330, EXT_STORAGE = 331, IMPORT = 332, DEFINE = 333, VIRTUAL = 334, ATTRIB = 335, PUBLIC = 336, PRIVATE = 337, TYPED_OBJECT = 338, ANY_OBJECT = 339, _INCREF = 340, EXTENSION = 341, ASM = 342, TYPEOF = 343, WATCH = 344, STOPWATCHING = 345, FIREWATCHERS = 346, WATCHABLE = 347, CLASS_DESIGNER = 348, CLASS_NO_EXPANSION = 349, CLASS_FIXED = 350, ISPROPSET = 351, CLASS_DEFAULT_PROPERTY = 352, PROPERTY_CATEGORY = 353, CLASS_DATA = 354, CLASS_PROPERTY = 355, SUBCLASS = 356, NAMESPACE = 357, NEW0OP = 358, RENEW0 = 359, VAARG = 360, DBTABLE = 361, DBFIELD = 362, DBINDEX = 363, DATABASE_OPEN = 364, ALIGNOF = 365, ATTRIB_DEP = 366, __ATTRIB = 367, BOOL = 368, _BOOL = 369, _COMPLEX = 370, _IMAGINARY = 371, RESTRICT = 372, THREAD = 373, WIDE_STRING_LITERAL = 374, BUILTIN_OFFSETOF = 375 }; extern char * yytext; const char * defaultNameSpace; int defaultNameSpaceLen; unsigned int strictNameSpaces; int declMode = 2; int structDeclMode = 2; int defaultDeclMode = 2; const char * currentNameSpace; int currentNameSpaceLen; struct ContextStringPair { char * string, * context; } ecere_gcc_struct; struct __ecereNameSpace__ecere__com__Instance * intlStrings; extern unsigned int inCompiler; extern const char * i18nModuleName; extern struct __ecereNameSpace__ecere__com__Property * __ecereProp___ecereNameSpace__ecere__com__Iterator_data; extern unsigned int buildingECERECOMModule; extern struct __ecereNameSpace__ecere__com__Property * __ecereProp___ecereNameSpace__ecere__sys__BinaryTree_first; extern struct __ecereNameSpace__ecere__com__Property * __ecereProp___ecereNameSpace__ecere__sys__BTNode_next; extern unsigned int inIDE; extern int targetBits; extern int targetPlatform; extern struct __ecereNameSpace__ecere__com__Property * __ecereProp___ecereNameSpace__ecere__com__MapIterator_map; extern struct __ecereNameSpace__ecere__com__Property * __ecereProp___ecereNameSpace__ecere__com__MapIterator_key; extern int yyparse(); extern int yylex(); struct __ecereNameSpace__ecere__sys__OldList { void * first; void * last; int count; unsigned int offset; unsigned int circ; } ecere_gcc_struct; struct __ecereNameSpace__ecere__com__DataValue { union { char c; unsigned char uc; short s; unsigned short us; int i; unsigned int ui; void * p; float f; double d; long long i64; uint64 ui64; } ecere_gcc_struct __anon1; } ecere_gcc_struct; struct __ecereNameSpace__ecere__com__SerialBuffer { unsigned char * _buffer; unsigned int count; unsigned int _size; unsigned int pos; } ecere_gcc_struct; extern void * __ecereNameSpace__ecere__com__eSystem_New(unsigned int size); extern void * __ecereNameSpace__ecere__com__eSystem_New0(unsigned int size); extern void * __ecereNameSpace__ecere__com__eSystem_Renew(void * memory, unsigned int size); extern void * __ecereNameSpace__ecere__com__eSystem_Renew0(void * memory, unsigned int size); extern void __ecereNameSpace__ecere__com__eSystem_Delete(void * memory); struct CodePosition { int line; int charPos; int pos; int included; } ecere_gcc_struct; extern size_t strlen(const char * ); extern void * memcpy(void * , const void * , size_t size); extern int strcmp(const char * , const char * ); extern char * __ecereNameSpace__ecere__sys__CopyString(const char * string); struct ClassImport; extern char * QMkString(const char * source); extern char * strstr(const char * , const char * ); extern char * __ecereNameSpace__ecere__sys__RSearchString(const char * buffer, const char * subStr, int maxLen, unsigned int matchCase, unsigned int matchWord); struct __ecereNameSpace__ecere__com__DefinedExpression; extern void Compiler_Warning(const char * format, ...); extern const char * __ecereNameSpace__ecere__GetTranslatedString(const char * name, const char * string, const char * stringAndContext); extern int sprintf(char * , const char * , ...); extern void Compiler_Error(const char * format, ...); struct __ecereNameSpace__ecere__com__LinkList { void * first; void * last; int count; } ecere_gcc_struct; extern char * strncpy(char * , const char * , size_t n); extern void ImportModule(const char * name, int importType, int importAccess, unsigned int loadDllOnly); extern char * strcpy(char * , const char * ); extern char * strcat(char * , const char * ); extern int strncmp(const char * , const char * , size_t n); extern char * strchr(const char * , int); extern long long strtoll(const char * nptr, char * * endptr, int base); extern unsigned long strtoul(const char * nptr, char * * endptr, int base); extern void FullClassNameCat(char * output, const char * className, unsigned int includeTemplateParams); struct __ecereNameSpace__ecere__com__CustomAVLTree { struct __ecereNameSpace__ecere__com__AVLNode * root; int count; } ecere_gcc_struct; extern const char * GetSourceFile(void); extern const char * GetOutputFile(void); extern char * __ecereNameSpace__ecere__sys__ChangeExtension(const char * string, const char * ext, char * output); extern char * __ecereNameSpace__ecere__sys__GetSlashPathBuffer(char * d, const char * p); struct __ecereNameSpace__ecere__com__IteratorPointer; struct __ecereNameSpace__ecere__com__GlobalFunction; const char * GetYYText() { return yytext; } void SetStrictNameSpaces(unsigned int b) { strictNameSpaces = b; } void SetDeclMode(int accessMode) { structDeclMode = declMode = accessMode; } void SetDefaultDeclMode(int accessMode) { defaultDeclMode = accessMode; } void ParseEc() { yyparse(); } int LexEc() { return yylex(); } extern struct __ecereNameSpace__ecere__sys__OldList * excludedSymbols; extern void FreeList(struct __ecereNameSpace__ecere__sys__OldList * list, void (* FreeFunction)(void * )); extern struct __ecereNameSpace__ecere__sys__OldList * imports; extern struct __ecereNameSpace__ecere__sys__OldList * ast; void __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add(struct __ecereNameSpace__ecere__sys__OldList * this, void * item); unsigned int __ecereMethod___ecereNameSpace__ecere__sys__OldList_Insert(struct __ecereNameSpace__ecere__sys__OldList * this, void * prevItem, void * item); void __ecereMethod___ecereNameSpace__ecere__sys__OldList_Remove(struct __ecereNameSpace__ecere__sys__OldList * this, void * item); void __ecereMethod___ecereNameSpace__ecere__sys__OldList_Clear(struct __ecereNameSpace__ecere__sys__OldList * this); struct __ecereNameSpace__ecere__sys__OldList * MkList() { return __ecereNameSpace__ecere__com__eSystem_New0(sizeof(struct __ecereNameSpace__ecere__sys__OldList) * (1)); } struct Location { struct CodePosition start; struct CodePosition end; } ecere_gcc_struct; void SetDefaultNameSpace(const char * s) { defaultNameSpace = s; defaultNameSpaceLen = s ? strlen(s) : 0; } void SetCurrentNameSpace(const char * s) { currentNameSpace = s; currentNameSpaceLen = s ? strlen(s) : 0; } void SetAST(struct __ecereNameSpace__ecere__sys__OldList * list) { ast = list; } struct __ecereNameSpace__ecere__sys__OldList * GetAST() { return ast; } struct __ecereNameSpace__ecere__sys__OldList * MkListOne(void * item) { struct __ecereNameSpace__ecere__sys__OldList * list = __ecereNameSpace__ecere__com__eSystem_New0(sizeof(struct __ecereNameSpace__ecere__sys__OldList) * (1)); __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add((&*list), item); return list; } void ListAdd(struct __ecereNameSpace__ecere__sys__OldList * list, void * item) { if(item) __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add(list, item); } void ListAddFront(struct __ecereNameSpace__ecere__sys__OldList * list, void * item) { if(item) __ecereMethod___ecereNameSpace__ecere__sys__OldList_Insert(list, (((void *)0)), item); } extern struct Location yylloc; struct Attrib { struct Location loc; int type; struct __ecereNameSpace__ecere__sys__OldList * attribs; } ecere_gcc_struct; struct ExtDecl { struct Location loc; int type; union { char * s; struct Attrib * attr; } ecere_gcc_struct __anon1; } ecere_gcc_struct; struct Context; extern struct Context * curContext; extern struct Context * globalContext; extern void FreeContext(struct Context * context); struct __ecereNameSpace__ecere__com__Class; struct __ecereNameSpace__ecere__com__Instance { void * * _vTbl; struct __ecereNameSpace__ecere__com__Class * _class; int _refCount; } ecere_gcc_struct; extern long long __ecereNameSpace__ecere__com__eClass_GetProperty(struct __ecereNameSpace__ecere__com__Class * _class, const char * name); extern void __ecereNameSpace__ecere__com__eClass_SetProperty(struct __ecereNameSpace__ecere__com__Class * _class, const char * name, long long value); extern struct __ecereNameSpace__ecere__com__Class * thisClass; extern void * __ecereNameSpace__ecere__com__eInstance_New(struct __ecereNameSpace__ecere__com__Class * _class); extern void __ecereNameSpace__ecere__com__eInstance_SetMethod(struct __ecereNameSpace__ecere__com__Instance * instance, const char * name, void * function); extern void __ecereNameSpace__ecere__com__eInstance_IncRef(struct __ecereNameSpace__ecere__com__Instance * instance); extern struct __ecereNameSpace__ecere__com__Instance * __ecereNameSpace__ecere__sys__FileOpen(const char * fileName, int mode); struct __ecereNameSpace__ecere__com__MapIterator { struct __ecereNameSpace__ecere__com__Instance * container; struct __ecereNameSpace__ecere__com__IteratorPointer * pointer; } ecere_gcc_struct; struct __ecereNameSpace__ecere__com__Iterator { struct __ecereNameSpace__ecere__com__Instance * container; struct __ecereNameSpace__ecere__com__IteratorPointer * pointer; } ecere_gcc_struct; int __ecereVMethodID___ecereNameSpace__ecere__com__Container_Add; int __ecereMethod___ecereNameSpace__ecere__sys__File_Printf(struct __ecereNameSpace__ecere__com__Instance * this, const char * format, ...); extern void __ecereNameSpace__ecere__com__eInstance_DecRef(struct __ecereNameSpace__ecere__com__Instance * instance); int __ecereVMethodID___ecereNameSpace__ecere__com__Container_Free; struct __ecereNameSpace__ecere__com__Instance * __ecereProp___ecereNameSpace__ecere__com__MapIterator_Get_map(struct __ecereNameSpace__ecere__com__MapIterator * this); void __ecereProp___ecereNameSpace__ecere__com__MapIterator_Set_map(struct __ecereNameSpace__ecere__com__MapIterator * this, struct __ecereNameSpace__ecere__com__Instance * value); const uint64 __ecereProp___ecereNameSpace__ecere__com__MapIterator_Get_key(struct __ecereNameSpace__ecere__com__MapIterator * this); unsigned int __ecereMethod___ecereNameSpace__ecere__com__Iterator_Index(struct __ecereNameSpace__ecere__com__Iterator * this, const uint64 index, unsigned int create); uint64 __ecereProp___ecereNameSpace__ecere__com__Iterator_Get_data(struct __ecereNameSpace__ecere__com__Iterator * this); void __ecereProp___ecereNameSpace__ecere__com__Iterator_Set_data(struct __ecereNameSpace__ecere__com__Iterator * this, uint64 value); unsigned int __ecereMethod___ecereNameSpace__ecere__com__Iterator_Next(); void __ecereDestroyModuleInstances_ast() { (__ecereNameSpace__ecere__com__eInstance_DecRef(intlStrings), intlStrings = 0); } struct ModuleImport; extern struct ModuleImport * mainModule; struct ModuleImport { struct ModuleImport * prev; struct ModuleImport * next; char * name; struct __ecereNameSpace__ecere__sys__OldList classes; struct __ecereNameSpace__ecere__sys__OldList functions; int importType; int importAccess; } ecere_gcc_struct; struct Expression; extern struct Expression * QMkExpId(const char * id); extern void PrintExpression(struct Expression * exp, char * string); extern void FreeExpression(struct Expression * exp); extern struct Expression * CopyExpression(struct Expression * exp); extern void ProcessExpressionType(struct Expression * exp); extern void ComputeExpression(struct Expression * exp); struct External; extern void FreeExternal(struct External * external); extern struct External * curExternal; struct __ecereNameSpace__ecere__sys__BTNode; struct __ecereNameSpace__ecere__sys__BTNode { uintptr_t key; struct __ecereNameSpace__ecere__sys__BTNode * parent; struct __ecereNameSpace__ecere__sys__BTNode * left; struct __ecereNameSpace__ecere__sys__BTNode * right; int depth; } ecere_gcc_struct; struct __ecereNameSpace__ecere__sys__BTNode * __ecereProp___ecereNameSpace__ecere__sys__BTNode_Get_next(struct __ecereNameSpace__ecere__sys__BTNode * this); struct __ecereNameSpace__ecere__com__Property; extern void __ecereNameSpace__ecere__com__eInstance_FireSelfWatchers(struct __ecereNameSpace__ecere__com__Instance * instance, struct __ecereNameSpace__ecere__com__Property * _property); extern void __ecereNameSpace__ecere__com__eInstance_StopWatching(struct __ecereNameSpace__ecere__com__Instance * instance, struct __ecereNameSpace__ecere__com__Property * _property, struct __ecereNameSpace__ecere__com__Instance * object); extern void __ecereNameSpace__ecere__com__eInstance_Watch(void * instance, struct __ecereNameSpace__ecere__com__Property * _property, void * object, void (* callback)(void * , void * )); extern void __ecereNameSpace__ecere__com__eInstance_FireWatchers(struct __ecereNameSpace__ecere__com__Instance * instance, struct __ecereNameSpace__ecere__com__Property * _property); struct DBIndexItem; struct Symbol; extern void FreeSymbol(struct Symbol * symbol); extern struct Symbol * FindSymbol(const char * name, struct Context * startContext, struct Context * endContext, unsigned int isStruct, unsigned int globalNameSpace); extern void DeclareClass(struct External * neededFor, struct Symbol * classSym, const char * className); struct DBTableDef { char * name; struct Symbol * symbol; struct __ecereNameSpace__ecere__sys__OldList * definitions; int declMode; } ecere_gcc_struct; struct Type; struct __ecereNameSpace__ecere__com__Property { struct __ecereNameSpace__ecere__com__Property * prev; struct __ecereNameSpace__ecere__com__Property * next; const char * name; unsigned int isProperty; int memberAccess; int id; struct __ecereNameSpace__ecere__com__Class * _class; const char * dataTypeString; struct __ecereNameSpace__ecere__com__Class * dataTypeClass; struct Type * dataType; void (* Set)(void * , int); int (* Get)(void * ); unsigned int (* IsSet)(void * ); void * data; void * symbol; int vid; unsigned int conversion; unsigned int watcherOffset; const char * category; unsigned int compiled; unsigned int selfWatchable; unsigned int isWatchable; } ecere_gcc_struct; extern void FreeType(struct Type * type); extern void PrintTypeNoConst(struct Type * type, char * string, unsigned int printName, unsigned int fullName); struct Declarator; extern void FreeDeclarator(struct Declarator * decl); extern struct Declarator * GetFuncDecl(struct Declarator * decl); extern char * StringFromSpecDecl(struct __ecereNameSpace__ecere__sys__OldList * specs, struct Declarator * decl); struct TemplateDatatype { struct __ecereNameSpace__ecere__sys__OldList * specifiers; struct Declarator * decl; } ecere_gcc_struct; extern struct Declarator * SpecDeclFromString(const char * string, struct __ecereNameSpace__ecere__sys__OldList * specs, struct Declarator * baseDecl); struct Specifier; extern void FreeSpecifier(struct Specifier * spec); extern struct Specifier * CopySpecifier(struct Specifier * spec); struct __ecereNameSpace__ecere__sys__OldList * MkSpecsClass(struct Specifier * _class) { struct __ecereNameSpace__ecere__sys__OldList * list = MkList(); ListAdd(list, _class); return list; } struct Specifier * _MkSpecifierName(const char * name, struct Symbol * symbol, struct __ecereNameSpace__ecere__sys__OldList * templateArgs); struct Specifier * MkSpecifierName(const char * name) { return _MkSpecifierName(name, (((void *)0)), (((void *)0))); } struct Specifier * MkSpecifierNameArgs(const char * name, struct __ecereNameSpace__ecere__sys__OldList * templateArgs) { return _MkSpecifierName(name, (((void *)0)), templateArgs); } struct TemplateArgument; extern void FreeTemplateArgument(struct TemplateArgument * arg); struct ClassFunction; extern void FreeClassFunction(struct ClassFunction * func); struct __ecereNameSpace__ecere__sys__NamedLink64; struct __ecereNameSpace__ecere__sys__NamedLink64 { struct __ecereNameSpace__ecere__sys__NamedLink64 * prev; struct __ecereNameSpace__ecere__sys__NamedLink64 * next; char * name; long long data; } ecere_gcc_struct; struct __ecereNameSpace__ecere__sys__OldLink; struct __ecereNameSpace__ecere__sys__OldLink { struct __ecereNameSpace__ecere__sys__OldLink * prev; struct __ecereNameSpace__ecere__sys__OldLink * next; void * data; } ecere_gcc_struct; int CheckType(const char * text); int check_type() { return CheckType(yytext); } struct DBTableEntry; struct MemberInit; struct Pointer; struct Pointer { struct Pointer * prev; struct Pointer * next; struct Location loc; struct __ecereNameSpace__ecere__sys__OldList * qualifiers; struct Pointer * pointer; } ecere_gcc_struct; struct PropertyWatch; struct Symbol * FindType(struct Context * ctx, const char * name); struct __ecereNameSpace__ecere__com__Method; struct __ecereNameSpace__ecere__com__Method { const char * name; struct __ecereNameSpace__ecere__com__Method * parent; struct __ecereNameSpace__ecere__com__Method * left; struct __ecereNameSpace__ecere__com__Method * right; int depth; int (* function)(); int vid; int type; struct __ecereNameSpace__ecere__com__Class * _class; void * symbol; const char * dataTypeString; struct Type * dataType; int memberAccess; } ecere_gcc_struct; struct Symbol { char * string; struct Symbol * parent; struct Symbol * left; struct Symbol * right; int depth; struct Type * type; union { struct __ecereNameSpace__ecere__com__Method * method; struct __ecereNameSpace__ecere__com__Property * _property; struct __ecereNameSpace__ecere__com__Class * registered; } ecere_gcc_struct __anon1; unsigned int notYetDeclared; union { struct { struct External * pointerExternal; struct External * structExternal; } ecere_gcc_struct __anon1; struct { struct External * externalGet; struct External * externalSet; struct External * externalPtr; struct External * externalIsSet; } ecere_gcc_struct __anon2; struct { struct External * methodExternal; struct External * methodCodeExternal; } ecere_gcc_struct __anon3; } ecere_gcc_struct __anon2; unsigned int imported; unsigned int declaredStructSym; struct __ecereNameSpace__ecere__com__Class * _class; unsigned int declaredStruct; unsigned int needConstructor; unsigned int needDestructor; char * constructorName; char * structName; char * className; char * destructorName; struct ModuleImport * module; struct ClassImport * _import; struct Location nameLoc; unsigned int isParam; unsigned int isRemote; unsigned int isStruct; unsigned int fireWatchersDone; int declaring; unsigned int classData; unsigned int isStatic; char * shortName; struct __ecereNameSpace__ecere__sys__OldList * templateParams; struct __ecereNameSpace__ecere__sys__OldList templatedClasses; struct Context * ctx; int isIterator; struct Expression * propCategory; unsigned int mustRegister; } ecere_gcc_struct; extern struct __ecereNameSpace__ecere__com__Method * __ecereNameSpace__ecere__com__eClass_AddMethod(struct __ecereNameSpace__ecere__com__Class * _class, const char * name, const char * type, void * function, int declMode); struct __ecereNameSpace__ecere__com__DataMember; struct __ecereNameSpace__ecere__com__ClassTemplateArgument { union { struct { const char * dataTypeString; struct __ecereNameSpace__ecere__com__Class * dataTypeClass; } ecere_gcc_struct __anon1; struct __ecereNameSpace__ecere__com__DataValue expression; struct { const char * memberString; union { struct __ecereNameSpace__ecere__com__DataMember * member; struct __ecereNameSpace__ecere__com__Property * prop; struct __ecereNameSpace__ecere__com__Method * method; } ecere_gcc_struct __anon1; } ecere_gcc_struct __anon2; } ecere_gcc_struct __anon1; } ecere_gcc_struct; extern struct __ecereNameSpace__ecere__com__DataMember * __ecereNameSpace__ecere__com__eClass_AddDataMember(struct __ecereNameSpace__ecere__com__Class * _class, const char * name, const char * type, unsigned int size, unsigned int alignment, int declMode); struct __ecereNameSpace__ecere__com__Module; extern struct __ecereNameSpace__ecere__com__DefinedExpression * __ecereNameSpace__ecere__com__eSystem_FindDefine(struct __ecereNameSpace__ecere__com__Instance * module, const char * name); extern struct __ecereNameSpace__ecere__com__Instance * privateModule; extern struct __ecereNameSpace__ecere__com__DefinedExpression * __ecereNameSpace__ecere__com__eSystem_RegisterDefine(const char * name, const char * value, struct __ecereNameSpace__ecere__com__Instance * module, int declMode); extern struct __ecereNameSpace__ecere__com__Class * __ecereNameSpace__ecere__com__eSystem_FindClass(struct __ecereNameSpace__ecere__com__Instance * module, const char * name); extern struct __ecereNameSpace__ecere__com__GlobalFunction * __ecereNameSpace__ecere__com__eSystem_RegisterFunction(const char * name, const char * type, void * func, struct __ecereNameSpace__ecere__com__Instance * module, int declMode); extern struct __ecereNameSpace__ecere__com__Class * __ecereNameSpace__ecere__com__eSystem_RegisterClass(int type, const char * name, const char * baseName, int size, int sizeClass, unsigned int (* Constructor)(void * ), void (* Destructor)(void * ), struct __ecereNameSpace__ecere__com__Instance * module, int declMode, int inheritanceAccess); extern struct __ecereNameSpace__ecere__com__Instance * __thisModule; struct Enumerator; struct Initializer; struct MemberInit { struct MemberInit * prev; struct MemberInit * next; struct Location loc; struct Location realLoc; struct __ecereNameSpace__ecere__sys__OldList * identifiers; struct Initializer * initializer; unsigned int used; unsigned int variable; unsigned int takeOutExp; } ecere_gcc_struct; struct Attribute; struct Attribute { struct Attribute * prev; struct Attribute * next; struct Location loc; char * attr; struct Expression * exp; } ecere_gcc_struct; struct AsmField; struct __ecereNameSpace__ecere__sys__BinaryTree; struct __ecereNameSpace__ecere__sys__BinaryTree { struct __ecereNameSpace__ecere__sys__BTNode * root; int count; int (* CompareKey)(struct __ecereNameSpace__ecere__sys__BinaryTree * tree, uintptr_t a, uintptr_t b); void (* FreeKey)(void * key); } ecere_gcc_struct; struct __ecereNameSpace__ecere__com__DataMember { struct __ecereNameSpace__ecere__com__DataMember * prev; struct __ecereNameSpace__ecere__com__DataMember * next; const char * name; unsigned int isProperty; int memberAccess; int id; struct __ecereNameSpace__ecere__com__Class * _class; const char * dataTypeString; struct __ecereNameSpace__ecere__com__Class * dataTypeClass; struct Type * dataType; int type; int offset; int memberID; struct __ecereNameSpace__ecere__sys__OldList members; struct __ecereNameSpace__ecere__sys__BinaryTree membersAlpha; int memberOffset; short structAlignment; short pointerAlignment; } ecere_gcc_struct; unsigned int __ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_Add(struct __ecereNameSpace__ecere__sys__BinaryTree * this, struct __ecereNameSpace__ecere__sys__BTNode * node); struct __ecereNameSpace__ecere__sys__BTNode * __ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_FindString(struct __ecereNameSpace__ecere__sys__BinaryTree * this, const char * key); struct __ecereNameSpace__ecere__sys__BTNode * __ecereProp___ecereNameSpace__ecere__sys__BinaryTree_Get_first(struct __ecereNameSpace__ecere__sys__BinaryTree * this); struct TemplateParameter; struct TemplatedType { uintptr_t key; struct __ecereNameSpace__ecere__sys__BTNode * parent; struct __ecereNameSpace__ecere__sys__BTNode * left; struct __ecereNameSpace__ecere__sys__BTNode * right; int depth; struct TemplateParameter * param; } ecere_gcc_struct; struct Type { struct Type * prev; struct Type * next; int refCount; union { struct Symbol * _class; struct { struct __ecereNameSpace__ecere__sys__OldList members; char * enumName; } ecere_gcc_struct __anon1; struct { struct Type * returnType; struct __ecereNameSpace__ecere__sys__OldList params; struct Symbol * thisClass; unsigned int staticMethod; struct TemplateParameter * thisClassTemplate; } ecere_gcc_struct __anon2; struct { struct __ecereNameSpace__ecere__com__Method * method; struct __ecereNameSpace__ecere__com__Class * methodClass; struct __ecereNameSpace__ecere__com__Class * usedClass; } ecere_gcc_struct __anon3; struct { struct Type * arrayType; int arraySize; struct Expression * arraySizeExp; unsigned int freeExp; struct Symbol * enumClass; } ecere_gcc_struct __anon4; struct Type * type; struct TemplateParameter * templateParameter; } ecere_gcc_struct __anon1; int kind; unsigned int size; char * name; char * typeName; struct __ecereNameSpace__ecere__com__Class * thisClassFrom; int promotedFrom; int classObjectType; int alignment; unsigned int offset; int bitFieldCount; int count; int bitMemberSize; unsigned int isSigned : 1; unsigned int constant : 1; unsigned int truth : 1; unsigned int byReference : 1; unsigned int extraParam : 1; unsigned int directClassAccess : 1; unsigned int computing : 1; unsigned int keepCast : 1; unsigned int passAsTemplate : 1; unsigned int dllExport : 1; unsigned int attrStdcall : 1; unsigned int declaredWithStruct : 1; unsigned int typedByReference : 1; unsigned int casted : 1; unsigned int pointerAlignment : 1; unsigned int isLong : 1; unsigned int signedBeforePromotion : 1; unsigned int isVector : 1; } ecere_gcc_struct; struct TemplatedType * FindTemplateTypeParameter(struct Context * ctx, const char * name); void CopyTypeInto(struct Type * type, struct Type * src) { *type = *src; type->name = __ecereNameSpace__ecere__sys__CopyString(src->name); type->typeName = __ecereNameSpace__ecere__sys__CopyString(src->typeName); type->refCount = 1; if(src->kind == 15) { struct __ecereNameSpace__ecere__sys__NamedLink64 * member; __ecereMethod___ecereNameSpace__ecere__sys__OldList_Clear(&type->__anon1.