@Nullable public static PyType getType(@NotNull PsiElement resolved, @NotNull List<PyType> elementTypes) { final String qualifiedName = getQualifiedName(resolved); final List<Integer> paramListTypePositions = new ArrayList<>(); final List<Integer> ellipsisTypePositions = new ArrayList<>(); for (int i = 0; i < elementTypes.size(); i++) { final PyType type = elementTypes.get(i); if (type instanceof PyTypeParser.ParameterListType) { paramListTypePositions.add(i); } else if (type instanceof PyTypeParser.EllipsisType) { ellipsisTypePositions.add(i); } } if (!paramListTypePositions.isEmpty()) { if (!("typing.Callable".equals(qualifiedName) && paramListTypePositions.equals(list(0)))) { return null; } } if (!ellipsisTypePositions.isEmpty()) { if (!("typing.Callable".equals(qualifiedName) && ellipsisTypePositions.equals(list(0)) || "typing.Tuple".equals(qualifiedName) && ellipsisTypePositions.equals(list(1)) && elementTypes.size() == 2)) { return null; } } if ("typing.Union".equals(qualifiedName)) { return PyUnionType.union(elementTypes); } if ("typing.Optional".equals(qualifiedName) && elementTypes.size() == 1) { return PyUnionType.union(elementTypes.get(0), PyNoneType.INSTANCE); } if ("typing.Callable".equals(qualifiedName) && elementTypes.size() == 2) { final PyTypeParser.ParameterListType paramList = as(elementTypes.get(0), PyTypeParser.ParameterListType.class); if (paramList != null) { return new PyCallableTypeImpl(paramList.getCallableParameters(), elementTypes.get(1)); } if (elementTypes.get(0) instanceof PyTypeParser.EllipsisType) { return new PyCallableTypeImpl(null, elementTypes.get(1)); } } if ("typing.Tuple".equals(qualifiedName)) { if (elementTypes.size() > 1 && elementTypes.get(1) instanceof PyTypeParser.EllipsisType) { return PyTupleType.createHomogeneous(resolved, elementTypes.get(0)); } return PyTupleType.create(resolved, elementTypes); } final PyType builtinCollection = getBuiltinCollection(resolved); if (builtinCollection instanceof PyClassType) { final PyClassType classType = (PyClassType) builtinCollection; return new PyCollectionTypeImpl(classType.getPyClass(), false, elementTypes); } return null; }
@Nullable private PyType resolveQualifierType( @NotNull List<Token<PyElementType>> tokens, @NotNull PyFile file, @NotNull TypeEvalContext context, @NotNull Map<TextRange, PyType> types, @NotNull Map<PyType, TextRange> fullRanges, @NotNull Map<PyType, PyImportElement> imports) { if (tokens.isEmpty()) { return null; } final Token<PyElementType> firstToken = tokens.get(0); final String firstText = firstToken.getText().toString(); final TextRange firstRange = firstToken.getRange(); final List<RatedResolveResult> resolveResults = file.multiResolveName(firstText); if (resolveResults.isEmpty()) { return getImplicitlyResolvedType(tokens, context, types, fullRanges, firstRange); } final List<PyType> members = Lists.newArrayList(); for (RatedResolveResult result : resolveResults) { final PsiElement resolved = result.getElement(); PyType type = null; if (resolved instanceof PyTargetExpression) { type = PyTypingTypeProvider.getTypeFromTargetExpression( (PyTargetExpression) resolved, context); } if (type == null && resolved instanceof PyTypedElement) { type = context.getType((PyTypedElement) resolved); } if (type != null) { if (!allowResolveToType(type)) { continue; } if (type instanceof PyClassLikeType) { type = ((PyClassLikeType) type).toInstance(); } types.put(firstRange, type); fullRanges.put(type, firstRange); for (PyFromImportStatement fromImportStatement : file.getFromImports()) { for (PyImportElement importElement : fromImportStatement.getImportElements()) { if (firstText.equals(importElement.getVisibleName())) { imports.put(type, importElement); } } } for (PyImportElement importElement : file.getImportTargets()) { if (firstText.equals(importElement.getVisibleName())) { imports.put(type, importElement); } } } members.add(type); } if (!members.isEmpty()) { tokens.remove(0); } return PyUnionType.union(members); }
@Nullable private static PyType getType(@NotNull PyExpression expression, @NotNull Context context) { final List<PyType> members = Lists.newArrayList(); for (PsiElement resolved : tryResolving(expression, context.getTypeContext())) { members.add(getTypeForResolvedElement(resolved, context)); } return PyUnionType.union(members); }
