Java Code Examples for com.google.javascript.rhino.JSDocInfo#isConstant()
The following examples show how to use
com.google.javascript.rhino.JSDocInfo#isConstant() .
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Example 1
Source File: Normalize.java From astor with GNU General Public License v2.0 | 5 votes |
@Override public void visit(NodeTraversal t, Node n, Node parent) { // Note: Constant properties annotations are not propagated. if (n.isName()) { if (n.getString().isEmpty()) { return; } JSDocInfo info = null; // Find the JSDocInfo for a top-level variable. Var var = t.getScope().getVar(n.getString()); if (var != null) { info = var.getJSDocInfo(); } boolean shouldBeConstant = (info != null && info.isConstant()) || NodeUtil.isConstantByConvention( compiler.getCodingConvention(), n, parent); boolean isMarkedConstant = n.getBooleanProp(Node.IS_CONSTANT_NAME); if (shouldBeConstant && !isMarkedConstant) { if (assertOnChange) { String name = n.getString(); throw new IllegalStateException( "Unexpected const change.\n" + " name: "+ name + "\n" + " parent:" + n.getParent().toStringTree()); } n.putBooleanProp(Node.IS_CONSTANT_NAME, true); } } }
Example 2
Source File: Closure_79_Normalize_s.java From coming with MIT License | 5 votes |
@Override public void visit(NodeTraversal t, Node n, Node parent) { // Note: Constant properties annotations are not propagated. if (n.getType() == Token.NAME) { if (n.getString().isEmpty()) { return; } JSDocInfo info = null; // Find the JSDocInfo for a top level variable. Var var = t.getScope().getVar(n.getString()); if (var != null) { info = var.getJSDocInfo(); } boolean shouldBeConstant = (info != null && info.isConstant()) || NodeUtil.isConstantByConvention( compiler.getCodingConvention(), n, parent); boolean isMarkedConstant = n.getBooleanProp(Node.IS_CONSTANT_NAME); if (shouldBeConstant && !isMarkedConstant) { if (assertOnChange) { String name = n.getString(); throw new IllegalStateException( "Unexpected const change.\n" + " name: "+ name + "\n" + " parent:" + n.getParent().toStringTree()); } n.putBooleanProp(Node.IS_CONSTANT_NAME, true); } } }
Example 3
Source File: CheckAccessControls.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Returns if a property is declared constant. */ private static boolean isPropertyDeclaredConstant( ObjectType objectType, String prop) { for (; // Only objects with reference names can have constant properties. objectType != null && objectType.hasReferenceName(); objectType = objectType.getImplicitPrototype()) { JSDocInfo docInfo = objectType.getOwnPropertyJSDocInfo(prop); if (docInfo != null && docInfo.isConstant()) { return true; } } return false; }
Example 4
Source File: Closure_102_Normalize_s.java From coming with MIT License | 5 votes |
@Override public void visit(NodeTraversal t, Node n, Node parent) { // Note: Constant properties annotations are not propagated. if (n.getType() == Token.NAME) { if (n.getString().isEmpty()) { return; } JSDocInfo info = null; // Find the JSDocInfo for a top level variable. Var var = t.getScope().getVar(n.getString()); if (var != null) { info = var.getJSDocInfo(); } if ((info != null && info.isConstant()) && !n.getBooleanProp(Node.IS_CONSTANT_NAME)) { n.putBooleanProp(Node.IS_CONSTANT_NAME, true); if (assertOnChange) { String name = n.getString(); throw new IllegalStateException( "Unexpected const change.\n" + " name: "+ name + "\n" + " gramps:" + n.getParent().getParent().toStringTree()); } // Even though the AST has changed (an annotation was added), // the annotations are not compared so don't report the change. // reportCodeChange("constant annotation"); } } }
Example 5
Source File: Closure_79_Normalize_s.java From coming with MIT License | 4 votes |