__anon1.members); for(member = src->__anon1.__anon1.members.first; member; member = member->next) { __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add(&type->__anon1.__anon1.members, __extension__ ({ struct __ecereNameSpace__ecere__sys__NamedLink64 * __ecereInstance1 = __ecereNameSpace__ecere__com__eSystem_New0(sizeof(struct __ecereNameSpace__ecere__sys__NamedLink64)); __ecereInstance1->name = __ecereNameSpace__ecere__sys__CopyString(member->name), __ecereInstance1->data = member->data, __ecereInstance1; })); } type->__anon1.__anon1.enumName = __ecereNameSpace__ecere__sys__CopyString(src->__anon1.__anon1.enumName); } else if(src->kind == 9 || src->kind == 10) { struct Type * member; for(member = type->__anon1.__anon1.members.first; member; member = member->next) member->refCount++; type->__anon1.__anon1.enumName = __ecereNameSpace__ecere__sys__CopyString(src->__anon1.__anon1.enumName); } else if(src->kind == 11) { struct Type * param; type->__anon1.__anon2.returnType->refCount++; for(param = type->__anon1.__anon2.params.first; param; param = param->next) param->refCount++; } else if(src->kind == 13 || src->kind == 12) { type->__anon1.type->refCount++; if(src->kind == 12) { if(type->__anon1.__anon4.arraySizeExp) type->__anon1.__anon4.arraySizeExp = CopyExpression(type->__anon1.__anon4.arraySizeExp); } } } struct Identifier; struct Identifier { struct Identifier * prev; struct Identifier * next; struct Location loc; struct Symbol * classSym; struct Specifier * _class; char * string; struct Identifier * badID; } ecere_gcc_struct; struct Enumerator { struct Enumerator * prev; struct Enumerator * next; struct Location loc; struct Identifier * id; struct Expression * exp; } ecere_gcc_struct; struct Specifier { struct Specifier * prev; struct Specifier * next; struct Location loc; int type; union { int specifier; struct { struct ExtDecl * extDecl; char * name; struct Symbol * symbol; struct __ecereNameSpace__ecere__sys__OldList * templateArgs; struct Specifier * nsSpec; } ecere_gcc_struct __anon1; struct { struct Identifier * id; struct __ecereNameSpace__ecere__sys__OldList * list; struct __ecereNameSpace__ecere__sys__OldList * baseSpecs; struct __ecereNameSpace__ecere__sys__OldList * definitions; unsigned int addNameSpace; struct Context * ctx; struct ExtDecl * extDeclStruct; } ecere_gcc_struct __anon2; struct Expression * expression; struct Specifier * _class; struct TemplateParameter * templateParameter; } ecere_gcc_struct __anon1; } ecere_gcc_struct; struct Declarator { struct Declarator * prev; struct Declarator * next; struct Location loc; int type; struct Symbol * symbol; struct Declarator * declarator; union { struct Identifier * identifier; struct { struct Expression * exp; struct Expression * posExp; struct Attrib * attrib; } ecere_gcc_struct structDecl; struct { struct Expression * exp; struct Specifier * enumClass; } ecere_gcc_struct array; struct { struct __ecereNameSpace__ecere__sys__OldList * parameters; } ecere_gcc_struct function; struct { struct Pointer * pointer; } ecere_gcc_struct pointer; struct { struct ExtDecl * extended; } ecere_gcc_struct extended; } ecere_gcc_struct __anon1; } ecere_gcc_struct; struct Initializer { struct Initializer * prev; struct Initializer * next; struct Location loc; int type; union { struct Expression * exp; struct __ecereNameSpace__ecere__sys__OldList * list; } ecere_gcc_struct __anon1; unsigned int isConstant; struct Identifier * id; } ecere_gcc_struct; struct TemplateArgument { struct TemplateArgument * prev; struct TemplateArgument * next; struct Location loc; struct Identifier * name; int type; union { struct Expression * expression; struct Identifier * identifier; struct TemplateDatatype * templateDatatype; } ecere_gcc_struct __anon1; } ecere_gcc_struct; struct TemplateParameter { struct TemplateParameter * prev; struct TemplateParameter * next; struct Location loc; int type; struct Identifier * identifier; union { struct TemplateDatatype * dataType; int memberType; } ecere_gcc_struct __anon1; struct TemplateArgument * defaultArgument; const char * dataTypeString; struct Type * baseType; } ecere_gcc_struct; struct AsmField { struct AsmField * prev; struct AsmField * next; struct Location loc; char * command; struct Expression * expression; struct Identifier * symbolic; } ecere_gcc_struct; struct DBIndexItem { struct DBIndexItem * prev; struct DBIndexItem * next; struct Identifier * id; int order; } ecere_gcc_struct; struct Identifier * GetDeclId(struct Declarator * decl) { while(decl && decl->type != 1) decl = decl->declarator; return decl ? decl->__anon1.identifier : (((void *)0)); } struct TypeName; struct TypeName { struct TypeName * prev; struct TypeName * next; struct Location loc; struct __ecereNameSpace__ecere__sys__OldList * qualifiers; struct Declarator * declarator; int classObjectType; struct Expression * bitCount; } ecere_gcc_struct; struct DBTableEntry { struct DBTableEntry * prev; struct DBTableEntry * next; int type; struct Identifier * id; union { struct { struct TypeName * dataType; char * name; } ecere_gcc_struct __anon1; struct __ecereNameSpace__ecere__sys__OldList * items; } ecere_gcc_struct __anon1; } ecere_gcc_struct; struct FunctionDefinition; struct FunctionDefinition * _MkFunction(struct __ecereNameSpace__ecere__sys__OldList * specifiers, struct Declarator * declarator, struct __ecereNameSpace__ecere__sys__OldList * declarationList, unsigned int errorOnOmit); struct FunctionDefinition * MkFunction(struct __ecereNameSpace__ecere__sys__OldList * specifiers, struct Declarator * declarator, struct __ecereNameSpace__ecere__sys__OldList * declarationList) { return _MkFunction(specifiers, declarator, declarationList, 1); } static struct Type * ProcessTypeDecls(struct __ecereNameSpace__ecere__sys__OldList * specs, struct Declarator * decl, struct Type * parentType); struct Type * ProcessType(struct __ecereNameSpace__ecere__sys__OldList * specs, struct Declarator * decl) { return ProcessTypeDecls(specs, decl, (((void *)0))); } struct Type * ProcessTypeString(const char * string, unsigned int staticMethod) { struct __ecereNameSpace__ecere__sys__OldList * specs = MkList(); struct Declarator * decl = SpecDeclFromString(string, specs, (((void *)0))); struct Type * type = ProcessType(specs, decl); if(type && !type->__anon1.__anon2.thisClass && staticMethod) type->__anon1.__anon2.staticMethod = 1; FreeList(specs, (void *)(FreeSpecifier)); if(decl) FreeDeclarator(decl); return type; } struct Instantiation; struct Instantiation { struct Instantiation * prev; struct Instantiation * next; struct Location loc; struct Specifier * _class; struct Expression * exp; struct __ecereNameSpace__ecere__sys__OldList * members; struct Symbol * symbol; unsigned int fullSet; unsigned int isConstant; unsigned char * data; struct Location nameLoc; struct Location insideLoc; unsigned int built; } ecere_gcc_struct; struct Symbol * _DeclClass(struct Specifier * _class, const char * name); struct Symbol * DeclClassAddNameSpace(struct Specifier * _class, const char * className) { char name[1024]; int len = 0, stringLen; name[0] = '\0'; if(className[0] != ':' && (currentNameSpace || defaultNameSpace) && declMode != 0 && defaultDeclMode != 0 && (!_class || _class->__anon1.__anon1.name)) { if(defaultNameSpace) { memcpy(name, defaultNameSpace, defaultNameSpaceLen); len += defaultNameSpaceLen; name[len++] = ':'; name[len++] = ':'; } if(currentNameSpace) { memcpy(name + len, currentNameSpace, currentNameSpaceLen); len += currentNameSpaceLen; name[len++] = ':'; name[len++] = ':'; } } stringLen = strlen(className); memcpy(name + len, className, stringLen); len += stringLen; name[len] = 0; return _DeclClass(_class, name); } struct Symbol * DeclClass(struct Specifier * _class, const char * name) { if(_class || strchr(name, ':')) return _DeclClass(_class, name); else return DeclClassAddNameSpace(_class, name); } struct ClassDefinition; struct Context { struct Context * parent; struct __ecereNameSpace__ecere__sys__BinaryTree types; struct __ecereNameSpace__ecere__sys__BinaryTree classes; struct __ecereNameSpace__ecere__sys__BinaryTree symbols; struct __ecereNameSpace__ecere__sys__BinaryTree structSymbols; int nextID; int simpleID; struct __ecereNameSpace__ecere__sys__BinaryTree templateTypes; struct ClassDefinition * classDef; unsigned int templateTypesOnly; unsigned int hasNameSpace; } ecere_gcc_struct; struct ClassDefinition { struct ClassDefinition * prev; struct ClassDefinition * next; struct Location loc; struct Specifier * _class; struct __ecereNameSpace__ecere__sys__OldList * baseSpecs; struct __ecereNameSpace__ecere__sys__OldList * definitions; struct Symbol * symbol; struct Location blockStart; struct Location nameLoc; int declMode; unsigned int deleteWatchable; } ecere_gcc_struct; void PopContext(struct Context * ctx) { curContext = ctx->parent; } struct Symbol * FindType(struct Context * ctx, const char * name) { struct Symbol * type = (((void *)0)); if(ctx) { type = (struct Symbol *)__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_FindString(&ctx->types, name); if(!type && ctx->parent) type = FindType(ctx->parent, name); } return type; } struct Symbol * FindStruct(struct Context * ctx, const char * name) { struct Symbol * type = (((void *)0)); if(ctx) { type = (struct Symbol *)__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_FindString(&ctx->structSymbols, name); if(!type && ctx->parent) type = FindStruct(ctx->parent, name); } return type; } struct TemplatedType * FindTemplateTypeParameter(struct Context * ctx, const char * name) { struct TemplatedType * templatedType = (((void *)0)); if(curContext) { templatedType = (struct TemplatedType *)__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_FindString(&ctx->templateTypes, name); if(!templatedType && ctx->parent) templatedType = FindTemplateTypeParameter(ctx->parent, name); } return templatedType; } struct Statement; struct Expression { struct Expression * prev; struct Expression * next; struct Location loc; int type; union { struct { char * constant; struct Identifier * identifier; } ecere_gcc_struct __anon1; struct Statement * compound; struct Instantiation * instance; struct { char * string; unsigned int intlString; unsigned int wideString; } ecere_gcc_struct __anon2; struct __ecereNameSpace__ecere__sys__OldList * list; struct { struct __ecereNameSpace__ecere__sys__OldList * specifiers; struct Declarator * decl; } ecere_gcc_struct _classExp; struct { struct Identifier * id; } ecere_gcc_struct classData; struct { struct Expression * exp; struct __ecereNameSpace__ecere__sys__OldList * arguments; struct Location argLoc; } ecere_gcc_struct call; struct { struct Expression * exp; struct __ecereNameSpace__ecere__sys__OldList * index; } ecere_gcc_struct index; struct { struct Expression * exp; struct Identifier * member; int memberType; unsigned int thisPtr; } ecere_gcc_struct member; struct { int op; struct Expression * exp1; struct Expression * exp2; } ecere_gcc_struct op; struct TypeName * typeName; struct Specifier * _class; struct { struct TypeName * typeName; struct Expression * exp; } ecere_gcc_struct cast; struct { struct Expression * cond; struct __ecereNameSpace__ecere__sys__OldList * exp; struct Expression * elseExp; } ecere_gcc_struct cond; struct { struct TypeName * typeName; struct Expression * size; } ecere_gcc_struct _new; struct { struct TypeName * typeName; struct Expression * size; struct Expression * exp; } ecere_gcc_struct _renew; struct { char * table; struct Identifier * id; } ecere_gcc_struct db; struct { struct Expression * ds; struct Expression * name; } ecere_gcc_struct dbopen; struct { struct TypeName * typeName; struct Initializer * initializer; } ecere_gcc_struct initializer; struct { struct Expression * exp; struct TypeName * typeName; } ecere_gcc_struct vaArg; struct { struct TypeName * typeName; struct Identifier * id; } ecere_gcc_struct offset; } ecere_gcc_struct __anon1; unsigned int debugValue; struct __ecereNameSpace__ecere__com__DataValue val; uint64 address; unsigned int hasAddress; struct Type * expType; struct Type * destType; unsigned int usage; int tempCount; unsigned int byReference; unsigned int isConstant; unsigned int addedThis; unsigned int needCast; unsigned int thisPtr; unsigned int opDestType; unsigned int usedInComparison; unsigned int ambiguousUnits; unsigned int parentOpDestType; unsigned int needTemplateCast; } ecere_gcc_struct; struct FunctionDefinition { struct FunctionDefinition * prev; struct FunctionDefinition * next; struct Location loc; struct __ecereNameSpace__ecere__sys__OldList * specifiers; struct Declarator * declarator; struct __ecereNameSpace__ecere__sys__OldList * declarations; struct Statement * body; struct __ecereNameSpace__ecere__com__Class * _class; struct __ecereNameSpace__ecere__sys__OldList attached; int declMode; struct Type * type; struct Symbol * propSet; int tempCount; unsigned int propertyNoThis; } ecere_gcc_struct; struct ClassFunction { struct ClassFunction * prev; struct ClassFunction * next; struct Location loc; struct __ecereNameSpace__ecere__sys__OldList * specifiers; struct Declarator * declarator; struct __ecereNameSpace__ecere__sys__OldList * declarations; struct Statement * body; struct __ecereNameSpace__ecere__com__Class * _class; struct __ecereNameSpace__ecere__sys__OldList attached; int declMode; struct Type * type; struct Symbol * propSet; unsigned int isVirtual; unsigned int isConstructor; unsigned int isDestructor; unsigned int dontMangle; int id; int idCode; } ecere_gcc_struct; struct PropertyWatch { struct PropertyWatch * prev; struct PropertyWatch * next; struct Location loc; struct Statement * compound; struct __ecereNameSpace__ecere__sys__OldList * properties; unsigned int deleteWatch; } ecere_gcc_struct; struct MembersInit; struct MembersInit { struct MembersInit * prev; struct MembersInit * next; struct Location loc; int type; union { struct __ecereNameSpace__ecere__sys__OldList * dataMembers; struct ClassFunction * function; } ecere_gcc_struct __anon1; } ecere_gcc_struct; struct __ecereNameSpace__ecere__com__ClassTemplateParameter; struct __ecereNameSpace__ecere__com__ClassTemplateParameter { struct __ecereNameSpace__ecere__com__ClassTemplateParameter * prev; struct __ecereNameSpace__ecere__com__ClassTemplateParameter * next; const char * name; int type; union { const char * dataTypeString; int memberType; } ecere_gcc_struct __anon1; struct __ecereNameSpace__ecere__com__ClassTemplateArgument defaultArg; void * param; } ecere_gcc_struct; struct __ecereNameSpace__ecere__com__SubModule; struct __ecereNameSpace__ecere__com__SubModule { struct __ecereNameSpace__ecere__com__SubModule * prev; struct __ecereNameSpace__ecere__com__SubModule * next; struct __ecereNameSpace__ecere__com__Instance * module; int importMode; } ecere_gcc_struct; struct InitDeclarator; struct InitDeclarator { struct InitDeclarator * prev; struct InitDeclarator * next; struct Location loc; struct Declarator * declarator; struct Initializer * initializer; } ecere_gcc_struct; struct __ecereNameSpace__ecere__com__NameSpace; struct __ecereNameSpace__ecere__com__NameSpace { const char * name; struct __ecereNameSpace__ecere__com__NameSpace * btParent; struct __ecereNameSpace__ecere__com__NameSpace * left; struct __ecereNameSpace__ecere__com__NameSpace * right; int depth; struct __ecereNameSpace__ecere__com__NameSpace * parent; struct __ecereNameSpace__ecere__sys__BinaryTree nameSpaces; struct __ecereNameSpace__ecere__sys__BinaryTree classes; struct __ecereNameSpace__ecere__sys__BinaryTree defines; struct __ecereNameSpace__ecere__sys__BinaryTree functions; } ecere_gcc_struct; struct __ecereNameSpace__ecere__com__Class { struct __ecereNameSpace__ecere__com__Class * prev; struct __ecereNameSpace__ecere__com__Class * next; const char * name; int offset; int structSize; void * * _vTbl; int vTblSize; unsigned int (* Constructor)(void * ); void (* Destructor)(void * ); int offsetClass; int sizeClass; struct __ecereNameSpace__ecere__com__Class * base; struct __ecereNameSpace__ecere__sys__BinaryTree methods; struct __ecereNameSpace__ecere__sys__BinaryTree members; struct __ecereNameSpace__ecere__sys__BinaryTree prop; struct __ecereNameSpace__ecere__sys__OldList membersAndProperties; struct __ecereNameSpace__ecere__sys__BinaryTree classProperties; struct __ecereNameSpace__ecere__sys__OldList derivatives; int memberID; int startMemberID; int type; struct __ecereNameSpace__ecere__com__Instance * module; struct __ecereNameSpace__ecere__com__NameSpace * nameSpace; const char * dataTypeString; struct Type * dataType; int typeSize; int defaultAlignment; void (* Initialize)(); int memberOffset; struct __ecereNameSpace__ecere__sys__OldList selfWatchers; const char * designerClass; unsigned int noExpansion; const char * defaultProperty; unsigned int comRedefinition; int count; int isRemote; unsigned int internalDecl; void * data; unsigned int computeSize; short structAlignment; short pointerAlignment; int destructionWatchOffset; unsigned int fixed; struct __ecereNameSpace__ecere__sys__OldList delayedCPValues; int inheritanceAccess; const char * fullName; void * symbol; struct __ecereNameSpace__ecere__sys__OldList conversions; struct __ecereNameSpace__ecere__sys__OldList templateParams; struct __ecereNameSpace__ecere__com__ClassTemplateArgument * templateArgs; struct __ecereNameSpace__ecere__com__Class * templateClass; struct __ecereNameSpace__ecere__sys__OldList templatized; int numParams; unsigned int isInstanceClass; unsigned int byValueSystemClass; } ecere_gcc_struct; struct __ecereNameSpace__ecere__com__Application { int argc; const char * * argv; int exitCode; unsigned int isGUIApp; struct __ecereNameSpace__ecere__sys__OldList allModules; char * parsedCommand; struct __ecereNameSpace__ecere__com__NameSpace systemNameSpace; } ecere_gcc_struct; static struct __ecereNameSpace__ecere__com__Class * __ecereClass_ContextStringPair; void __ecereMethod_ContextStringPair_OnFree(struct __ecereNameSpace__ecere__com__Class * class, struct ContextStringPair * this) { (__ecereNameSpace__ecere__com__eSystem_Delete(this->string), this->string = 0); (__ecereNameSpace__ecere__com__eSystem_Delete(this->context), this->context = 0); } int __ecereMethod_ContextStringPair_OnCompare(struct __ecereNameSpace__ecere__com__Class * class, struct ContextStringPair * this, struct ContextStringPair * b) { int result; result = (this->string && b->string) ? strcmp(this->string, b->string) : (!this->string && b->string) ? 1 : (this->string && !b->string) ? -1 : 0; if(result) return result; result = (this->context && b->context) ? strcmp(this->context, b->context) : (!this->context && b->context) ? 1 : (this->context && !b->context) ? -1 : 0; return result; } extern void __ecereNameSpace__ecere__com__PrintLn(struct __ecereNameSpace__ecere__com__Class * class, const void * object, ...); extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_Identifier; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_Specifier; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_TemplateParameter; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_TemplatedType; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_TemplateDatatype; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_TemplateArgument; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_Expression; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass___ecereNameSpace__ecere__com__List_TPL_Location_; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_Symbol; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_Attribute; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_Attrib; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_ExtDecl; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_Declarator; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_Enumerator; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_Pointer; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_Initializer; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_InitDeclarator; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_TypeName; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_Declaration; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_Statement; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_FunctionDefinition; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_Type; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_External; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_ClassFunction; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_MemberInit; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_MembersInit; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_Instantiation; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_ClassDef; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_ClassDefinition; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_PropertyDef; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_Context; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_ModuleImport; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass___ecereNameSpace__ecere__sys__NamedLink64; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_AsmField; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_PropertyWatch; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_DBTableDef; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_DBTableEntry; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_DBIndexItem; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass___ecereNameSpace__ecere__com__Map_TPL_ContextStringPair__ecere__com__List_TPL_Location___; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass___ecereNameSpace__ecere__sys__BTNode; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass___ecereNameSpace__ecere__com__List; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass___ecereNameSpace__ecere__com__Module; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_char__PTR_; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass_DeclaratorType; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass___ecereNameSpace__ecere__com__CustomAVLTree; extern struct __ecereNameSpace__ecere__com__Class * __ecereClass___ecereNameSpace__ecere__com__Map; struct __ecereNameSpace__ecere__com__Module { struct __ecereNameSpace__ecere__com__Instance * application; struct __ecereNameSpace__ecere__sys__OldList classes; struct __ecereNameSpace__ecere__sys__OldList defines; struct __ecereNameSpace__ecere__sys__OldList functions; struct __ecereNameSpace__ecere__sys__OldList modules; struct __ecereNameSpace__ecere__com__Instance * prev; struct __ecereNameSpace__ecere__com__Instance * next; const char * name; void * library; void * Unload; int importType; int origImportType; struct __ecereNameSpace__ecere__com__NameSpace privateNameSpace; struct __ecereNameSpace__ecere__com__NameSpace publicNameSpace; } ecere_gcc_struct; struct Specifier * MkSpecifier(int specifier) { if(specifier == _BOOL && (declMode != 0 && defaultDeclMode != 0)) return MkSpecifierName("bool"); else if(specifier == _BOOL || specifier == BOOL) return __extension__ ({ struct Specifier * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Specifier); __ecereInstance1->type = 0, __ecereInstance1->__anon1.specifier = specifier, __ecereInstance1; }); else return __extension__ ({ struct Specifier * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Specifier); __ecereInstance1->type = 0, __ecereInstance1->__anon1.specifier = specifier, __ecereInstance1; }); } struct Specifier * MkSpecifierTypeOf(struct Expression * expression) { return __extension__ ({ struct Specifier * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Specifier); __ecereInstance1->type = 6, __ecereInstance1->__anon1.expression = expression, __ecereInstance1; }); } struct Specifier * MkSpecifierSubClass(struct Specifier * _class) { return __extension__ ({ struct Specifier * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Specifier); __ecereInstance1->type = 7, __ecereInstance1->__anon1._class = _class, __ecereInstance1; }); } struct Specifier * MkSpecifierExtended(struct ExtDecl * extDecl) { return __extension__ ({ struct Specifier * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Specifier); __ecereInstance1->type = 5, __ecereInstance1->__anon1.