/// <summary>
/// move outwards from starting point on until operation to continue at is found
/// appending restore isomorphy at insertion point for isomorphy written on the way
/// returns operation to continue at
/// </summary>
private SearchProgramOperation MoveOutwardsAppendingRemoveIsomorphy(
SearchProgramOperation startingPoint,
ref SearchProgramOperation insertionPoint,
string[] neededElementsForCheckOperation,
SearchProgramOperation outermostOperation,
SearchProgram topLevelSearchProgram)
{
// currently focused operation on our way outwards
SearchProgramOperation op = startingPoint;
// move outwards until operation to continue at is found
bool creationPointOfDominatingElementFound = false;
bool iterationReached = false;
do
{
op = op.Previous;
// insert code to clean up isomorphy information written by candidate acceptance
// in between the operation to continue and the check operation
if (op is AcceptCandidate)
{
AcceptCandidate writeIsomorphy =
op as AcceptCandidate;
AbandonCandidate restoreIsomorphy =
new AbandonCandidate(
writeIsomorphy.PatternElementName,
writeIsomorphy.NegativeIndependentNamePrefix,
writeIsomorphy.IsNode,
writeIsomorphy.NeverAboveMaxIsoSpace,
writeIsomorphy.Parallel,
writeIsomorphy.LockForAllThreads);
insertionPoint = insertionPoint.Append(restoreIsomorphy);
}
// insert code to clean up isomorphy information written by global candidate acceptance
// in between the operation to continue and the check operation
if (op is AcceptCandidateGlobal)
{
AcceptCandidateGlobal writeIsomorphy =
op as AcceptCandidateGlobal;
AbandonCandidateGlobal removeIsomorphy =
new AbandonCandidateGlobal(
writeIsomorphy.PatternElementName,
writeIsomorphy.NegativeIndependentNamePrefix,
writeIsomorphy.IsNode,
writeIsomorphy.NeverAboveMaxIsoSpace,
writeIsomorphy.Parallel);
insertionPoint = insertionPoint.Append(removeIsomorphy);
}
// insert code to clean up isomorphy information written by patternpath candidate acceptance
// in between the operation to continue and the check operation
if (op is AcceptCandidatePatternpath)
{
AcceptCandidatePatternpath writeIsomorphy =
op as AcceptCandidatePatternpath;
AbandonCandidatePatternpath removeIsomorphy =
new AbandonCandidatePatternpath(
writeIsomorphy.PatternElementName,
writeIsomorphy.NegativeIndependentNamePrefix,
writeIsomorphy.IsNode);
insertionPoint = insertionPoint.Append(removeIsomorphy);
}
// insert code to remove iterated pattern acceptance
if (op is AcceptIterated)
{
AcceptIterated acceptIterated =
op as AcceptIterated;
AbandonIterated abandonIterated =
new AbandonIterated();
insertionPoint = insertionPoint.Append(abandonIterated);
}
// insert code to undo subpattern matching initialization if we leave the subpattern matching method
if (op is InitializeSubpatternMatching)
{
InitializeSubpatternMatching initialize =
op as InitializeSubpatternMatching;
FinalizeSubpatternMatching finalize =
new FinalizeSubpatternMatching(initialize.Type);
insertionPoint = insertionPoint.Append(finalize);
}
// insert code to undo negative/independent matching initialization if we leave the negative/independent matching method
if (op is InitializeNegativeIndependentMatching)
{
InitializeNegativeIndependentMatching initialize =
op as InitializeNegativeIndependentMatching;
FinalizeNegativeIndependentMatching finalize =
new FinalizeNegativeIndependentMatching(initialize.NeverAboveMaxIsoSpace, initialize.Parallel);
insertionPoint = insertionPoint.Append(finalize);
}
// determine operation to continue at
// found by looking at the graph elements
// the check operation depends on / is dominated by
// its the first element iteration on our way outwards the search program
// after or at the point of a get element operation
// of some dominating element the check depends on
// (or the outermost operation if no iteration is found until it is reached)
if (op is GetCandidate || op is BothDirectionsIteration)
{
