/***********************************************************
NAME : EvaluateAndStoreInDataObject
DESCRIPTION : Evaluates slot-value expressions
and stores the result in a
Kernel data object
INPUTS : 1) Flag indicating if multifields are OK
2) The value-expression
3) The data object structure
4) Flag indicating if a multifield value
should be placed on the garbage list.
RETURNS : FALSE on errors, TRUE otherwise
SIDE EFFECTS : Segment allocated for storing
multifield values
NOTES : None
***********************************************************/
globle int EvaluateAndStoreInDataObject(
void *theEnv,
int mfp,
EXPRESSION *theExp,
DATA_OBJECT *val,
int garbageSegment)
{
val->type = MULTIFIELD;
val->begin = 0;
val->end = -1;
if (theExp == NULL)
{
if (garbageSegment) val->value = EnvCreateMultifield(theEnv,0L);
else val->value = CreateMultifield2(theEnv,0L);
return(TRUE);
}
if ((mfp == 0) && (theExp->nextArg == NULL))
EvaluateExpression(theEnv,theExp,val);
else
StoreInMultifield(theEnv,val,theExp,garbageSegment);
return(EvaluationData(theEnv)->EvaluationError ? FALSE : TRUE);
}
globle void *CopyMultifield(
struct multifield *src)
{
struct multifield *dst;
dst = (struct multifield *) CreateMultifield2(src->multifieldLength);
GenCopyMemory(struct field,src->multifieldLength,&(dst->theFields[0]),&(src->theFields[0]));
return((void *) dst);
}
globle void DuplicateMultifield(
DATA_OBJECT_PTR dst,
DATA_OBJECT_PTR src)
{
dst->type = MULTIFIELD;
dst->begin = 0;
dst->end = src->end - src->begin;
dst->value = (void *) CreateMultifield2(dst->end + 1);
GenCopyMemory(struct field,dst->end + 1,&((struct multifield *) dst->value)->theFields[0],
&((struct multifield *) src->value)->theFields[src->begin]);
}
globle void *DOToMultifield(
DATA_OBJECT *theValue)
{
struct multifield *dst, *src;
if (theValue->type != MULTIFIELD) return(NULL);
dst = (struct multifield *) CreateMultifield2(GetpDOLength(theValue));
src = (struct multifield *) theValue->value;
GenCopyMemory(struct field,dst->multifieldLength,
&(dst->theFields[0]),&(src->theFields[GetpDOBegin(theValue) - 1]));
return((void *) dst);
}
globle struct fact *CreateFact(
void *vTheDeftemplate)
{
struct deftemplate *theDeftemplate = (struct deftemplate *) vTheDeftemplate;
struct fact *newFact;
int i;
/*=================================*/
/* A deftemplate must be specified */
/* in order to create a fact. */
/*=================================*/
if (theDeftemplate == NULL) return(NULL);
/*============================================*/
/* Create a fact for an explicit deftemplate. */
/*============================================*/
if (theDeftemplate->implied == FALSE)
{
newFact = CreateFactBySize((int) theDeftemplate->numberOfSlots);
for (i = 0;
i < (int) theDeftemplate->numberOfSlots;
i++)
{ newFact->theProposition.theFields[i].type = RVOID; }
}
/*===========================================*/
/* Create a fact for an implied deftemplate. */
/*===========================================*/
else
{
newFact = CreateFactBySize(1);
newFact->theProposition.theFields[0].type = MULTIFIELD;
newFact->theProposition.theFields[0].value = CreateMultifield2(0L);
}
/*===============================*/
/* Return a pointer to the fact. */
/*===============================*/
newFact->whichDeftemplate = theDeftemplate;
return(newFact);
}
globle void AssertCommand(
void *theEnv,
DATA_OBJECT_PTR rv)
{
struct deftemplate *theDeftemplate;
struct field *theField;
DATA_OBJECT theValue;
struct expr *theExpression;
struct templateSlot *slotPtr;
struct fact *newFact;
int error = FALSE;
int i;
struct fact *theFact;
/*===================================================*/
/* Set the default return value to the symbol FALSE. */
/*===================================================*/
SetpType(rv,SYMBOL);
SetpValue(rv,EnvFalseSymbol(theEnv));
/*================================*/
/* Get the deftemplate associated */
/* with the fact being asserted. */
/*================================*/
theExpression = GetFirstArgument();
theDeftemplate = (struct deftemplate *) theExpression->value;
/*=======================================*/
/* Create the fact and store the name of */
/* the deftemplate as the 1st field. */
/*=======================================*/
if (theDeftemplate->implied == FALSE)
{
newFact = CreateFactBySize(theEnv,theDeftemplate->numberOfSlots);
slotPtr = theDeftemplate->slotList;
}
else
{
newFact = CreateFactBySize(theEnv,1);
if (theExpression->nextArg == NULL)
{
newFact->theProposition.theFields[0].type = MULTIFIELD;
newFact->theProposition.theFields[0].value = CreateMultifield2(theEnv,0L);
}
slotPtr = NULL;
}
newFact->whichDeftemplate = theDeftemplate;
/*===================================================*/
/* Evaluate the expression associated with each slot */
/* and store the result in the appropriate slot of */
/* the newly created fact. */
/*===================================================*/
theField = newFact->theProposition.theFields;
for (theExpression = theExpression->nextArg, i = 0;
theExpression != NULL;
theExpression = theExpression->nextArg, i++)
{
/*===================================================*/
/* Evaluate the expression to be stored in the slot. */
/*===================================================*/
EvaluateExpression(theEnv,theExpression,&theValue);
/*============================================================*/
/* A multifield value can't be stored in a single field slot. */
/*============================================================*/
if ((slotPtr != NULL) ?