__anon1.extDecl = extDecl, __ecereInstance1; }); } struct TemplateParameter * MkIdentifierTemplateParameter(struct Identifier * identifier, int memberType, struct TemplateArgument * defaultArgument) { if(identifier->string) { struct TemplateParameter * param = (param = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_TemplateParameter), param->type = 1, param->identifier = identifier, param->__anon1.memberType = memberType, param->defaultArgument = defaultArgument, param); return param; } return (((void *)0)); } struct TemplateParameter * MkExpressionTemplateParameter(struct Identifier * identifier, struct TemplateDatatype * dataType, struct TemplateArgument * defaultArgument) { if(identifier->string) { struct TemplateParameter * param = (param = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_TemplateParameter), param->type = 2, param->identifier = identifier, param->__anon1.dataType = dataType, param->defaultArgument = defaultArgument, param); return param; } return (((void *)0)); } struct TemplateDatatype * MkTemplateDatatype(struct __ecereNameSpace__ecere__sys__OldList * specifiers, struct Declarator * decl) { struct TemplateDatatype * datatype = (datatype = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_TemplateDatatype), datatype->specifiers = specifiers, datatype->decl = decl, datatype); return datatype; } struct TemplateArgument * MkTemplateTypeArgument(struct TemplateDatatype * tplDatatype) { struct TemplateArgument * argument = (argument = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_TemplateArgument), argument->type = 0, argument->__anon1.templateDatatype = tplDatatype, argument); return argument; } struct TemplateArgument * MkTemplateExpressionArgument(struct Expression * expr) { struct TemplateArgument * argument = (argument = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_TemplateArgument), argument->type = 2, argument->__anon1.expression = expr, argument); return argument; } struct TemplateArgument * MkTemplateIdentifierArgument(struct Identifier * ident) { struct TemplateArgument * argument = (argument = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_TemplateArgument), argument->type = 1, argument->__anon1.identifier = ident, argument); return argument; } struct Expression * MkExpExtensionCompound(struct Statement * compound) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 23, __ecereInstance1->__anon1.compound = compound, __ecereInstance1; }); } struct Expression * MkExpExtensionExpression(struct __ecereNameSpace__ecere__sys__OldList * expressions) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 32, __ecereInstance1->__anon1.list = expressions, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Expression * MkExpExtensionInitializer(struct TypeName * typeName, struct Initializer * initializer) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 33, __ecereInstance1->__anon1.initializer.typeName = typeName, __ecereInstance1->__anon1.initializer.initializer = initializer, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Expression * MkExpIdentifier(struct Identifier * id) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 0, __ecereInstance1->__anon1.__anon1.identifier = id, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Expression * MkExpDummy() { struct Expression * exp = (exp = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression), exp->type = 16, exp); return exp; } struct Expression * MkExpConstant(const char * string) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 2, __ecereInstance1->__anon1.__anon1.constant = __ecereNameSpace__ecere__sys__CopyString(string), __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Expression * MkExpString(const char * string) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 3, __ecereInstance1->__anon1.__anon2.string = __ecereNameSpace__ecere__sys__CopyString(string), __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Expression * MkExpWideString(const char * string) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 3, __ecereInstance1->__anon1.__anon2.string = __ecereNameSpace__ecere__sys__CopyString(string), __ecereInstance1->loc = yylloc, __ecereInstance1->__anon1.__anon2.wideString = 1, __ecereInstance1; }); } struct Expression * MkExpOp(struct Expression * exp1, int op, struct Expression * exp2) { struct Expression * exp = (exp = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression), exp->type = 4, exp->__anon1.op.op = op, exp->__anon1.op.exp1 = exp1, exp->__anon1.op.exp2 = exp2, exp); if(exp1 || exp2) { exp->loc.start = exp1 ? exp1->loc.start : exp2->loc.start; exp->loc.end = exp2 ? exp2->loc.end : exp1->loc.end; } return exp; } struct Expression * MkExpBrackets(struct __ecereNameSpace__ecere__sys__OldList * expressions) { struct Expression * exp = (exp = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression), exp->type = 5, exp->__anon1.list = expressions, exp); if(expressions && expressions->first) { exp->loc.start = ((struct Expression *)expressions->first)->loc.start; exp->loc.end = ((struct Expression *)expressions->last)->loc.end; } return exp; } struct Expression * MkExpIndex(struct Expression * expression, struct __ecereNameSpace__ecere__sys__OldList * index) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 6, __ecereInstance1->__anon1.index.exp = expression, __ecereInstance1->__anon1.index.index = index, __ecereInstance1; }); } struct Expression * MkExpCall(struct Expression * expression, struct __ecereNameSpace__ecere__sys__OldList * arguments) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 7, __ecereInstance1->__anon1.call.exp = expression, __ecereInstance1->__anon1.call.arguments = arguments, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Expression * MkExpMember(struct Expression * expression, struct Identifier * member) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 8, __ecereInstance1->__anon1.member.exp = expression, __ecereInstance1->__anon1.member.member = member, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Expression * MkExpPointer(struct Expression * expression, struct Identifier * member) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 9, __ecereInstance1->__anon1.member.exp = expression, __ecereInstance1->__anon1.member.member = member, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Expression * MkExpTypeSize(struct TypeName * typeName) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 10, __ecereInstance1->__anon1.typeName = typeName, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Expression * MkExpTypeAlign(struct TypeName * typeName) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 36, __ecereInstance1->__anon1.typeName = typeName, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Expression * MkExpOffsetOf(struct TypeName * typeName, struct Identifier * id) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 40, __ecereInstance1->__anon1.offset.typeName = typeName, __ecereInstance1->__anon1.offset.id = id, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Expression * MkExpClassSize(struct Specifier * _class) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 15, __ecereInstance1->__anon1._class = _class, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Expression * MkExpCast(struct TypeName * typeName, struct Expression * expression) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 11, __ecereInstance1->__anon1.cast.typeName = typeName, __ecereInstance1->__anon1.cast.exp = expression, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Expression * MkExpCondition(struct Expression * cond, struct __ecereNameSpace__ecere__sys__OldList * expressions, struct Expression * elseExp) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 12, __ecereInstance1->__anon1.cond.cond = cond, __ecereInstance1->__anon1.cond.exp = expressions, __ecereInstance1->__anon1.cond.elseExp = elseExp, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Expression * MkExpRenew(struct Expression * memExp, struct TypeName * type, struct Expression * size) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 14, __ecereInstance1->__anon1._renew.exp = memExp, __ecereInstance1->__anon1._renew.typeName = type, __ecereInstance1->__anon1._renew.size = size, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Expression * MkExpRenew0(struct Expression * memExp, struct TypeName * type, struct Expression * size) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 27, __ecereInstance1->__anon1._renew.exp = memExp, __ecereInstance1->__anon1._renew.typeName = type, __ecereInstance1->__anon1._renew.size = size, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Expression * MkExpNew(struct TypeName * type, struct Expression * size) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 13, __ecereInstance1->__anon1._new.typeName = type, __ecereInstance1->__anon1._new.size = size, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Expression * MkExpNew0(struct TypeName * type, struct Expression * size) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 26, __ecereInstance1->__anon1._new.typeName = type, __ecereInstance1->__anon1._new.size = size, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Expression * MkExpVaArg(struct Expression * exp, struct TypeName * type) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 34, __ecereInstance1->__anon1.vaArg.exp = exp, __ecereInstance1->__anon1.vaArg.typeName = type, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Expression * MkExpInstance(struct Instantiation * inst) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 1, __ecereInstance1->__anon1.instance = inst, __ecereInstance1; }); } struct Expression * MkExpClass(struct __ecereNameSpace__ecere__sys__OldList * specifiers, struct Declarator * decl) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 24, __ecereInstance1->__anon1._classExp.specifiers = specifiers, __ecereInstance1->__anon1._classExp.decl = decl, __ecereInstance1; }); } struct Expression * MkExpClassData(struct Identifier * id) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 25, __ecereInstance1->__anon1.classData.id = id, __ecereInstance1; }); } struct Expression * MkExpDBOpen(struct Expression * ds, struct Expression * dbName) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 28, __ecereInstance1->__anon1.dbopen.ds = ds, __ecereInstance1->__anon1.dbopen.name = dbName, __ecereInstance1; }); } struct Expression * MkExpDBField(char * table, struct Identifier * id) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 29, __ecereInstance1->__anon1.db.table = table, __ecereInstance1->__anon1.db.id = id, __ecereInstance1; }); } struct Expression * MkExpDBIndex(char * table, struct Identifier * id) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 31, __ecereInstance1->__anon1.db.table = table, __ecereInstance1->__anon1.db.id = id, __ecereInstance1; }); } struct Expression * MkExpDBTable(char * table) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 30, __ecereInstance1->__anon1.db.table = table, __ecereInstance1; }); } struct Expression * MkExpArray(struct __ecereNameSpace__ecere__sys__OldList * expressions) { return __extension__ ({ struct Expression * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Expression); __ecereInstance1->type = 35, __ecereInstance1->__anon1.list = expressions, __ecereInstance1; }); } struct Specifier * MkEnum(struct Identifier * id, struct __ecereNameSpace__ecere__sys__OldList * list) { struct Specifier * spec = (spec = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Specifier), spec->type = 2, spec->__anon1.__anon2.id = id, spec->__anon1.__anon2.list = list, spec); if(list && (!declMode || !id)) { struct Type * type; struct Enumerator * e; struct __ecereNameSpace__ecere__sys__OldList specs = { 0, 0, 0, 0, 0 }; __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add(&specs, spec); type = ProcessType(&specs, (((void *)0))); if(id) { struct Symbol * symbol = (symbol = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Symbol), symbol->string = __ecereNameSpace__ecere__sys__CopyString(id->string), symbol->isStruct = 1, symbol->type = type, symbol); type->refCount++; if(strstr(symbol->string, "::")) curContext->hasNameSpace = 1; if(!__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_Add(&curContext->structSymbols, (struct __ecereNameSpace__ecere__sys__BTNode *)symbol)) FreeSymbol(symbol); } for(e = list->first; e; e = e->next) { struct Symbol * symbol = (symbol = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Symbol), symbol->string = __ecereNameSpace__ecere__sys__CopyString(e->id->string), symbol->type = type, symbol); type->refCount++; if(strstr(symbol->string, "::")) curContext->hasNameSpace = 1; if(!__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_Add(&(curContext->templateTypesOnly ? curContext->parent : curContext)->symbols, (struct __ecereNameSpace__ecere__sys__BTNode *)symbol)) FreeSymbol(symbol); } FreeType(type); } return spec; } struct Specifier * MkStructOrUnion(int type, struct Identifier * id, struct __ecereNameSpace__ecere__sys__OldList * definitions) { struct Specifier * spec = (spec = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Specifier), spec->type = type, spec->__anon1.__anon2.id = id, spec); if(id && FindType(curContext, id->string)) structDeclMode = 0; spec->__anon1.__anon2.definitions = definitions; if(definitions && id && structDeclMode == 0) { struct __ecereNameSpace__ecere__sys__OldList specs = { 0, 0, 0, 0, 0 }; struct Symbol * symbol; __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add(&specs, spec); symbol = __extension__ ({ struct Symbol * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Symbol); __ecereInstance1->string = __ecereNameSpace__ecere__sys__CopyString(id->string), __ecereInstance1->type = ProcessType(&specs, (((void *)0))), __ecereInstance1->isStruct = 1, __ecereInstance1; }); if(!__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_Add(&curContext->structSymbols, (struct __ecereNameSpace__ecere__sys__BTNode *)symbol)) FreeSymbol(symbol); } return spec; } void AddStructDefinitions(struct Specifier * spec, struct __ecereNameSpace__ecere__sys__OldList * definitions) { spec->__anon1.__anon2.definitions = definitions; if(definitions && spec->__anon1.__anon2.id && !declMode) { struct Symbol * symbol; struct __ecereNameSpace__ecere__sys__OldList specs = { 0, 0, 0, 0, 0 }; __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add(&specs, spec); symbol = __extension__ ({ struct Symbol * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Symbol); __ecereInstance1->string = __ecereNameSpace__ecere__sys__CopyString(spec->__anon1.__anon2.id->string), __ecereInstance1->type = ProcessType(&specs, (((void *)0))), __ecereInstance1->isStruct = 1, __ecereInstance1; }); if(!__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_Add(&curContext->parent->structSymbols, (struct __ecereNameSpace__ecere__sys__BTNode *)symbol)) FreeSymbol(symbol); } } struct Attribute * MkAttribute(char * attr, struct Expression * exp) { return __extension__ ({ struct Attribute * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Attribute); __ecereInstance1->attr = attr, __ecereInstance1->exp = exp, __ecereInstance1; }); } struct Attrib * MkAttrib(int type, struct __ecereNameSpace__ecere__sys__OldList * attribs) { return __extension__ ({ struct Attrib * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Attrib); __ecereInstance1->type = type, __ecereInstance1->attribs = attribs, __ecereInstance1; }); } struct ExtDecl * MkExtDeclString(char * s) { return __extension__ ({ struct ExtDecl * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_ExtDecl); __ecereInstance1->type = 0, __ecereInstance1->__anon1.s = s, __ecereInstance1; }); } struct ExtDecl * MkExtDeclAttrib(struct Attrib * attr) { return __extension__ ({ struct ExtDecl * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_ExtDecl); __ecereInstance1->type = 1, __ecereInstance1->__anon1.attr = attr, __ecereInstance1; }); } struct Declarator * MkDeclaratorIdentifier(struct Identifier * id) { return __extension__ ({ struct Declarator * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Declarator); __ecereInstance1->type = 1, __ecereInstance1->__anon1.identifier = id, __ecereInstance1; }); } struct Declarator * MkDeclaratorFunction(struct Declarator * declarator, struct __ecereNameSpace__ecere__sys__OldList * parameters) { return __extension__ ({ struct Declarator * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Declarator); __ecereInstance1->type = 4, __ecereInstance1->declarator = declarator, __ecereInstance1->__anon1.function.parameters = parameters, __ecereInstance1; }); } struct Declarator * MkDeclaratorExtended(struct ExtDecl * extended, struct Declarator * declarator) { return __extension__ ({ struct Declarator * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Declarator); __ecereInstance1->type = 6, __ecereInstance1->declarator = declarator, __ecereInstance1->__anon1.extended.extended = extended, __ecereInstance1; }); } struct Declarator * MkDeclaratorExtendedEnd(struct ExtDecl * extended, struct Declarator * declarator) { return __extension__ ({ struct Declarator * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Declarator); __ecereInstance1->type = 7, __ecereInstance1->declarator = declarator, __ecereInstance1->__anon1.extended.extended = extended, __ecereInstance1; }); } struct Declarator * MkStructDeclarator(struct Declarator * declarator, struct Expression * exp) { return __extension__ ({ struct Declarator * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Declarator); __ecereInstance1->type = 0, __ecereInstance1->declarator = declarator, __ecereInstance1->__anon1.structDecl.exp = exp, __ecereInstance1; }); } struct Declarator * MkDeclaratorBrackets(struct Declarator * declarator) { return __extension__ ({ struct Declarator * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Declarator); __ecereInstance1->type = 2, __ecereInstance1->declarator = declarator, __ecereInstance1; }); } struct Declarator * MkDeclaratorArray(struct Declarator * declarator, struct Expression * exp) { return __extension__ ({ struct Declarator * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Declarator); __ecereInstance1->type = 3, __ecereInstance1->declarator = declarator, __ecereInstance1->__anon1.array.exp = exp, __ecereInstance1; }); } struct Declarator * MkDeclaratorEnumArray(struct Declarator * declarator, struct Specifier * _class) { return __extension__ ({ struct Declarator * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Declarator); __ecereInstance1->type = 3, __ecereInstance1->declarator = declarator, __ecereInstance1->__anon1.array.enumClass = _class, __ecereInstance1; }); } struct Declarator * MkDeclaratorPointer(struct Pointer * pointer, struct Declarator * declarator) { return __extension__ ({ struct Declarator * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Declarator); __ecereInstance1->type = 5, __ecereInstance1->declarator = declarator, __ecereInstance1->__anon1.pointer.pointer = pointer, __ecereInstance1; }); } struct Enumerator * MkEnumerator(struct Identifier * id, struct Expression * exp) { return __extension__ ({ struct Enumerator * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Enumerator); __ecereInstance1->id = id, __ecereInstance1->exp = exp, __ecereInstance1; }); } struct Pointer * MkPointer(struct __ecereNameSpace__ecere__sys__OldList * qualifiers, struct Pointer * pointer) { return __extension__ ({ struct Pointer * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Pointer); __ecereInstance1->qualifiers = qualifiers, __ecereInstance1->pointer = pointer, __ecereInstance1; }); } struct Initializer * MkInitializerAssignment(struct Expression * exp) { return __extension__ ({ struct Initializer * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Initializer); __ecereInstance1->type = 0, __ecereInstance1->__anon1.exp = exp, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Initializer * MkInitializerList(struct __ecereNameSpace__ecere__sys__OldList * list) { return __extension__ ({ struct Initializer * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Initializer); __ecereInstance1->type = 1, __ecereInstance1->__anon1.list = list, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct InitDeclarator * MkInitDeclarator(struct Declarator * declarator, struct Initializer * initializer) { return __extension__ ({ struct InitDeclarator * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_InitDeclarator); __ecereInstance1->declarator = declarator, __ecereInstance1->initializer = initializer, __ecereInstance1; }); } struct TypeName * MkTypeName(struct __ecereNameSpace__ecere__sys__OldList * qualifiers, struct Declarator * declarator) { if(qualifiers != (((void *)0))) { struct Declarator * parentDecl = declarator; struct Declarator * decl = declarator; while(decl && decl->type == 3) decl = decl->declarator; if(decl && decl->type == 1 && decl->__anon1.identifier->string && CheckType(decl->__anon1.identifier->string) == TYPE_NAME) { struct Specifier * spec; for(spec = qualifiers->first; spec; spec = spec->next) { if(spec->type == 0) { if(spec->__anon1.specifier == CONST || spec->__anon1.specifier == VOLATILE || spec->__anon1.specifier == EXTERN || spec->__anon1.specifier == STATIC || spec->__anon1.specifier == AUTO || spec->__anon1.specifier == REGISTER) continue; break; } else if(spec->type != 5) break; } if(!spec) { ListAdd(qualifiers, MkSpecifierName(decl->__anon1.identifier->string)); FreeDeclarator(decl); parentDecl->declarator = (((void *)0)); } } } return __extension__ ({ struct TypeName * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_TypeName); __ecereInstance1->qualifiers = qualifiers, __ecereInstance1->declarator = declarator, __ecereInstance1; }); } struct FunctionDefinition * _MkFunction(struct __ecereNameSpace__ecere__sys__OldList * specifiers, struct Declarator * declarator, struct __ecereNameSpace__ecere__sys__OldList * declarationList, unsigned int errorOnOmit) { if(errorOnOmit) { struct Declarator * funcDecl = GetFuncDecl(declarator); if(funcDecl && funcDecl->__anon1.function.parameters) { struct TypeName * tn; for(tn = (*funcDecl->__anon1.function.parameters).first; tn; tn = tn->next) { if(tn->qualifiers || tn->declarator) { struct Identifier * declID = tn->declarator ? GetDeclId(tn->declarator) : (((void *)0)); if(!declID) { struct Specifier * spec = tn->qualifiers ? (*tn->qualifiers).first : (((void *)0)); if(!tn->declarator && !tn->prev && !tn->next && spec && !spec->next && spec->type == 0 && spec->__anon1.specifier == VOID) ; else Compiler_Error(__ecereNameSpace__ecere__GetTranslatedString("ec", "parameter name omitted\n", (((void *)0)))); break; } } } } } return __extension__ ({ struct FunctionDefinition * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_FunctionDefinition); __ecereInstance1->specifiers = specifiers, __ecereInstance1->declarator = declarator, __ecereInstance1->declarations = declarationList, __ecereInstance1; }); } struct Type * MkClassTypeSymbol(struct Symbol * symbol) { if(symbol) { struct Type * type = (type = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Type), type->kind = 8, type->__anon1._class = symbol, type); if(!type->__anon1._class) { type->kind = 3; } type->refCount = 1; return type; } return (((void *)0)); } struct ClassFunction * MkClassFunction(struct __ecereNameSpace__ecere__sys__OldList * specifiers, struct Specifier * _class, struct Declarator * decl, struct __ecereNameSpace__ecere__sys__OldList * declList) { return __extension__ ({ struct ClassFunction * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_ClassFunction); __ecereInstance1->specifiers = specifiers, __ecereInstance1->declarator = decl, __ecereInstance1->declarations = declList, __ecereInstance1; }); } struct MemberInit * MkMemberInit(struct __ecereNameSpace__ecere__sys__OldList * ids, struct Initializer * initializer) { return __extension__ ({ struct MemberInit * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_MemberInit); __ecereInstance1->identifiers = ids, __ecereInstance1->initializer = initializer, __ecereInstance1; }); } struct MemberInit * MkMemberInitExp(struct Expression * idExp, struct Initializer * initializer) { struct MemberInit * init = (init = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_MemberInit), init->initializer = initializer, init->identifiers = MkList(), init); struct Expression * exp; for(exp = idExp; exp && exp->type == 8; exp = exp->__anon1.member.exp) { __ecereMethod___ecereNameSpace__ecere__sys__OldList_Insert((&*init->identifiers), (((void *)0)), exp->__anon1.member.member); exp->__anon1.member.member = (((void *)0)); } if(exp && exp->type == 0) { __ecereMethod___ecereNameSpace__ecere__sys__OldList_Insert((&*init->identifiers), (((void *)0)), exp->__anon1.