public override void Emit(SourceBuilder sourceCode)
{
if (InParallelizedBody)
{
sourceCode.AppendFrontFormat("{0}.{1} match = parallelTaskMatches[threadId].GetNextUnfilledPosition();\n",
RulePatternClassName, NamesOfEntities.MatchClassName(PatternName));
}
else
{
sourceCode.AppendFrontFormat("{0}.{1} match = matches.GetNextUnfilledPosition();\n",
RulePatternClassName, NamesOfEntities.MatchClassName(PatternName));
}
// emit match building operations
MatchBuildingOperations.Emit(sourceCode);
if (InParallelizedBody)
{
sourceCode.AppendFront("match.IterationNumber = currentIterationNumber;\n");
sourceCode.AppendFront("parallelTaskMatches[threadId].PositionWasFilledFixIt();\n");
}
else
{
sourceCode.AppendFront("matches.PositionWasFilledFixIt();\n");
}
}
public override void Emit(SourceBuilder sourceCode)
{
if (sourceCode.CommentSourceCode)
{
sourceCode.AppendFrontFormat("// Lookup {0} \n", PatternElementName);
}
string variableContainingTypeIDForCandidate =
NamesOfEntities.TypeIdForCandidateVariable(PatternElementName);
sourceCode.AppendFrontFormat("int {0} = {1};\n",
variableContainingTypeIDForCandidate, TypeID);
}
public override void Emit(SourceBuilder sourceCode)
{
string variableContainingCandidate = NamesOfEntities.CandidateVariable(PatternElementName);
string variableContainingBackupOfMappedMemberGlobalSome =
NamesOfEntities.VariableWithBackupOfIsMatchedGlobalInSomePatternBit(PatternElementName, NegativeIndependentNamePrefix);
sourceCode.AppendFrontFormat("uint {0};\n", variableContainingBackupOfMappedMemberGlobalSome);
string isMatchedInSomePatternBit = "(uint)GRGEN_LGSP.LGSPElemFlags.IS_MATCHED_BY_SOME_ENCLOSING_PATTERN";
sourceCode.AppendFrontFormat("{0} = {1}.lgspFlags & {2};\n",
variableContainingBackupOfMappedMemberGlobalSome, variableContainingCandidate, isMatchedInSomePatternBit);
sourceCode.AppendFrontFormat("{0}.lgspFlags |= {1};\n",
variableContainingCandidate, isMatchedInSomePatternBit);
}
public override void Emit(SourceBuilder sourceCode)
{
if (sourceCode.CommentSourceCode)
{
sourceCode.AppendFrontFormat("// Lookup {0} \n", PatternElementName);
}
// todo: randomisierte auswahl des typen wenn RANDOM_LOOKUP_LIST_START ?
// emit type iteration loop header
string typeOfVariableContainingType = NamesOfEntities.TypeOfVariableContainingType(IsNode);
string variableContainingTypeForCandidate =
NamesOfEntities.TypeForCandidateVariable(PatternElementName);
string containerWithAvailableTypes;
if (Type == GetTypeByIterationType.ExplicitelyGiven)
{
containerWithAvailableTypes = TypeName
+ "." + PatternElementName + "_AllowedTypes";
}
else //(Type == GetTypeByIterationType.AllCompatible)
{
containerWithAvailableTypes = RulePatternTypeName
+ ".typeVar.SubOrSameTypes";
}
sourceCode.AppendFrontFormat("foreach({0} {1} in {2})\n",
typeOfVariableContainingType, variableContainingTypeForCandidate,
containerWithAvailableTypes);
// open loop
sourceCode.AppendFront("{\n");
sourceCode.Indent();
// emit type id setting and loop body
string variableContainingTypeIDForCandidate =
NamesOfEntities.TypeIdForCandidateVariable(PatternElementName);
