private static CompoundInitialState createState(InferenceSession topLevelSession) {
final PsiSubstitutor topInferenceSubstitutor =
replaceVariables(topLevelSession.getInferenceVariables());
final Map<PsiElement, InitialInferenceState> nestedStates =
new LinkedHashMap<PsiElement, InitialInferenceState>();
final InferenceSessionContainer copy =
new InferenceSessionContainer() {
@Override
public PsiSubstitutor findNestedSubstitutor(
PsiElement arg, @Nullable PsiSubstitutor defaultSession) {
// for the case foo(bar(a -> m())): top level inference won't touch lambda "a -> m()"
// for the case foo(a -> bar(b -> m())): top level inference would go till nested lambda
// "b -> m()" and the state from top level could be found here by "bar(b -> m())"
// but proceeding with additional constraints from saved point would produce new
// expression constraints with different inference variables (could be found in
// myNestedSessions)
// which won't be found in the system if we won't reject stored sessions in such cases
final PsiSubstitutor substitutor = super.findNestedSubstitutor(arg, null);
if (substitutor != null) {
return substitutor;
}
final InitialInferenceState state =
nestedStates.get(PsiTreeUtil.getParentOfType(arg, PsiCall.class));
if (state != null) {
return state.getInferenceSubstitutor();
}
return super.findNestedSubstitutor(arg, defaultSession);
}
};
final Map<PsiElement, InferenceSession> nestedSessions =
topLevelSession.getInferenceSessionContainer().myNestedSessions;
for (Map.Entry<PsiElement, InferenceSession> entry : nestedSessions.entrySet()) {
nestedStates.put(
entry.getKey(),
entry
.getValue()
.createInitialState(
copy, topLevelSession.getInferenceVariables(), topInferenceSubstitutor));
}
PsiSubstitutor substitutor = PsiSubstitutor.EMPTY;
for (InferenceVariable variable : topLevelSession.getInferenceVariables()) {
final PsiType instantiation = variable.getInstantiation();
if (instantiation != PsiType.NULL) {
final PsiClass psiClass =
PsiUtil.resolveClassInClassTypeOnly(topInferenceSubstitutor.substitute(variable));
if (psiClass instanceof InferenceVariable) {
substitutor = substitutor.put((PsiTypeParameter) psiClass, instantiation);
}
}
}
return new CompoundInitialState(substitutor, nestedStates);
}
void registerNestedSession(
InferenceSession session, PsiType returnType, PsiExpression returnExpression) {
final PsiSubstitutor callSession =
findNestedSubstitutor(((PsiCallExpression) returnExpression).getArgumentList(), null);
if (callSession == null) {
final InferenceSession inferenceSession =
ExpressionCompatibilityConstraint.reduceExpressionCompatibilityConstraint(
session, returnExpression, returnType);
if (inferenceSession != null && inferenceSession != session) {
registerNestedSession(inferenceSession);
session.propagateVariables(
inferenceSession.getInferenceVariables(),
inferenceSession.getRestoreNameSubstitution());
}
}
}
boolean isFullyIncorporated() {
boolean needFurtherIncorporation = false;
for (InferenceVariable inferenceVariable : mySession.getInferenceVariables()) {
if (inferenceVariable.getInstantiation() != PsiType.NULL) continue;
final List<PsiType> eqBounds = inferenceVariable.getBounds(InferenceBound.EQ);
final List<PsiType> upperBounds = inferenceVariable.getBounds(InferenceBound.UPPER);
final List<PsiType> lowerBounds = inferenceVariable.getBounds(InferenceBound.LOWER);
needFurtherIncorporation |=
crossVariables(inferenceVariable, upperBounds, lowerBounds, InferenceBound.LOWER);
needFurtherIncorporation |=
crossVariables(inferenceVariable, lowerBounds, upperBounds, InferenceBound.UPPER);
needFurtherIncorporation |= eqCrossVariables(inferenceVariable, eqBounds);
}
return !needFurtherIncorporation;
}
public boolean incorporate() {