__anon1.identifier); exp->__anon1.__anon1.identifier = (((void *)0)); } FreeExpression(idExp); return init; } struct MembersInit * MkMembersInitList(struct __ecereNameSpace__ecere__sys__OldList * dataMembers) { return __extension__ ({ struct MembersInit * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_MembersInit); __ecereInstance1->type = 0, __ecereInstance1->__anon1.dataMembers = dataMembers, __ecereInstance1; }); } struct MembersInit * MkMembersInitMethod(struct ClassFunction * function) { return __extension__ ({ struct MembersInit * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_MembersInit); __ecereInstance1->type = 1, __ecereInstance1->__anon1.function = function, __ecereInstance1; }); } struct Instantiation * MkInstantiation(struct Specifier * _class, struct Expression * exp, struct __ecereNameSpace__ecere__sys__OldList * members) { return __extension__ ({ struct Instantiation * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Instantiation); __ecereInstance1->_class = _class, __ecereInstance1->exp = exp, __ecereInstance1->members = members, __ecereInstance1; }); } struct Instantiation * MkInstantiationNamed(struct __ecereNameSpace__ecere__sys__OldList * specs, struct Expression * exp, struct __ecereNameSpace__ecere__sys__OldList * members) { struct Instantiation * inst = (inst = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Instantiation), inst->exp = exp, inst->members = members, inst); if(specs != (((void *)0))) { struct Specifier * spec; for(spec = specs->first; spec; spec = spec->next) if(spec->type == 1) { inst->_class = spec; __ecereMethod___ecereNameSpace__ecere__sys__OldList_Remove(specs, spec); break; } FreeList(specs, (void *)(FreeSpecifier)); if(!spec) { Compiler_Error(__ecereNameSpace__ecere__GetTranslatedString("ec", "Expecting class specifier\n", (((void *)0)))); inst->_class = MkSpecifierName(""); } } return inst; } struct Context * PushContext() { struct Context * ctx = (ctx = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Context), ctx->parent = curContext, ctx); curContext = ctx; return ctx; } struct AsmField * MkAsmField(char * command, struct Expression * expression, struct Identifier * symbolic) { return __extension__ ({ struct AsmField * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_AsmField); __ecereInstance1->command = command, __ecereInstance1->expression = expression, __ecereInstance1->symbolic = symbolic, __ecereInstance1; }); } struct PropertyWatch * MkDeleteWatch(struct Statement * compound) { return __extension__ ({ struct PropertyWatch * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_PropertyWatch); __ecereInstance1->compound = compound, __ecereInstance1->deleteWatch = 1, __ecereInstance1; }); } struct PropertyWatch * MkPropertyWatch(struct __ecereNameSpace__ecere__sys__OldList * properties, struct Statement * compound) { return __extension__ ({ struct PropertyWatch * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_PropertyWatch); __ecereInstance1->compound = compound, __ecereInstance1->properties = properties, __ecereInstance1; }); } struct DBTableDef * MkDBTableDef(char * name, struct Symbol * symbol, struct __ecereNameSpace__ecere__sys__OldList * definitions) { return __extension__ ({ struct DBTableDef * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_DBTableDef); __ecereInstance1->name = name, __ecereInstance1->symbol = symbol, __ecereInstance1->definitions = definitions, __ecereInstance1; }); } struct DBTableEntry * MkDBFieldEntry(struct TypeName * type, struct Identifier * id, char * name) { return __extension__ ({ struct DBTableEntry * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_DBTableEntry); __ecereInstance1->type = 0, __ecereInstance1->__anon1.__anon1.dataType = type, __ecereInstance1->id = id, __ecereInstance1->__anon1.__anon1.name = name, __ecereInstance1; }); } struct DBTableEntry * MkDBIndexEntry(struct __ecereNameSpace__ecere__sys__OldList * items, struct Identifier * id) { return __extension__ ({ struct DBTableEntry * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_DBTableEntry); __ecereInstance1->type = 1, __ecereInstance1->__anon1.items = items, __ecereInstance1->id = id, __ecereInstance1; }); } struct DBIndexItem * MkDBIndexItem(struct Identifier * id, int order) { return __extension__ ({ struct DBIndexItem * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_DBIndexItem); __ecereInstance1->id = id, __ecereInstance1->order = order, __ecereInstance1; }); } void __ecereCreateModuleInstances_ast() { intlStrings = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass___ecereNameSpace__ecere__com__Map_TPL_ContextStringPair__ecere__com__List_TPL_Location___); __ecereNameSpace__ecere__com__eInstance_IncRef(intlStrings); } struct TemplateParameter * MkTypeTemplateParameter(struct Identifier * identifier, struct TemplateDatatype * baseTplDatatype, struct TemplateArgument * defaultArgument) { if(identifier->string) { struct TemplateParameter * param = (param = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_TemplateParameter), param->type = 0, param->identifier = identifier, param->__anon1.dataType = baseTplDatatype, param->defaultArgument = defaultArgument, param); struct TemplatedType * type = (type = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_TemplatedType), type->key = (uintptr_t)identifier->string, type->param = param, type); if(!__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_Add(&curContext->templateTypes, (struct __ecereNameSpace__ecere__sys__BTNode *)type)) ((type ? __extension__ ({ void * __ecerePtrToDelete = (type); __ecereClass_TemplatedType->Destructor ? __ecereClass_TemplatedType->Destructor((void *)__ecerePtrToDelete) : 0, __ecereClass___ecereNameSpace__ecere__sys__BTNode->Destructor ? __ecereClass___ecereNameSpace__ecere__sys__BTNode->Destructor((void *)__ecerePtrToDelete) : 0, __ecereNameSpace__ecere__com__eSystem_Delete(__ecerePtrToDelete); }) : 0), type = 0); return param; } return (((void *)0)); } void OutputIntlStrings() { if(((struct __ecereNameSpace__ecere__com__CustomAVLTree *)(((char *)intlStrings + 0 + sizeof(struct __ecereNameSpace__ecere__com__Instance))))->count) { const char * srcFile = GetSourceFile(); const char * objFile = GetOutputFile(); char srcFileFixed[797]; char potFile[797]; struct __ecereNameSpace__ecere__com__Instance * f; __ecereNameSpace__ecere__sys__ChangeExtension(objFile, "bowl", potFile); f = __ecereNameSpace__ecere__sys__FileOpen(potFile, 2); if(f) { const char * filePrefix = ""; if(!(srcFile[0] && (srcFile[1] == ':' || srcFile[0] == '/'))) filePrefix = "./"; __ecereNameSpace__ecere__sys__GetSlashPathBuffer(srcFileFixed, srcFile); { struct __ecereNameSpace__ecere__com__MapIterator s = (s.container = (void *)0, s.pointer = (void *)0, __ecereProp___ecereNameSpace__ecere__com__MapIterator_Set_map(&s, (intlStrings)), s); while(__ecereMethod___ecereNameSpace__ecere__com__Iterator_Next((void *)(&s))) { struct ContextStringPair pair = (*(struct ContextStringPair *)(uintptr_t)__ecereProp___ecereNameSpace__ecere__com__MapIterator_Get_key(&s)); { struct __ecereNameSpace__ecere__com__Iterator l = { ((struct __ecereNameSpace__ecere__com__Instance *)(uintptr_t)__ecereProp___ecereNameSpace__ecere__com__Iterator_Get_data((void *)(&s))), 0 }; while(__ecereMethod___ecereNameSpace__ecere__com__Iterator_Next(&l)) __ecereMethod___ecereNameSpace__ecere__sys__File_Printf(f, "#: %s%s:%d\n", filePrefix, srcFileFixed, (*(struct Location *)(uintptr_t)__ecereProp___ecereNameSpace__ecere__com__Iterator_Get_data(&l)).start.line); } if(pair.context) __ecereMethod___ecereNameSpace__ecere__sys__File_Printf(f, "msgctxt \"%s\"\n", pair.context); __ecereMethod___ecereNameSpace__ecere__sys__File_Printf(f, "msgid \"%s\"\n", pair.string); __ecereMethod___ecereNameSpace__ecere__sys__File_Printf(f, "msgstr \"%s\"\n\n", pair.string); } } (__ecereNameSpace__ecere__com__eInstance_DecRef(f), f = 0); } (__extension__ ({ void (* __internal_VirtualMethod)(struct __ecereNameSpace__ecere__com__Instance *); __internal_VirtualMethod = ((void (*)(struct __ecereNameSpace__ecere__com__Instance *))__extension__ ({ struct __ecereNameSpace__ecere__com__Instance * __internal_ClassInst = intlStrings; __internal_ClassInst ? __internal_ClassInst->_vTbl : __ecereClass___ecereNameSpace__ecere__com__Map->_vTbl; })[__ecereVMethodID___ecereNameSpace__ecere__com__Container_Free]); __internal_VirtualMethod ? __internal_VirtualMethod(intlStrings) : (void)1; })); } } void __ecereUnregisterModule_ast(struct __ecereNameSpace__ecere__com__Instance * module) { } unsigned int ModuleAccess(struct __ecereNameSpace__ecere__com__Instance * searchIn, struct __ecereNameSpace__ecere__com__Instance * searchFor) { struct __ecereNameSpace__ecere__com__SubModule * subModule; if(searchFor == searchIn) return 1; for(subModule = ((struct __ecereNameSpace__ecere__com__Module *)(((char *)searchIn + sizeof(struct __ecereNameSpace__ecere__com__Instance))))->modules.first; subModule; subModule = subModule->next) { if(subModule->importMode == 1) { if(ModuleAccess(subModule->module, searchFor)) return 1; } } return 0; } struct Expression * MkExpIntlString(const char * string, const char * context) { if(inCompiler) { struct __ecereNameSpace__ecere__sys__OldList * list = MkList(); char * s; if(inCompiler) { struct ContextStringPair pair = { 0, 0 }; struct __ecereNameSpace__ecere__com__Instance * list; int len = strlen(string); pair.string = __ecereNameSpace__ecere__com__eSystem_New(sizeof(unsigned char) * (len - 2 + 1)); memcpy(pair.string, string + 1, len - 2); pair.string[len - 2] = '\0'; if(context) { len = strlen(context); pair.context = __ecereNameSpace__ecere__com__eSystem_New(sizeof(unsigned char) * (len - 2 + 1)); memcpy(pair.context, context + 1, len - 2); pair.context[len - 2] = '\0'; } list = (((struct __ecereNameSpace__ecere__com__Instance *)((uintptr_t)(__extension__ ({ struct __ecereNameSpace__ecere__com__Iterator __internalIterator = { intlStrings, 0 }; __ecereMethod___ecereNameSpace__ecere__com__Iterator_Index(&__internalIterator, ((uint64)(uintptr_t)(&pair)), 0); ((struct __ecereNameSpace__ecere__com__Instance *)(uintptr_t)__ecereProp___ecereNameSpace__ecere__com__Iterator_Get_data(&__internalIterator)); }))))); if(!list) { list = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass___ecereNameSpace__ecere__com__List_TPL_Location_); __extension__ ({ struct __ecereNameSpace__ecere__com__Iterator __internalIterator = { intlStrings, 0 }; __ecereMethod___ecereNameSpace__ecere__com__Iterator_Index(&__internalIterator, ((uint64)(uintptr_t)(&pair)), 1); __ecereProp___ecereNameSpace__ecere__com__Iterator_Set_data(&__internalIterator, (uint64)(uintptr_t)(list)); }); } else { (__ecereNameSpace__ecere__com__eSystem_Delete(pair.string), pair.string = 0); (__ecereNameSpace__ecere__com__eSystem_Delete(pair.context), pair.context = 0); } (__extension__ ({ struct __ecereNameSpace__ecere__com__IteratorPointer * (* __internal_VirtualMethod)(struct __ecereNameSpace__ecere__com__Instance *, uint64 value); __internal_VirtualMethod = ((struct __ecereNameSpace__ecere__com__IteratorPointer * (*)(struct __ecereNameSpace__ecere__com__Instance *, uint64 value))__extension__ ({ struct __ecereNameSpace__ecere__com__Instance * __internal_ClassInst = list; __internal_ClassInst ? __internal_ClassInst->_vTbl : __ecereClass___ecereNameSpace__ecere__com__List->_vTbl; })[__ecereVMethodID___ecereNameSpace__ecere__com__Container_Add]); __internal_VirtualMethod ? __internal_VirtualMethod(list, (uint64)(uintptr_t)(&yylloc)) : (struct __ecereNameSpace__ecere__com__IteratorPointer *)1; })); } s = QMkString(i18nModuleName ? i18nModuleName : ""); ListAdd(list, MkExpString(s)); (__ecereNameSpace__ecere__com__eSystem_Delete(s), s = 0); ListAdd(list, MkExpString(string)); if(context) { int lenString = strlen(string), lenContext = strlen(context); char * msgid = __ecereNameSpace__ecere__com__eSystem_New(sizeof(char) * (lenString - 2 + lenContext - 2 + 4)); msgid[0] = '\"'; memcpy(msgid + 1, context + 1, lenContext - 2); msgid[1 + lenContext - 2] = 4; memcpy(msgid + 1 + lenContext - 2 + 1, string + 1, lenString - 2); memcpy(msgid + 1 + lenContext - 2 + 1 + lenString - 2, "\"", 2); ListAdd(list, MkExpString(msgid)); (__ecereNameSpace__ecere__com__eSystem_Delete(msgid), msgid = 0); } else ListAdd(list, QMkExpId("null")); return MkExpCall(QMkExpId("GetTranslatedString"), list); } else { struct Expression * e = MkExpString(string); e->__anon1.__anon2.intlString = 1; return e; } } struct ModuleImport * FindModule(struct __ecereNameSpace__ecere__com__Instance * moduleToFind) { struct ModuleImport * module; if(!((struct __ecereNameSpace__ecere__com__Module *)(((char *)moduleToFind + sizeof(struct __ecereNameSpace__ecere__com__Instance))))->name) return mainModule; for(module = (*imports).first; module; module = module->next) if(module->name && !strcmp(module->name, ((struct __ecereNameSpace__ecere__com__Module *)(((char *)moduleToFind + sizeof(struct __ecereNameSpace__ecere__com__Instance))))->name)) break; if(!module) { module = __extension__ ({ struct ModuleImport * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_ModuleImport); __ecereInstance1->name = __ecereNameSpace__ecere__sys__CopyString(((struct __ecereNameSpace__ecere__com__Module *)(((char *)moduleToFind + sizeof(struct __ecereNameSpace__ecere__com__Instance))))->name), __ecereInstance1->importType = ((struct __ecereNameSpace__ecere__com__Module *)(((char *)moduleToFind + sizeof(struct __ecereNameSpace__ecere__com__Instance))))->importType, __ecereInstance1->importAccess = ModuleAccess(privateModule, moduleToFind) ? 1 : 2, __ecereInstance1; }); __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add((&*imports), module); } return module; } struct Symbol * FindClass(const char * name) { struct Symbol * cl = (((void *)0)); struct __ecereNameSpace__ecere__com__Class * _class; unsigned int global = 0; char fullName[1024]; if(name[0] == ':' && name[1] == ':') { global = 1; name += 2; } if(!global && (currentNameSpace || defaultNameSpace) && declMode != 0 && defaultDeclMode != 0) { int len = 0, stringLen; if(defaultNameSpace) { memcpy(fullName, defaultNameSpace, defaultNameSpaceLen); len += defaultNameSpaceLen; fullName[len++] = ':'; fullName[len++] = ':'; } if(currentNameSpace) { memcpy(fullName + len, currentNameSpace, currentNameSpaceLen); len += currentNameSpaceLen; fullName[len++] = ':'; fullName[len++] = ':'; } stringLen = strlen(name); memcpy(fullName + len, name, stringLen); len += stringLen; fullName[len] = 0; cl = globalContext ? (struct Symbol *)__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_FindString(&globalContext->classes, fullName) : (((void *)0)); } if(!cl) cl = globalContext ? (struct Symbol *)__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_FindString(&globalContext->classes, name) : (((void *)0)); if(!cl && !global) { for(cl = globalContext ? (struct Symbol *)__ecereProp___ecereNameSpace__ecere__sys__BinaryTree_Get_first(&globalContext->classes) : (((void *)0)); cl; cl = (struct Symbol *)__ecereProp___ecereNameSpace__ecere__sys__BTNode_Get_next(((struct __ecereNameSpace__ecere__sys__BTNode *)cl))) { if(cl->shortName && !strcmp(cl->shortName, name)) break; } } if(!cl) { _class = (((void *)0)); if(!global && (currentNameSpace || defaultNameSpace) && declMode != 0 && defaultDeclMode != 0) _class = __ecereNameSpace__ecere__com__eSystem_FindClass(privateModule, fullName); if(!_class) _class = __ecereNameSpace__ecere__com__eSystem_FindClass(privateModule, name); if(_class) { name = _class->fullName; cl = (struct Symbol *)__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_FindString(&globalContext->classes, name); if(!cl) { cl = __extension__ ({ struct Symbol * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Symbol); __ecereInstance1->string = __ecereNameSpace__ecere__sys__CopyString(name), __ecereInstance1->__anon1.registered = _class, __ecereInstance1->notYetDeclared = 1, __ecereInstance1->imported = 1, __ecereInstance1; }); _class->symbol = cl; if(_class->module) cl->module = FindModule(_class->module); else cl->module = mainModule; if(!__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_Add(&globalContext->classes, (struct __ecereNameSpace__ecere__sys__BTNode *)cl)) __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add((&*excludedSymbols), cl); if(strcmp(name, _class->name)) cl->shortName = __ecereNameSpace__ecere__sys__CopyString(_class->name); } } } return cl; } struct Identifier * MkIdentifier(const char * string) { struct Identifier * id = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Identifier); int c; id->_class = (((void *)0)); if(string) { const char * namePart; unsigned int gotColon = 0; for(c = strlen(string) - 1; c >= 0; c--) if(string[c] == ':') { gotColon = 1; break; } namePart = string + c + 1; while(c >= 0 && string[c] == ':') c--; if(c >= 0) { char name[1024]; struct Symbol * symbol; memcpy(name, string, c + 1); name[c + 1] = '\0'; if(!strcmp(name, "typed_object")) { id->_class = MkSpecifierName("typed_object"); id->string = __ecereNameSpace__ecere__sys__CopyString(namePart); } else if(!strcmp(name, "property")) { id->_class = MkSpecifierName("property"); id->string = __ecereNameSpace__ecere__sys__CopyString(namePart); } else if(!strcmp(name, "typed_object&")) { id->_class = MkSpecifierName("typed_object&"); id->string = __ecereNameSpace__ecere__sys__CopyString(namePart); } else if(!strcmp(name, "any_object")) { id->_class = MkSpecifierName("any_object"); id->string = __ecereNameSpace__ecere__sys__CopyString(namePart); } else { struct TemplatedType * templatedType = FindTemplateTypeParameter(curContext, name); if(templatedType) { id->_class = __extension__ ({ struct Specifier * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Specifier); __ecereInstance1->type = 8, __ecereInstance1->__anon1.templateParameter = templatedType->param, __ecereInstance1; }); id->string = __ecereNameSpace__ecere__sys__CopyString(namePart); } else { symbol = FindClass(name); if(symbol) { id->_class = _MkSpecifierName(symbol->string, symbol, (((void *)0))); id->string = __ecereNameSpace__ecere__sys__CopyString(namePart); } else id->string = __ecereNameSpace__ecere__sys__CopyString(string); } } } else if(gotColon) { id->_class = MkSpecifierName((((void *)0))); id->string = __ecereNameSpace__ecere__sys__CopyString(namePart); } else id->string = __ecereNameSpace__ecere__sys__CopyString(string); } else id->string = __ecereNameSpace__ecere__sys__CopyString(""); return id; } void SetClassTemplateArgs(struct Specifier * spec, struct __ecereNameSpace__ecere__sys__OldList * templateArgs) { if(spec->type == 1) { struct Symbol * symbol = spec->__anon1.__anon1.symbol; spec->__anon1.__anon1.templateArgs = templateArgs; if(templateArgs && templateArgs->first) { char templateString[1024]; struct TemplateArgument * arg; strcpy(templateString, symbol ? symbol->string : spec->__anon1.__anon1.name); strcat(templateString, "<"); for(arg = templateArgs->first; arg; arg = arg->next) { char argument[256]; argument[0] = '\0'; switch(arg->type) { case 2: { char expString[1024]; struct __ecereNameSpace__ecere__com__Class * backupThisClass = thisClass; thisClass = (((void *)0)); expString[0] = '\0'; PrintExpression(arg->__anon1.expression, expString); strcat(argument, expString); thisClass = backupThisClass; break; } case 1: { strcat(argument, arg->__anon1.identifier->string); break; } case 0: { char * typeString = StringFromSpecDecl(arg->__anon1.templateDatatype->specifiers, arg->__anon1.templateDatatype->decl); strcat(argument, typeString); (__ecereNameSpace__ecere__com__eSystem_Delete(typeString), typeString = 0); break; } } if(argument[0]) { if(arg->prev) strcat(templateString, ", "); if(arg->name) { strcat(templateString, arg->name->string); strcat(templateString, " = "); } strcat(templateString, argument); } } { int len = strlen(templateString); if(templateString[len - 1] == '>') templateString[len++] = ' '; templateString[len++] = '>'; templateString[len++] = '\0'; } symbol = FindClass(templateString); if(!symbol && spec->__anon1.__anon1.symbol) { symbol = _DeclClass((((void *)0)), templateString); symbol->notYetDeclared = 1; } if(spec->__anon1.__anon1.symbol) __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add(&spec->__anon1.__anon1.symbol->templatedClasses, __extension__ ({ struct __ecereNameSpace__ecere__sys__OldLink * __ecereInstance1 = __ecereNameSpace__ecere__com__eSystem_New0(sizeof(struct __ecereNameSpace__ecere__sys__OldLink)); __ecereInstance1->data = symbol, __ecereInstance1; })); (__ecereNameSpace__ecere__com__eSystem_Delete(spec->__anon1.