sourceCode.AppendFrontFormat("int {0} = {1}.TypeID;\n",
variableContainingTypeIDForCandidate, variableContainingTypeForCandidate);
NestedOperationsList.Emit(sourceCode);
// close loop
sourceCode.Unindent();
sourceCode.AppendFront("}\n");
}
public override void Dump(SourceBuilder builder)
{
builder.AppendFrontFormat("LeafSubpatternMatched {0}\n", IsIteratedNullMatch ? "IteratedNullMatch " : "");
if (MatchBuildingOperations != null)
{
builder.Indent();
MatchBuildingOperations.Dump(builder);
builder.Unindent();
}
}
public override void Emit(SourceBuilder sourceCode)
{
if (Type == NegativeIndependentPatternMatchedType.WithoutSubpatterns)
{
if (sourceCode.CommentSourceCode)
{
sourceCode.AppendFront("// independent pattern found\n");
}
}
else
{
if (sourceCode.CommentSourceCode)
{
sourceCode.AppendFront("// independent pattern with contained subpatterns found\n");
}
sourceCode.AppendFrontFormat("Stack<GRGEN_LIBGR.IMatch> currentFoundPartialMatch = {0}matchesList[0];\n",
NegativeIndependentNamePrefix);
sourceCode.AppendFrontFormat("{0}matchesList.Clear();\n", NegativeIndependentNamePrefix);
}
}
public override void Emit(SourceBuilder sourceCode)
{
if (sourceCode.CommentSourceCode)
{
sourceCode.AppendFrontFormat("// Alternative case {0}{1} \n", PathPrefix, CaseName);
}
sourceCode.AppendFront("do {\n");
sourceCode.Indent();
string whichCase = RulePatternClassName + "." + PathPrefix + "CaseNums.@" + CaseName;
sourceCode.AppendFrontFormat("patternGraph = patternGraphs[(int){0}];\n", whichCase);
if (WasIndependentInlined)
{
sourceCode.AppendFrontFormat("Dictionary<int, {0}> {1} = null;\n",
RulePatternClassName + "." + NamesOfEntities.MatchClassName(PathPrefix + CaseName),
NamesOfEntities.FoundMatchesForFilteringVariable());
}
OperationsList.Emit(sourceCode);
if (WasIndependentInlined)
{
sourceCode.AppendFrontFormat("if({0} != null)\n",
NamesOfEntities.FoundMatchesForFilteringVariable());
sourceCode.AppendFront("{\n");
sourceCode.Indent();
sourceCode.AppendFrontFormat("foreach({0} toClean in {1}.Values) toClean.CleanNextWithSameHash();\n",
RulePatternClassName + "." + NamesOfEntities.MatchClassName(PathPrefix + CaseName),
NamesOfEntities.FoundMatchesForFilteringVariable());
sourceCode.Unindent();
sourceCode.AppendFront("}\n");
}
sourceCode.Unindent();
sourceCode.AppendFront("} while(false);\n");
}
public override void Dump(SourceBuilder builder)
{
// first dump check
builder.AppendFrontFormat("CheckContinueMatching IteratedPatternFound {0}\n",
IsIterationBreaking ? "IterationBreaking" : "");
// then operations for case check failed
if (CheckFailedOperations != null)
{
builder.Indent();
CheckFailedOperations.Dump(builder);
builder.Unindent();
}
}
public override void Dump(SourceBuilder builder)
{
// first dump local content
builder.AppendFrontFormat("AlternativeCaseMatching {0}{1}\n", PathPrefix, CaseName);
// then nested content
if (OperationsList != null)
{
builder.Indent();
OperationsList.Dump(builder);
builder.Unindent();
}
}
public override void Emit(SourceBuilder sourceCode)
{
sourceCode.AppendFront("++isoSpace;\n");
if (Parallel)
{
if (!NeverAboveMaxIsoSpace)