final Collection<InferenceVariable> inferenceVariables = mySession.getInferenceVariables();
final PsiSubstitutor substitutor =
mySession.retrieveNonPrimitiveEqualsBounds(inferenceVariables);
for (InferenceVariable inferenceVariable : inferenceVariables) {
if (inferenceVariable.getInstantiation() != PsiType.NULL) continue;
final List<PsiType> eqBounds = inferenceVariable.getBounds(InferenceBound.EQ);
final List<PsiType> upperBounds = inferenceVariable.getBounds(InferenceBound.UPPER);
final List<PsiType> lowerBounds = inferenceVariable.getBounds(InferenceBound.LOWER);
eqEq(eqBounds);
upDown(lowerBounds, upperBounds, substitutor);
upDown(eqBounds, upperBounds, substitutor);
upDown(lowerBounds, eqBounds, substitutor);
upUp(upperBounds);
}
for (Pair<PsiTypeParameter[], PsiClassType> capture : myCaptures) {
final PsiClassType right = capture.second;
final PsiClass gClass = right.resolve();
LOG.assertTrue(gClass != null);
final PsiTypeParameter[] parameters = capture.first;
PsiType[] typeArgs = right.getParameters();
if (parameters.length != typeArgs.length) continue;
for (int i = 0; i < typeArgs.length; i++) {
PsiType aType = typeArgs[i];
if (aType instanceof PsiCapturedWildcardType) {
aType = ((PsiCapturedWildcardType) aType).getWildcard();
}
final InferenceVariable inferenceVariable = mySession.getInferenceVariable(parameters[i]);
LOG.assertTrue(inferenceVariable != null);
final List<PsiType> eqBounds = inferenceVariable.getBounds(InferenceBound.EQ);
final List<PsiType> upperBounds = inferenceVariable.getBounds(InferenceBound.UPPER);
final List<PsiType> lowerBounds = inferenceVariable.getBounds(InferenceBound.LOWER);
if (aType instanceof PsiWildcardType) {
for (PsiType eqBound : eqBounds) {
if (!isInferenceVariableOrFreshTypeParameter(eqBound)) return false;
}
final PsiClassType[] paramBounds = inferenceVariable.getParameter().getExtendsListTypes();
PsiType glb = null;
for (PsiClassType paramBound : paramBounds) {
if (glb == null) {
glb = paramBound;
} else {
glb = GenericsUtil.getGreatestLowerBound(glb, paramBound);
}
}
if (!((PsiWildcardType) aType).isBounded()) {
for (PsiType upperBound : upperBounds) {
if (glb != null && mySession.getInferenceVariable(upperBound) == null) {
addConstraint(
new StrictSubtypingConstraint(
upperBound, mySession.substituteWithInferenceVariables(glb)));
}
}
for (PsiType lowerBound : lowerBounds) {
if (isInferenceVariableOrFreshTypeParameter(lowerBound)) return false;
}
} else if (((PsiWildcardType) aType).isExtends()) {
final PsiType extendsBound = ((PsiWildcardType) aType).getExtendsBound();
for (PsiType upperBound : upperBounds) {
if (mySession.getInferenceVariable(upperBound) == null) {
if (paramBounds.length == 1
&& paramBounds[0].equalsToText(CommonClassNames.JAVA_LANG_OBJECT)
|| paramBounds.length == 0) {
addConstraint(new StrictSubtypingConstraint(upperBound, extendsBound));
} else if (extendsBound.equalsToText(CommonClassNames.JAVA_LANG_OBJECT)
&& glb != null) {
addConstraint(
new StrictSubtypingConstraint(
upperBound, mySession.substituteWithInferenceVariables(glb)));
}
}
}
for (PsiType lowerBound : lowerBounds) {
if (isInferenceVariableOrFreshTypeParameter(lowerBound)) return false;
}
} else {
LOG.assertTrue(((PsiWildcardType) aType).isSuper());
final PsiType superBound = ((PsiWildcardType) aType).getSuperBound();
for (PsiType upperBound : upperBounds) {
if (glb != null && mySession.getInferenceVariable(upperBound) == null) {
addConstraint(
new StrictSubtypingConstraint(
mySession.substituteWithInferenceVariables(glb), upperBound));
}
}
for (PsiType lowerBound : lowerBounds) {
if (mySession.getInferenceVariable(lowerBound) == null) {
addConstraint(new StrictSubtypingConstraint(lowerBound, superBound));
}
}
}
} else {
inferenceVariable.addBound(aType, InferenceBound.EQ);
}
}
}
return true;
}