__anon1.name), spec->__anon1.__anon1.name = 0); spec->__anon1.__anon1.symbol = symbol; spec->__anon1.__anon1.name = __ecereNameSpace__ecere__sys__CopyString(symbol ? symbol->string : templateString); } } else FreeList(templateArgs, (void *)(FreeTemplateArgument)); } struct Symbol * _DeclClass(struct Specifier * _class, const char * name) { struct Symbol * symbol; char nameBuffer[1024]; if(_class) { strcpy(nameBuffer, _class->__anon1.__anon1.name ? _class->__anon1.__anon1.name : ""); strcat(nameBuffer, "::"); strcat(nameBuffer, name); name = nameBuffer; } symbol = FindClass(name); if(!symbol) { if(name[0] == ':' && name[1] == ':') name += 2; symbol = __extension__ ({ struct Symbol * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Symbol); __ecereInstance1->string = __ecereNameSpace__ecere__sys__CopyString(name), __ecereInstance1->notYetDeclared = 1, __ecereInstance1; }); if(!__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_Add(&globalContext->classes, (struct __ecereNameSpace__ecere__sys__BTNode *)symbol)) __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add((&*excludedSymbols), symbol); { int start = 0, c; char ch; for(c = 0; (ch = name[c]); c++) { if(ch == '.' || (ch == ':' && name[c + 1] == ':')) { if(ch == ':') c++; start = c + 1; } } if(start && c - start) symbol->shortName = __ecereNameSpace__ecere__sys__CopyString(name + start); } } return symbol; } int CheckType(const char * text) { if(inIDE) { if(!strcmp(text, "WINAPI")) return EXT_DECL; else if(!strcmp(text, "BOOL") || !strcmp(text, "WINUSERAPI")) return TYPE_NAME; } if(FindTemplateTypeParameter(curContext, text)) { return TYPE_NAME; } if(FindType(curContext, text)) { return TYPE_NAME; } if(FindClass(text)) { return TYPE_NAME; } return IDENTIFIER; } struct Type * MkClassType(const char * name) { if(name) { struct Type * type = (type = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Type), type->kind = 8, type->__anon1._class = FindClass(name), type); if(!type->__anon1._class) { type->kind = 3; } type->refCount = 1; return type; } return (((void *)0)); } struct TypeName * MkTypeNameGuessDecl(struct __ecereNameSpace__ecere__sys__OldList * qualifiers, struct Declarator * declarator) { if(qualifiers != (((void *)0))) { unsigned int gotType = 0; unsigned int gotFullType = 0; struct Specifier * spec, * next; for(spec = qualifiers->first; spec; spec = next) { next = spec->next; if(gotType && !declarator && ((spec->type == 1 && spec->__anon1.__anon1.name) || (spec->type == 0 && gotFullType))) { const char * s = (((void *)0)); if(spec->type == 1) { char * colon = __ecereNameSpace__ecere__sys__RSearchString(spec->__anon1.__anon1.name, "::", strlen(spec->__anon1.__anon1.name), 1, 0); s = colon ? colon + 2 : spec->__anon1.__anon1.name; } else if(spec->type == 0) { if(spec->__anon1.specifier == INT64) s = "int64"; else if(spec->__anon1.specifier == INT128) s = "__int128"; } if(s) { declarator = MkDeclaratorIdentifier(MkIdentifier(s)); __ecereMethod___ecereNameSpace__ecere__sys__OldList_Remove(qualifiers, spec); FreeSpecifier(spec); spec = (((void *)0)); } } if(spec && spec->type != 5) { if(spec->type == 0) { if(spec->__anon1.specifier == CONST || spec->__anon1.specifier == VOLATILE || spec->__anon1.specifier == EXTERN || spec->__anon1.specifier == STATIC || spec->__anon1.specifier == AUTO || spec->__anon1.specifier == REGISTER) continue; else if(spec->__anon1.specifier != UNSIGNED && spec->__anon1.specifier != SIGNED && spec->__anon1.specifier != LONG) gotFullType = 1; gotType = 1; } else { gotFullType = 1; gotType = 1; } } } } return __extension__ ({ struct TypeName * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_TypeName); __ecereInstance1->qualifiers = qualifiers, __ecereInstance1->declarator = declarator, __ecereInstance1; }); } void SetupBaseSpecs(struct Symbol * symbol, struct __ecereNameSpace__ecere__sys__OldList * baseSpecs) { if(baseSpecs && baseSpecs->first && ((struct Specifier *)baseSpecs->first)->type == 1) { char name[1024]; struct Symbol * baseClass; char * tpl; strcpy(name, ((struct Specifier *)baseSpecs->first)->__anon1.__anon1.name); tpl = strchr(name, '<'); if(tpl) *tpl = 0; baseClass = FindClass(name); if(baseClass && baseClass->ctx) { struct TemplatedType * copy; for(copy = (struct TemplatedType *)__ecereProp___ecereNameSpace__ecere__sys__BinaryTree_Get_first(&baseClass->ctx->templateTypes); copy; copy = (struct TemplatedType *)__ecereProp___ecereNameSpace__ecere__sys__BTNode_Get_next((void *)(copy))) { struct TemplatedType * type = (type = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_TemplatedType), type->key = copy->key, type->param = copy->param, type); if(!__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_Add(&curContext->templateTypes, (struct __ecereNameSpace__ecere__sys__BTNode *)type)) ((type ? __extension__ ({ void * __ecerePtrToDelete = (type); __ecereClass_TemplatedType->Destructor ? __ecereClass_TemplatedType->Destructor((void *)__ecerePtrToDelete) : 0, __ecereClass___ecereNameSpace__ecere__sys__BTNode->Destructor ? __ecereClass___ecereNameSpace__ecere__sys__BTNode->Destructor((void *)__ecerePtrToDelete) : 0, __ecereNameSpace__ecere__com__eSystem_Delete(__ecerePtrToDelete); }) : 0), type = 0); } } else if(baseClass && baseClass->__anon1.registered) { struct __ecereNameSpace__ecere__com__Class * sClass; for(sClass = baseClass->__anon1.registered; sClass; sClass = sClass->base) { struct __ecereNameSpace__ecere__com__ClassTemplateParameter * p; for(p = sClass->templateParams.first; p; p = p->next) { if(p->type == 0) { struct TemplateParameter * param = p->param; struct TemplatedType * type; if(!param) { p->param = param = __extension__ ({ struct TemplateParameter * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_TemplateParameter); __ecereInstance1->identifier = MkIdentifier(p->name), __ecereInstance1->type = p->type, __ecereInstance1->dataTypeString = p->__anon1.dataTypeString, __ecereInstance1; }); } type = __extension__ ({ struct TemplatedType * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_TemplatedType); __ecereInstance1->key = (uintptr_t)p->name, __ecereInstance1->param = param, __ecereInstance1; }); if(!__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_Add(&curContext->templateTypes, (struct __ecereNameSpace__ecere__sys__BTNode *)type)) ((type ? __extension__ ({ void * __ecerePtrToDelete = (type); __ecereClass_TemplatedType->Destructor ? __ecereClass_TemplatedType->Destructor((void *)__ecerePtrToDelete) : 0, __ecereClass___ecereNameSpace__ecere__sys__BTNode->Destructor ? __ecereClass___ecereNameSpace__ecere__sys__BTNode->Destructor((void *)__ecerePtrToDelete) : 0, __ecereNameSpace__ecere__com__eSystem_Delete(__ecerePtrToDelete); }) : 0), type = 0); } } } } } } struct Specifier * _MkSpecifierName(const char * name, struct Symbol * symbol, struct __ecereNameSpace__ecere__sys__OldList * templateArgs) { struct Specifier * spec = (spec = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Specifier), spec->type = 1, spec); if(name) { if(!symbol) { struct TemplatedType * templatedType = FindTemplateTypeParameter(curContext, name); if(templatedType) { spec->__anon1.templateParameter = templatedType->param; spec->type = 8; return spec; } else symbol = FindClass(name); } if(symbol && symbol->__anon1.registered && symbol->__anon1.registered->isRemote == 1) { char className[1024]; strcpy(className, "DCOMClient_"); if(!strncmp(name, className, strlen(className))) spec->__anon1.__anon1.name = __ecereNameSpace__ecere__sys__CopyString(name); else { strcat(className, name); spec->__anon1.__anon1.name = __ecereNameSpace__ecere__sys__CopyString(className); } } else if(symbol) { char nameSpace[1024]; char * c = strstr(name, symbol->string); spec->__anon1.__anon1.name = __ecereNameSpace__ecere__sys__CopyString(symbol->string); if(c && c >= name + 2 && c[-1] == ':' && c[-2] == ':') { if(c > name + 2) { memcpy(nameSpace, name, c - name - 2); nameSpace[c - name] = 0; spec->__anon1.__anon1.nsSpec = _MkSpecifierName(nameSpace, (((void *)0)), (((void *)0))); } else spec->__anon1.__anon1.nsSpec = _MkSpecifierName((((void *)0)), (((void *)0)), (((void *)0))); } } else spec->__anon1.__anon1.name = __ecereNameSpace__ecere__sys__CopyString(name); spec->__anon1.__anon1.symbol = symbol; if(templateArgs != (((void *)0))) SetClassTemplateArgs(spec, templateArgs); } return spec; } struct ClassDef; struct Expression * GetTemplateArgExpByName(const char * paramName, struct __ecereNameSpace__ecere__com__Class * thisClassFrom, struct __ecereNameSpace__ecere__com__Class * curClass, int tplType); struct Expression * GetTemplateArgExp(struct TemplateParameter * param, struct __ecereNameSpace__ecere__com__Class * thisClassFrom, struct __ecereNameSpace__ecere__com__Class * curClass, unsigned int pointer) { return param->identifier ? GetTemplateArgExpByName(param->identifier->string, thisClassFrom, curClass, 0) : (((void *)0)); } struct Declaration; struct Declaration { struct Declaration * prev; struct Declaration * next; struct Location loc; int type; union { struct { struct __ecereNameSpace__ecere__sys__OldList * specifiers; struct __ecereNameSpace__ecere__sys__OldList * declarators; } ecere_gcc_struct __anon1; struct Instantiation * inst; struct { struct Identifier * id; struct Expression * exp; } ecere_gcc_struct __anon2; } ecere_gcc_struct __anon1; struct Specifier * extStorage; struct Symbol * symbol; int declMode; } ecere_gcc_struct; struct Statement { struct Statement * prev; struct Statement * next; struct Location loc; int type; union { struct __ecereNameSpace__ecere__sys__OldList * expressions; struct { struct Identifier * id; struct Statement * stmt; } ecere_gcc_struct labeled; struct { struct Expression * exp; struct Statement * stmt; } ecere_gcc_struct caseStmt; struct { struct __ecereNameSpace__ecere__sys__OldList * declarations; struct __ecereNameSpace__ecere__sys__OldList * statements; struct Context * context; unsigned int isSwitch; } ecere_gcc_struct compound; struct { struct __ecereNameSpace__ecere__sys__OldList * exp; struct Statement * stmt; struct Statement * elseStmt; } ecere_gcc_struct ifStmt; struct { struct __ecereNameSpace__ecere__sys__OldList * exp; struct Statement * stmt; } ecere_gcc_struct switchStmt; struct { struct __ecereNameSpace__ecere__sys__OldList * exp; struct Statement * stmt; } ecere_gcc_struct whileStmt; struct { struct __ecereNameSpace__ecere__sys__OldList * exp; struct Statement * stmt; } ecere_gcc_struct doWhile; struct { struct Statement * init; struct Statement * check; struct __ecereNameSpace__ecere__sys__OldList * increment; struct Statement * stmt; } ecere_gcc_struct forStmt; struct { struct Identifier * id; } ecere_gcc_struct gotoStmt; struct { struct Specifier * spec; char * statements; struct __ecereNameSpace__ecere__sys__OldList * inputFields; struct __ecereNameSpace__ecere__sys__OldList * outputFields; struct __ecereNameSpace__ecere__sys__OldList * clobberedFields; } ecere_gcc_struct asmStmt; struct { struct Expression * watcher; struct Expression * object; struct __ecereNameSpace__ecere__sys__OldList * watches; } ecere_gcc_struct _watch; struct { struct Identifier * id; struct __ecereNameSpace__ecere__sys__OldList * exp; struct __ecereNameSpace__ecere__sys__OldList * filter; struct Statement * stmt; } ecere_gcc_struct forEachStmt; struct Declaration * decl; } ecere_gcc_struct __anon1; } ecere_gcc_struct; struct External { struct External * prev; struct External * next; struct Location loc; int type; struct Symbol * symbol; union { struct FunctionDefinition * function; struct ClassDefinition * _class; struct Declaration * declaration; char * importString; struct Identifier * id; struct DBTableDef * table; } ecere_gcc_struct __anon1; int importType; struct External * fwdDecl; struct __ecereNameSpace__ecere__com__Instance * outgoing; struct __ecereNameSpace__ecere__com__Instance * incoming; int nonBreakableIncoming; } ecere_gcc_struct; struct Declaration * MkDeclarationInst(struct Instantiation * inst) { struct Declaration * decl = (decl = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Declaration), decl->type = 2, decl->__anon1.inst = inst, decl->loc = yylloc, decl); struct Symbol * symbol; if(curContext == globalContext && (currentNameSpace || defaultNameSpace) && declMode != 0 && defaultDeclMode != 0) { char name[1024]; int len = 0, stringLen; if(defaultNameSpace) { memcpy(name, defaultNameSpace, defaultNameSpaceLen); len += defaultNameSpaceLen; name[len++] = ':'; name[len++] = ':'; } if(currentNameSpace) { memcpy(name + len, currentNameSpace, currentNameSpaceLen); len += currentNameSpaceLen; name[len++] = ':'; name[len++] = ':'; } stringLen = strlen(inst->exp->__anon1.__anon1.identifier->string); memcpy(name + len, inst->exp->__anon1.__anon1.identifier->string, stringLen); len += stringLen; name[len] = 0; (__ecereNameSpace__ecere__com__eSystem_Delete(inst->exp->__anon1.__anon1.identifier->string), inst->exp->__anon1.__anon1.identifier->string = 0); inst->exp->__anon1.__anon1.identifier->string = __ecereNameSpace__ecere__sys__CopyString(name); } symbol = __extension__ ({ struct Symbol * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Symbol); __ecereInstance1->string = (inst->exp->type == 0) ? __ecereNameSpace__ecere__sys__CopyString(inst->exp->__anon1.__anon1.identifier->string) : (((void *)0)), __ecereInstance1->type = MkClassTypeSymbol(inst->_class->__anon1.__anon1.symbol), __ecereInstance1; }); if(strstr(symbol->string, "::")) curContext->hasNameSpace = 1; if(!__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_Add(&(curContext->templateTypesOnly ? curContext->parent : curContext)->symbols, (struct __ecereNameSpace__ecere__sys__BTNode *)symbol)) __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add((&*excludedSymbols), symbol); decl->symbol = inst->symbol = symbol; return decl; } struct Declaration * MkDeclaration(struct __ecereNameSpace__ecere__sys__OldList * specifiers, struct __ecereNameSpace__ecere__sys__OldList * initDeclarators) { struct Declaration * decl = (decl = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Declaration), decl->type = 1, decl->__anon1.__anon1.declarators = initDeclarators, decl->__anon1.__anon1.specifiers = specifiers, decl->loc = yylloc, decl); unsigned int variable = 1; if(specifiers != (((void *)0))) { unsigned int gotType = 0; struct Specifier * spec, * next; for(spec = specifiers->first; spec; spec = next) { next = spec->next; if(spec->type == 0 && spec->__anon1.specifier == TYPEDEF) { if(initDeclarators != (((void *)0))) { struct InitDeclarator * d; for(d = initDeclarators->first; d; d = d->next) { if(GetDeclId(d->declarator)->string) { struct Symbol * type = (type = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Symbol), type->string = __ecereNameSpace__ecere__sys__CopyString(GetDeclId(d->declarator)->string), type->type = ProcessType(specifiers, d->declarator), type); if(!__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_Add(&(curContext->templateTypesOnly ? curContext->parent : curContext)->types, (struct __ecereNameSpace__ecere__sys__BTNode *)type)) __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add((&*excludedSymbols), type); decl->symbol = d->declarator->symbol = type; } } } else if(spec->next) { spec = specifiers->last; { if((spec->type == 1 && spec->__anon1.__anon1.name) || spec->type == 0) { const char * s = (((void *)0)); if(spec->type == 1) { const char * colon = __ecereNameSpace__ecere__sys__RSearchString(spec->__anon1.__anon1.name, "::", strlen(spec->__anon1.__anon1.name), 1, 0); s = colon ? colon + 2 : spec->__anon1.__anon1.name; } else if(spec->type == 0) { if(spec->__anon1.specifier == INT64) s = "int64"; else if(spec->__anon1.specifier == INT128) s = "__int128"; } if(s) { struct Symbol * type = (type = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Symbol), type->string = __ecereNameSpace__ecere__sys__CopyString(s), type->type = ProcessType(specifiers, (((void *)0))), type); decl->symbol = type; decl->__anon1.__anon1.declarators = initDeclarators = MkListOne(MkInitDeclarator(MkDeclaratorIdentifier(MkIdentifier(s)), (((void *)0)))); __ecereMethod___ecereNameSpace__ecere__sys__OldList_Remove(specifiers, spec); FreeSpecifier(spec); if(!__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_Add(&(curContext->templateTypesOnly ? curContext->parent : curContext)->types, (struct __ecereNameSpace__ecere__sys__BTNode *)type)) __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add((&*excludedSymbols), type); } } } } variable = 0; break; } else if(spec->type == 0 && (spec->__anon1.specifier == STRUCT || spec->__anon1.specifier == UNION)) variable = 0; else { if(gotType && initDeclarators == (((void *)0)) && !spec->next && ((spec->type == 1 && spec->__anon1.__anon1.name) || spec->type == 0)) { const char * s = (((void *)0)); if(spec->type == 1) { char * colon = __ecereNameSpace__ecere__sys__RSearchString(spec->__anon1.__anon1.name, "::", strlen(spec->__anon1.__anon1.name), 1, 0); s = colon ? colon + 2 : spec->__anon1.__anon1.name; } else if(spec->type == 0) { if(spec->__anon1.specifier == INT64) s = "int64"; else if(spec->__anon1.specifier == INT128) s = "__int128"; } if(s) { decl->__anon1.__anon1.declarators = initDeclarators = MkListOne(MkInitDeclarator(MkDeclaratorIdentifier(MkIdentifier(s)), (((void *)0)))); __ecereMethod___ecereNameSpace__ecere__sys__OldList_Remove(specifiers, spec); FreeSpecifier(spec); spec = (((void *)0)); } } } if(spec && spec->type != 5) gotType = 1; } } if(variable && initDeclarators) { struct InitDeclarator * d; for(d = initDeclarators->first; d; d = d->next) { struct Identifier * id = GetDeclId(d->declarator); if(id && id->string && id->string[0]) { if(curContext) { struct Symbol * symbol; if(curContext == globalContext && (currentNameSpace || defaultNameSpace) && declMode != 0 && defaultDeclMode != 0) { char name[1024]; int len = 0, stringLen; if(defaultNameSpace) { memcpy(name, defaultNameSpace, defaultNameSpaceLen); len += defaultNameSpaceLen; name[len++] = ':'; name[len++] = ':'; } if(currentNameSpace) { memcpy(name + len, currentNameSpace, currentNameSpaceLen); len += currentNameSpaceLen; name[len++] = ':'; name[len++] = ':'; } stringLen = strlen(id->string); memcpy(name + len, id->string, stringLen); len += stringLen; name[len] = 0; (__ecereNameSpace__ecere__com__eSystem_Delete(id->string), id->string = 0); id->string = __ecereNameSpace__ecere__sys__CopyString(name); } symbol = (struct Symbol *)__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_FindString(&(curContext->templateTypesOnly ? curContext->parent : curContext)->symbols, id->string); if(!symbol && strcmp(id->string, "strlen")) { symbol = __extension__ ({ struct Symbol * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Symbol); __ecereInstance1->string = __ecereNameSpace__ecere__sys__CopyString(id->string), __ecereInstance1->type = ProcessType(specifiers, d->declarator), __ecereInstance1; }); if(strstr(symbol->string, "::")) curContext->hasNameSpace = 1; if(!__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_Add(&(curContext->templateTypesOnly ? curContext->parent : curContext)->symbols, (struct __ecereNameSpace__ecere__sys__BTNode *)symbol)) __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add((&*excludedSymbols), symbol); if(symbol->type && symbol->type->kind == 12 && !symbol->type->__anon1.__anon4.arraySizeExp && d->initializer) { if(d->initializer->type == 1) { char string[256]; sprintf(string, "%d", (*d->initializer->__anon1.list).count); symbol->type->__anon1.__anon4.arraySizeExp = MkExpConstant(string); symbol->type->__anon1.__anon4.freeExp = 1; } else if(d->initializer->type == 0 && d->initializer->__anon1.exp->type == 3 && d->initializer->__anon1.exp->__anon1.__anon2.string) { char string[256]; int c, count = 0; char ch; unsigned int escaped = 0; char * s = d->initializer->__anon1.exp->__anon1.__anon2.string; if(s[0] == 'L') s++; for(c = 1; (ch = s[c]); c++) { if(ch == '\\' && !escaped) escaped = 1; else { count++; escaped = 0; } } sprintf(string, "%d", count); symbol->type->__anon1.__anon4.arraySizeExp = MkExpConstant(string); symbol->type->__anon1.__anon4.freeExp = 1; } } } decl->symbol = d->declarator->symbol = symbol; } } } } else { decl->symbol = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Symbol); __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add((&*excludedSymbols), decl->symbol); } return decl; } struct Declaration * MkStructDeclaration(struct __ecereNameSpace__ecere__sys__OldList * specifiers, struct __ecereNameSpace__ecere__sys__OldList * declarators, struct Specifier * extStorage) { struct Declaration * decl = (decl = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Declaration), decl->type = 0, decl->__anon1.__anon1.declarators = declarators, decl->__anon1.__anon1.specifiers = specifiers, decl->extStorage = extStorage, decl->loc = yylloc, decl); if(specifiers != (((void *)0))) { unsigned int gotType = 0; struct Specifier * spec, * next; for(spec = specifiers->first; spec; spec = next) { next = spec->next; if(gotType && declarators == (((void *)0)) && ((spec->type == 1 && spec->__anon1.__anon1.name) || spec->type == 0)) { const char * s = (((void *)0)); if(spec->type == 1) { const char * colon = __ecereNameSpace__ecere__sys__RSearchString(spec->__anon1.__anon1.name, "::", strlen(spec->__anon1.__anon1.name), 1, 0); s = colon ? colon + 2 : spec->__anon1.__anon1.name; } else if(spec->type == 0) { if(spec->__anon1.specifier == INT64) s = "int64"; else if(spec->__anon1.specifier == INT128) s = "__int128"; } if(s) { decl->__anon1.__anon1.declarators = declarators = MkListOne(MkStructDeclarator(MkDeclaratorIdentifier(MkIdentifier(s)), (((void *)0)))); __ecereMethod___ecereNameSpace__ecere__sys__OldList_Remove(specifiers, spec); FreeSpecifier(spec); spec = (((void *)0)); } } if(spec && spec->type != 5) gotType = 1; } } return decl; } struct Declaration * MkDeclarationClassInst(struct Instantiation * inst) { return __extension__ ({ struct Declaration * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Declaration); __ecereInstance1->type = 2, __ecereInstance1->__anon1.inst = inst, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Declaration * MkDeclarationDefine(struct Identifier * id, struct Expression * exp) { struct Declaration * decl = (decl = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Declaration), decl->type = 3, decl->__anon1.__anon2.id = id, decl->__anon1.__anon2.exp = exp, decl->loc = yylloc, decl); char expString[1024]; expString[0] = '\0'; PrintExpression(exp, expString); if(curContext == globalContext && (currentNameSpace || defaultNameSpace) && declMode != 0 && defaultDeclMode != 0) { char name[1024]; int len = 0, stringLen; if(defaultNameSpace) { memcpy(name, defaultNameSpace, defaultNameSpaceLen); len += defaultNameSpaceLen; name[len++] = ':'; name[len++] = ':'; } if(currentNameSpace) { memcpy(name + len, currentNameSpace, currentNameSpaceLen); len += currentNameSpaceLen; name[len++] = ':'; name[len++] = ':'; } stringLen = strlen(id->string); memcpy(name + len, id->string, stringLen); len += stringLen; name[len] = 0; (__ecereNameSpace__ecere__com__eSystem_Delete(id->string), id->string = 0); id->string = __ecereNameSpace__ecere__sys__CopyString(name); } if(!__ecereNameSpace__ecere__com__eSystem_FindDefine(privateModule, id->string)) __ecereNameSpace__ecere__com__eSystem_RegisterDefine(id->string, expString, privateModule, buildingECERECOMModule ? 