{
sourceCode.AppendFront("if(isoSpace >= (int) GRGEN_LGSP.LGSPElemFlagsParallel.MAX_ISO_SPACE && " +
"isoSpace - (int) GRGEN_LGSP.LGSPElemFlagsParallel.MAX_ISO_SPACE + 1 > graph.perThreadInIsoSpaceMatchedElements[threadId].Count) {\n");
sourceCode.Indent();
sourceCode.AppendFront("graph.AllocateFurtherIsomorphySpaceNestingLevelForParallelizedMatching(threadId);\n");
sourceCode.Unindent();
sourceCode.AppendFront("}\n");
}
}
else
{
if (!NeverAboveMaxIsoSpace)
{
sourceCode.AppendFront("if(isoSpace >= (int) GRGEN_LGSP.LGSPElemFlags.MAX_ISO_SPACE && "
+ "isoSpace - (int) GRGEN_LGSP.LGSPElemFlags.MAX_ISO_SPACE + 1 > graph.inIsoSpaceMatchedElements.Count) {\n");
sourceCode.Indent();
sourceCode.AppendFront("graph.inIsoSpaceMatchedElements.Add(new Dictionary<GRGEN_LIBGR.IGraphElement, GRGEN_LIBGR.IGraphElement>());\n");
sourceCode.AppendFront("graph.inIsoSpaceMatchedElementsGlobal.Add(new Dictionary<GRGEN_LIBGR.IGraphElement, GRGEN_LIBGR.IGraphElement>());\n");
sourceCode.Unindent();
sourceCode.AppendFront("}\n");
}
}
if (SetupSubpatternMatching)
{
sourceCode.AppendFrontFormat("Stack<GRGEN_LGSP.LGSPSubpatternAction> {0}openTasks ="
+ " new Stack<GRGEN_LGSP.LGSPSubpatternAction>();\n", NegativeIndependentNamePrefix);
sourceCode.AppendFrontFormat("List<Stack<GRGEN_LIBGR.IMatch>> {0}foundPartialMatches ="
+ " new List<Stack<GRGEN_LIBGR.IMatch>>();\n", NegativeIndependentNamePrefix);
sourceCode.AppendFrontFormat("List<Stack<GRGEN_LIBGR.IMatch>> {0}matchesList ="
+ " {0}foundPartialMatches;\n", NegativeIndependentNamePrefix);
}
}
public override void Emit(SourceBuilder sourceCode)
{
sourceCode.AppendFront("Stack<GRGEN_LIBGR.IMatch> currentFoundPartialMatch = new Stack<GRGEN_LIBGR.IMatch>();\n");
sourceCode.AppendFront("foundPartialMatches.Add(currentFoundPartialMatch);\n");
sourceCode.AppendFrontFormat("{0}.{1} match = new {0}.{1}();\n",
RulePatternClassName, NamesOfEntities.MatchClassName(PatternName));
if (IsIteratedNullMatch)
{
sourceCode.AppendFront("match._isNullMatch = true; // null match of iterated pattern\n");
}
else
{
MatchBuildingOperations.Emit(sourceCode); // emit match building operations
}
sourceCode.AppendFront("currentFoundPartialMatch.Push(match);\n");
}
public override void Emit(SourceBuilder sourceCode)
{
if (Type == NegativeIndependentPatternMatchedType.WithoutSubpatterns)
{
if (sourceCode.CommentSourceCode)
{
sourceCode.AppendFront("// negative pattern found\n");
}
}
else
{
if (sourceCode.CommentSourceCode)
{
sourceCode.AppendFront("// negative pattern with contained subpatterns found\n");
}
sourceCode.AppendFrontFormat("{0}matchesList.Clear();\n", NegativeIndependentNamePrefix);
}
}
public override void Emit(SourceBuilder sourceCode)
{
if (sourceCode.CommentSourceCode)
{
sourceCode.AppendFront("// if enough matches were found, we leave\n");
}
if (Type == CheckMaximumMatchesType.Action)
{
if (InParallelizedBody)
{
sourceCode.AppendFront("if(maxMatches > 0 && parallelTaskMatches[threadId].Count >= maxMatches)\n");
}
else
{
sourceCode.AppendFront("if(maxMatches > 0 && matches.Count >= maxMatches)\n");
}
}
else if (Type == CheckMaximumMatchesType.Subpattern)
