/***************************************************
NAME : InitObjectPatternsCode
DESCRIPTION : Prints out run-time initialization
code for object patterns
INPUTS : 1) A pointer to the output file
2) The id of constructs-to-c image
3) The maximum number of indices
allowed in any single array
in the image
RETURNS : Nothing useful
SIDE EFFECTS : Initialization code written
NOTES : None
***************************************************/
static void InitObjectPatternsCode(
void *theEnv,
FILE *initFP,
int imageID,
int maxIndices)
{
long firstIntermediateNode,firstAlphaNode;
if (ObjectNetworkPointer(theEnv) != NULL)
{
firstIntermediateNode = ObjectNetworkPointer(theEnv)->bsaveID;
firstAlphaNode = ObjectNetworkTerminalPointer(theEnv)->bsaveID;
fprintf(initFP," SetObjectNetworkPointer(theEnv,&%s%d_%d[%d]);\n",
ObjectPNPrefix(),imageID,
(int) ((firstIntermediateNode / maxIndices) + 1),
(int) (firstIntermediateNode % maxIndices));
fprintf(initFP," SetObjectNetworkTerminalPointer(theEnv,&%s%d_%d[%d]);\n",
ObjectANPrefix(),imageID,
(int) ((firstAlphaNode / maxIndices) + 1),
(int) (firstAlphaNode % maxIndices));
}
else
{
fprintf(initFP," SetObjectNetworkPointer(theEnv,NULL);\n");
fprintf(initFP," SetObjectNetworkTerminalPointer(theEnv,NULL);\n");
}
}
/***************************************************
NAME : PrintObjectPatternNetwork
DESCRIPTION : Displays an indented printout of
the object pattern network
INPUTS : None
RETURNS : Nothing useful
SIDE EFFECTS : Object pattern network displayed
NOTES : None
***************************************************/
globle void PrintObjectPatternNetwork()
{
char indentbuf[80];
indentbuf[0] = '\0';
PrintOPNLevel(ObjectNetworkPointer(),indentbuf,0);
}
/***************************************************
NAME : PrintObjectPatternNetwork
DESCRIPTION : Displays an indented printout of
the object pattern network
INPUTS : None
RETURNS : Nothing useful
SIDE EFFECTS : Object pattern network displayed
NOTES : None
***************************************************/
globle void PrintObjectPatternNetwork(
void *theEnv)
{
char indentbuf[80];
indentbuf[0] = '\0';
PrintOPNLevel(theEnv,ObjectNetworkPointer(theEnv),indentbuf,0);
}
/*****************************************************
NAME : BeforeObjectPatternsToCode
DESCRIPTION : Marks all object pattern intermediate
and alpha memory nodes with a
unique integer id prior to the
constructs-to-c execution
INPUTS : None
RETURNS : Nothing useful
SIDE EFFECTS : bsaveIDs of nodes set
NOTES : None
*****************************************************/
static void BeforeObjectPatternsToCode(
void *theEnv)
{
long whichPattern;
OBJECT_PATTERN_NODE *intermediateNode;
OBJECT_ALPHA_NODE *alphaNode;
struct defmodule *theModule;
DEFCLASS *theDefclass;
CLASS_ALPHA_LINK *theLink;
whichPattern = 0L;
intermediateNode = ObjectNetworkPointer(theEnv);
while (intermediateNode != NULL)
{
intermediateNode->bsaveID = whichPattern++;
intermediateNode = GetNextObjectPatternNode(intermediateNode);
}
whichPattern = 0L;
alphaNode = ObjectNetworkTerminalPointer(theEnv);
while (alphaNode != NULL)
{
alphaNode->bsaveID = whichPattern++;
alphaNode = alphaNode->nxtTerminal;
}
whichPattern = 0L;
for (theModule = (struct defmodule *) EnvGetNextDefmodule(theEnv,NULL);