4 : 1); else Compiler_Warning(__ecereNameSpace__ecere__GetTranslatedString("ec", "Redefinition of %s ignored\n", (((void *)0))), id->string); return decl; } struct Statement * MkLabeledStmt(struct Identifier * id, struct Statement * statement) { return __extension__ ({ struct Statement * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Statement); __ecereInstance1->type = 0, __ecereInstance1->__anon1.labeled.id = id, __ecereInstance1->__anon1.labeled.stmt = statement, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Statement * MkCaseStmt(struct Expression * exp, struct Statement * statement) { return __extension__ ({ struct Statement * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Statement); __ecereInstance1->type = 1, __ecereInstance1->__anon1.caseStmt.exp = exp, __ecereInstance1->__anon1.caseStmt.stmt = statement, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Statement * MkIfStmt(struct __ecereNameSpace__ecere__sys__OldList * exp, struct Statement * statement, struct Statement * elseStmt) { return __extension__ ({ struct Statement * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Statement); __ecereInstance1->type = 4, __ecereInstance1->__anon1.ifStmt.exp = exp, __ecereInstance1->__anon1.ifStmt.stmt = statement, __ecereInstance1->__anon1.ifStmt.elseStmt = elseStmt, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Statement * MkSwitchStmt(struct __ecereNameSpace__ecere__sys__OldList * exp, struct Statement * statement) { if(statement) statement->__anon1.compound.isSwitch = 1; return __extension__ ({ struct Statement * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Statement); __ecereInstance1->type = 5, __ecereInstance1->__anon1.switchStmt.exp = exp, __ecereInstance1->__anon1.switchStmt.stmt = statement, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Statement * MkWhileStmt(struct __ecereNameSpace__ecere__sys__OldList * exp, struct Statement * statement) { return __extension__ ({ struct Statement * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Statement); __ecereInstance1->type = 6, __ecereInstance1->__anon1.whileStmt.exp = exp, __ecereInstance1->__anon1.whileStmt.stmt = statement, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Statement * MkDoWhileStmt(struct Statement * statement, struct __ecereNameSpace__ecere__sys__OldList * exp) { return __extension__ ({ struct Statement * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Statement); __ecereInstance1->type = 7, __ecereInstance1->__anon1.doWhile.exp = exp, __ecereInstance1->__anon1.doWhile.stmt = statement, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Statement * MkForStmt(struct Statement * init, struct Statement * check, struct __ecereNameSpace__ecere__sys__OldList * inc, struct Statement * statement) { return __extension__ ({ struct Statement * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Statement); __ecereInstance1->type = 8, __ecereInstance1->__anon1.forStmt.init = init, __ecereInstance1->__anon1.forStmt.check = check, __ecereInstance1->__anon1.forStmt.increment = inc, __ecereInstance1->__anon1.forStmt.stmt = statement, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Statement * MkForEachStmt(struct Identifier * id, struct __ecereNameSpace__ecere__sys__OldList * exp, struct __ecereNameSpace__ecere__sys__OldList * filter, struct Statement * statement) { return __extension__ ({ struct Statement * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Statement); __ecereInstance1->type = 18, __ecereInstance1->__anon1.forEachStmt.id = id, __ecereInstance1->__anon1.forEachStmt.exp = exp, __ecereInstance1->__anon1.forEachStmt.filter = filter, __ecereInstance1->__anon1.forEachStmt.stmt = statement, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } void ProcessFunctionBody(struct FunctionDefinition * func, struct Statement * body) { struct Declarator * declarator = func->declarator; struct Declarator * funcDecl = GetFuncDecl(declarator); struct Symbol * symbol; func->body = body; if(funcDecl && funcDecl->__anon1.function.parameters && body) { struct Context * context = body->__anon1.compound.context; struct TypeName * param; for(param = (*funcDecl->__anon1.function.parameters).first; param; param = param->next) { if(param->declarator) { struct Symbol * symbol = (((void *)0)); struct Identifier * id = GetDeclId(param->declarator); char * string = id ? id->string : (((void *)0)); if(string) { for(symbol = (struct Symbol *)__ecereProp___ecereNameSpace__ecere__sys__BinaryTree_Get_first(&context->symbols); symbol; symbol = (struct Symbol *)__ecereProp___ecereNameSpace__ecere__sys__BTNode_Get_next(((struct __ecereNameSpace__ecere__sys__BTNode *)symbol))) if(!strcmp(symbol->string, string)) break; if(!symbol && id) { symbol = __extension__ ({ struct Symbol * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Symbol); __ecereInstance1->string = __ecereNameSpace__ecere__sys__CopyString(id->string), __ecereInstance1->type = ProcessType(param->qualifiers, param->declarator), __ecereInstance1->isParam = 1, __ecereInstance1; }); if(!__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_Add(&context->symbols, (struct __ecereNameSpace__ecere__sys__BTNode *)symbol)) __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add((&*excludedSymbols), symbol); param->declarator->symbol = symbol; } } } } } if(!declarator->symbol) { struct Identifier * id = GetDeclId(declarator); if((currentNameSpace || defaultNameSpace) && declMode != 0 && defaultDeclMode != 0 && strcmp(id->string, "__on_register_module")) { char name[1024]; int len = 0, stringLen; if(defaultNameSpace) { memcpy(name, defaultNameSpace, defaultNameSpaceLen); len += defaultNameSpaceLen; name[len++] = ':'; name[len++] = ':'; } if(currentNameSpace) { memcpy(name + len, currentNameSpace, currentNameSpaceLen); len += currentNameSpaceLen; name[len++] = ':'; name[len++] = ':'; } stringLen = strlen(id->string); memcpy(name + len, id->string, stringLen); len += stringLen; name[len] = 0; (__ecereNameSpace__ecere__com__eSystem_Delete(id->string), id->string = 0); id->string = __ecereNameSpace__ecere__sys__CopyString(name); } symbol = __extension__ ({ struct Symbol * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Symbol); __ecereInstance1->string = __ecereNameSpace__ecere__sys__CopyString(id->string), __ecereInstance1->type = ProcessType(func->specifiers, declarator), __ecereInstance1; }); if(strstr(symbol->string, "::")) globalContext->hasNameSpace = 1; if(!__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_Add(&globalContext->symbols, (struct __ecereNameSpace__ecere__sys__BTNode *)symbol)) __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add((&*excludedSymbols), symbol); declarator->symbol = symbol; } else { symbol = declarator->symbol; __ecereMethod___ecereNameSpace__ecere__sys__OldList_Remove((&*excludedSymbols), declarator->symbol); (__ecereNameSpace__ecere__com__eSystem_Delete(symbol->string), symbol->string = 0); symbol->string = __ecereNameSpace__ecere__sys__CopyString(GetDeclId(declarator)->string); if(strstr(symbol->string, "::")) globalContext->hasNameSpace = 1; if(!__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_Add(&globalContext->symbols, (struct __ecereNameSpace__ecere__sys__BTNode *)symbol)) __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add((&*excludedSymbols), symbol); if(!symbol->type) symbol->type = ProcessType(func->specifiers, declarator); } if(symbol->type && (symbol->type->kind == 11 || symbol->type->kind == 16)) { if(!symbol->type->__anon1.__anon2.params.count) { struct Type * type = (type = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Type), type->refCount = 1, type); __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add(&symbol->type->__anon1.__anon2.params, type); } } else { } } void ProcessClassFunctionBody(struct ClassFunction * func, struct Statement * body) { struct Symbol * symbol; struct Declarator * decl = func->declarator; struct Declarator * funcDecl = GetFuncDecl(func->declarator); func->body = body; if(decl && !decl->symbol) { struct __ecereNameSpace__ecere__sys__OldList * symbolSpecs = MkList(); if(funcDecl && funcDecl->__anon1.function.parameters && body) { struct Context * context = body->__anon1.compound.context; struct TypeName * param; for(param = (*funcDecl->__anon1.function.parameters).first; param; param = param->next) { if(param->declarator) { struct Symbol * symbol = (((void *)0)); struct Identifier * id = GetDeclId(param->declarator); char * string = id ? id->string : (((void *)0)); if(string) { symbol = (struct Symbol *)__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_FindString(&context->symbols, string); } if(!symbol && id) { symbol = __extension__ ({ struct Symbol * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Symbol); __ecereInstance1->string = __ecereNameSpace__ecere__sys__CopyString(id->string), __ecereInstance1->type = ProcessType(param->qualifiers, param->declarator), __ecereInstance1->isParam = 1, __ecereInstance1; }); if(!__ecereMethod___ecereNameSpace__ecere__sys__BinaryTree_Add(&context->symbols, (struct __ecereNameSpace__ecere__sys__BTNode *)symbol)) __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add((&*excludedSymbols), symbol); param->declarator->symbol = symbol; } } } } symbol = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Symbol); { struct Identifier * id = GetDeclId(funcDecl); if(id) { int c; for(c = strlen(id->string) - 1; c >= 0; c--) { if(id->string[c] == ':') { char * string = __ecereNameSpace__ecere__sys__CopyString(id->string + c + 1); id->string[c - 1] = 0; id->_class = MkSpecifierName(id->string); (__ecereNameSpace__ecere__com__eSystem_Delete(id->string), id->string = 0); id->string = string; break; } } symbol->string = __ecereNameSpace__ecere__sys__CopyString(id->string); } } if(func->specifiers) { struct Specifier * spec; for(spec = (*func->specifiers).first; spec; spec = spec->next) __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add((&*symbolSpecs), CopySpecifier(spec)); } symbol->type = ProcessType(symbolSpecs, decl); decl->symbol = symbol; __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add((&*excludedSymbols), symbol); FreeList(symbolSpecs, (void *)(FreeSpecifier)); } } struct Statement * MkCompoundStmt(struct __ecereNameSpace__ecere__sys__OldList * declarations, struct __ecereNameSpace__ecere__sys__OldList * statements) { return __extension__ ({ struct Statement * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Statement); __ecereInstance1->type = 2, __ecereInstance1->__anon1.compound.declarations = declarations, __ecereInstance1->__anon1.compound.statements = statements, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Statement * MkExpressionStmt(struct __ecereNameSpace__ecere__sys__OldList * expressions) { return __extension__ ({ struct Statement * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Statement); __ecereInstance1->type = 3, __ecereInstance1->__anon1.expressions = expressions, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Statement * MkBadDeclStmt(struct Declaration * decl) { return __extension__ ({ struct Statement * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Statement); __ecereInstance1->type = 14, __ecereInstance1->__anon1.decl = decl, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Statement * MkGotoStmt(struct Identifier * id) { return __extension__ ({ struct Statement * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Statement); __ecereInstance1->type = 9, __ecereInstance1->__anon1.gotoStmt.id = id, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Statement * MkContinueStmt() { return __extension__ ({ struct Statement * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Statement); __ecereInstance1->type = 10, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Statement * MkBreakStmt() { return __extension__ ({ struct Statement * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Statement); __ecereInstance1->type = 11, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Statement * MkReturnStmt(struct __ecereNameSpace__ecere__sys__OldList * exp) { return __extension__ ({ struct Statement * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Statement); __ecereInstance1->type = 12, __ecereInstance1->__anon1.expressions = exp, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct Statement * MkAsmStmt(struct Specifier * spec, char * statements, struct __ecereNameSpace__ecere__sys__OldList * inputFields, struct __ecereNameSpace__ecere__sys__OldList * outputFields, struct __ecereNameSpace__ecere__sys__OldList * clobberedFields) { return __extension__ ({ struct Statement * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Statement); __ecereInstance1->type = 13, __ecereInstance1->__anon1.asmStmt.spec = spec, __ecereInstance1->__anon1.asmStmt.statements = statements, __ecereInstance1->__anon1.asmStmt.inputFields = inputFields, __ecereInstance1->__anon1.asmStmt.outputFields = outputFields, __ecereInstance1->__anon1.asmStmt.clobberedFields = clobberedFields, __ecereInstance1; }); } struct Statement * MkFireWatchersStmt(struct Expression * object, struct __ecereNameSpace__ecere__sys__OldList * watches) { return __extension__ ({ struct Statement * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Statement); __ecereInstance1->type = 15, __ecereInstance1->__anon1._watch.object = object, __ecereInstance1->__anon1._watch.watches = watches, __ecereInstance1; }); } struct Statement * MkStopWatchingStmt(struct Expression * watcher, struct Expression * object, struct __ecereNameSpace__ecere__sys__OldList * watches) { return __extension__ ({ struct Statement * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Statement); __ecereInstance1->type = 16, __ecereInstance1->__anon1._watch.watcher = watcher, __ecereInstance1->__anon1._watch.object = object, __ecereInstance1->__anon1._watch.watches = watches, __ecereInstance1; }); } struct Statement * MkWatchStmt(struct Expression * watcher, struct Expression * object, struct __ecereNameSpace__ecere__sys__OldList * watches) { return __extension__ ({ struct Statement * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Statement); __ecereInstance1->type = 17, __ecereInstance1->__anon1._watch.watcher = watcher, __ecereInstance1->__anon1._watch.object = object, __ecereInstance1->__anon1._watch.watches = watches, __ecereInstance1; }); } struct External * MkExternalFunction(struct FunctionDefinition * function) { struct External * external = (external = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_External), external->type = 0, external->__anon1.function = function, external->symbol = function->declarator->symbol, external); if(function->specifiers) { struct Specifier * spec; for(spec = (*function->specifiers).first; spec; spec = spec->next) if(spec->type == 0 && spec->__anon1.specifier == STATIC) { structDeclMode = declMode = 3; break; } } if(external->symbol && !external->symbol->__anon2.__anon3.methodExternal) external->symbol->__anon2.__anon3.methodExternal = external; return external; } struct External * MkExternalImport(char * name, int importType, int importAccess) { struct External * external = (external = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_External), external->type = 3, external); int len = strlen(name) - 2; external->__anon1.importString = __ecereNameSpace__ecere__com__eSystem_New(sizeof(char) * (len + 1)); strncpy(external->__anon1.importString, name + 1, len); external->__anon1.importString[len] = '\0'; (__ecereNameSpace__ecere__com__eSystem_Delete(name), name = 0); { ImportModule(external->__anon1.importString, importType, importAccess, 1); ImportModule(external->__anon1.importString, importType, importAccess, 0); } return external; } struct ClassDefinition * MkClass(struct Symbol * symbol, struct __ecereNameSpace__ecere__sys__OldList * baseSpecs, struct __ecereNameSpace__ecere__sys__OldList * definitions) { struct ClassDefinition * classDef; SetupBaseSpecs(symbol, baseSpecs); if(symbol->ctx) { struct ClassDefinition * classDef = symbol->ctx->classDef; if(classDef) { struct External * external; for(external = (*ast).first; external; external = external->next) { if(external->type == 2 && external->__anon1._class == classDef) { __ecereMethod___ecereNameSpace__ecere__sys__OldList_Remove((&*ast), external); FreeExternal(external); break; } } } FreeContext(symbol->ctx); ((symbol->ctx ? __extension__ ({ void * __ecerePtrToDelete = (symbol->ctx); __ecereClass_Context->Destructor ? __ecereClass_Context->Destructor((void *)__ecerePtrToDelete) : 0, __ecereNameSpace__ecere__com__eSystem_Delete(__ecerePtrToDelete); }) : 0), symbol->ctx = 0); } symbol->ctx = curContext; classDef = __extension__ ({ struct ClassDefinition * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_ClassDefinition); __ecereInstance1->symbol = symbol, __ecereInstance1->_class = MkSpecifierName(symbol->string), __ecereInstance1->baseSpecs = baseSpecs, __ecereInstance1->definitions = definitions, __ecereInstance1->nameLoc = symbol->nameLoc, __ecereInstance1; }); curContext->classDef = classDef; return classDef; } struct Expression * GetTemplateArgExpByName(const char * paramName, struct __ecereNameSpace__ecere__com__Class * thisClassFrom, struct __ecereNameSpace__ecere__com__Class * curClass, int tplType) { struct Expression * argExp = (((void *)0)); struct __ecereNameSpace__ecere__com__Class * instanceClass = ((curExternal && curExternal->type == 0 && curExternal->__anon1.function) ? curExternal->__anon1.function->_class : (((void *)0))); struct __ecereNameSpace__ecere__com__Class * _class = curClass ? curClass : instanceClass; if(thisClassFrom && instanceClass && thisClassFrom != instanceClass && strcmp(thisClassFrom->name, "class")) Compiler_Error(__ecereNameSpace__ecere__GetTranslatedString("ec", "unresolved template type (%s)\n", (((void *)0))), paramName); if(_class) { int id = 0; struct __ecereNameSpace__ecere__com__ClassTemplateParameter * curParam; struct __ecereNameSpace__ecere__com__Class * sClass; if(_class->templateClass) _class = _class->templateClass; for(sClass = _class; sClass; sClass = sClass->base) { id = 0; for(curParam = sClass->templateParams.first; curParam; curParam = curParam->next) { if(!strcmp(curParam->name, paramName)) { for(sClass = sClass->base; sClass; sClass = sClass->base) id += sClass->templateParams.count; break; } id++; } if(curParam) break; } if(curParam && curParam->type != tplType) curParam = (((void *)0)); if(curParam) { char idString[32]; char className[1024]; sprintf(idString, "%d", id); strcpy(className, "__ecereClass_"); FullClassNameCat(className, _class->fullName, 1); DeclareClass(curExternal, FindClass(_class->fullName), className); argExp = MkExpIndex((MkExpMember)(MkExpMember(MkExpIdentifier(MkIdentifier("this")), MkIdentifier("_class")), MkIdentifier("templateArgs")), MkListOne(MkExpConstant(idString))); } } return argExp; } struct External * MkExternalDeclaration(struct Declaration * declaration) { struct External * external = (external = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_External), external->type = 1, external->__anon1.declaration = declaration, external->symbol = declaration ? declaration->symbol : (((void *)0)), external); if(declaration && declaration->type == 1 && declaration->__anon1.__anon1.specifiers) { struct Specifier * spec; for(spec = (*declaration->__anon1.__anon1.specifiers).first; spec; spec = spec->next) if(spec->type == 0 && spec->__anon1.specifier == TYPEDEF) { structDeclMode = declMode = 0; break; } else if(spec->type == 0 && spec->__anon1.specifier == STATIC) { structDeclMode = declMode = 3; break; } } if(declaration && declaration->symbol && !declaration->symbol->__anon2.__anon3.methodExternal) declaration->symbol->__anon2.__anon3.methodExternal = external; return external; } struct External * MkExternalNameSpace(struct Identifier * identifier) { struct External * external = (external = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_External), external->type = 4, external->__anon1.id = identifier, external); currentNameSpace = identifier ? identifier->string : (((void *)0)); currentNameSpaceLen = currentNameSpace ? strlen(currentNameSpace) : 0; return external; } struct External * MkExternalClass(struct ClassDefinition * _class) { return __extension__ ({ struct External * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_External); __ecereInstance1->type = 2, __ecereInstance1->__anon1._class = _class, __ecereInstance1->symbol = _class->symbol, __ecereInstance1; }); } struct External * MkExternalDBTable(struct DBTableDef * table) { return __extension__ ({ struct External * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_External); __ecereInstance1->type = 5, __ecereInstance1->__anon1.table = table, __ecereInstance1; }); } struct PropertyDef; typedef union YYSTYPE { int specifierType; int i; int declMode; struct Identifier * id; struct Expression * exp; struct Specifier * specifier; struct __ecereNameSpace__ecere__sys__OldList * list; struct Enumerator * enumerator; struct Declarator * declarator; struct Pointer * pointer; struct Initializer * initializer; struct InitDeclarator * initDeclarator; struct TypeName * typeName; struct Declaration * declaration; struct Statement * stmt; struct FunctionDefinition * function; struct External * external; struct Context * context; struct AsmField * asmField; struct Attrib * attrib; struct ExtDecl * extDecl; struct Attribute * attribute; struct Instantiation * instance; struct MembersInit * membersInit; struct MemberInit * memberInit; struct ClassFunction * classFunction; struct ClassDefinition * _class; struct ClassDef * classDef; struct PropertyDef * prop; char * string; struct Symbol * symbol; struct PropertyWatch * propertyWatch; struct TemplateParameter * templateParameter; struct TemplateArgument * templateArgument; struct TemplateDatatype * templateDatatype; struct DBTableEntry * dbtableEntry; struct DBIndexItem * dbindexItem; struct DBTableDef * dbtableDef; } ecere_gcc_struct YYSTYPE; extern YYSTYPE yylval; struct ClassDef { struct ClassDef * prev; struct ClassDef * next; struct Location loc; int type; union { struct Declaration * decl; struct ClassFunction * function; struct __ecereNameSpace__ecere__sys__OldList * defProperties; struct PropertyDef * propertyDef; struct PropertyWatch * propertyWatch; char * designer; struct Identifier * defaultProperty; struct { struct Identifier * id; struct Initializer * initializer; } ecere_gcc_struct __anon1; } ecere_gcc_struct __anon1; int memberAccess; void * object; } ecere_gcc_struct; struct PropertyDef { struct PropertyDef * prev; struct PropertyDef * next; struct Location loc; struct __ecereNameSpace__ecere__sys__OldList * specifiers; struct Declarator * declarator; struct Identifier * id; struct Statement * getStmt; struct Statement * setStmt; struct Statement * issetStmt; struct Symbol * symbol; struct Expression * category; struct { unsigned int conversion : 1; unsigned int isWatchable : 1; unsigned int isDBProp : 1; } ecere_gcc_struct __anon1; } ecere_gcc_struct; struct ClassDef * MkClassDefFunction(struct ClassFunction * function) { struct ClassDef * def = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_ClassDef); if(function && function->declarator) { struct Declarator * funcDecl = GetFuncDecl(function->declarator); if(funcDecl && funcDecl->declarator && funcDecl->declarator->type == 2) { def->type = 2; def->__anon1.decl = MkStructDeclaration(function->specifiers, MkListOne(MkStructDeclarator(function->declarator, (((void *)0)))), (((void *)0))); function->declarator = (((void *)0)); function->specifiers = (((void *)0)); FreeClassFunction(function); return def; } } def->type = 0; def->__anon1.function = function; return def; } static struct Type * ProcessTypeSpecs(struct __ecereNameSpace__ecere__sys__OldList * specs, unsigned int assumeEllipsis, unsigned int keepTypeName) { struct Type * specType = (specType = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Type), specType->refCount = 1, specType->kind = 3, specType->isSigned = 1, specType); if(specs != (((void *)0))) { unsigned int isTypedef = 0; struct Specifier * spec; unsigned int isLong = 0; for(spec = specs->first; spec; spec = spec->next) { if(spec->type == 5) { struct ExtDecl * extDecl = spec->__anon1.