{
sourceCode.AppendFront("if(maxMatches > 0 && foundPartialMatches.Count >= maxMatches)\n");
}
else if (Type == CheckMaximumMatchesType.Iterated)
{
sourceCode.AppendFront("if(true) // as soon as there's a match, it's enough for iterated\n");
}
sourceCode.AppendFront("{\n");
sourceCode.Indent();
if (Type == CheckMaximumMatchesType.Action && InParallelizedBody)
{
sourceCode.AppendFront("maxMatchesFound = true;\n");
}
if (EmitProfiling)
{
if (InParallelizedBody)
{
sourceCode.AppendFrontFormat("if(maxMatches==1) actionEnv.PerformanceInfo.ActionProfiles[\"{0}\"].averagesPerThread[threadId].searchStepsSingle.Add(actionEnv.PerformanceInfo.SearchStepsPerThread[threadId]);\n", PackagePrefixedActionName);
sourceCode.AppendFrontFormat("else actionEnv.PerformanceInfo.ActionProfiles[\"{0}\"].averagesPerThread[threadId].searchStepsMultiple.Add(actionEnv.PerformanceInfo.SearchStepsPerThread[threadId]);\n", PackagePrefixedActionName);
sourceCode.AppendFrontFormat("if(maxMatches==1) actionEnv.PerformanceInfo.ActionProfiles[\"{0}\"].averagesPerThread[threadId].loopStepsSingle.Add(actionEnv.PerformanceInfo.LoopStepsPerThread[threadId]);\n", PackagePrefixedActionName);
sourceCode.AppendFrontFormat("else actionEnv.PerformanceInfo.ActionProfiles[\"{0}\"].averagesPerThread[threadId].loopStepsMultiple.Add(actionEnv.PerformanceInfo.LoopStepsPerThread[threadId]);\n", PackagePrefixedActionName);
sourceCode.AppendFrontFormat("if(maxMatches==1) actionEnv.PerformanceInfo.ActionProfiles[\"{0}\"].averagesPerThread[threadId].searchStepsPerLoopStepSingle.Add(actionEnv.PerformanceInfo.SearchStepsPerThread[threadId] - searchStepsAtLoopStepBegin);\n", PackagePrefixedActionName);
sourceCode.AppendFrontFormat("else actionEnv.PerformanceInfo.ActionProfiles[\"{0}\"].averagesPerThread[threadId].searchStepsPerLoopStepMultiple.Add(actionEnv.PerformanceInfo.SearchStepsPerThread[threadId] - searchStepsAtLoopStepBegin);\n", PackagePrefixedActionName);
}
else
{
sourceCode.AppendFrontFormat("++actionEnv.PerformanceInfo.ActionProfiles[\"{0}\"].callsTotal;\n", PackagePrefixedActionName);
sourceCode.AppendFrontFormat("actionEnv.PerformanceInfo.ActionProfiles[\"{0}\"].searchStepsTotal += actionEnv.PerformanceInfo.SearchSteps - searchStepsAtBegin;\n", PackagePrefixedActionName);
sourceCode.AppendFrontFormat("actionEnv.PerformanceInfo.ActionProfiles[\"{0}\"].loopStepsTotal += loopSteps;\n", PackagePrefixedActionName);
sourceCode.AppendFrontFormat("actionEnv.PerformanceInfo.ActionProfiles[\"{0}\"].averagesPerThread[0].searchStepsTotal += actionEnv.PerformanceInfo.SearchSteps - searchStepsAtBegin;\n", PackagePrefixedActionName);
sourceCode.AppendFrontFormat("actionEnv.PerformanceInfo.ActionProfiles[\"{0}\"].averagesPerThread[0].loopStepsTotal += loopSteps;\n", PackagePrefixedActionName);
sourceCode.AppendFrontFormat("if(maxMatches==1) actionEnv.PerformanceInfo.ActionProfiles[\"{0}\"].averagesPerThread[0].searchStepsSingle.Add(actionEnv.PerformanceInfo.SearchSteps - searchStepsAtBegin);\n", PackagePrefixedActionName);