theModule != NULL;
theModule = (struct defmodule *) EnvGetNextDefmodule(theEnv,theModule))
{
EnvSetCurrentModule(theEnv,(void *) theModule);
for (theDefclass = (DEFCLASS *) EnvGetNextDefclass(theEnv,NULL) ;
theDefclass != NULL ;
theDefclass = (DEFCLASS *) EnvGetNextDefclass(theEnv,(void *) theDefclass))
{
for (theLink = theDefclass->relevant_terminal_alpha_nodes;
theLink != NULL;
theLink = theLink->next)
{ theLink->bsaveID = whichPattern++; }
}
}
}
/***************************************************
NAME : BsaveObjectPatternsFind
DESCRIPTION : Sets the Bsave IDs for the object
pattern data structures and
determines how much space
(including padding) is necessary
for the alpha node bitmPS
INPUTS : None
RETURNS : Nothing useful
SIDE EFFECTS : Counts written
NOTES : None
***************************************************/
static void BsaveObjectPatternsFind(
void *theEnv,
EXEC_STATUS)
{
OBJECT_ALPHA_NODE *alphaPtr;
OBJECT_PATTERN_NODE *patternPtr;
SaveBloadCount(theEnv,execStatus,ObjectReteBinaryData(theEnv,execStatus)->AlphaNodeCount);
SaveBloadCount(theEnv,execStatus,ObjectReteBinaryData(theEnv,execStatus)->PatternNodeCount);
ObjectReteBinaryData(theEnv,execStatus)->AlphaNodeCount = 0L;
alphaPtr = ObjectNetworkTerminalPointer(theEnv,execStatus);
while (alphaPtr != NULL)
{
alphaPtr->classbmp->neededBitMap = TRUE;
if (alphaPtr->slotbmp != NULL)
alphaPtr->slotbmp->neededBitMap = TRUE;
alphaPtr->bsaveID = ObjectReteBinaryData(theEnv,execStatus)->AlphaNodeCount++;
alphaPtr = alphaPtr->nxtTerminal;
}
ObjectReteBinaryData(theEnv,execStatus)->PatternNodeCount = 0L;
patternPtr = ObjectNetworkPointer(theEnv,execStatus);
while (patternPtr != NULL)
{
patternPtr->bsaveID = ObjectReteBinaryData(theEnv,execStatus)->PatternNodeCount++;
if (patternPtr->nextLevel == NULL)
{
while (patternPtr->rightNode == NULL)
{
patternPtr = patternPtr->lastLevel;
if (patternPtr == NULL)
return;
}
patternPtr = patternPtr->rightNode;
}
else
patternPtr = patternPtr->nextLevel;
}
}
/***************************************************
NAME : BsaveObjectPatternsFind
DESCRIPTION : Sets the Bsave IDs for the object
pattern data structures and
determines how much space
(including padding) is necessary
for the alpha node bitmPS
INPUTS : None
RETURNS : Nothing useful
SIDE EFFECTS : Counts written
NOTES : None
***************************************************/
static void BsaveObjectPatternsFind()
{
OBJECT_ALPHA_NODE *alphaPtr;
OBJECT_PATTERN_NODE *patternPtr;
if (Bloaded())
{
SaveBloadCount(AlphaNodeCount);
SaveBloadCount(PatternNodeCount);
}
AlphaNodeCount = 0L;
alphaPtr = ObjectNetworkTerminalPointer();
while (alphaPtr != NULL)
{
alphaPtr->classbmp->neededBitMap = TRUE;
if (alphaPtr->slotbmp != NULL)
alphaPtr->slotbmp->neededBitMap = TRUE;
alphaPtr->bsaveID = AlphaNodeCount++;
alphaPtr = alphaPtr->nxtTerminal;
}
PatternNodeCount = 0L;
patternPtr = ObjectNetworkPointer();
while (patternPtr != NULL)
{
patternPtr->bsaveID = PatternNodeCount++;
if (patternPtr->nextLevel == NULL)
{
while (patternPtr->rightNode == NULL)
{
patternPtr = patternPtr->lastLevel;
if (patternPtr == NULL)
return;
}
patternPtr = patternPtr->rightNode;
}
else
patternPtr = patternPtr->nextLevel;
}
}