__anon1.extDecl; if(extDecl->type == 0) { if(!strcmp(spec->__anon1.__anon1.extDecl->__anon1.s, "__declspec(dllexport)") || !strcmp(spec->__anon1.__anon1.extDecl->__anon1.s, "dllexport")) specType->dllExport = 1; else if(!strcmp(spec->__anon1.__anon1.extDecl->__anon1.s, "__declspec(stdcall)") || !strcmp(spec->__anon1.__anon1.extDecl->__anon1.s, "stdcall")) specType->attrStdcall = 1; } else if(extDecl->type == 1) { struct __ecereNameSpace__ecere__sys__OldList * attribs = extDecl->__anon1.attr->attribs; if(attribs) { struct Attribute * attr; for(attr = (*attribs).first; attr; attr = attr->next) { char * s = attr->attr; if(s) { if(!strcmp(s, "dllexport")) specType->dllExport = 1; else if(!strcmp(s, "stdcall")) specType->attrStdcall = 1; else if(!strcmp(s, "__vector_size__")) specType->isVector = 1; } } } specType->keepCast = 1; } } if(spec->__anon1.specifier != CONST && (specType->kind == 9 || specType->kind == 10)) { FreeType(specType); specType = __extension__ ({ struct Type * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Type); __ecereInstance1->kind = 3, __ecereInstance1->isSigned = 1, __ecereInstance1->refCount = 1, __ecereInstance1; }); } if(isTypedef && keepTypeName) { specType->kind = 18; return specType; } else if(spec->type == 0) { if(spec->__anon1.specifier == TYPEDEF) isTypedef = 1; else if(spec->__anon1.specifier == VOID) specType->kind = 0; else if(spec->__anon1.specifier == CHAR) specType->kind = 1; else if(spec->__anon1.specifier == INT) { if(specType->kind != 2 && specType->kind != 5 && !isLong) specType->kind = 3; } else if(spec->__anon1.specifier == _BOOL || spec->__anon1.specifier == BOOL) specType->kind = 24; else if(spec->__anon1.specifier == UINT) { if(specType->kind != 2 && specType->kind != 5) specType->kind = 3; specType->isSigned = 0; } else if(spec->__anon1.specifier == INT64) specType->kind = 4; else if(spec->__anon1.specifier == INT128) specType->kind = 25; else if(spec->__anon1.specifier == VALIST) specType->kind = 17; else if(spec->__anon1.specifier == SHORT) specType->kind = 2; else if(spec->__anon1.specifier == LONG) { if(isLong || (targetBits == 64 && targetPlatform != 1)) specType->kind = 4; else specType->kind = 3; specType->isLong = 1; isLong = 1; } else if(spec->__anon1.specifier == FLOAT) specType->kind = 6; else if(spec->__anon1.specifier == DOUBLE) specType->kind = 7; else if(spec->__anon1.specifier == SIGNED) specType->isSigned = 1; else if(spec->__anon1.specifier == UNSIGNED) specType->isSigned = 0; else if(spec->__anon1.specifier == CONST) specType->constant = 1; else if(spec->__anon1.specifier == TYPED_OBJECT || spec->__anon1.specifier == ANY_OBJECT || spec->__anon1.specifier == CLASS) { switch(spec->__anon1.specifier) { case TYPED_OBJECT: specType->classObjectType = 2; break; case ANY_OBJECT: specType->classObjectType = 3; break; case CLASS: specType->classObjectType = 1; break; } specType->kind = 8; specType->__anon1._class = FindClass("class"); } else if(spec->__anon1.specifier == THISCLASS) specType->kind = 21; } else if(spec->type == 1) { if(spec->__anon1.__anon1.name && (!strcmp(spec->__anon1.__anon1.name, "intptr") || !strcmp(spec->__anon1.__anon1.name, "uintptr"))) { specType->kind = 22; if(!strcmp(spec->__anon1.__anon1.name, "uintptr")) specType->isSigned = 0; } else if(spec->__anon1.__anon1.name && (!strcmp(spec->__anon1.__anon1.name, "uintsize") || !strcmp(spec->__anon1.__anon1.name, "intsize"))) { specType->kind = 23; if(!strcmp(spec->__anon1.__anon1.name, "uintsize")) specType->isSigned = 0; } else { struct Symbol * symbol = spec->__anon1.__anon1.name ? FindType(curContext, spec->__anon1.__anon1.name) : (((void *)0)); if(symbol && symbol->type) { unsigned int isConstant = specType->constant; struct Type * dummy = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Type); *dummy = *specType; FreeType(dummy); CopyTypeInto(specType, symbol->type); specType->constant = isConstant; (__ecereNameSpace__ecere__com__eSystem_Delete(specType->typeName), specType->typeName = 0); specType->typeName = __ecereNameSpace__ecere__sys__CopyString(symbol->type->name); } else if(!isTypedef) { specType->__anon1._class = spec->__anon1.__anon1.name ? FindClass(spec->__anon1.__anon1.name) : (((void *)0)); specType->kind = 8; if(!specType->__anon1._class) specType->kind = 3; } } } else if(spec->type == 2) { specType->kind = 15; specType->__anon1.__anon1.enumName = spec->__anon1.__anon2.id ? __ecereNameSpace__ecere__sys__CopyString(spec->__anon1.__anon2.id->string) : (((void *)0)); if(spec->__anon1.__anon2.list) { struct Enumerator * e; for(e = (*spec->__anon1.__anon2.list).first; e; e = e->next) { struct __ecereNameSpace__ecere__sys__NamedLink64 * i = (i = __ecereNameSpace__ecere__com__eSystem_New0(sizeof(struct __ecereNameSpace__ecere__sys__NamedLink64)), i->name = __ecereNameSpace__ecere__sys__CopyString(e->id->string), i); if(e->exp && e->exp->type == 2 && e->exp->__anon1.__anon1.constant) i->data = strtoll(e->exp->__anon1.__anon1.constant, (((void *)0)), 0); __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add(&specType->__anon1.__anon1.members, i); } } } else if(spec->type == 8) { specType->kind = 20; specType->__anon1.templateParameter = spec->__anon1.templateParameter; } else if(spec->type == 3 || spec->type == 4) { struct Symbol * _class = spec->__anon1.__anon2.id ? FindClass(spec->__anon1.__anon2.id->string) : (((void *)0)); if(_class) { specType->declaredWithStruct = 1; if(!_class->__anon1.registered || _class->__anon1.registered->type != 1) specType->directClassAccess = 1; specType->__anon1._class = _class; specType->kind = 8; break; } __ecereMethod___ecereNameSpace__ecere__sys__OldList_Clear(&specType->__anon1.__anon1.members); if(spec->type == 3) specType->kind = 9; else if(spec->type == 4) specType->kind = 10; if(spec->__anon1.__anon2.id) { if(!spec->__anon1.__anon2.definitions && !isTypedef) { struct Symbol * symbol = spec->__anon1.__anon2.id->string ? FindSymbol(spec->__anon1.__anon2.id->string, curContext, globalContext, 1, 0) : (((void *)0)); if(symbol && symbol->type) { *specType = *symbol->type; specType->name = __ecereNameSpace__ecere__sys__CopyString(symbol->type->name); specType->typeName = __ecereNameSpace__ecere__sys__CopyString(spec->__anon1.__anon1.name); specType->__anon1.__anon1.enumName = __ecereNameSpace__ecere__sys__CopyString(symbol->type->__anon1.__anon1.enumName); specType->refCount = 1; if(symbol->type->kind == 15) { struct __ecereNameSpace__ecere__sys__NamedLink64 * member; __ecereMethod___ecereNameSpace__ecere__sys__OldList_Clear(&specType->__anon1.__anon1.members); for(member = symbol->type->__anon1.__anon1.members.first; member; member = member->next) { struct __ecereNameSpace__ecere__sys__NamedLink64 * item = (item = __ecereNameSpace__ecere__com__eSystem_New0(sizeof(struct __ecereNameSpace__ecere__sys__NamedLink64)), item->name = __ecereNameSpace__ecere__sys__CopyString(member->name), item->data = member->data, item); __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add(&specType->__anon1.__anon1.members, item); } } else if(symbol->type->kind == 9 || symbol->type->kind == 10) { struct Type * member; for(member = specType->__anon1.__anon1.members.first; member; member = member->next) member->refCount++; } else if(symbol->type->kind == 11) { struct Type * param; specType->__anon1.__anon2.returnType->refCount++; for(param = specType->__anon1.__anon2.params.first; param; param = param->next) param->refCount++; } else if(symbol->type->kind == 13 || symbol->type->kind == 12) { specType->__anon1.type->refCount++; if(symbol->type->kind == 12) { if(specType->__anon1.__anon4.arraySizeExp) specType->__anon1.__anon4.arraySizeExp = CopyExpression(specType->__anon1.__anon4.arraySizeExp); } } } else specType->__anon1.__anon1.enumName = __ecereNameSpace__ecere__sys__CopyString(spec->__anon1.__anon2.id->string); } else specType->__anon1.__anon1.enumName = __ecereNameSpace__ecere__sys__CopyString(spec->__anon1.__anon2.id->string); } if(spec->__anon1.__anon2.definitions) { struct ClassDef * def; for(def = (*spec->__anon1.__anon2.definitions).first; def; def = def->next) { if(def->type == 2 && def->__anon1.decl->type == 0) { struct Declaration * decl = def->__anon1.decl; if(decl->__anon1.__anon1.declarators) { struct Declarator * d; for(d = (*decl->__anon1.__anon1.declarators).first; d; d = d->next) { struct Type * memberType = ProcessType(decl->__anon1.__anon1.specifiers, d); __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add(&specType->__anon1.__anon1.members, memberType); } } else if(decl->__anon1.__anon1.specifiers) { struct Type * memberType = ProcessType(decl->__anon1.__anon1.specifiers, (((void *)0))); __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add(&specType->__anon1.__anon1.members, memberType); } } } } break; } else if(spec->type == 7) { specType->kind = 19; specType->__anon1._class = spec->__anon1._class->__anon1.__anon1.symbol; } } } else if(assumeEllipsis) specType->kind = 14; return specType; } struct ClassDef * MkClassDefAccessOverride(int access, struct Identifier * id) { return __extension__ ({ struct ClassDef * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_ClassDef); __ecereInstance1->type = 13, __ecereInstance1->__anon1.__anon1.id = id, __ecereInstance1->memberAccess = access, __ecereInstance1; }); } struct ClassDef * MkClassDefMemberAccess() { return __extension__ ({ struct ClassDef * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_ClassDef); __ecereInstance1->type = 12, __ecereInstance1; }); } struct ClassDef * MkClassDefDeclaration(struct Declaration * decl) { return __extension__ ({ struct ClassDef * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_ClassDef); __ecereInstance1->type = 2, __ecereInstance1->__anon1.decl = decl, __ecereInstance1; }); } struct ClassDef * MkClassDefClassData(struct Declaration * decl) { return __extension__ ({ struct ClassDef * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_ClassDef); __ecereInstance1->type = 9, __ecereInstance1->__anon1.decl = decl, __ecereInstance1; }); } struct ClassDef * MkClassDefDesigner(const char * designer) { return __extension__ ({ struct ClassDef * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_ClassDef); __ecereInstance1->type = 5, __ecereInstance1->__anon1.designer = __ecereNameSpace__ecere__sys__CopyString(designer), __ecereInstance1; }); } struct ClassDef * MkClassDefNoExpansion() { return __extension__ ({ struct ClassDef * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_ClassDef); __ecereInstance1->type = 6, __ecereInstance1; }); } struct ClassDef * MkClassDefFixed() { return __extension__ ({ struct ClassDef * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_ClassDef); __ecereInstance1->type = 7, __ecereInstance1; }); } struct ClassDef * MkClassDefDesignerDefaultProperty(struct Identifier * id) { return __extension__ ({ struct ClassDef * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_ClassDef); __ecereInstance1->type = 8, __ecereInstance1->__anon1.defaultProperty = id, __ecereInstance1; }); } struct ClassDef * MkClassDefDefaultProperty(struct __ecereNameSpace__ecere__sys__OldList * defProperties) { return __extension__ ({ struct ClassDef * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_ClassDef); __ecereInstance1->type = 1, __ecereInstance1->__anon1.defProperties = defProperties, __ecereInstance1; }); } struct ClassDef * MkClassDefProperty(struct PropertyDef * propertyDef) { return __extension__ ({ struct ClassDef * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_ClassDef); __ecereInstance1->type = 3, __ecereInstance1->__anon1.propertyDef = propertyDef, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct ClassDef * MkClassDefClassProperty(struct PropertyDef * propertyDef) { return __extension__ ({ struct ClassDef * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_ClassDef); __ecereInstance1->type = 10, __ecereInstance1->__anon1.propertyDef = propertyDef, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct ClassDef * MkClassDefClassPropertyValue(struct Identifier * id, struct Initializer * initializer) { return __extension__ ({ struct ClassDef * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_ClassDef); __ecereInstance1->type = 11, __ecereInstance1->__anon1.__anon1.id = id, __ecereInstance1->__anon1.__anon1.initializer = initializer, __ecereInstance1->loc = yylloc, __ecereInstance1; }); } struct ClassDef * MkClassDefPropertyWatch(struct PropertyWatch * watcher) { return __extension__ ({ struct ClassDef * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_ClassDef); __ecereInstance1->type = 4, __ecereInstance1->__anon1.propertyWatch = watcher, __ecereInstance1; }); } struct PropertyDef * MkProperty(struct __ecereNameSpace__ecere__sys__OldList * specs, struct Declarator * decl, struct Identifier * id, struct Statement * setStmt, struct Statement * getStmt) { struct PropertyDef * prop = (prop = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_PropertyDef), prop->specifiers = specs, prop->declarator = decl, prop->setStmt = setStmt, prop->getStmt = getStmt, prop); struct Symbol * symbol; struct Type * type = ProcessType(specs, decl); if(!id) { char typeString[1024]; typeString[0] = '\0'; PrintTypeNoConst(type, typeString, 0, 1); id = MkIdentifier(typeString); prop->__anon1.conversion = 1; } prop->id = id; symbol = __extension__ ({ struct Symbol * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Symbol); __ecereInstance1->string = __ecereNameSpace__ecere__sys__CopyString(id->string), __ecereInstance1->type = type, __ecereInstance1; }); __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add((&*excludedSymbols), symbol); prop->symbol = symbol; return prop; } static struct Type * ProcessTypeDecls(struct __ecereNameSpace__ecere__sys__OldList * specs, struct Declarator * decl, struct Type * parentType) { struct Type * type = parentType; struct Declarator * subDecl = decl ? decl->declarator : (((void *)0)); unsigned int isVector = 0; if(decl && (decl->type == 6 || decl->type == 7)) { struct ExtDecl * extDecl = decl->__anon1.extended.extended; if(extDecl && extDecl->type == 1) { struct __ecereNameSpace__ecere__sys__OldList * attribs = extDecl->__anon1.attr->attribs; if(attribs) { struct Attribute * attr; for(attr = (*attribs).first; attr; attr = attr->next) { char * s = attr->attr; if(s) if(!strcmp(s, "__vector_size__")) isVector = 1; } } } } if(!parentType) type = ProcessTypeSpecs(specs, decl == (((void *)0)), (decl && decl->type == 7 && !isVector) ? 1 : 0); if(decl) { switch(decl->type) { case 2: break; case 6: case 7: { struct ExtDecl * extDecl = decl->__anon1.extended.extended; if(extDecl) { switch(extDecl->type) { case 0: { char * s = extDecl->__anon1.s; if(s) { if(!strcmp(s, "__declspec(dllexport)") || !strcmp(s, "dllexport")) type->dllExport = 1; else if(!strcmp(s, "__declspec(stdcall)") || !strcmp(s, "stdcall")) type->attrStdcall = 1; } break; } case 1: { struct __ecereNameSpace__ecere__sys__OldList * attribs = extDecl->__anon1.attr->attribs; if(attribs) { struct Attribute * attr; for(attr = (*attribs).first; attr; attr = attr->next) { char * s = attr->attr; if(s) { if(!strcmp(s, "dllexport")) type->dllExport = 1; else if(!strcmp(s, "stdcall")) type->attrStdcall = 1; else if(!strcmp(s, "__vector_size__")) { type->isVector = 1; } } } } type->keepCast = 1; break; } } } break; } case 0: { struct Expression * exp = decl->__anon1.structDecl.exp; if(exp) { ProcessExpressionType(exp); ComputeExpression(exp); if(exp->type == 2) type->bitFieldCount = (unsigned int)strtoul(exp->__anon1.__anon1.constant, (((void *)0)), 0); } break; } case 4: { type = __extension__ ({ struct Type * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Type); __ecereInstance1->refCount = 1, __ecereInstance1->kind = 11, __ecereInstance1->__anon1.__anon2.returnType = type, __ecereInstance1->dllExport = type->dllExport, __ecereInstance1->attrStdcall = type->attrStdcall, __ecereInstance1; }); if(decl->__anon1.function.parameters) { struct TypeName * param; for(param = (*decl->__anon1.function.parameters).first; param; param = param->next) __ecereMethod___ecereNameSpace__ecere__sys__OldList_Add(&type->__anon1.__anon2.params, ProcessType(param->qualifiers, param->declarator)); } break; } case 3: { type = __extension__ ({ struct Type * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Type); __ecereInstance1->refCount = 1, __ecereInstance1->kind = 12, __ecereInstance1->__anon1.__anon4.arraySizeExp = CopyExpression(decl->__anon1.array.exp), __ecereInstance1->__anon1.__anon4.freeExp = 1, __ecereInstance1->__anon1.type = type, __ecereInstance1->dllExport = type->dllExport, __ecereInstance1->attrStdcall = type->attrStdcall, __ecereInstance1; }); if(decl->__anon1.array.enumClass) type->__anon1.__anon4.enumClass = decl->__anon1.array.enumClass->__anon1.__anon1.symbol; break; } case 5: { struct Pointer * pointer = decl->__anon1.pointer.pointer; while(pointer) { struct __ecereNameSpace__ecere__sys__OldList * qualifiers = pointer->qualifiers; if(type->classObjectType) type->byReference = 1; else type = __extension__ ({ struct Type * __ecereInstance1 = __ecereNameSpace__ecere__com__eInstance_New(__ecereClass_Type); __ecereInstance1->refCount = 1, __ecereInstance1->kind = 13, __ecereInstance1->__anon1.type = type, __ecereInstance1->dllExport = type->dllExport, __ecereInstance1->attrStdcall = type->attrStdcall, __ecereInstance1; }); if(qualifiers) { struct Specifier * spec; for(spec = (*qualifiers).first; spec; spec = spec->next) { if(spec->type == 0 && spec->__anon1.specifier == CONST) type->constant = 1; } } pointer = pointer->pointer; } break; } case 1: { struct Identifier * id = decl->__anon1.identifier; struct Specifier * _class = id->_class; (__ecereNameSpace__ecere__com__eSystem_Delete(type->name), type->name = 0); type->name = __ecereNameSpace__ecere__sys__CopyString(id->string); if(_class) { if(_class->type == 8) { type->__anon1.__anon2.thisClassTemplate = _class->__anon1.templateParameter; type->extraParam = 1; } else { char * name = _class->__anon1.__anon1.name; if(!name) type->__anon1.__anon2.staticMethod = 1; else { if(!id->classSym) id->classSym = _class->__anon1.__anon1.symbol; if(name[strlen(name) - 1] == '&') { type->__anon1.__anon2.thisClass = FindClass("class"); type->byReference = 1; } else type->__anon1.__anon2.thisClass = _class->__anon1.__anon1.symbol; if(type->__anon1.__anon2.thisClass && strcmp(type->__anon1.__anon2.thisClass->string, "class")) type->extraParam = 1; else if(!strcmp(name, "any_object")) { type->extraParam = 1; type->__anon1.__anon2.thisClass = FindClass("class"); } else if(!strcmp(name, "class")) { type->__anon1.__anon2.thisClass = FindClass("class"); type->classObjectType = 1; } else if(!strcmp(name, "typed_object") || !strcmp(name, "typed_object&")) { type->__anon1.__anon2.thisClass = FindClass("class"); type->classObjectType = 2; } } } } break; } default: __ecereNameSpace__ecere__com__PrintLn(__ecereClass_char__PTR_, "Unhandled Declarator Type: ", __ecereClass_DeclaratorType, (void *)&decl->type, (void *)0); } } if(subDecl) { struct Type * curType = type; type = ProcessTypeDecls((((void *)0)), subDecl, type); if(curType && type->kind != 11) { curType->__anon1.__anon2.thisClassTemplate = type->__anon1.__anon2.thisClassTemplate; curType->extraParam = type->extraParam; curType->__anon1.__anon2.staticMethod = type->__anon1.__anon2.staticMethod; curType->__anon1.__anon2.thisClass = type->__anon1.__anon2.thisClass; curType->byReference = type->byReference; curType->classObjectType = type->classObjectType; } } return type; } void __ecereRegisterModule_ast(struct __ecereNameSpace__ecere__com__Instance * module) { struct __ecereNameSpace__ecere__com__Class __attribute__((unused)) * class; __ecereNameSpace__ecere__com__eSystem_RegisterFunction("SetDefaultNameSpace", "void SetDefaultNameSpace(const char * s)", SetDefaultNameSpace, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("SetStrictNameSpaces", "void SetStrictNameSpaces(bool b)", SetStrictNameSpaces, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("SetDeclMode", "void SetDeclMode(ecere::com::AccessMode accessMode)", SetDeclMode, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("SetDefaultDeclMode", "void SetDefaultDeclMode(ecere::com::AccessMode accessMode)", SetDefaultDeclMode, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("SetCurrentNameSpace", "void SetCurrentNameSpace(const char * s)", SetCurrentNameSpace, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkList", "ecere::sys::OldList * MkList(void)", MkList, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkListOne", "ecere::sys::OldList * MkListOne(void * item)", MkListOne, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("ListAdd", "void ListAdd(ecere::sys::OldList list, void * item)", ListAdd, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("ListAddFront", "void ListAddFront(ecere::sys::OldList list, void * item)", ListAddFront, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkIdentifier", "Identifier MkIdentifier(const char * string)", MkIdentifier, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkTypeTemplateParameter", "TemplateParameter MkTypeTemplateParameter(Identifier identifier, TemplateDatatype baseTplDatatype, TemplateArgument defaultArgument)", MkTypeTemplateParameter, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkIdentifierTemplateParameter", "TemplateParameter MkIdentifierTemplateParameter(Identifier identifier, ecere::com::TemplateMemberType memberType, TemplateArgument defaultArgument)", MkIdentifierTemplateParameter, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpressionTemplateParameter", "TemplateParameter MkExpressionTemplateParameter(Identifier identifier, TemplateDatatype dataType, TemplateArgument defaultArgument)", MkExpressionTemplateParameter, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkTemplateDatatype", "TemplateDatatype MkTemplateDatatype(ecere::sys::OldList * specifiers, Declarator decl)", MkTemplateDatatype, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkTemplateTypeArgument", "TemplateArgument MkTemplateTypeArgument(TemplateDatatype tplDatatype)", MkTemplateTypeArgument, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkTemplateExpressionArgument", "TemplateArgument MkTemplateExpressionArgument(Expression expr)", MkTemplateExpressionArgument, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkTemplateIdentifierArgument", "TemplateArgument MkTemplateIdentifierArgument(Identifier ident)", MkTemplateIdentifierArgument, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpExtensionCompound", "Expression MkExpExtensionCompound(Statement compound)", MkExpExtensionCompound, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpExtensionExpression", "Expression MkExpExtensionExpression(ecere::sys::OldList * expressions)", MkExpExtensionExpression, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpExtensionInitializer", "Expression MkExpExtensionInitializer(TypeName typeName, Initializer initializer)", MkExpExtensionInitializer, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpIdentifier", "Expression MkExpIdentifier(Identifier id)", MkExpIdentifier, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpDummy", "Expression MkExpDummy(void)", MkExpDummy, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpConstant", "Expression MkExpConstant(const char * string)", MkExpConstant, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpString", "Expression MkExpString(const char * string)", MkExpString, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpWideString", "Expression MkExpWideString(const char * string)", MkExpWideString, module, 