#include "__grammar.h" ParserMessage *makeParserMessage(char *file_dir, char *debug){ ParserMessage *tmp = memCalloc(1, sizeof(ParserMessage)); tmp->tm = makeTokenMessage(file_dir, debug); tmp->status = success; tmp->status_message = NULL; tmp->count = 0; #if OUT_LOG if (debug != NULL){ char *debug_dir = memStrcat(debug, PASERS_LOG), *grammar_dir = memStrcat(debug, GRAMMAR_LOG); tmp->paser_debug = fopen(debug_dir, "w"); tmp->grammar_debug = fopen(grammar_dir, "w"); memFree(debug_dir); memFree(grammar_dir); } else{ tmp->paser_debug = NULL; tmp->grammar_debug = NULL; } #else tmp->paser_debug = NULL; tmp->grammar_debug = NULL; #endif return tmp; } void freeParserMessage(ParserMessage *pm, bool self) { freeTokenMessage(pm->tm, true); #if OUT_LOG if (pm->paser_debug != NULL) fclose(pm->paser_debug); if (pm->grammar_debug != NULL) fclose(pm->grammar_debug); #endif memFree(pm->status_message); if (self){ memFree(pm); } } /** * 命令表匹配 * parserCommandList : * | MATHER_EOF * | parserCommand MATHER_ENTER * | parserCommand MATHER_EOF */ void parserCommandList(ParserMessage *pm, Inter *inter, bool global, Statement *st) { int token_type, stop; struct Statement *base_st = st; while (true){ token_type = readBackToken(pm); if (token_type == MATHER_EOF){ writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "Command List: \n", NULL); delToken(pm); goto return_; } else if (token_type == MATHER_ENTER){ writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "Command List: \n", NULL); delToken(pm); continue; } else{ writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "Command List: call command\n", NULL); Token *command_token; if (!callChildToken(CALLPASERSSIGNATURE, parserCommand, COMMAND, &command_token, (global ? "ERROR from command list(get parserCommand)" : NULL), command_list_error)){ goto return_; } stop = readBackToken(pm); if (stop == MATHER_ENTER || stop == MATHER_SEMICOLON){ delToken(pm); } else if(stop == MATHER_EOF){ PASS; } else{ if (global) { syntaxError(pm, command_list_error, 1, "ERROR from parserCommand list(get stop)"); printf("stop = %d\n", stop); freeToken(command_token, true, true); } else{ // 若非global模式, 即可以匹配大括号, token保留在ahead中 connectStatement(base_st, command_token->data.st); freeToken(command_token, true, false); writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "Command List: get command success[at !global end]\n", NULL); } goto return_; } /*...do something for commandList...*/ connectStatement(base_st, command_token->data.st); freeToken(command_token, true, false); writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "Command List: get command success\n", NULL); } } return_: writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "Command List: return\n", NULL); addStatementToken(COMMANDLIST, base_st, pm); } /** * 命令匹配 * parserCommand: * | parserOperation */ void parserCommand(PASERSSIGNATURE){ int token_type, status; Statement *st = NULL; token_type = readBackToken(pm); switch (token_type) { case MATHER_DEF : status = commandCallBack_(CALLPASERSSIGNATURE, parserDef, FUNCTION, &st, "Command: call def\n"); break; case MATHER_IF : status = commandCallBack_(CALLPASERSSIGNATURE, parserIf, IF_BRANCH, &st, "Command: call if\n"); break; case MATHER_WHILE : status = commandCallBack_(CALLPASERSSIGNATURE, parserWhile, WHILE_BRANCH, &st, "Command: call while\n"); break; case MATHER_TRY : status = commandCallBack_(CALLPASERSSIGNATURE, parserTry, TRY_BRANCH, &st, "Command: call try\n"); break; case MATHER_BREAK : status = commandCallControl_(CALLPASERSSIGNATURE, makeBreakStatement, BREAK, &st, "Command: call break\n"); break; case MATHER_CONTINUE : status = commandCallControl_(CALLPASERSSIGNATURE, makeContinueStatement, CONTINUE, &st, "Command: call continue\n"); break; case MATHER_RESTART : status = commandCallControl_(CALLPASERSSIGNATURE, makeRestartStatement, RESTART, &st, "Command: call restart\n"); break; case MATHER_REGO : status = commandCallControl_(CALLPASERSSIGNATURE, makeRegoStatement, REGO, &st, "Command: call rego\n"); break; case MATHER_RETURN : status = commandCallControl_(CALLPASERSSIGNATURE, makeReturnStatement, RETURN, &st, "Command: call return\n"); break; case MATHER_RAISE : status = commandCallControl_(CALLPASERSSIGNATURE, makeRaiseStatement, RAISE, &st, "Command: call raise\n"); break; default : status = commandCallBack_(CALLPASERSSIGNATURE, parserOperation, OPERATION, &st, "Command: call operation\n"); break; } if (!status) goto return_; addStatementToken(COMMAND, st, pm); return_: writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "Command: get return\n", NULL); } void parserControl(PASERSSIGNATURE, Statement *(*callBack)(Statement *), int type){ Statement *times = NULL, *st = NULL; delToken(pm); parserOperation(CALLPASERSSIGNATURE); if (!call_success(pm)) goto return_; if (readBackToken(pm) == OPERATION){ Token *tmp; tmp= popAheadToken(pm); times = tmp->data.st; freeToken(tmp, true, false); } st = callBack(times); addStatementToken(type, st, pm); return_: return; } void parserIf(PASERSSIGNATURE){ struct Statement *st = NULL, *else_st = NULL, *finally_st = NULL; StatementList *sl = NULL; bool have_if = false; // TODO-szh 设置重复警告 (添加PASS语句) again: switch (readBackToken(pm)) { case MATHER_IF: if (have_if) goto default_; else have_if = true; case MATHER_ELIF: { if (else_st != NULL) { syntaxError(pm, syntax_error, 1, "get elif after else\n"); goto error_; } Statement *code_tmp = NULL, *var_tmp = NULL, *condition_tmp = NULL; delToken(pm); if (!callChildStatement(CALLPASERSSIGNATURE, parserOperation, OPERATION, &condition_tmp, "Don't get a if condition")) goto error_; if (!callParserAs(CALLPASERSSIGNATURE, &var_tmp, "Don't get a while var")) { freeStatement(condition_tmp); goto error_; } if (!callParserCode(CALLPASERSSIGNATURE, &code_tmp, "Don't get a if code")) { freeStatement(condition_tmp); freeStatement(var_tmp); goto error_; } sl = makeConnectStatementList(sl, condition_tmp, var_tmp, code_tmp, if_b); goto again; } case MATHER_DO: { if (else_st != NULL) goto default_; Statement *code_tmp = NULL; delToken(pm); if (!callParserCode(CALLPASERSSIGNATURE, &code_tmp, "Don't get a if...do code")) goto error_; sl = makeConnectStatementList(sl, NULL, NULL, code_tmp, do_b); goto again; } case MATHER_ELSE: if (else_st != NULL){ syntaxError(pm, syntax_error, 1, "get else after else\n"); goto error_; } delToken(pm); if (!callParserCode(CALLPASERSSIGNATURE, &else_st, "Don't get a if...else code")) goto error_; goto again; case MATHER_FINALLY: delToken(pm); if (!callParserCode(CALLPASERSSIGNATURE, &finally_st, "Don't get a if...else code")) goto error_; break; case MATHER_ENTER: delToken(pm); goto again; case MATHER_SEMICOLON: break; default:{ default_: addEnter(pm); break; } } st = makeIfStatement(); st->u.if_branch.if_list = sl; st->u.if_branch.else_list = else_st; st->u.if_branch.finally = finally_st; addStatementToken(IF_BRANCH, st, pm); return; error_: freeStatement(else_st); freeStatement(finally_st); freeStatementList(sl); return; } void parserWhile(PASERSSIGNATURE){ struct Statement *st = NULL, *else_st = NULL, *finally_st = NULL,*do_st = NULL; StatementList *sl = NULL; bool have_while = false; again: switch (readBackToken(pm)) { case MATHER_WHILE: { if (have_while) goto default_; else have_while = true; Statement *code_tmp = NULL, *var_tmp = NULL, *condition_tmp = NULL; delToken(pm); if (!callChildStatement(CALLPASERSSIGNATURE, parserOperation, OPERATION, &condition_tmp, "Don't get a while condition")) goto error_; if (!callParserAs(CALLPASERSSIGNATURE, &var_tmp, "Don't get a while var")){ freeStatement(condition_tmp); goto error_; } if (!callParserCode(CALLPASERSSIGNATURE, &code_tmp, "Don't get a while code")) { freeStatement(condition_tmp); freeStatement(var_tmp); goto error_; } if (sl != NULL) freeStatementList(sl); sl = makeStatementList(condition_tmp, var_tmp, code_tmp, while_b); goto again; } case MATHER_DO: if (do_st != NULL || else_st != NULL) goto default_; delToken(pm); if (!callParserCode(CALLPASERSSIGNATURE, &do_st, "Don't