globle void SetBreakCommand( void *theEnv) { DATA_OBJECT argPtr; char *argument; void *defrulePtr; if (EnvArgCountCheck(theEnv,"set-break",EXACTLY,1) == -1) return; if (EnvArgTypeCheck(theEnv,"set-break",1,SYMBOL,&argPtr) == FALSE) return; argument = DOToString(argPtr); if ((defrulePtr = EnvFindDefrule(theEnv,argument)) == NULL) { CantFindItemErrorMessage(theEnv,"defrule",argument); return; } EnvSetBreak(theEnv,defrulePtr); }
globle int ParseDefrule( void *theEnv, const char *readSource) { #if (! RUN_TIME) && (! BLOAD_ONLY) SYMBOL_HN *ruleName; struct lhsParseNode *theLHS; struct expr *actions; struct token theToken; struct defrule *topDisjunct, *tempPtr; struct defruleModule *theModuleItem; int error; /*================================================*/ /* Flush the buffer which stores the pretty print */ /* representation for a rule. Add the already */ /* parsed keyword defrule to this buffer. */ /*================================================*/ SetPPBufferStatus(theEnv,ON); FlushPPBuffer(theEnv); SavePPBuffer(theEnv,"(defrule "); /*=========================================================*/ /* Rules cannot be loaded when a binary load is in effect. */ /*=========================================================*/ #if BLOAD || BLOAD_ONLY || BLOAD_AND_BSAVE if ((Bloaded(theEnv) == TRUE) && (! ConstructData(theEnv)->CheckSyntaxMode)) { CannotLoadWithBloadMessage(theEnv,"defrule"); return(TRUE); } #endif /*================================================*/ /* Parse the name and comment fields of the rule, */ /* deleting the rule if it already exists. */ /*================================================*/ #if DEBUGGING_FUNCTIONS DefruleData(theEnv)->DeletedRuleDebugFlags = 0; #endif ruleName = GetConstructNameAndComment(theEnv,readSource,&theToken,"defrule", EnvFindDefruleInModule,EnvUndefrule,"*",FALSE, TRUE,TRUE,FALSE); if (ruleName == NULL) return(TRUE); /*============================*/ /* Parse the LHS of the rule. */ /*============================*/ theLHS = ParseRuleLHS(theEnv,readSource,&theToken,ValueToString(ruleName),&error); if (error) { ReturnPackedExpression(theEnv,PatternData(theEnv)->SalienceExpression); PatternData(theEnv)->SalienceExpression = NULL; return(TRUE); } /*============================*/ /* Parse the RHS of the rule. */ /*============================*/ ClearParsedBindNames(theEnv); ExpressionData(theEnv)->ReturnContext = TRUE; actions = ParseRuleRHS(theEnv,readSource); if (actions == NULL) { ReturnPackedExpression(theEnv,PatternData(theEnv)->SalienceExpression); PatternData(theEnv)->SalienceExpression = NULL; ReturnLHSParseNodes(theEnv,theLHS); return(TRUE); } /*=======================*/ /* Process the rule LHS. */ /*=======================*/ topDisjunct = ProcessRuleLHS(theEnv,theLHS,actions,ruleName,&error); ReturnExpression(theEnv,actions); ClearParsedBindNames(theEnv); ReturnLHSParseNodes(theEnv,theLHS); if (error) { ReturnPackedExpression(theEnv,PatternData(theEnv)->SalienceExpression); PatternData(theEnv)->SalienceExpression = NULL; return(TRUE); } /*==============================================*/ /* If we're only checking syntax, don't add the */ /* successfully parsed defrule to the KB. */ /*==============================================*/ if (ConstructData(theEnv)->CheckSyntaxMode) { ReturnPackedExpression(theEnv,PatternData(theEnv)->SalienceExpression); PatternData(theEnv)->SalienceExpression = NULL; return(FALSE); } PatternData(theEnv)->SalienceExpression = NULL; /*======================================*/ /* Save the nice printout of the rules. */ /*======================================*/ SavePPBuffer(theEnv,"\n"); if (EnvGetConserveMemory(theEnv) == TRUE) { topDisjunct->header.ppForm = NULL; } else { topDisjunct->header.ppForm = CopyPPBuffer(theEnv); } /*=======================================*/ /* Store a pointer to the rule's module. */ /*=======================================*/ theModuleItem = (struct defruleModule *) GetModuleItem(theEnv,NULL,FindModuleItem(theEnv,"defrule")->moduleIndex); for (tempPtr = topDisjunct; tempPtr != NULL; tempPtr = tempPtr->disjunct) { tempPtr->header.whichModule = (struct defmoduleItemHeader *) theModuleItem; tempPtr->header.ppForm = topDisjunct->header.ppForm; } /*===============================================*/ /* Rule completely parsed. Add to list of rules. */ /*===============================================*/ AddToDefruleList(topDisjunct); /*========================================================================*/ /* If a rule is redefined, then we want to restore its breakpoint status. */ /*========================================================================*/ #if DEBUGGING_FUNCTIONS if (BitwiseTest(DefruleData(theEnv)->DeletedRuleDebugFlags,0)) { EnvSetBreak(theEnv,topDisjunct); } if (BitwiseTest(DefruleData(theEnv)->DeletedRuleDebugFlags,1) || EnvGetWatchItem(theEnv,"activations")) { EnvSetDefruleWatchActivations(theEnv,ON,(void *) topDisjunct); } if (BitwiseTest(DefruleData(theEnv)->DeletedRuleDebugFlags,2) || EnvGetWatchItem(theEnv,"rules")) { EnvSetDefruleWatchFirings(theEnv,ON,(void *) topDisjunct); } #endif /*================================*/ /* Perform the incremental reset. */ /*================================*/ IncrementalReset(theEnv,topDisjunct); /*=============================================*/ /* Return FALSE to indicate no errors occured. */ /*=============================================*/ #endif return(FALSE); }
void Rule::set_break( ) { if ( m_cobj ) EnvSetBreak( m_environment.cobj(), m_cobj ); }