@Override public void visit(NodeTraversal t, Node n, Node parent) { if (n.getType() == Token.NAME) { String name = n.getString(); if (n.getString().isEmpty()) { return; } boolean isConst = n.getBooleanProp(Node.IS_CONSTANT_NAME); if (checkUserDeclarations) { boolean expectedConst = false; CodingConvention convention = compiler.getCodingConvention(); if (NodeUtil.isConstantName(n) || NodeUtil.isConstantByConvention(convention, n, parent)) { expectedConst = true; } else { expectedConst = false; JSDocInfo info = null; Var var = t.getScope().getVar(n.getString()); if (var != null) { info = var.getJSDocInfo(); } if (info != null && info.isConstant()) { expectedConst = true; } else { expectedConst = false; } } if (expectedConst) { Preconditions.checkState(expectedConst == isConst, "The name " + name + " is not annotated as constant."); } else { Preconditions.checkState(expectedConst == isConst, "The name " + name + " should not be annotated as constant."); } } Boolean value = constantMap.get(name); if (value == null) { constantMap.put(name, isConst); } else { Preconditions.checkState(value.booleanValue() == isConst, "The name " + name + " is not consistently annotated as " + "constant."); } } }
Example 6
Source File: MemberCollector.java From jsinterop-generator with Apache License 2.0 | 4 votes |
private static boolean isConstant(StaticTypedSlot jsField) { JSDocInfo jsdoc = jsField.getJSDocInfo(); return jsdoc != null && jsdoc.isConstant(); }
Example 7
Source File: Closure_71_CheckAccessControls_t.java From coming with MIT License | 4 votes |
/** * Determines whether the given property with @const tag got reassigned * @param t The current traversal. * @param getprop The getprop node. */ private void checkConstantProperty(NodeTraversal t, Node getprop) { // Check whether the property is modified Node parent = getprop.getParent(); if (!(NodeUtil.isAssignmentOp(parent) && parent.getFirstChild() == getprop) && (parent.getType() != Token.INC) && (parent.getType() != Token.DEC)) { return; } ObjectType objectType = ObjectType.cast(dereference(getprop.getFirstChild().getJSType())); String propertyName = getprop.getLastChild().getString(); // Check whether constant properties are reassigned if (objectType != null) { ObjectType oType = objectType; while (oType != null) { if (oType.hasReferenceName()) { if (initializedConstantProperties.containsEntry( oType.getReferenceName(), propertyName)) { compiler.report( t.makeError(getprop, CONST_PROPERTY_REASSIGNED_VALUE, propertyName)); break; } } oType = oType.getImplicitPrototype(); } JSDocInfo info = objectType.getOwnPropertyJSDocInfo(propertyName); if (info != null && info.isConstant() && objectType.hasReferenceName()) { initializedConstantProperties.put(objectType.getReferenceName(), propertyName); } // Add the prototype when we're looking at an instance object if (objectType.isInstanceType()) { ObjectType prototype = objectType.getImplicitPrototype(); if (prototype != null) { JSDocInfo prototypeInfo = prototype.getOwnPropertyJSDocInfo(propertyName); if (prototypeInfo != null && prototypeInfo.isConstant() && prototype.hasReferenceName()) { initializedConstantProperties.put(prototype.getReferenceName(), propertyName); } } } } }
Example 8
Source File: Closure_130_CollapseProperties_t.java From coming with MIT License | 4 votes |
/** * Updates the first initialization (a.k.a "declaration") of a global name * that occurs at an ASSIGN node. See comment for * {@link #updateObjLitOrFunctionDeclaration}. * * @param n An object representing a global name (e.g. "a", "a.b.c") * @param alias The flattened name for {@code n} (e.g. "a", "a$b$c") */ private void updateObjLitOrFunctionDeclarationAtAssignNode( Name n, String alias, boolean canCollapseChildNames) { // NOTE: It's important that we don't add additional nodes // (e.g. a var node before the exprstmt) because the exprstmt might be // the child of an if statement that's not inside a block). Ref ref = n.getDeclaration(); Node rvalue = ref.node.getNext(); Node varNode = new Node(Token.VAR); Node varParent = ref.node.getAncestor(3); Node gramps = ref.node.getAncestor(2); boolean isObjLit = rvalue.isObjectLit(); boolean insertedVarNode = false; if (isObjLit && n.canEliminate()) { // Eliminate the object literal altogether. varParent.replaceChild(gramps, varNode); ref.node = null; insertedVarNode = true; } else