2); class = __ecereNameSpace__ecere__com__eSystem_RegisterClass(1, "ContextStringPair", 0, sizeof(struct ContextStringPair), 0, (void *)0, (void *)0, module, 1, 1); if(((struct __ecereNameSpace__ecere__com__Module *)(((char *)module + sizeof(struct __ecereNameSpace__ecere__com__Instance))))->application == ((struct __ecereNameSpace__ecere__com__Module *)(((char *)__thisModule + sizeof(struct __ecereNameSpace__ecere__com__Instance))))->application && class) __ecereClass_ContextStringPair = class; __ecereNameSpace__ecere__com__eClass_AddMethod(class, "OnCompare", 0, __ecereMethod_ContextStringPair_OnCompare, 1); __ecereNameSpace__ecere__com__eClass_AddMethod(class, "OnFree", 0, __ecereMethod_ContextStringPair_OnFree, 1); __ecereNameSpace__ecere__com__eClass_AddDataMember(class, "string", "String", sizeof(void *), 0xF000F000, 1); __ecereNameSpace__ecere__com__eClass_AddDataMember(class, "context", "String", sizeof(void *), 0xF000F000, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpIntlString", "Expression MkExpIntlString(const char * string, const char * context)", MkExpIntlString, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpOp", "Expression MkExpOp(Expression exp1, int op, Expression exp2)", MkExpOp, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpBrackets", "Expression MkExpBrackets(ecere::sys::OldList expressions)", MkExpBrackets, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpIndex", "Expression MkExpIndex(Expression expression, ecere::sys::OldList index)", MkExpIndex, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpCall", "Expression MkExpCall(Expression expression, ecere::sys::OldList arguments)", MkExpCall, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpMember", "Expression MkExpMember(Expression expression, Identifier member)", MkExpMember, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpPointer", "Expression MkExpPointer(Expression expression, Identifier member)", MkExpPointer, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpTypeSize", "Expression MkExpTypeSize(TypeName typeName)", MkExpTypeSize, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpTypeAlign", "Expression MkExpTypeAlign(TypeName typeName)", MkExpTypeAlign, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpOffsetOf", "Expression MkExpOffsetOf(TypeName typeName, Identifier id)", MkExpOffsetOf, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpClassSize", "Expression MkExpClassSize(Specifier _class)", MkExpClassSize, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpCast", "Expression MkExpCast(TypeName typeName, Expression expression)", MkExpCast, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpCondition", "Expression MkExpCondition(Expression cond, ecere::sys::OldList expressions, Expression elseExp)", MkExpCondition, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpRenew", "Expression MkExpRenew(Expression memExp, TypeName type, Expression size)", MkExpRenew, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpRenew0", "Expression MkExpRenew0(Expression memExp, TypeName type, Expression size)", MkExpRenew0, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpNew", "Expression MkExpNew(TypeName type, Expression size)", MkExpNew, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpNew0", "Expression MkExpNew0(TypeName type, Expression size)", MkExpNew0, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpVaArg", "Expression MkExpVaArg(Expression exp, TypeName type)", MkExpVaArg, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkSpecifier", "Specifier MkSpecifier(int specifier)", MkSpecifier, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkSpecifierTypeOf", "Specifier MkSpecifierTypeOf(Expression expression)", MkSpecifierTypeOf, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkSpecifierSubClass", "Specifier MkSpecifierSubClass(Specifier _class)", MkSpecifierSubClass, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkSpecifierExtended", "Specifier MkSpecifierExtended(ExtDecl extDecl)", MkSpecifierExtended, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkEnum", "Specifier MkEnum(Identifier id, ecere::sys::OldList list)", MkEnum, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkStructOrUnion", "Specifier MkStructOrUnion(SpecifierType type, Identifier id, ecere::sys::OldList definitions)", MkStructOrUnion, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("AddStructDefinitions", "void AddStructDefinitions(Specifier spec, ecere::sys::OldList definitions)", AddStructDefinitions, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkAttribute", "Attribute MkAttribute(String attr, Expression exp)", MkAttribute, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkAttrib", "Attrib MkAttrib(int type, ecere::sys::OldList * attribs)", MkAttrib, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExtDeclString", "ExtDecl MkExtDeclString(String s)", MkExtDeclString, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExtDeclAttrib", "ExtDecl MkExtDeclAttrib(Attrib attr)", MkExtDeclAttrib, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkDeclaratorIdentifier", "Declarator MkDeclaratorIdentifier(Identifier id)", MkDeclaratorIdentifier, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkDeclaratorFunction", "Declarator MkDeclaratorFunction(Declarator declarator, ecere::sys::OldList parameters)", MkDeclaratorFunction, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkDeclaratorExtended", "Declarator MkDeclaratorExtended(ExtDecl extended, Declarator declarator)", MkDeclaratorExtended, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkDeclaratorExtendedEnd", "Declarator MkDeclaratorExtendedEnd(ExtDecl extended, Declarator declarator)", MkDeclaratorExtendedEnd, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkStructDeclarator", "Declarator MkStructDeclarator(Declarator declarator, Expression exp)", MkStructDeclarator, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkDeclaratorBrackets", "Declarator MkDeclaratorBrackets(Declarator declarator)", MkDeclaratorBrackets, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkDeclaratorArray", "Declarator MkDeclaratorArray(Declarator declarator, Expression exp)", MkDeclaratorArray, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkDeclaratorEnumArray", "Declarator MkDeclaratorEnumArray(Declarator declarator, Specifier _class)", MkDeclaratorEnumArray, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkDeclaratorPointer", "Declarator MkDeclaratorPointer(Pointer pointer, Declarator declarator)", MkDeclaratorPointer, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkEnumerator", "Enumerator MkEnumerator(Identifier id, Expression exp)", MkEnumerator, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkPointer", "Pointer MkPointer(ecere::sys::OldList qualifiers, Pointer pointer)", MkPointer, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkInitializerAssignment", "Initializer MkInitializerAssignment(Expression exp)", MkInitializerAssignment, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkInitializerList", "Initializer MkInitializerList(ecere::sys::OldList list)", MkInitializerList, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkInitDeclarator", "InitDeclarator MkInitDeclarator(Declarator declarator, Initializer initializer)", MkInitDeclarator, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkTypeName", "TypeName MkTypeName(ecere::sys::OldList qualifiers, Declarator declarator)", MkTypeName, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkTypeNameGuessDecl", "TypeName MkTypeNameGuessDecl(ecere::sys::OldList qualifiers, Declarator declarator)", MkTypeNameGuessDecl, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("GetDeclId", "Identifier GetDeclId(Declarator decl)", GetDeclId, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkDeclarationClassInst", "Declaration MkDeclarationClassInst(Instantiation inst)", MkDeclarationClassInst, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkDeclarationInst", "Declaration MkDeclarationInst(Instantiation inst)", MkDeclarationInst, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkDeclarationDefine", "Declaration MkDeclarationDefine(Identifier id, Expression exp)", MkDeclarationDefine, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkDeclaration", "Declaration MkDeclaration(ecere::sys::OldList specifiers, ecere::sys::OldList initDeclarators)", MkDeclaration, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkStructDeclaration", "Declaration MkStructDeclaration(ecere::sys::OldList specifiers, ecere::sys::OldList declarators, Specifier extStorage)", MkStructDeclaration, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkLabeledStmt", "Statement MkLabeledStmt(Identifier id, Statement statement)", MkLabeledStmt, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkCaseStmt", "Statement MkCaseStmt(Expression exp, Statement statement)", MkCaseStmt, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkCompoundStmt", "Statement MkCompoundStmt(ecere::sys::OldList declarations, ecere::sys::OldList statements)", MkCompoundStmt, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpressionStmt", "Statement MkExpressionStmt(ecere::sys::OldList expressions)", MkExpressionStmt, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkBadDeclStmt", "Statement MkBadDeclStmt(Declaration decl)", MkBadDeclStmt, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkIfStmt", "Statement MkIfStmt(ecere::sys::OldList exp, Statement statement, Statement elseStmt)", MkIfStmt, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkSwitchStmt", "Statement MkSwitchStmt(ecere::sys::OldList exp, Statement statement)", MkSwitchStmt, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkWhileStmt", "Statement MkWhileStmt(ecere::sys::OldList exp, Statement statement)", MkWhileStmt, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkDoWhileStmt", "Statement MkDoWhileStmt(Statement statement, ecere::sys::OldList exp)", MkDoWhileStmt, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkForStmt", "Statement MkForStmt(Statement init, Statement check, ecere::sys::OldList inc, Statement statement)", MkForStmt, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkForEachStmt", "Statement MkForEachStmt(Identifier id, ecere::sys::OldList exp, ecere::sys::OldList filter, Statement statement)", MkForEachStmt, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkGotoStmt", "Statement MkGotoStmt(Identifier id)", MkGotoStmt, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkContinueStmt", "Statement MkContinueStmt(void)", MkContinueStmt, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkBreakStmt", "Statement MkBreakStmt(void)", MkBreakStmt, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkReturnStmt", "Statement MkReturnStmt(ecere::sys::OldList exp)", MkReturnStmt, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkFunction", "FunctionDefinition MkFunction(ecere::sys::OldList specifiers, Declarator declarator, ecere::sys::OldList declarationList)", MkFunction, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("_MkFunction", "FunctionDefinition _MkFunction(ecere::sys::OldList specifiers, Declarator declarator, ecere::sys::OldList declarationList, bool errorOnOmit)", _MkFunction, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("ProcessFunctionBody", "void ProcessFunctionBody(FunctionDefinition func, Statement body)", ProcessFunctionBody, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExternalFunction", "External MkExternalFunction(FunctionDefinition function)", MkExternalFunction, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExternalImport", "External MkExternalImport(char * name, ecere::com::ImportType importType, ecere::com::AccessMode importAccess)", MkExternalImport, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExternalDeclaration", "External MkExternalDeclaration(Declaration declaration)", MkExternalDeclaration, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExternalNameSpace", "External MkExternalNameSpace(Identifier identifier)", MkExternalNameSpace, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("SetClassTemplateArgs", "void SetClassTemplateArgs(Specifier spec, ecere::sys::OldList templateArgs)", SetClassTemplateArgs, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("_MkSpecifierName", "Specifier _MkSpecifierName(const char * name, Symbol symbol, ecere::sys::OldList templateArgs)", _MkSpecifierName, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkSpecifierName", "Specifier MkSpecifierName(const char * name)", MkSpecifierName, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkSpecifierNameArgs", "Specifier MkSpecifierNameArgs(const char * name, ecere::sys::OldList * templateArgs)", MkSpecifierNameArgs, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkClassFunction", "ClassFunction MkClassFunction(ecere::sys::OldList specifiers, Specifier _class, Declarator decl, ecere::sys::OldList declList)", MkClassFunction, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("ProcessClassFunctionBody", "void ProcessClassFunctionBody(ClassFunction func, Statement body)", ProcessClassFunctionBody, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkSpecsClass", "ecere::sys::OldList * MkSpecsClass(Specifier _class)", MkSpecsClass, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkMemberInit", "MemberInit MkMemberInit(ecere::sys::OldList ids, Initializer initializer)", MkMemberInit, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkMemberInitExp", "MemberInit MkMemberInitExp(Expression idExp, Initializer initializer)", MkMemberInitExp, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkMembersInitList", "MembersInit MkMembersInitList(ecere::sys::OldList dataMembers)", MkMembersInitList, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkMembersInitMethod", "MembersInit MkMembersInitMethod(ClassFunction function)", MkMembersInitMethod, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkInstantiation", "Instantiation MkInstantiation(Specifier _class, Expression exp, ecere::sys::OldList members)", MkInstantiation, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkInstantiationNamed", "Instantiation MkInstantiationNamed(ecere::sys::OldList specs, Expression exp, ecere::sys::OldList members)", MkInstantiationNamed, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkClassDefAccessOverride", "ClassDef MkClassDefAccessOverride(ecere::com::AccessMode access, Identifier id)", MkClassDefAccessOverride, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkClassDefMemberAccess", "ClassDef MkClassDefMemberAccess(void)", MkClassDefMemberAccess, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkClassDefDeclaration", "ClassDef MkClassDefDeclaration(Declaration decl)", MkClassDefDeclaration, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkClassDefClassData", "ClassDef MkClassDefClassData(Declaration decl)", MkClassDefClassData, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkClassDefDesigner", "ClassDef MkClassDefDesigner(const char * designer)", MkClassDefDesigner, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkClassDefNoExpansion", "ClassDef MkClassDefNoExpansion(void)", MkClassDefNoExpansion, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkClassDefFixed", "ClassDef MkClassDefFixed(void)", MkClassDefFixed, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkClassDefDesignerDefaultProperty", "ClassDef MkClassDefDesignerDefaultProperty(Identifier id)", MkClassDefDesignerDefaultProperty, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkClassDefDefaultProperty", "ClassDef MkClassDefDefaultProperty(ecere::sys::OldList defProperties)", MkClassDefDefaultProperty, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkClassDefFunction", "ClassDef MkClassDefFunction(ClassFunction function)", MkClassDefFunction, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("DeclClassAddNameSpace", "Symbol DeclClassAddNameSpace(Specifier _class, const char * className)", DeclClassAddNameSpace, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("DeclClass", "Symbol DeclClass(Specifier _class, const char * name)", DeclClass, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("_DeclClass", "Symbol _DeclClass(Specifier _class, const char * name)", _DeclClass, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("SetupBaseSpecs", "void SetupBaseSpecs(Symbol symbol, ecere::sys::OldList baseSpecs)", SetupBaseSpecs, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkClass", "ClassDefinition MkClass(Symbol symbol, ecere::sys::OldList baseSpecs, ecere::sys::OldList definitions)", MkClass, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpInstance", "Expression MkExpInstance(Instantiation inst)", MkExpInstance, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExternalClass", "External MkExternalClass(ClassDefinition _class)", MkExternalClass, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkProperty", "PropertyDef MkProperty(ecere::sys::OldList specs, Declarator decl, Identifier id, Statement setStmt, Statement getStmt)", MkProperty, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkClassDefProperty", "ClassDef MkClassDefProperty(PropertyDef propertyDef)", MkClassDefProperty, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkClassDefClassProperty", "ClassDef MkClassDefClassProperty(PropertyDef propertyDef)", MkClassDefClassProperty, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkClassDefClassPropertyValue", "ClassDef MkClassDefClassPropertyValue(Identifier id, Initializer initializer)", MkClassDefClassPropertyValue, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("CheckType", "int CheckType(const char * text)", CheckType, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("check_type", "int check_type(void)", check_type, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("PushContext", "Context PushContext(void)", PushContext, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("PopContext", "void PopContext(Context ctx)", PopContext, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("FindType", "Symbol FindType(Context ctx, const char * name)", FindType, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("FindStruct", "Symbol FindStruct(Context ctx, const char * name)", FindStruct, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("FindTemplateTypeParameter", "TemplatedType FindTemplateTypeParameter(Context ctx, const char * name)", FindTemplateTypeParameter, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("ModuleAccess", "bool ModuleAccess(ecere::com::Module searchIn, ecere::com::Module searchFor)", ModuleAccess, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("FindModule", "ModuleImport FindModule(ecere::com::Module moduleToFind)", FindModule, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("FindClass", "Symbol FindClass(const char * name)", FindClass, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("CopyTypeInto", "void CopyTypeInto(Type type, Type src)", CopyTypeInto, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("ProcessType", "Type ProcessType(ecere::sys::OldList specs, Declarator decl)", ProcessType, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("ProcessTypeString", "Type ProcessTypeString(const char * string, bool staticMethod)", ProcessTypeString, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkClassTypeSymbol", "Type MkClassTypeSymbol(Symbol symbol)", MkClassTypeSymbol, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkClassType", "Type MkClassType(const char * name)", MkClassType, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkAsmField", "AsmField MkAsmField(char * command, Expression expression, Identifier symbolic)", MkAsmField, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkAsmStmt", "Statement MkAsmStmt(Specifier spec, char * statements, ecere::sys::OldList inputFields, ecere::sys::OldList outputFields, ecere::sys::OldList clobberedFields)", MkAsmStmt, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkClassDefPropertyWatch", "ClassDef MkClassDefPropertyWatch(PropertyWatch watcher)", MkClassDefPropertyWatch, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkFireWatchersStmt", "Statement MkFireWatchersStmt(Expression object, ecere::sys::OldList watches)", MkFireWatchersStmt, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkStopWatchingStmt", "Statement MkStopWatchingStmt(Expression watcher, Expression object, ecere::sys::OldList watches)", MkStopWatchingStmt, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkWatchStmt", "Statement MkWatchStmt(Expression watcher, Expression object, ecere::sys::OldList watches)", MkWatchStmt, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkDeleteWatch", "PropertyWatch MkDeleteWatch(Statement compound)", MkDeleteWatch, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkPropertyWatch", "PropertyWatch MkPropertyWatch(ecere::sys::OldList properties, Statement compound)", MkPropertyWatch, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpClass", "Expression MkExpClass(ecere::sys::OldList * specifiers, Declarator decl)", MkExpClass, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpClassData", "Expression MkExpClassData(Identifier id)", MkExpClassData, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExternalDBTable", "External MkExternalDBTable(DBTableDef table)", MkExternalDBTable, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkDBTableDef", "DBTableDef MkDBTableDef(char * name, Symbol symbol, ecere::sys::OldList * definitions)", MkDBTableDef, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkDBFieldEntry", "DBTableEntry MkDBFieldEntry(TypeName type, Identifier id, char * name)", MkDBFieldEntry, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkDBIndexItem", "DBIndexItem MkDBIndexItem(Identifier id, Order order)", MkDBIndexItem, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkDBIndexEntry", "DBTableEntry MkDBIndexEntry(ecere::sys::OldList * items, Identifier id)", MkDBIndexEntry, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpDBOpen", "Expression MkExpDBOpen(Expression ds, Expression dbName)", MkExpDBOpen, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpDBField", "Expression MkExpDBField(char * table, Identifier id)", MkExpDBField, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpDBIndex", "Expression MkExpDBIndex(char * table, Identifier id)", MkExpDBIndex, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpDBTable", "Expression MkExpDBTable(char * table)", MkExpDBTable, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("MkExpArray", "Expression MkExpArray(ecere::sys::OldList * expressions)", MkExpArray, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("GetTemplateArgExpByName", "Expression GetTemplateArgExpByName(const char * paramName, ecere::com::Class thisClassFrom, ecere::com::Class curClass, ecere::com::TemplateParameterType tplType)", GetTemplateArgExpByName, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("GetTemplateArgExp", "Expression GetTemplateArgExp(TemplateParameter param, ecere::com::Class thisClassFrom, ecere::com::Class curClass, bool pointer)", GetTemplateArgExp, module, 2); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("OutputIntlStrings", "void OutputIntlStrings(void)", OutputIntlStrings, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("SetAST", "void SetAST(ecere::sys::OldList * list)", SetAST, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("GetAST", "ecere::sys::OldList * GetAST(void)", GetAST, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("ParseEc", "void ParseEc(void)", ParseEc, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("LexEc", "int LexEc(void)", LexEc, module, 1); __ecereNameSpace__ecere__com__eSystem_RegisterFunction("GetYYText", "const char * GetYYText(void)", GetYYText, module, 1); }