@Nullable private static PyType getGenericTypeBound( @NotNull PyExpression[] typeVarArguments, @NotNull Context context) { final List<PyType> types = new ArrayList<>(); for (int i = 1; i < typeVarArguments.length; i++) { types.add(getType(typeVarArguments[i], context)); } return PyUnionType.union(types); }
public PyType getType(@NotNull TypeEvalContext context, @NotNull TypeEvalContext.Key key) { if (!TypeEvalStack.mayEvaluate(this)) { return null; } try { final boolean qualified = isQualified(); if (!qualified) { String name = getReferencedName(); if (PyNames.NONE.equals(name)) { return PyNoneType.INSTANCE; } } PyType type = getTypeFromProviders(context); if (type != null) { return type; } if (qualified) { PyType maybe_type = PyUtil.getSpecialAttributeType(this, context); if (maybe_type != null) return maybe_type; Ref<PyType> typeOfProperty = getTypeOfProperty(context); if (typeOfProperty != null) { return typeOfProperty.get(); } } final PsiPolyVariantReference reference = getReference(PyResolveContext.noImplicits().withTypeEvalContext(context)); final List<PsiElement> targets = PyUtil.multiResolveTopPriority(reference); if (targets.isEmpty()) { return getQualifiedReferenceTypeByControlFlow(context); } final List<PyType> members = new ArrayList<PyType>(); for (PsiElement target : targets) { if (target == this || target == null) { continue; } if (!target.isValid()) { LOG.error( "Reference " + this + " resolved to invalid element " + target + " (text=" + target.getText() + ")"); continue; } members.add(getTypeFromTarget(target, context, this)); } return PyUnionType.union(members); } finally { TypeEvalStack.evaluated(this); } }
@Nullable private static PyType getOptionalTypeFromDefaultNone( @NotNull PyNamedParameter param, @NotNull PyType type, @NotNull TypeEvalContext context) { final PyExpression defaultValue = param.getDefaultValue(); if (defaultValue != null) { final PyType defaultType = context.getType(defaultValue); if (defaultType instanceof PyNoneType) { return PyUnionType.union(type, defaultType); } } return null; }
@Nullable private static PyType getUnionType(@NotNull PsiElement element, @NotNull Context context) { if (element instanceof PySubscriptionExpression) { final PySubscriptionExpression subscriptionExpr = (PySubscriptionExpression) element; final PyExpression operand = subscriptionExpr.getOperand(); final Collection<String> operandNames = resolveToQualifiedNames(operand, context.getTypeContext()); if (operandNames.contains("typing.Union")) { return PyUnionType.union(getIndexTypes(subscriptionExpr, context)); } } return null; }
@Override public void visitPyReturnStatement(PyReturnStatement node) { if (PsiTreeUtil.getParentOfType(node, ScopeOwner.class, true) == myFunction) { final PyExpression expr = node.getExpression(); PyType returnType; returnType = expr == null ? PyNoneType.INSTANCE : myContext.getType(expr); if (!myHasReturns) { myResult = returnType; myHasReturns = true; } else { myResult = PyUnionType.union(myResult, returnType); } } }
@Nullable private Ref<? extends PyType> getYieldStatementType(@NotNull final TypeEvalContext context) { Ref<PyType> elementType = null; final PyBuiltinCache cache = PyBuiltinCache.getInstance(this); final PyStatementList statements = getStatementList(); final Set<PyType> types = new LinkedHashSet<>(); statements.accept( new PyRecursiveElementVisitor() { @Override public void visitPyYieldExpression(PyYieldExpression node) { final PyExpression expr = node.getExpression(); final PyType type = expr != null ? context.getType(expr) : null; if (node.isDelegating() && type instanceof PyCollectionType) { final PyCollectionType collectionType = (PyCollectionType) type; // TODO: Select the parameter types that matches T in Iterable[T] final List<PyType> elementTypes = collectionType.getElementTypes(context); types.add(elementTypes.isEmpty() ? null : elementTypes.get(0)); } else { types.add(type); } } @Override public void visitPyFunction(PyFunction node) { // Ignore nested functions } }); final int n = types.size(); if (n == 1) { elementType = Ref.create(types.iterator().next()); } else if (n > 0) { elementType = Ref.create(PyUnionType.union(types)); } if (elementType != null) { final PyClass generator = cache.getClass(PyNames.FAKE_GENERATOR); if (generator != null) { final List<PyType> parameters = Arrays.asList(elementType.get(), null, getReturnStatementType(context)); return Ref.create(new PyCollectionTypeImpl(generator, false, parameters)); } } if (!types.isEmpty()) { return Ref.create(null); } return null; }