if (creationPointOfDominatingElementFound == false)
{
if (neededElementsForCheckOperation != null)
{
foreach (string dominating in neededElementsForCheckOperation)
{
GetCandidate getCandidate = op as GetCandidate;
BothDirectionsIteration bothDirections = op as BothDirectionsIteration;
if (getCandidate!=null && getCandidate.PatternElementName == dominating
|| bothDirections!=null && bothDirections.PatternElementName == dominating)
{
creationPointOfDominatingElementFound = true;
iterationReached = false;
break;
}
}
}
else
{
// needed elements == null means everything fits,
// take first element iteration on our way outwards the search program
// (or the outermost operation if no iteration is found until it is reached)
creationPointOfDominatingElementFound = true;
iterationReached = false;
}
}
if (op is GetCandidateByIteration || op is GetCandidateByIterationParallel || op is BothDirectionsIteration)
{
iterationReached = true;
}
}
}
while (!(creationPointOfDominatingElementFound && iterationReached)
&& op != outermostOperation);
return op;
}
/// <summary>
/// move outwards from starting point on until operation to continue at is found
/// appending restore isomorphy at insertion point for isomorphy written on the way
/// returns operation to continue at
/// </summary>
private static SearchProgramOperation MoveOutwardsAppendingRemoveIsomorphy(
SearchProgramOperation startingPoint,
ref SearchProgramOperation insertionPoint,
string[] neededElementsForCheckOperation,
SearchProgramOperation outermostOperation,
SearchProgram topLevelSearchProgram)
{
// currently focused operation on our way outwards
SearchProgramOperation op = startingPoint;
// move outwards until operation to continue at is found
bool creationPointOfDominatingElementFound = false;
bool iterationReached = false;
do
{
op = op.Previous;
// insert code to clean up isomorphy information written by candidate acceptance
// in between the operation to continue and the check operation
if (op is AcceptCandidate)
{
AcceptCandidate writeIsomorphy =
op as AcceptCandidate;
AbandonCandidate restoreIsomorphy =
new AbandonCandidate(
writeIsomorphy.PatternElementName,
writeIsomorphy.NegativeIndependentNamePrefix,
writeIsomorphy.IsNode,
writeIsomorphy.NeverAboveMaxIsoSpace,
writeIsomorphy.Parallel,
writeIsomorphy.LockForAllThreads);
insertionPoint = insertionPoint.Append(restoreIsomorphy);
}
// insert code to clean up isomorphy information written by global candidate acceptance
// in between the operation to continue and the check operation
if (op is AcceptCandidateGlobal)
{
AcceptCandidateGlobal writeIsomorphy =
op as AcceptCandidateGlobal;
AbandonCandidateGlobal removeIsomorphy =
new AbandonCandidateGlobal(
writeIsomorphy.PatternElementName,
writeIsomorphy.NegativeIndependentNamePrefix,
writeIsomorphy.IsNode,
writeIsomorphy.NeverAboveMaxIsoSpace,
writeIsomorphy.Parallel);
insertionPoint = insertionPoint.Append(removeIsomorphy);
}
// insert code to clean up isomorphy information written by patternpath candidate acceptance
// in between the operation to continue and the check operation
if (op is AcceptCandidatePatternpath)
{
AcceptCandidatePatternpath writeIsomorphy =
op as AcceptCandidatePatternpath;
AbandonCandidatePatternpath removeIsomorphy =
new AbandonCandidatePatternpath(
writeIsomorphy.PatternElementName,
writeIsomorphy.NegativeIndependentNamePrefix,
writeIsomorphy.IsNode);
insertionPoint = insertionPoint.Append(removeIsomorphy);
}
// insert code to remove iterated pattern acceptance
if (op is AcceptIterated)
{
AcceptIterated acceptIterated =
op as AcceptIterated;
AbandonIterated abandonIterated =
new AbandonIterated();
insertionPoint = insertionPoint.Append(abandonIterated);
}
// insert code to undo subpattern matching initialization if we leave the subpattern matching method
if (op is InitializeSubpatternMatching)
{
InitializeSubpatternMatching initialize =
op as InitializeSubpatternMatching;