get a while...do code")) goto error_; goto again; case MATHER_ELSE: if (else_st != NULL) { syntaxError(pm, syntax_error, 1, "get else after else\n"); goto error_; } delToken(pm); if (!callParserCode(CALLPASERSSIGNATURE, &else_st, "Don't get a while...else code")) goto error_; goto again; case MATHER_FINALLY: delToken(pm); if (!callParserCode(CALLPASERSSIGNATURE, &finally_st, "Don't get a while...finally code")) goto error_; break; case MATHER_ENTER: delToken(pm); goto again; case MATHER_SEMICOLON: break; default: { default_: addEnter(pm); break; } } st = makeWhileStatement(); st->u.while_branch.while_list = sl; st->u.while_branch.else_list = else_st; st->u.while_branch.finally = finally_st; st->u.while_branch.after = do_st; addStatementToken(WHILE_BRANCH, st, pm); return; error_: freeStatement(else_st); freeStatement(finally_st); freeStatement(do_st); freeStatementList(sl); return; } void parserTry(PASERSSIGNATURE){ struct Statement *st = NULL, *try_st = NULL, *else_st = NULL, *finally_st = NULL; StatementList *sl = NULL; again: switch (readBackToken(pm)) { case MATHER_TRY:{ if (try_st != NULL) goto default_; delToken(pm); if (!callParserCode(CALLPASERSSIGNATURE, &try_st, "Don't get a try code")) goto error_; goto again; } case MATHER_EXCEPT: { Statement *code_tmp = NULL, *var_tmp = NULL, *condition_tmp = NULL; delToken(pm); callChildStatement(CALLPASERSSIGNATURE, parserOperation, OPERATION, &condition_tmp, NULL); if (!callParserAs(CALLPASERSSIGNATURE, &var_tmp, "Don't get a except var")){ freeStatement(condition_tmp); goto error_; } if (!callParserCode(CALLPASERSSIGNATURE, &code_tmp, "Don't get a except code")) { freeStatement(condition_tmp); freeStatement(var_tmp); goto error_; } sl = makeConnectStatementList(sl, condition_tmp, var_tmp, code_tmp, except_b); goto again; } case MATHER_ELSE: if (else_st != NULL) { syntaxError(pm, syntax_error, 1, "get else after else\n"); goto error_; } delToken(pm); if (!callParserCode(CALLPASERSSIGNATURE, &else_st, "Don't get a try...else code")) goto error_; goto again; case MATHER_FINALLY: delToken(pm); if (!callParserCode(CALLPASERSSIGNATURE, &finally_st, "Don't get a try...finally code")) goto error_; break; case MATHER_ENTER: delToken(pm); goto again; case MATHER_SEMICOLON: break; default: { default_: addEnter(pm); break; } } st = makeTryStatement(); st->u.try_branch.try = try_st; st->u.try_branch.except_list = sl; st->u.try_branch.else_list = else_st; st->u.try_branch.finally = finally_st; addStatementToken(TRY_BRANCH, st, pm); return; error_: freeStatement(try_st); freeStatement(else_st); freeStatement(finally_st); freeStatementList(sl); return; } void parserDef(PASERSSIGNATURE){ struct Statement *st = NULL, *name_tmp = NULL, *code_tmp = NULL; delToken(pm); if (!callChildStatement(CALLPASERSSIGNATURE, parserBaseValue, BASEVALUE, &name_tmp, "Don't get a function name")) goto error_; if (!checkToken_(pm, MATHER_LP) || !checkToken_(pm, MATHER_RP)){ goto error_; } writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "parserDef: get function title success\n", NULL); writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "parserDef: call parserCode\n", NULL); if (!callParserCode(CALLPASERSSIGNATURE, &code_tmp, "Don't get a function code")) goto error_; st = makeFunctionStatement(name_tmp, code_tmp); addEnter(pm); addStatementToken(FUNCTION, st, pm); return; error_: freeStatement(name_tmp); freeStatement(code_tmp); syntaxError(pm, syntax_error, 1, "Don't get a function code"); return; } void parserCode(PASERSSIGNATURE){ Token *code_token = NULL, *tk = NULL; Statement *st = makeStatement(); while (true){ if (!checkToken_(pm, MATHER_LC)) goto again_; break; again_: if (!checkToken_(pm, MATHER_ENTER)) goto return_; } writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "parserCode: call parserCommandList\n", NULL); parserCommandList(CALLPASERSSIGNATURE, false, st); if (!call_success(pm)){ goto error_; } if (readBackToken(pm) != COMMANDLIST){ syntaxError(pm, syntax_error, 