/*****************************************************
NAME : BeforeObjectPatternsToCode
DESCRIPTION : Marks all object pattern intermediate
and alpha memory nodes with a
unique integer id prior to the
constructs-to-c execution
INPUTS : None
RETURNS : Nothing useful
SIDE EFFECTS : bsaveIDs of nodes set
NOTES : None
*****************************************************/
static void BeforeObjectPatternsToCode(
void *theEnv)
{
long whichPattern;
OBJECT_PATTERN_NODE *intermediateNode;
OBJECT_ALPHA_NODE *alphaNode;
whichPattern = 0L;
intermediateNode = ObjectNetworkPointer(theEnv);
while (intermediateNode != NULL)
{
intermediateNode->bsaveID = whichPattern++;
intermediateNode = GetNextObjectPatternNode(intermediateNode);
}
whichPattern = 0L;
alphaNode = ObjectNetworkTerminalPointer(theEnv);
while (alphaNode != NULL)
{
alphaNode->bsaveID = whichPattern++;
alphaNode = alphaNode->nxtTerminal;
}
}
/***************************************************
NAME : BsaveObjectPatterns
DESCRIPTION : Writes ouyt object pattern data
structures to binary save file
INPUTS : Bsave file stream pointer
RETURNS : Nothing useful
SIDE EFFECTS : Data structures written
NOTES : Extra padding written with alpha
node bitmaps to ensure correct
alignment of structues on bload
***************************************************/
static void BsaveObjectPatterns(
void *theEnv,
EXEC_STATUS,
FILE *fp)
{
size_t space;
OBJECT_ALPHA_NODE *alphaPtr;
OBJECT_PATTERN_NODE *patternPtr;
BSAVE_OBJECT_ALPHA_NODE dummyAlpha;
BSAVE_OBJECT_PATTERN_NODE dummyPattern;
space = (sizeof(BSAVE_OBJECT_ALPHA_NODE) * ObjectReteBinaryData(theEnv,execStatus)->AlphaNodeCount) +
(sizeof(BSAVE_OBJECT_PATTERN_NODE) * ObjectReteBinaryData(theEnv,execStatus)->PatternNodeCount);
GenWrite(&space,sizeof(size_t),fp);
/* ==========================================
Write out the alpha terminal pattern nodes
========================================== */
alphaPtr = ObjectNetworkTerminalPointer(theEnv,execStatus);
while (alphaPtr != NULL)
{
AssignBsavePatternHeaderValues(theEnv,execStatus,&dummyAlpha.header,&alphaPtr->header);
dummyAlpha.classbmp = (long) alphaPtr->classbmp->bucket;
if (alphaPtr->slotbmp != NULL)
dummyAlpha.slotbmp = (long) alphaPtr->slotbmp->bucket;
else
dummyAlpha.slotbmp = -1L;
dummyAlpha.patternNode = BsaveObjectPatternIndex(alphaPtr->patternNode);
dummyAlpha.nxtInGroup = BsaveObjectAlphaIndex(alphaPtr->nxtInGroup);
dummyAlpha.nxtTerminal = BsaveObjectAlphaIndex(alphaPtr->nxtTerminal);
GenWrite(&dummyAlpha,sizeof(BSAVE_OBJECT_ALPHA_NODE),fp);
alphaPtr = alphaPtr->nxtTerminal;
}
/* ========================================
Write out the intermediate pattern nodes
======================================== */
patternPtr = ObjectNetworkPointer(theEnv,execStatus);
while (patternPtr != NULL)
{
dummyPattern.multifieldNode = patternPtr->multifieldNode;
dummyPattern.whichField = patternPtr->whichField;
dummyPattern.leaveFields = patternPtr->leaveFields;
dummyPattern.endSlot = patternPtr->endSlot;
dummyPattern.selector = patternPtr->selector;
dummyPattern.slotNameID = patternPtr->slotNameID;
dummyPattern.networkTest = HashedExpressionIndex(theEnv,execStatus,patternPtr->networkTest);
dummyPattern.nextLevel = BsaveObjectPatternIndex(patternPtr->nextLevel);