sourceCode.AppendFrontFormat("else actionEnv.PerformanceInfo.ActionProfiles[\"{0}\"].averagesPerThread[0].searchStepsMultiple.Add(actionEnv.PerformanceInfo.SearchSteps - searchStepsAtBegin);\n", PackagePrefixedActionName);
sourceCode.AppendFrontFormat("if(maxMatches==1) actionEnv.PerformanceInfo.ActionProfiles[\"{0}\"].averagesPerThread[0].loopStepsSingle.Add(loopSteps);\n", PackagePrefixedActionName);
sourceCode.AppendFrontFormat("else actionEnv.PerformanceInfo.ActionProfiles[\"{0}\"].averagesPerThread[0].loopStepsMultiple.Add(loopSteps);\n", PackagePrefixedActionName);
if (EmitFirstLoopProfiling)
{
sourceCode.AppendFrontFormat("if(maxMatches==1) actionEnv.PerformanceInfo.ActionProfiles[\"{0}\"].averagesPerThread[0].searchStepsPerLoopStepSingle.Add(actionEnv.PerformanceInfo.SearchSteps - searchStepsAtLoopStepBegin);\n", PackagePrefixedActionName);
sourceCode.AppendFrontFormat("else actionEnv.PerformanceInfo.ActionProfiles[\"{0}\"].averagesPerThread[0].searchStepsPerLoopStepMultiple.Add(actionEnv.PerformanceInfo.SearchSteps - searchStepsAtLoopStepBegin);\n", PackagePrefixedActionName);
}
}
}
CheckFailedOperations.Emit(sourceCode);
sourceCode.Unindent();
sourceCode.AppendFront("}\n");
}
public override void Emit(SourceBuilder sourceCode)
{
if (Type == PatternAndSubpatternsMatchedType.Iterated)
{
sourceCode.AppendFront("patternFound = true;\n");
}
if (Type != PatternAndSubpatternsMatchedType.Action)
{
if (sourceCode.CommentSourceCode)
{
sourceCode.AppendFront("// subpatterns/alternatives were found, extend the partial matches by our local match object\n");
}
sourceCode.AppendFront("foreach(Stack<GRGEN_LIBGR.IMatch> currentFoundPartialMatch in matchesList)\n");
sourceCode.AppendFront("{\n");
sourceCode.Indent();
sourceCode.AppendFrontFormat("{0}.{1} match = new {0}.{1}();\n",
RulePatternClassName, NamesOfEntities.MatchClassName(PatternName));
if (Type == PatternAndSubpatternsMatchedType.IteratedNullMatch)
{
sourceCode.AppendFront("match._isNullMatch = true; // null match of iterated pattern\n");
}
MatchBuildingOperations.Emit(sourceCode); // emit match building operations
sourceCode.AppendFront("currentFoundPartialMatch.Push(match);\n");
sourceCode.Unindent();
sourceCode.AppendFront("}\n");
}
else // top-level pattern with subpatterns/alternatives
{
if (sourceCode.CommentSourceCode)
{
sourceCode.AppendFront("// subpatterns/alternatives were found, extend the partial matches by our local match object, becoming a complete match object and save it\n");
}
sourceCode.AppendFront("foreach(Stack<GRGEN_LIBGR.IMatch> currentFoundPartialMatch in matchesList)\n");
sourceCode.AppendFront("{\n");
sourceCode.Indent();
if (InParallelizedBody)
{
sourceCode.AppendFrontFormat("{0}.{1} match = parallelTaskMatches[threadId].GetNextUnfilledPosition();\n",
RulePatternClassName, NamesOfEntities.MatchClassName(PatternName));
}
else
{
sourceCode.AppendFrontFormat("{0}.{1} match = matches.GetNextUnfilledPosition();\n",
RulePatternClassName, NamesOfEntities.MatchClassName(PatternName));
}
MatchBuildingOperations.Emit(sourceCode); // emit match building operations
if (InParallelizedBody)
{
