📄 factgen.c
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ClearBitString(&hack,sizeof(struct factGetVarPN2Call));
/*=======================================*/
/* Store the slot in the fact from which */
/* the value will be retrieved. */
/*=======================================*/
hack.whichSlot = (unsigned short) (theNode->slotNumber - 1);
/*=============================*/
/* Return the argument bitmap. */
/*=============================*/
return(AddBitMap(theEnv,&hack,sizeof(struct factGetVarPN2Call)));
}
/*************************************************************/
/* FactGetVarPN3: Creates the arguments for the routine for */
/* retrieving a variable's value from a multifield slot of */
/* a fact. For this routine, the variable's value must be */
/* from a multifield slot that contains at most one */
/* multifield variable or contains no multifield variables */
/* before the variable's value to be retrieved. The */
/* retrieval relies on information stored during fact */
/* pattern matching, so this retrieval mechanism is only */
/* used by expressions in the pattern network. */
/*************************************************************/
static void *FactGetVarPN3(
void *theEnv,
struct lhsParseNode *theNode)
{
struct factGetVarPN3Call hack;
/*===================================================*/
/* Clear the bitmap for storing the argument values. */
/*===================================================*/
ClearBitString(&hack,sizeof(struct factGetVarPN3Call));
/*=======================================*/
/* Store the slot in the fact from which */
/* the value will be retrieved. */
/*=======================================*/
hack.whichSlot = (unsigned short) (theNode->slotNumber - 1);
/*==============================================================*/
/* If a single field variable value is being retrieved, then... */
/*==============================================================*/
if ((theNode->type == SF_WILDCARD) || (theNode->type == SF_VARIABLE))
{
/*=========================================================*/
/* If no multifield values occur before the variable, then */
/* the variable's value can be retrieved based on its */
/* offset from the beginning of the slot's value */
/* regardless of the number of multifield variables or */
/* wildcards following the variable being retrieved. */
/*=========================================================*/
if (theNode->multiFieldsBefore == 0)
{
hack.fromBeginning = 1;
hack.fromEnd = 0;
hack.beginOffset = theNode->singleFieldsBefore;
hack.endOffset = 0;
}
/*===============================================*/
/* Otherwise the variable is retrieved based its */
/* position relative to the end of the slot. */
/*===============================================*/
else
{
hack.fromBeginning = 0;
hack.fromEnd = 1;
hack.beginOffset = 0;
hack.endOffset = theNode->singleFieldsAfter;
}
return(AddBitMap(theEnv,&hack,sizeof(struct factGetVarPN3Call)));
}
/*============================================================*/
/* A multifield variable value is being retrieved. This means */
/* that there are no other multifield variables or wildcards */
/* in the slot. The multifield value is retrieved by storing */
/* the number of single field values which come before and */
/* after the multifield value. The multifield value can then */
/* be retrieved based on the length of the value in the slot */
/* and the number of single field values which must occur */
/* before and after the multifield value. */
/*============================================================*/
hack.fromBeginning = 1;
hack.fromEnd = 1;
hack.beginOffset = theNode->singleFieldsBefore;
hack.endOffset = theNode->singleFieldsAfter;
/*=============================*/
/* Return the argument bitmap. */
/*=============================*/
return(AddBitMap(theEnv,&hack,sizeof(struct factGetVarPN3Call)));
}
/*************************************************************/
/* FactPNVariableComparison: Generates an expression for use */
/* in the fact pattern network to compare two variables of */
/* the same name found in the same pattern. */
/*************************************************************/
globle struct expr *FactPNVariableComparison(
void *theEnv,
struct lhsParseNode *selfNode,
struct lhsParseNode *referringNode)
{
struct expr *top;
struct factCompVarsPN1Call hack;
/*===================================================*/
/* Clear the bitmap for storing the argument values. */
/*===================================================*/
ClearBitString(&hack,sizeof(struct factCompVarsPN1Call));
/*================================================================*/
/* If two single field slots of a deftemplate are being compared, */
/* then use the following specified variable comparison routine. */
/*================================================================*/
if ((selfNode->withinMultifieldSlot == FALSE) &&
(selfNode->slotNumber > 0) &&
(referringNode->withinMultifieldSlot == FALSE) &&