dummyPattern.lastLevel = BsaveObjectPatternIndex(patternPtr->lastLevel);
dummyPattern.leftNode = BsaveObjectPatternIndex(patternPtr->leftNode);
dummyPattern.rightNode = BsaveObjectPatternIndex(patternPtr->rightNode);
dummyPattern.alphaNode = BsaveObjectAlphaIndex(patternPtr->alphaNode);
GenWrite(&dummyPattern,sizeof(BSAVE_OBJECT_PATTERN_NODE),fp);
if (patternPtr->nextLevel == NULL)
{
while (patternPtr->rightNode == NULL)
{
patternPtr = patternPtr->lastLevel;
if (patternPtr == NULL)
{
RestoreBloadCount(theEnv,execStatus,&ObjectReteBinaryData(theEnv,execStatus)->AlphaNodeCount);
RestoreBloadCount(theEnv,execStatus,&ObjectReteBinaryData(theEnv,execStatus)->PatternNodeCount);
return;
}
}
patternPtr = patternPtr->rightNode;
}
else
patternPtr = patternPtr->nextLevel;
}
RestoreBloadCount(theEnv,execStatus,&ObjectReteBinaryData(theEnv,execStatus)->AlphaNodeCount);
RestoreBloadCount(theEnv,execStatus,&ObjectReteBinaryData(theEnv,execStatus)->PatternNodeCount);
}
/*************************************************************
NAME : IntermediatePatternNodesToCode
DESCRIPTION : Writes out data structures for run-time
creation of object pattern intermediate nodes
INPUTS : 1) The base image output file name
2) The base image file id
3) A pointer to the header output file
4) The id of constructs-to-c image
5) The maximum number of indices
allowed in any single array
in the image
RETURNS : Next version file to open, 0 if error
SIDE EFFECTS : Object patterns code written to files
NOTES : None
*************************************************************/
static int IntermediatePatternNodesToCode(
void *theEnv,
char *fileName,
int fileID,
FILE *headerFP,
int imageID,
int maxIndices,
int version)
{
FILE *fp;
int arrayVersion;
int newHeader;
int i;
OBJECT_PATTERN_NODE *thePattern;
/* ================
Create the file.
================ */
if (ObjectNetworkPointer(theEnv) == NULL)
return(1);
fprintf(headerFP,"#include \"objrtmch.h\"\n");
/* =================================
Dump the pattern node structures.
================================= */
if ((fp = NewCFile(theEnv,fileName,fileID,version,FALSE)) == NULL)
return(0);
newHeader = TRUE;
arrayVersion = 1;
i = 1;
thePattern = ObjectNetworkPointer(theEnv);
while (thePattern != NULL)
{
if (newHeader)
{
fprintf(fp,"OBJECT_PATTERN_NODE %s%d_%d[] = {\n",
ObjectPNPrefix(),imageID,arrayVersion);
fprintf(headerFP,"extern OBJECT_PATTERN_NODE %s%d_%d[];\n",
ObjectPNPrefix(),imageID,arrayVersion);
newHeader = FALSE;
}
fprintf(fp,"{0,%u,%u,%u,%u,0L,%u,",thePattern->multifieldNode,
thePattern->endSlot,
thePattern->whichField,
thePattern->leaveFields,
thePattern->slotNameID);
PrintHashedExpressionReference(theEnv,fp,thePattern->networkTest,imageID,maxIndices);
fprintf(fp,",");
IntermediatePatternNodeReference(theEnv,thePattern->nextLevel,fp,imageID,maxIndices);
fprintf(fp,",");
IntermediatePatternNodeReference(theEnv,thePattern->lastLevel,fp,imageID,maxIndices);
fprintf(fp,",");
IntermediatePatternNodeReference(theEnv,thePattern->leftNode,fp,imageID,maxIndices);
fprintf(fp,",");
IntermediatePatternNodeReference(theEnv,thePattern->rightNode,fp,imageID,maxIndices);
fprintf(fp,",");
ObjectPatternNodeReference(theEnv,(void *) thePattern->alphaNode,fp,imageID,maxIndices);