sourceCode.AppendFront("match.IterationNumber = currentIterationNumber;\n");
sourceCode.AppendFront("parallelTaskMatches[threadId].PositionWasFilledFixIt();\n");
}
else
{
sourceCode.AppendFront("matches.PositionWasFilledFixIt();\n");
}
sourceCode.Unindent();
sourceCode.AppendFront("}\n");
sourceCode.AppendFront("matchesList.Clear();\n");
}
}
public override void Emit(SourceBuilder sourceCode)
{
string variableContainingBackupOfMappedMember = NamesOfEntities.VariableWithBackupOfIsMatchedGlobalBit(
PatternElementName, NegativeIndependentNamePrefix);
string variableContainingCandidate = NamesOfEntities.CandidateVariable(PatternElementName);
if (Parallel)
{
if (!NeverAboveMaxIsoSpace)
{
sourceCode.AppendFront("if(isoSpace < (int) GRGEN_LGSP.LGSPElemFlagsParallel.MAX_ISO_SPACE) {\n");
sourceCode.Indent();
}
string isMatchedBit = "(uint)GRGEN_LGSP.LGSPElemFlagsParallel.IS_MATCHED_BY_ENCLOSING_PATTERN << isoSpace";
sourceCode.AppendFrontFormat("flagsPerElementGlobal[{0}.uniqueId] &= (ushort)(~({1}) | {2});\n",
variableContainingCandidate,
isMatchedBit,
variableContainingBackupOfMappedMember);
if (!NeverAboveMaxIsoSpace)
{
sourceCode.Unindent();
sourceCode.AppendFront("} else { \n");
sourceCode.Indent();
sourceCode.AppendFrontFormat("if({0} == 0) {{\n", variableContainingBackupOfMappedMember);
sourceCode.Indent();
sourceCode.AppendFrontFormat(
"graph.perThreadInIsoSpaceMatchedElementsGlobal[threadId][isoSpace - (int)GRGEN_LGSP.LGSPElemFlagsParallel.MAX_ISO_SPACE]"
+ ".Remove({0});\n", variableContainingCandidate);
sourceCode.Unindent();
sourceCode.AppendFront("}\n");
sourceCode.Unindent();
sourceCode.AppendFront("}\n");
}
}
else
{
if (!NeverAboveMaxIsoSpace)
{
sourceCode.AppendFront("if(isoSpace < (int) GRGEN_LGSP.LGSPElemFlags.MAX_ISO_SPACE) {\n");
sourceCode.Indent();
}
string isMatchedBit = "(uint)GRGEN_LGSP.LGSPElemFlags.IS_MATCHED_BY_ENCLOSING_PATTERN << isoSpace";
sourceCode.AppendFrontFormat("{0}.lgspFlags = {0}.lgspFlags & ~({1}) | {2};\n",
variableContainingCandidate, isMatchedBit, variableContainingBackupOfMappedMember);
if (!NeverAboveMaxIsoSpace)
{
sourceCode.Unindent();
sourceCode.AppendFront("} else { \n");
sourceCode.Indent();
sourceCode.AppendFrontFormat("if({0} == 0) {{\n", variableContainingBackupOfMappedMember);
sourceCode.Indent();
sourceCode.AppendFrontFormat(
"graph.inIsoSpaceMatchedElementsGlobal[isoSpace - (int) GRGEN_LGSP.LGSPElemFlags.MAX_ISO_SPACE]"
+ ".Remove({0});\n", variableContainingCandidate);
sourceCode.Unindent();
sourceCode.AppendFront("}\n");
sourceCode.Unindent();
sourceCode.AppendFront("}\n");
}
}
}
public override void Emit(SourceBuilder sourceCode)
{
string variableContainingBackupOfMappedMember =
NamesOfEntities.VariableWithBackupOfIsMatchedBit(PatternElementName, NegativeIndependentNamePrefix);
string variableContainingCandidate =
NamesOfEntities.CandidateVariable(PatternElementName);
sourceCode.AppendFrontFormat("uint {0};\n", variableContainingBackupOfMappedMember);
if (Parallel)
{
if (!NeverAboveMaxIsoSpace)
{
sourceCode.AppendFront("if(isoSpace < (int) GRGEN_LGSP.LGSPElemFlagsParallel.MAX_ISO_SPACE) {\n");
sourceCode.Indent();
}