(slotPtr->multislot == FALSE) && (theValue.type == MULTIFIELD) :
FALSE)
{
MultiIntoSingleFieldSlotError(theEnv,slotPtr,theDeftemplate);
theValue.type = SYMBOL;
theValue.value = EnvFalseSymbol(theEnv);
error = TRUE;
}
/*==============================*/
/* Store the value in the slot. */
/*==============================*/
theField[i].type = theValue.type;
theField[i].value = theValue.value;
/*========================================*/
/* Get the information for the next slot. */
/*========================================*/
if (slotPtr != NULL) slotPtr = slotPtr->next;
}
/*============================================*/
/* If an error occured while generating the */
/* fact's slot values, then abort the assert. */
/*============================================*/
if (error)
{
ReturnFact(theEnv,newFact);
return;
}
/*================================*/
/* Add the fact to the fact-list. */
/*================================*/
theFact = (struct fact *) EnvAssert(theEnv,(void *) newFact);
/*========================================*/
/* The asserted fact is the return value. */
/*========================================*/
if (theFact != NULL)
{
SetpType(rv,FACT_ADDRESS);
SetpValue(rv,(void *) theFact);
}
return;
}
globle void StoreInMultifield(
void *theEnv,
DATA_OBJECT *returnValue,
EXPRESSION *expptr,
int garbageSegment)
{
DATA_OBJECT val_ptr;
DATA_OBJECT *val_arr;
struct multifield *theMultifield;
struct multifield *orig_ptr;
long start, end, i,j, k, argCount;
unsigned long seg_size;
argCount = CountArguments(expptr);
/*=========================================*/
/* If no arguments are given return a NULL */
/* multifield of length zero. */
/*=========================================*/
if (argCount == 0)
{
SetpType(returnValue,MULTIFIELD);
SetpDOBegin(returnValue,1);
SetpDOEnd(returnValue,0);
if (garbageSegment) theMultifield = (struct multifield *) EnvCreateMultifield(theEnv,0L);
else theMultifield = (struct multifield *) CreateMultifield2(theEnv,0L);
SetpValue(returnValue,(void *) theMultifield);
return;
}
else
{
/*========================================*/
/* Get a new segment with length equal to */
/* the total length of all the arguments. */
/*========================================*/
val_arr = (DATA_OBJECT *) gm3(theEnv,(long) sizeof(DATA_OBJECT) * argCount);
seg_size = 0;
for (i = 1; i <= argCount; i++, expptr = expptr->nextArg)
{
EvaluateExpression(theEnv,expptr,&val_ptr);
if (EvaluationData(theEnv)->EvaluationError)
{
SetpType(returnValue,MULTIFIELD);
SetpDOBegin(returnValue,1);
SetpDOEnd(returnValue,0);
if (garbageSegment)
{ theMultifield = (struct multifield *) EnvCreateMultifield(theEnv,0L); }
else theMultifield = (struct multifield *) CreateMultifield2(theEnv,0L);
SetpValue(returnValue,(void *) theMultifield);
rm3(theEnv,val_arr,(long) sizeof(DATA_OBJECT) * argCount);
return;
}
SetpType(val_arr+i-1,GetType(val_ptr));
if (GetType(val_ptr) == MULTIFIELD)
{
SetpValue(val_arr+i-1,GetpValue(&val_ptr));
start = GetDOBegin(val_ptr);
end = GetDOEnd(val_ptr);
}
else if (GetType(val_ptr) == RVOID)
{
SetpValue(val_arr+i-1,GetValue(val_ptr));
start = 1;
end = 0;
}
else
{
SetpValue(val_arr+i-1,GetValue(val_ptr));
start = end = -1;
}
seg_size += (unsigned long) (end - start + 1);
SetpDOBegin(val_arr+i-1,start);
SetpDOEnd(val_arr+i-1,end);
}
if (garbageSegment)
{ theMultifield = (struct multifield *) EnvCreateMultifield(theEnv,seg_size); }
else theMultifield = (struct multifield *) CreateMultifield2(theEnv,seg_size);
/*========================================*/
/* Copy each argument into new segment. */
/*========================================*/
for (k = 0, j = 1; k < argCount; k++)
{
if (GetpType(val_arr+k) == MULTIFIELD)
{
start = GetpDOBegin(val_arr+k);
end = GetpDOEnd(val_arr+k);
orig_ptr = (struct multifield *) GetpValue(val_arr+k);
for (i = start; i < end + 1; i++, j++)
{
SetMFType(theMultifield,j,(GetMFType(orig_ptr,i)));