FinalizeSubpatternMatching finalize =
new FinalizeSubpatternMatching(initialize.Type);
insertionPoint = insertionPoint.Append(finalize);
}
// insert code to undo negative/independent matching initialization if we leave the negative/independent matching method
if (op is InitializeNegativeIndependentMatching)
{
InitializeNegativeIndependentMatching initialize =
op as InitializeNegativeIndependentMatching;
FinalizeNegativeIndependentMatching finalize =
new FinalizeNegativeIndependentMatching(initialize.NeverAboveMaxIsoSpace, initialize.Parallel);
insertionPoint = insertionPoint.Append(finalize);
}
// determine operation to continue at
// found by looking at the graph elements
// the check operation depends on / is dominated by
// its the first element iteration on our way outwards the search program
// after or at the point of a get element operation
// of some dominating element the check depends on
// (or the outermost operation if no iteration is found until it is reached)
if (op is GetCandidate || op is BothDirectionsIteration)
{
if (creationPointOfDominatingElementFound == false)
{
if (neededElementsForCheckOperation != null)
{
foreach (string dominating in neededElementsForCheckOperation)
{
GetCandidate getCandidate = op as GetCandidate;
BothDirectionsIteration bothDirections = op as BothDirectionsIteration;
if (getCandidate != null && getCandidate.PatternElementName == dominating ||
bothDirections != null && bothDirections.PatternElementName == dominating)
{
creationPointOfDominatingElementFound = true;
iterationReached = false;
break;
}
}
}
else
{
// needed elements == null means everything fits,
// take first element iteration on our way outwards the search program
// (or the outermost operation if no iteration is found until it is reached)
creationPointOfDominatingElementFound = true;
iterationReached = false;
}
}
if (op is GetCandidateByIteration || op is GetCandidateByIterationParallel || op is BothDirectionsIteration)
{
iterationReached = true;
}
}
}while(!(creationPointOfDominatingElementFound && iterationReached) &&
op != outermostOperation);
return(op);
}
/// <summary>
/// Inserts code to abandon the matched elements globally
/// at the given position, returns position after inserted operations
/// </summary>
private SearchProgramOperation insertGlobalAbandon(SearchProgramOperation insertionPoint)
{
bool isAction = programType == SearchProgramType.Action;
PatternGraph patternGraph = patternGraphWithNestingPatterns.Peek();
string negativeIndependentNamePrefix = NegativeIndependentNamePrefix(patternGraph);
// global abandon of all candidate elements (remove isomorphy information)
for (int i = 0; i < patternGraph.nodesPlusInlined.Length; ++i)
{
if (patternGraph.nodesPlusInlined[i].PointOfDefinition == patternGraph
|| patternGraph.nodesPlusInlined[i].PointOfDefinition == null && isAction)
{
if(!patternGraph.nodesPlusInlined[i].defToBeYieldedTo
&& !patternGraph.totallyHomomorphicNodes[i]
&& patternGraph.nodesPlusInlined[i].AssignmentSource==null)
{
AbandonCandidateGlobal abandonGlobal =
new AbandonCandidateGlobal(patternGraph.nodesPlusInlined[i].name,
negativeIndependentNamePrefix,
true,
isoSpaceNeverAboveMaxIsoSpace,
parallelized);
insertionPoint = insertionPoint.Append(abandonGlobal);
}
}
}
for (int i = 0; i < patternGraph.edgesPlusInlined.Length; ++i)
{
if (patternGraph.edgesPlusInlined[i].PointOfDefinition == patternGraph
|| patternGraph.edgesPlusInlined[i].PointOfDefinition == null && isAction)
{
if(!patternGraph.edgesPlusInlined[i].defToBeYieldedTo
&& !patternGraph.totallyHomomorphicEdges[i]
&& patternGraph.edgesPlusInlined[i].AssignmentSource==null)
{
AbandonCandidateGlobal abandonGlobal =
new AbandonCandidateGlobal(patternGraph.edgesPlusInlined[i].name,
negativeIndependentNamePrefix,
false,
isoSpaceNeverAboveMaxIsoSpace,
parallelized);
insertionPoint = insertionPoint.Append(abandonGlobal);
}
}
}
return insertionPoint;
}