1, "Not CommandList\n"); goto error_; } code_token = popAheadToken(pm); writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "parserCode: call parserCommandList success\n", NULL); if (!checkToken_(pm, MATHER_RC)) { syntaxError(pm, syntax_error, 1, "Don't get the }"); goto error_; } return_: addStatementToken(CODE, st, pm); freeToken(code_token, true, false); return; error_: freeToken(code_token, true, true); } /** * 表达式匹配 * parserOperation: * | parserAssignment */ void parserOperation(PASERSSIGNATURE){ Statement *operation_st = NULL; writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "Operation: call assignment\n", NULL); if (!callChildStatement(CALLPASERSSIGNATURE, parserAssignment, ASSIGNMENT, &operation_st, NULL)) goto return_; addStatementToken(OPERATION, operation_st, pm); writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "Operation: get polynomial success\n", NULL); return_: writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "Operation: return\n", NULL); return; } /** * 赋值表达式匹配 * parserAssignment: * | parserPolynomial * | parserAssignment ASSIGNMENT parserPolynomial */ bool switchAssignment(PASERSSIGNATURE, int symbol, Statement **st){ switch (symbol) { case MATHER_ASSIGNMENT: *st = makeOperationStatement(ASS); break; default: return false; } return true; } void parserAssignment(PASERSSIGNATURE){ return twoOperation(CALLPASERSSIGNATURE, parserPolynomial, switchAssignment, POLYNOMIAL, ASSIGNMENT, "polynomial", "assignment"); } /** * 多项式匹配 * parserPolynomial: * | parserBaseValue * | parserPolynomial ADD parserFactor * | parserPolynomial SUB parserFactor */ bool switchPolynomial(PASERSSIGNATURE, int symbol, Statement **st){ switch (symbol) { case MATHER_ADD: *st = makeOperationStatement(ADD); break; case MATHER_SUB: *st = makeOperationStatement(SUB); break; default: return false; } return true; } void parserPolynomial(PASERSSIGNATURE){ return twoOperation(CALLPASERSSIGNATURE, parserFactor, switchPolynomial, FACTOR, POLYNOMIAL, "factor", "polynomial"); } /** * 因式匹配 * parserFactor: * | parserBaseValue [1] * | switchFactor ADD parserBaseValue * | switchFactor SUB parserBaseValue */ bool switchFactor(PASERSSIGNATURE, int symbol, Statement **st){ switch (symbol) { case MATHER_MUL: *st = makeOperationStatement(MUL); break; case MATHER_DIV: *st = makeOperationStatement(DIV); break; default: return false; } return true; } void parserFactor(PASERSSIGNATURE){ return twoOperation(CALLPASERSSIGNATURE, parserCallBack, switchFactor, CALLBACK, FACTOR, "call back", "factor"); } int tailCall(PASERSSIGNATURE, Token *left_token, Statement **st){ if (readBackToken(pm) != MATHER_LP){ return -1; } delToken(pm); if (!checkToken_(pm, MATHER_RP)){ syntaxError(pm, syntax_error, 1, "Don't get ) from call back"); return 0; } *st = makeCallStatement(left_token->data.st); return 1; } void parserCallBack(PASERSSIGNATURE){ return tailOperation(CALLPASERSSIGNATURE, parserBaseValue, tailCall, BASEVALUE, CALLBACK, "Base Value", "Call Back"); } int getOperation(PASERSSIGNATURE, int right_type, Statement **st, char *name){ if (!callChildStatement(CALLPASERSSIGNATURE, parserOperation, OPERATION, st, NULL)) return 0; if (readBackToken(pm) != right_type){ freeStatement(*st); return -1; } delToken(pm); return 1; } /** * 字面量匹配 * parserBaseValue: * | MATHER_NUMBER * | MATHER_STRING */ void parserBaseValue(PASERSSIGNATURE){ int token_type; Token *value_token = NULL; struct Statement *st = NULL; token_type = readBackToken(pm); if(MATHER_NUMBER == token_type){ writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "Base Value: get number\n", NULL); value_token= popAheadToken(pm); char *stop; st = makeStatement(); st->type = base_value; st->u.base_value.value = makeNumberValue(strtol(value_token->data.str, &stop, 10), inter); } else if(MATHER_STRING == token_type){ writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "Base Value: get string\n", NULL); value_token= popAheadToken(pm); st = makeStatement(); st->type = base_value; st->u.base_value.value = makeStringValue(value_token->data.str, inter); } else if(MATHER_VAR == token_type){ writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "Base Value: get var\n", NULL); value_token= popAheadToken(pm); st = makeStatement(); st->type = base_var; st->u.base_var.name = memStrcpy(value_token->data.str, 0, false, false); st->u.base_var.times = NULL; } else if(MATHER_LB == token_type){ int tmp; Statement *tmp_st = NULL; writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "base value: get operation\n", NULL); value_token= popAheadToken(pm); tmp = getOperation(CALLPASERSSIGNATURE, MATHER_RB, &tmp_st, "base value"); if (tmp == 0){ freeToken(value_token, true, true); syntaxError(pm, syntax_error, 1, "Don't get operation from list/var"); goto return_; } else if(tmp == -1){ freeToken(value_token, true, true); syntaxError(pm, syntax_error, 1, "Don't get ] from list/var"); goto return_; } if (MATHER_VAR == readBackToken(pm)){ Token *var_token; var_token= popAheadToken(pm); st = makeStatement(); st->type = base_var; st->u.base_var.name = memStrcpy(var_token->data.str, 0, false, false); st->u.base_var.times = tmp_st; freeToken(var_token, true, false); } // TODO-szh list处理 } else if(MATHER_LP == token_type){ writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "base value: get operation\n", NULL); value_token= popAheadToken(pm); int tmp = getOperation(CALLPASERSSIGNATURE, MATHER_RP, &st, "base value"); if (tmp == 0){ freeToken(value_token, true, true); syntaxError(pm, syntax_error, 1, "Don't get operation from Base Value"); goto return_; } else if(tmp == -1){ freeToken(value_token, true, true); syntaxError(pm, syntax_error, 1, "Don't get ) from Base Value"); goto return_; } } else{ writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "Base Value: else\n", NULL); goto return_; } freeToken(value_token, true, false); addStatementToken(BASEVALUE, st, pm); return_: return; } inline void twoOperation(PASERSSIGNATURE, void (*callBack)(PASERSSIGNATURE), int (*getSymbol)(PASERSSIGNATURE, int symbol, Statement **st), int type, int self_type, char *call_name, char *self_name){ while(true){ Token *left_token = NULL, *right_token = NULL; struct Statement *st = NULL; readBackToken(pm); if (readBackToken(pm) != self_type){ writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "%s: call %s(left)\n", self_name, call_name); if (!callChildStatement(CALLPASERSSIGNATURE, callBack, type, &st, NULL)) goto return_; addStatementToken(self_type, st, pm); writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "%s: get %s(left) success[push %s]\n", self_name, call_name, self_name); continue; } left_token= popAheadToken(pm); writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "%s: call symbol\n", self_name); if (getSymbol(CALLPASERSSIGNATURE, readBackToken(pm), &st)){ delToken(pm); } else{ backToken_(pm, left_token); goto return_; } writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "%s: get symbol success\n%s: call %s[right]\n", self_name, self_name, call_name); callBack(CALLPASERSSIGNATURE); // 获得右值 if (!call_success(pm)){ freeToken(left_token, true, false); freeStatement(st); goto return_; } if (readBackToken(pm) != type){ // 若非正确数值 syntaxError(pm, syntax_error, 3, "ERROR from ", self_name, "(get right)"); freeToken(left_token, true, true); freeStatement(st); goto return_; } right_token= popAheadToken(pm); addToken_(pm, setOperationFromToken(st, left_token, right_token, self_type)); writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "Polynomial: get base value(right) success[push polynomial]\n", NULL); } return_: return; } inline void tailOperation(PASERSSIGNATURE, void (*callBack)(PASERSSIGNATURE), int (*tailFunction)(PASERSSIGNATURE, Token *left_token, Statement **st), int type, int self_type, char *call_name, char *self_name){ while(true){ Token *left_token = NULL; struct Statement *st = NULL; if (readBackToken(pm) != self_type){ writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "%s: call %s(left)\n", self_name, call_name); if (!callChildStatement(CALLPASERSSIGNATURE, callBack, type, &st, NULL)) goto return_; addStatementToken(self_type, st, pm); writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "%s: get %s(left) success[push %s]\n", self_name, call_name, self_name); continue; } left_token= popAheadToken(pm); int tail_status = tailFunction(CALLPASERSSIGNATURE, left_token, &st); if (tail_status == -1){ backToken_(pm, left_token); goto return_; } else if(!tail_status){ goto error_; } addStatementToken(self_type, st, pm); freeToken(left_token, true, false); writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "%s: call tail success\n", self_name); continue; error_: freeToken(left_token, true, true); goto return_; } return_: return; } /** * syntax错误处理器 * @param pm * @param message 错误信息 * @param status 错误类型 */ void syntaxError(ParserMessage *pm, int status, int num, ...) { if (pm->status != success) return; char *message = NULL; va_list message_args; if (status <= 0){ message = "Not message"; goto not_message; } va_start(message_args, num); for (int i=0; i < num; i++) { char *new_message; new_message = memStrcat(message, va_arg(message_args, char *)); memFree(message); message = new_message; } va_end(message_args); not_message: pm->status = status; pm->status_message = message; } int readBackToken(ParserMessage *pm){ writeLog(pm->grammar_debug, GRAMMAR_DEBUG, "token operation number : %d\n", pm->count); writeLog(pm->paser_debug, DEBUG, "\ntoken operation number : %d\n", pm->count); pm->count ++; Token *tmp = popNewToken(pm->tm, pm->paser_debug); if (tmp->token_type == -2){ freeToken(tmp, true, false); syntaxError(pm, lexical_error, 1, "lexical make some error"); } addBackToken(pm->tm->ts, tmp, pm->paser_debug); return tmp->token_type; } Token *popAheadToken(ParserMessage *pm){ doubleLog(pm, GRAMMAR_DEBUG, DEBUG, "token operation number : %d\n", pm->count ++); return popNewToken(pm->tm, pm->paser_debug); } bool checkToken_(ParserMessage *pm, int type){ if (readBackToken(pm) != type){ return false; } delToken(pm); return true; } bool commandCallControl_(PASERSSIGNATURE, Statement *(*callBack)(Statement *), int type, Statement **st, char *message){ writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, "message", NULL); Token *tmp_token = NULL; parserControl(CALLPASERSSIGNATURE, callBack, type); if (!call_success(pm) || readBackToken(pm) != type) return false; tmp_token = popAheadToken(pm); *st = tmp_token->data.st; freeToken(tmp_token, true, false); return true; } inline bool commandCallBack_(PASERSSIGNATURE, void (*callBack)(PASERSSIGNATURE), int type, Statement **st, char *message){ writeLog_(pm->grammar_debug, GRAMMAR_DEBUG, message, NULL); return callChildStatement(CALLPASERSSIGNATURE, callBack, type, st, NULL); } bool callParserCode(PASERSSIGNATURE, Statement **st,char *message){ Statement *new_st = NULL; if(!callChildStatement(CALLPASERSSIGNATURE, parserCode, CODE, &new_st, message)){ return false; } if (*st != NULL) freeStatement(*st); *st = new_st; return true; } bool callParserAs(PASERSSIGNATURE, Statement **st,char *message){ if (readBackToken(pm) == MATHER_AS) { delToken(pm); return callChildStatement(CALLPASERSSIGNATURE, parserOperation, OPERATION, st, message); } else *st = NULL; return true; } bool callChildToken(ParserMessage *pm, Inter *inter, void (*call)(ParserMessage *, Inter *), int type, Token **tmp, char *message, int error_type) { call(CALLPASERSSIGNATURE); if (!call_success(pm)) { *tmp = NULL; return false; } if (readBackToken(pm) != type) { *tmp = NULL; if (message != NULL) syntaxError(pm, error_type, 1, message); return false; } *tmp = popAheadToken(pm); return true; } bool callChildStatement(PASERSSIGNATURE, void (*call)(PASERSSIGNATURE), int type, Statement **st, char *message){ Token *tmp = NULL; bool status = callChildToken(CALLPASERSSIGNATURE, call, type, &tmp, message, syntax_error); if (!status){ *st = NULL; return false; } *st = tmp->data.st; freeToken(tmp, true, false); return true; }