SetMFValue(theMultifield,j,(GetMFValue(orig_ptr,i)));
}
}
else if (GetpType(val_arr+k) != RVOID)
{
SetMFType(theMultifield,j,(short) (GetpType(val_arr+k)));
SetMFValue(theMultifield,j,(GetpValue(val_arr+k)));
j++;
}
}
/*=========================*/
/* Return the new segment. */
/*=========================*/
SetpType(returnValue,MULTIFIELD);
SetpDOBegin(returnValue,1);
SetpDOEnd(returnValue,(long) seg_size);
SetpValue(returnValue,(void *) theMultifield);
rm3(theEnv,val_arr,(long) sizeof(DATA_OBJECT) * argCount);
return;
}
}
globle void DeriveDefaultFromConstraints(
void *theEnv,
CONSTRAINT_RECORD *constraints,
DATA_OBJECT *theDefault,
int multifield,
int garbageMultifield)
{
unsigned short theType;
unsigned long minFields;
void *theValue;
/*=============================================================*/
/* If no constraints are specified, then use the symbol nil as */
/* a default for single field slots and a multifield of length */
/* 0 as a default for multifield slots. */
/*=============================================================*/
if (constraints == NULL)
{
if (multifield)
{
SetpType(theDefault,MULTIFIELD);
SetpDOBegin(theDefault,1);
SetpDOEnd(theDefault,0);
if (garbageMultifield) SetpValue(theDefault,(void *) EnvCreateMultifield(theEnv,0L));
else SetpValue(theDefault,(void *) CreateMultifield2(theEnv,0L));
}
else
{
theDefault->type = SYMBOL;
theDefault->value = EnvAddSymbol(theEnv,(char*)"nil");
}
return;
}
/*=========================================*/
/* Determine the default's type and value. */
/*=========================================*/
if (constraints->anyAllowed || constraints->symbolsAllowed)
{
theType = SYMBOL;
theValue = FindDefaultValue(theEnv,SYMBOL,constraints,EnvAddSymbol(theEnv,(char*)"nil"));
}
else if (constraints->stringsAllowed)
{
theType = STRING;
theValue = FindDefaultValue(theEnv,STRING,constraints,EnvAddSymbol(theEnv,(char*)""));
}
else if (constraints->integersAllowed)
{
theType = INTEGER;
theValue = FindDefaultValue(theEnv,INTEGER,constraints,EnvAddLong(theEnv,0LL));
}
else if (constraints->floatsAllowed)
{
theType = FLOAT;
theValue = FindDefaultValue(theEnv,FLOAT,constraints,EnvAddDouble(theEnv,0.0));
}
#if OBJECT_SYSTEM
else if (constraints->instanceNamesAllowed)
{
theType = INSTANCE_NAME;
theValue = FindDefaultValue(theEnv,INSTANCE_NAME,constraints,EnvAddSymbol(theEnv,(char*)"nil"));
}
else if (constraints->instanceAddressesAllowed)
{
theType = INSTANCE_ADDRESS;
theValue = (void *) &InstanceData(theEnv)->DummyInstance;
}
#endif
#if DEFTEMPLATE_CONSTRUCT
else if (constraints->factAddressesAllowed)
{
theType = FACT_ADDRESS;
theValue = (void *) &FactData(theEnv)->DummyFact;
}
#endif
else if (constraints->externalAddressesAllowed)
{
theType = EXTERNAL_ADDRESS;
theValue = EnvAddExternalAddress(theEnv,NULL,0);
}
else
{
theType = SYMBOL;
theValue = EnvAddSymbol(theEnv,(char*)"nil");
}
/*=========================================================*/
/* If the default is for a multifield slot, then create a */
/* multifield default value that satisfies the cardinality */
/* constraints for the slot. The default value for a */
/* multifield slot is a multifield of length 0. */
/*=========================================================*/
if (multifield)
{
if (constraints->minFields == NULL) minFields = 0;
else if (constraints->minFields->value == SymbolData(theEnv)->NegativeInfinity) minFields = 0;
else minFields = (unsigned long) ValueToLong(constraints->minFields->value);
SetpType(theDefault,MULTIFIELD);
SetpDOBegin(theDefault,1);
SetpDOEnd(theDefault,(long) minFields);
if (garbageMultifield) SetpValue(theDefault,(void *) EnvCreateMultifield(theEnv,minFields));
else SetpValue(theDefault,(void *) CreateMultifield2(theEnv,minFields));
for (; minFields > 0; minFields--)
{
SetMFType(GetpValue(theDefault),minFields,theType);
SetMFValue(GetpValue(theDefault),minFields,theValue);
}
}
else
{
theDefault->type = theType;
theDefault->value = theValue;
}
}