string isMatchedBit = "(uint)GRGEN_LGSP.LGSPElemFlagsParallel.IS_MATCHED << isoSpace";
if (LockForAllThreads)
{
sourceCode.AppendFrontFormat("{0} = flagsPerElement0[{1}.uniqueId] & {2};\n",
variableContainingBackupOfMappedMember,
variableContainingCandidate,
isMatchedBit);
sourceCode.AppendFrontFormat("for(int i=0; i<numWorkerThreads; ++i) graph.flagsPerThreadPerElement[i][{0}.uniqueId] |= (ushort)({1});\n",
variableContainingCandidate,
isMatchedBit);
}
else
{
sourceCode.AppendFrontFormat("{0} = flagsPerElement[{1}.uniqueId] & {2};\n",
variableContainingBackupOfMappedMember,
variableContainingCandidate,
isMatchedBit);
sourceCode.AppendFrontFormat("flagsPerElement[{0}.uniqueId] |= (ushort)({1});\n",
variableContainingCandidate,
isMatchedBit);
}
if (!NeverAboveMaxIsoSpace)
{
sourceCode.Unindent();
sourceCode.AppendFront("} else {\n");
sourceCode.Indent();
if (LockForAllThreads)
{
sourceCode.AppendFrontFormat("{0} = graph.perThreadInIsoSpaceMatchedElements[0][isoSpace - (int)"
+ "GRGEN_LGSP.LGSPElemFlagsParallel.MAX_ISO_SPACE].ContainsKey({1}) ? 1U : 0U;\n",
variableContainingBackupOfMappedMember, variableContainingCandidate);
sourceCode.AppendFrontFormat("if({0} == 0) for(int i=0; i<numWorkerThreads; ++i) graph.perThreadInIsoSpaceMatchedElements[i][isoSpace - (int)"
+ "GRGEN_LGSP.LGSPElemFlagsParallel.MAX_ISO_SPACE].Add({1},{1});\n",
variableContainingBackupOfMappedMember, variableContainingCandidate);
}
else
{
sourceCode.AppendFrontFormat("{0} = graph.perThreadInIsoSpaceMatchedElements[threadId][isoSpace - (int)"
+ "GRGEN_LGSP.LGSPElemFlagsParallel.MAX_ISO_SPACE].ContainsKey({1}) ? 1U : 0U;\n",
variableContainingBackupOfMappedMember, variableContainingCandidate);
sourceCode.AppendFrontFormat("if({0} == 0) graph.perThreadInIsoSpaceMatchedElements[threadId][isoSpace - (int)"
+ "GRGEN_LGSP.LGSPElemFlagsParallel.MAX_ISO_SPACE].Add({1},{1});\n",
variableContainingBackupOfMappedMember, variableContainingCandidate);
}
sourceCode.Unindent();
sourceCode.AppendFront("}\n");
}
}
else
{
if (!NeverAboveMaxIsoSpace)
{
sourceCode.AppendFront("if(isoSpace < (int) GRGEN_LGSP.LGSPElemFlags.MAX_ISO_SPACE) {\n");
sourceCode.Indent();
}
string isMatchedBit = "(uint)GRGEN_LGSP.LGSPElemFlags.IS_MATCHED << isoSpace";
sourceCode.AppendFrontFormat("{0} = {1}.lgspFlags & {2};\n",
variableContainingBackupOfMappedMember, variableContainingCandidate, isMatchedBit);
sourceCode.AppendFrontFormat("{0}.lgspFlags |= {1};\n",
variableContainingCandidate, isMatchedBit);
if (!NeverAboveMaxIsoSpace)
{
sourceCode.Unindent();
sourceCode.AppendFront("} else {\n");
sourceCode.Indent();
sourceCode.AppendFrontFormat("{0} = graph.inIsoSpaceMatchedElements[isoSpace - (int) "
+ "GRGEN_LGSP.LGSPElemFlags.MAX_ISO_SPACE].ContainsKey({1}) ? 1U : 0U;\n",
variableContainingBackupOfMappedMember, variableContainingCandidate);
sourceCode.AppendFrontFormat("if({0} == 0) graph.inIsoSpaceMatchedElements[isoSpace - (int) "
+ "GRGEN_LGSP.LGSPElemFlags.MAX_ISO_SPACE].Add({1},{1});\n",
variableContainingBackupOfMappedMember, variableContainingCandidate);
sourceCode.Unindent();
sourceCode.AppendFront("}\n");
}
}
}