@Nullable private Ref<? extends PyType> getYieldStatementType(@NotNull final TypeEvalContext context) { Ref<PyType> elementType = null; final PyBuiltinCache cache = PyBuiltinCache.getInstance(this); final PyStatementList statements = getStatementList(); final Set<PyType> types = new LinkedHashSet<PyType>(); if (statements != null) { statements.accept( new PyRecursiveElementVisitor() { @Override public void visitPyYieldExpression(PyYieldExpression node) { final PyType type = context.getType(node); if (node.isDelegating() && type instanceof PyCollectionType) { final PyCollectionType collectionType = (PyCollectionType) type; types.add(collectionType.getElementType(context)); } else { types.add(type); } } @Override public void visitPyFunction(PyFunction node) { // Ignore nested functions } }); final int n = types.size(); if (n == 1) { elementType = Ref.create(types.iterator().next()); } else if (n > 0) { elementType = Ref.create(PyUnionType.union(types)); } } if (elementType != null) { final PyClass generator = cache.getClass(PyNames.FAKE_GENERATOR); if (generator != null) { return Ref.create(new PyCollectionTypeImpl(generator, false, elementType.get())); } } if (!types.isEmpty()) { return Ref.create(null); } return null; }
@Nullable private static Ref<PyType> getOptionalType( @NotNull PsiElement element, @NotNull Context context) { if (element instanceof PySubscriptionExpression) { final PySubscriptionExpression subscriptionExpr = (PySubscriptionExpression) element; final PyExpression operand = subscriptionExpr.getOperand(); final Collection<String> operandNames = resolveToQualifiedNames(operand, context.getTypeContext()); if (operandNames.contains("typing.Optional")) { final PyExpression indexExpr = subscriptionExpr.getIndexExpression(); if (indexExpr != null) { final PyType type = getType(indexExpr, context); if (type != null) { return Ref.create(PyUnionType.union(type, PyNoneType.INSTANCE)); } } return Ref.create(); } } return null; }
private static PyType getTypeByControlFlow( @NotNull String name, @NotNull TypeEvalContext context, @NotNull PyExpression anchor, @NotNull ScopeOwner scopeOwner) { PyAugAssignmentStatement augAssignment = PsiTreeUtil.getParentOfType(anchor, PyAugAssignmentStatement.class); try { final PyElement element = augAssignment != null ? augAssignment : anchor; final List<ReadWriteInstruction> defs = PyDefUseUtil.getLatestDefs(scopeOwner, name, element, true); if (!defs.isEmpty()) { PyType type = defs.get(0).getType(context, anchor); for (int i = 1; i < defs.size(); i++) { type = PyUnionType.union(type, defs.get(i).getType(context, anchor)); } return type; } } catch (PyDefUseUtil.InstructionNotFoundException ignored) { } return null; }
/** @param anchor should never be null or null will be returned */ @NotNull public static ParseResult parse(@Nullable final PsiElement anchor, @NotNull String type) { PyPsiUtils.assertValid(anchor); if (anchor == null) { return EMPTY_RESULT; } final ForwardDeclaration<ParseResult, PyElementType> typeExpr = ForwardDeclaration.create(); final FunctionalParser<ParseResult, PyElementType> classType = token(IDENTIFIER) .then(many(op(".").skipThen(token(IDENTIFIER)))) .map(new MakeSimpleType(anchor)) .cached() .named("class-type"); final FunctionalParser<ParseResult, PyElementType> tupleType = op("(") .skipThen(typeExpr) .then(many(op(",").skipThen(typeExpr))) .thenSkip(op(")")) .map( value -> { ParseResult result = value.getFirst(); final List<ParseResult> rest = value.getSecond(); if (rest.isEmpty()) { return result; } final List<PyType> types = new ArrayList<>(); types.add(result.getType()); for (ParseResult r : rest) { result = result.merge(r); types.add(r.getType()); } return result.withType(PyTupleType.create(anchor, types)); }) .named("tuple-type"); final FunctionalParser<ParseResult, PyElementType> typeParameter = token(PARAMETER) .then(maybe(op("<=").skipThen(typeExpr))) .map( value -> { final Token<PyElementType> token = value.getFirst(); final String name = token.getText().toString(); final TextRange range = token.getRange(); final ParseResult boundResult = value.getSecond(); if (boundResult != null) { final PyGenericType type1 = new PyGenericType(name, boundResult.getType()); final ParseResult result = new ParseResult(null, type1, range); return result.merge(boundResult).withType(type1); } return new ParseResult(null, new PyGenericType(name, null), range); }) .named("type-parameter"); final FunctionalParser<ParseResult, PyElementType> simpleExpr = classType.or(tupleType).or(typeParameter).named("simple-expr"); final FunctionalParser<ParseResult, PyElementType> paramExpr = classType .thenSkip(op("[")) .then(typeExpr) .then(many(op(",").skipThen(typeExpr))) .thenSkip(op("]")) .map( value -> { final Pair<ParseResult, ParseResult> firstPair = value.getFirst(); final ParseResult first = firstPair.getFirst(); final ParseResult second = firstPair.getSecond(); final List<ParseResult> third = value.getSecond(); final PyType firstType = first.getType(); final List<PyType> typesInBrackets = new ArrayList<>(); typesInBrackets.add(second.getType()); ParseResult result = first; result = result.merge(second); for (ParseResult r : third) { typesInBrackets.add(r.getType()); result = result.merge(r); } final List<PyType> elementTypes = third.isEmpty() ? Collections.singletonList(second.getType()) : typesInBrackets; final PsiElement resolved = first.getElement(); if (resolved != null) { final PyType typingType = PyTypingTypeProvider.getType(resolved, elementTypes); if (typingType != null) { return result.withType(typingType); } } if (firstType instanceof PyClassType) { final PyType type1 = new PyCollectionTypeImpl( ((PyClassType) firstType).getPyClass(), false, elementTypes); return result.withType(type1); } return EMPTY_RESULT; }) .or( classType .thenSkip(op("of")) .then(simpleExpr) .map( value -> { final ParseResult firstResult = value.getFirst(); final ParseResult secondResult = value.getSecond(); final ParseResult result = firstResult.merge(secondResult); final PyType firstType = firstResult.getType(); final PyType secondType = secondResult.getType(); if (firstType != null) { if (firstType instanceof PyClassType && secondType != null) { return result.withType( new PyCollectionTypeImpl( ((PyClassType) firstType).getPyClass(), false, Collections.singletonList(secondType))); } return result.withType(firstType); } return EMPTY_RESULT; })) .or( classType .thenSkip(op("from")) .then(simpleExpr) .thenSkip(op("to")) .then(simpleExpr) .map( value -> { final Pair<ParseResult, ParseResult> firstPair = value.getFirst(); final ParseResult first = firstPair.getFirst(); final ParseResult second = firstPair.getSecond(); final ParseResult third = value.getSecond(); final PyType firstType = first.getType(); if (firstType instanceof PyClassType) { final List<PyType> elementTypes = Arrays.asList(second.getType(), third.getType()); final PyCollectionTypeImpl type1 = new PyCollectionTypeImpl( ((PyClassType) firstType).getPyClass(), false, elementTypes); return first.merge(second).merge(third).withType(type1); } return EMPTY_RESULT; })) .named("param-expr"); final FunctionalParser<ParseResult, PyElementType> callableExpr = op("(") .skipThen(maybe(typeExpr.then(many(op(",").skipThen(typeExpr))))) .thenSkip(op(")")) .thenSkip(op("->")) .then(typeExpr) .map( value -> { final List<PyCallableParameter> parameters = new ArrayList<>(); final ParseResult returnResult = value.getSecond(); ParseResult result; final Pair<ParseResult, List<ParseResult>> firstPair = value.getFirst(); if (firstPair != null) { final ParseResult first = firstPair.getFirst(); final List<ParseResult> second = firstPair.getSecond(); result = first; parameters.add(new PyCallableParameterImpl(null, first.getType())); for (ParseResult r : second) { result = result.merge(r); parameters.add(new PyCallableParameterImpl(null, r.getType())); } result = result.merge(returnResult); } else { result = returnResult; } return result.withType( new PyCallableTypeImpl(parameters, returnResult.getType())); }) .named("callable-expr"); final FunctionalParser<ParseResult, PyElementType> singleExpr = paramExpr.or(callableExpr).or(simpleExpr).named("single-expr"); final FunctionalParser<ParseResult, PyElementType> unionExpr = singleExpr .then(many(op("or").or(op("|")).skipThen(singleExpr))) .map( value -> { final ParseResult first = value.getFirst(); final List<ParseResult> rest = value.getSecond(); if (rest.isEmpty()) { return first; } final List<PyType> types = new ArrayList<>(); types.add(first.getType()); ParseResult result = first; for (ParseResult r : rest) { types.add(r.getType()); result = result.merge(r); } return result.withType(PyUnionType.union(types)); }) .named("union-expr"); typeExpr.define(unionExpr).named("type-expr"); final FunctionalParser<ParseResult, PyElementType> typeFile = typeExpr.endOfInput().named("type-file"); try { return typeFile.parse(tokenize(type)); } catch (ParserException e) { return EMPTY_RESULT; } }