if (!n.isSimpleName()) { // Create a VAR node to declare the name. if (rvalue.isFunction()) { checkForHosedThisReferences(rvalue, n.docInfo, n); } ref.node.getParent().removeChild(rvalue); Node nameNode = NodeUtil.newName( compiler.getCodingConvention(), alias, ref.node.getAncestor(2), n.getFullName()); JSDocInfo info = ref.node.getParent().getJSDocInfo(); if (ref.node.getLastChild().getBooleanProp(Node.IS_CONSTANT_NAME) || (info != null && info.isConstant())) { nameNode.putBooleanProp(Node.IS_CONSTANT_NAME, true); } if (info != null) { varNode.setJSDocInfo(info); } varNode.addChildToBack(nameNode); nameNode.addChildToFront(rvalue); varParent.replaceChild(gramps, varNode); // Update the node ancestry stored in the reference. ref.node = nameNode; insertedVarNode = true; } if (canCollapseChildNames) { if (isObjLit) { declareVarsForObjLitValues( n, alias, rvalue, varNode, varParent.getChildBefore(varNode), varParent); } addStubsForUndeclaredProperties(n, alias, varParent, varNode); } if (insertedVarNode) { if (!varNode.hasChildren()) { varParent.removeChild(varNode); } compiler.reportCodeChange(); } }
Example 9
Source File: Closure_54_TypedScopeCreator_s.java From coming with MIT License | 4 votes |
/** * Look for a type declaration on a property assignment * (in an ASSIGN or an object literal key). * * @param info The doc info for this property. * @param lValue The l-value node. * @param rValue The node that {@code n} is being initialized to, * or {@code null} if this is a stub declaration. */ private JSType getDeclaredType(String sourceName, JSDocInfo info, Node lValue, @Nullable Node rValue) { if (info != null && info.hasType()) { return getDeclaredTypeInAnnotation(sourceName, lValue, info); } else if (rValue != null && rValue.getType() == Token.FUNCTION && shouldUseFunctionLiteralType( JSType.toMaybeFunctionType(rValue.getJSType()), info, lValue)) { return rValue.getJSType(); } else if (info != null) { if (info.hasEnumParameterType()) { if (rValue != null && rValue.getType() == Token.OBJECTLIT) { return rValue.getJSType(); } else { return createEnumTypeFromNodes( rValue, lValue.getQualifiedName(), info, lValue); } } else if (info.isConstructor() || info.isInterface()) { return createFunctionTypeFromNodes( rValue, lValue.getQualifiedName(), info, lValue); } else { // Check if this is constant, and if it has a known type. if (info.isConstant()) { JSType knownType = null; if (rValue != null) { if (rValue.getJSType() != null && !rValue.getJSType().isUnknownType()) { return rValue.getJSType(); } else if (rValue.getType() == Token.OR) { // Check for a very specific JS idiom: // var x = x || TYPE; // This is used by Closure's base namespace for esoteric // reasons. Node firstClause = rValue.getFirstChild(); Node secondClause = firstClause.getNext(); boolean namesMatch = firstClause.getType() == Token.NAME && lValue.getType() == Token.NAME && firstClause.getString().equals(lValue.getString()); if (namesMatch && secondClause.getJSType() != null && !secondClause.getJSType().isUnknownType()) { return secondClause.getJSType(); } } } } } } return getDeclaredTypeInAnnotation(sourceName, lValue, info); }
Example 10
Source File: Closure_70_TypedScopeCreator_s.java From coming with MIT License | 4 votes |
/** * Look for a type declaration on a property assignment * (in an ASSIGN or an object literal key). * * @param info The doc info for this property. * @param lValue The l-value node. * @param rValue The node that {@code n} is being initialized to, * or {@code null} if this is a stub declaration. */ private JSType getDeclaredType(String sourceName, JSDocInfo info, Node lValue, @Nullable Node rValue) { if (info != null && info.hasType()) { return getDeclaredTypeInAnnotation(sourceName, lValue, info); } else if (rValue != null && rValue.getType() == Token.FUNCTION && shouldUseFunctionLiteralType( (FunctionType) rValue.getJSType(), info, lValue)) { return rValue.getJSType(); } else if (info != null) { if (info.hasEnumParameterType()) { if (rValue != null && rValue.getType() == Token.OBJECTLIT) { return