fprintf(fp,",0L}");
i++;
thePattern = GetNextObjectPatternNode(thePattern);
if ((i > maxIndices) || (thePattern == NULL))
{
fprintf(fp,"};\n");
GenClose(fp);
i = 1;
version++;
arrayVersion++;
if (thePattern != NULL)
{
if ((fp = NewCFile(theEnv,fileName,fileID,version,FALSE)) == NULL)
return(0);
newHeader = TRUE;
}
}
else if (thePattern != NULL)
{ fprintf(fp,",\n"); }
}
return(version);
}
/***************************************************
NAME : BsaveObjectPatterns
DESCRIPTION : Writes ouyt object pattern data
structures to binary save file
INPUTS : Bsave file stream pointer
RETURNS : Nothing useful
SIDE EFFECTS : Data structures written
NOTES : Extra padding written with alpha
node bitmaps to ensure correct
alignment of structues on bload
***************************************************/
static void BsaveObjectPatterns(
FILE *fp)
{
UNLN space;
OBJECT_ALPHA_NODE *alphaPtr;
OBJECT_PATTERN_NODE *patternPtr;
BSAVE_OBJECT_ALPHA_NODE dummyAlpha;
BSAVE_OBJECT_PATTERN_NODE dummyPattern;
space = (sizeof(BSAVE_OBJECT_ALPHA_NODE) * AlphaNodeCount) +
(sizeof(BSAVE_OBJECT_PATTERN_NODE) * PatternNodeCount);
GenWrite(&space,(UNLN) sizeof(UNLN),fp);
/* ==========================================
Write out the alpha terminal pattern nodes
========================================== */
alphaPtr = ObjectNetworkTerminalPointer();
while (alphaPtr != NULL)
{
AssignBsavePatternHeaderValues(&dummyAlpha.header,&alphaPtr->header);
dummyAlpha.classbmp = alphaPtr->classbmp->bucket;
if (alphaPtr->slotbmp != NULL)
dummyAlpha.slotbmp = alphaPtr->slotbmp->bucket;
else
dummyAlpha.slotbmp = -1L;
dummyAlpha.patternNode = BsaveObjectPatternIndex(alphaPtr->patternNode);
dummyAlpha.nxtInGroup = BsaveObjectAlphaIndex(alphaPtr->nxtInGroup);
dummyAlpha.nxtTerminal = BsaveObjectAlphaIndex(alphaPtr->nxtTerminal);
GenWrite(&dummyAlpha,(UNLN) sizeof(BSAVE_OBJECT_ALPHA_NODE),fp);
alphaPtr = alphaPtr->nxtTerminal;
}
/* ========================================
Write out the intermediate pattern nodes
======================================== */
patternPtr = ObjectNetworkPointer();
while (patternPtr != NULL)
{
dummyPattern.multifieldNode = patternPtr->multifieldNode;
dummyPattern.whichField = patternPtr->whichField;
dummyPattern.leaveFields = patternPtr->leaveFields;
dummyPattern.endSlot = patternPtr->endSlot;
dummyPattern.slotNameID = patternPtr->slotNameID;
dummyPattern.networkTest = HashedExpressionIndex(patternPtr->networkTest);
dummyPattern.nextLevel = BsaveObjectPatternIndex(patternPtr->nextLevel);
dummyPattern.lastLevel = BsaveObjectPatternIndex(patternPtr->lastLevel);
dummyPattern.leftNode = BsaveObjectPatternIndex(patternPtr->leftNode);
dummyPattern.rightNode = BsaveObjectPatternIndex(patternPtr->rightNode);
dummyPattern.alphaNode = BsaveObjectAlphaIndex(patternPtr->alphaNode);
GenWrite(&dummyPattern,(UNLN) sizeof(BSAVE_OBJECT_PATTERN_NODE),fp);
if (patternPtr->nextLevel == NULL)
{
while (patternPtr->rightNode == NULL)
{
patternPtr = patternPtr->lastLevel;
if (patternPtr == NULL)
return;
}
patternPtr = patternPtr->rightNode;
}
else
patternPtr = patternPtr->nextLevel;
}
if (Bloaded())
{
RestoreBloadCount(&AlphaNodeCount);
RestoreBloadCount(&PatternNodeCount);
}
}