(referringNode->slotNumber > 0))
{
hack.pass = 0;
hack.fail = 0;
hack.field1 = (unsigned int) selfNode->slotNumber - 1;
hack.field2 = (unsigned int) referringNode->slotNumber - 1;
if (selfNode->negated) hack.fail = 1;
else hack.pass = 1;
top = GenConstant(theEnv,FACT_PN_CMP1,AddBitMap(theEnv,&hack,sizeof(struct factCompVarsPN1Call)));
}
/*================================================================*/
/* Otherwise, use the eq function to compare the values retrieved */
/* by the appropriate get variable value functions. */
/*================================================================*/
else
{
if (selfNode->negated) top = GenConstant(theEnv,FCALL,ExpressionData(theEnv)->PTR_NEQ);
else top = GenConstant(theEnv,FCALL,ExpressionData(theEnv)->PTR_EQ);
top->argList = FactGenGetfield(theEnv,selfNode);
top->argList->nextArg = FactGenGetfield(theEnv,referringNode);
}
/*======================================*/
/* Return the expression for performing */
/* the variable comparison. */
/*======================================*/
return(top);
}
/*********************************************************/
/* FactJNVariableComparison: Generates an expression for */
/* use in the join network to compare two variables of */
/* the same name found in different patterns. */
/*********************************************************/
globle struct expr *FactJNVariableComparison(
void *theEnv,
struct lhsParseNode *selfNode,
struct lhsParseNode *referringNode)
{
struct expr *top;
struct factCompVarsJN1Call hack1;
struct factCompVarsJN2Call hack2;
/*================================================================*/
/* If two single field slots of a deftemplate are being compared, */
/* then use the following specified variable comparison routine. */
/*================================================================*/
if ((selfNode->withinMultifieldSlot == FALSE) &&
(selfNode->slotNumber > 0) &&
(referringNode->withinMultifieldSlot == FALSE) &&
(referringNode->slotNumber > 0))
{
ClearBitString(&hack1,sizeof(struct factCompVarsJN1Call));
hack1.pass = 0;
hack1.fail = 0;
hack1.slot1 = (unsigned int) selfNode->slotNumber - 1;
hack1.pattern2 = (unsigned int) referringNode->pattern;
if (referringNode->index < 0) hack1.slot2 = 0;
else hack1.slot2 = (unsigned int) referringNode->slotNumber - 1;
if (selfNode->negated) hack1.fail = 1;
else hack1.pass = 1;
top = GenConstant(theEnv,FACT_JN_CMP1,AddBitMap(theEnv,&hack1,sizeof(struct factCompVarsJN1Call)));
}
/*===============================================================*/
/* If two single field values are compared and either or both of */
/* them are contained in multifield slots (and the value can be */
/* accessed relative to either the beginning or end of the slot */
/* with no intervening multifield variables), then use the */
/* following specified variable comparison routine. */
/*===============================================================*/
else if ((selfNode->slotNumber > 0) &&
(selfNode->type == SF_VARIABLE) &&
((selfNode->multiFieldsBefore == 0) ||
((selfNode->multiFieldsBefore == 1) &&
(selfNode->multiFieldsAfter == 0))) &&
(referringNode->slotNumber > 0) &&
(referringNode->type == SF_VARIABLE) &&
((referringNode->multiFieldsBefore == 0) ||
(referringNode->multiFieldsAfter == 0)))
{
ClearBitString(&hack2,sizeof(struct factCompVarsJN2Call));
hack2.pass = 0;
hack2.fail = 0;
hack2.slot1 = (unsigned int) selfNode->slotNumber - 1;
hack2.pattern2 = (unsigned int) referringNode->pattern;
hack2.slot2 = (unsigned int) referringNode->slotNumber - 1;
if (selfNode->multiFieldsBefore == 0)
{
hack2.fromBeginning1 = 1;
hack2.offset1 = selfNode->singleFieldsBefore;
}
else
{
hack2.fromBeginning1 = 0;
hack2.offset1 = selfNode->singleFieldsAfter;
}
if (referringNode->multiFieldsBefore == 0)
{
hack2.fromBeginning2 = 1;
hack2.offset2 = referringNode->singleFieldsBefore;
}
else
{
hack2.fromBeginning2 = 0;
hack2.offset2 = referringNode->singleFieldsAfter;
}
if (selfNode->negated) hack2.fail = 1;
else hack2.pass = 1;
top = GenConstant(theEnv,FACT_JN_CMP2,AddBitMap(theEnv,&hack2,sizeof(struct factCompVarsJN2Call)));
}
/*===============================================================*/
/* Otherwise, use the equality or inequality function to compare */
/* the values returned by the appropriate join network variable */
/* retrieval function call. */
/*===============================================================*/
else
{
if (selfNode->negated)
{ top = GenConstant(theEnv,FCALL,ExpressionData(theEnv)->PTR_NEQ); }
else
{ top = GenConstant(theEnv,FCALL,ExpressionData(theEnv)->PTR_EQ); }
top->argList = FactGenGetvar(theEnv,selfNode);
top->argList->nextArg = FactGenGetvar(theEnv,referringNode);
}
/*======================================*/
/* Return the expression for performing */
/* the variable comparison. */
/*======================================*/
return(top);
}
#endif /* (! RUN_TIME) && (! BLOAD_ONLY) */
#endif /* DEFTEMPLATE_CONSTRUCT && DEFRULE_CONSTRUCT */
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