rValue.getJSType(); } else { return createEnumTypeFromNodes( rValue, lValue.getQualifiedName(), info, lValue); } } else if (info.isConstructor() || info.isInterface()) { return createFunctionTypeFromNodes( rValue, lValue.getQualifiedName(), info, lValue); } else { // Check if this is constant, and if it has a known type. if (info.isConstant()) { JSType knownType = null; if (rValue != null) { if (rValue.getJSType() != null && !rValue.getJSType().isUnknownType()) { return rValue.getJSType(); } else if (rValue.getType() == Token.OR) { // Check for a very specific JS idiom: // var x = x || TYPE; // This is used by Closure's base namespace for esoteric // reasons. Node firstClause = rValue.getFirstChild(); Node secondClause = firstClause.getNext(); boolean namesMatch = firstClause.getType() == Token.NAME && lValue.getType() == Token.NAME && firstClause.getString().equals(lValue.getString()); if (namesMatch && secondClause.getJSType() != null && !secondClause.getJSType().isUnknownType()) { return secondClause.getJSType(); } } } } } } return getDeclaredTypeInAnnotation(sourceName, lValue, info); }
Example 11
Source File: Closure_70_TypedScopeCreator_t.java From coming with MIT License | 4 votes |
/** * Look for a type declaration on a property assignment * (in an ASSIGN or an object literal key). * * @param info The doc info for this property. * @param lValue The l-value node. * @param rValue The node that {@code n} is being initialized to, * or {@code null} if this is a stub declaration. */ private JSType getDeclaredType(String sourceName, JSDocInfo info, Node lValue, @Nullable Node rValue) { if (info != null && info.hasType()) { return getDeclaredTypeInAnnotation(sourceName, lValue, info); } else if (rValue != null && rValue.getType() == Token.FUNCTION && shouldUseFunctionLiteralType( (FunctionType) rValue.getJSType(), info, lValue)) { return rValue.getJSType(); } else if (info != null) { if (info.hasEnumParameterType()) { if (rValue != null && rValue.getType() == Token.OBJECTLIT) { return rValue.getJSType(); } else { return createEnumTypeFromNodes( rValue, lValue.getQualifiedName(), info, lValue); } } else if (info.isConstructor() || info.isInterface()) { return createFunctionTypeFromNodes( rValue, lValue.getQualifiedName(), info, lValue); } else { // Check if this is constant, and if it has a known type. if (info.isConstant()) { JSType knownType = null; if (rValue != null) { if (rValue.getJSType() != null && !rValue.getJSType().isUnknownType()) { return rValue.getJSType(); } else if (rValue.getType() == Token.OR) { // Check for a very specific JS idiom: // var x = x || TYPE; // This is used by Closure's base namespace for esoteric // reasons. Node firstClause = rValue.getFirstChild(); Node secondClause = firstClause.getNext(); boolean namesMatch = firstClause.getType() == Token.NAME && lValue.getType() == Token.NAME && firstClause.getString().equals(lValue.getString()); if (namesMatch && secondClause.getJSType() != null && !secondClause.getJSType().isUnknownType()) { return secondClause.getJSType(); } } } } } } return getDeclaredTypeInAnnotation(sourceName, lValue, info); }
Example 12
Source File: Closure_102_Normalize_s.java From coming with MIT License | 4 votes |
@Override public void visit(NodeTraversal t, Node n, Node parent) { if (n.getType() == Token.NAME) { String name = n.getString(); if (n.getString().isEmpty()) { return; } boolean isConst = n.getBooleanProp(Node.IS_CONSTANT_NAME); if (checkUserDeclarations) { boolean expectedConst = false; if (NodeUtil.isConstantName(n) || compiler.getCodingConvention().isConstant(n.getString())) { expectedConst = true; } else { expectedConst = false; JSDocInfo info = null; Var var = t.getScope().getVar(n.getString()); if (var != null) { info = var.getJSDocInfo(); } if (info != null && info.isConstant()) { expectedConst = true; } else { expectedConst = false; } } if (expectedConst) { Preconditions.checkState(expectedConst == isConst, "The name " + name + " is not annotated as constant."); } else { Preconditions.checkState(expectedConst == isConst, "The name " + name + " should not be annotated as constant."); } } Boolean value = constantMap.get(name); if (value == null) { constantMap.put(name, isConst); } else { Preconditions.checkState(value.booleanValue() == isConst, "The name " + name + " is not consistently annotated as " + "constant."); } } }
Example 13
Source File: Closure_102_Normalize_t.java From coming with MIT License | 4 votes |
@Override public void visit(NodeTraversal t, Node n, Node parent) { if (n.getType() == Token.NAME) { String name = n.getString(); if (n.getString().isEmpty()) { return; } boolean isConst = n.getBooleanProp(Node.IS_CONSTANT_NAME); if (checkUserDeclarations) { boolean expectedConst = false; if (NodeUtil.isConstantName(n) || compiler.getCodingConvention().isConstant(n.getString())) { expectedConst = true; } else { expectedConst = false; JSDocInfo info = null; Var var = t.getScope().getVar(n.getString()); if (var != null) { info = var.getJSDocInfo(); } if (info != null && info.isConstant()) { expectedConst = true; } else { expectedConst = false; } } if (expectedConst) { Preconditions.checkState(expectedConst == isConst, "The name " + name + " is not annotated as constant."); } else { Preconditions.checkState(expectedConst == isConst, "The name " + name + " should not be annotated as constant."); } } Boolean value = constantMap.get(name); if (value == null) { constantMap.put(name, isConst); } else { Preconditions.checkState(value.booleanValue() == isConst, "The name " + name + " is not consistently annotated as " + "constant."); } } }
Example 14
Source File: Closure_43_TypedScopeCreator_s.java From coming with MIT License | 4 votes |
/** * Look for a type declaration on a property assignment * (in an ASSIGN or an object literal key). * * @param info The doc info for this property. * @param lValue The l-value node. * @param rValue The node that {@code n} is being initialized to, * or {@code null} if this is a stub declaration. */ private JSType getDeclaredType(String sourceName, JSDocInfo info, Node lValue, @Nullable Node rValue) { if (info != null && info.hasType()) { return getDeclaredTypeInAnnotation(sourceName, lValue, info); } else if (rValue != null && rValue.isFunction() && shouldUseFunctionLiteralType( JSType.toMaybeFunctionType(rValue.getJSType()), info, lValue)) { return rValue.getJSType(); } else if (info != null) { if (info.hasEnumParameterType()) { if (rValue != null && rValue.isObjectLit()) { return rValue.getJSType(); } else { return createEnumTypeFromNodes( rValue, lValue.getQualifiedName(), info, lValue); } } else if (info.isConstructor() || info.isInterface()) { return createFunctionTypeFromNodes( rValue, lValue.getQualifiedName(), info, lValue); } else { // Check if this is constant, and if it has a known type. if (info.isConstant()) { JSType knownType = null; if (rValue != null) { if (rValue.getJSType() != null && !rValue.getJSType().isUnknownType()) { return rValue.getJSType(); } else if (rValue.isOr()) { // Check for a very specific JS idiom: // var x = x || TYPE; // This is used by Closure's base namespace for esoteric // reasons. Node firstClause = rValue.getFirstChild(); Node secondClause = firstClause.getNext(); boolean namesMatch = firstClause.isName() && lValue.isName() && firstClause.getString().equals(lValue.getString()); if (namesMatch && secondClause.getJSType() != null && !secondClause.getJSType().isUnknownType()) { return secondClause.getJSType(); } } } } } } return getDeclaredTypeInAnnotation(sourceName, lValue, info); }
Example 15
Source File: Closure_17_TypedScopeCreator_t.java From coming with MIT License | 4 votes |
/** * Look for a type declaration on a property assignment * (in an ASSIGN or an object literal key). * * @param info The doc info for this property. * @param lValue The l-value node. * @param rValue The node that {@code n} is being initialized to, * or {@code null} if this is a stub declaration. */ private JSType getDeclaredType(String sourceName, JSDocInfo info, Node lValue, @Nullable Node rValue) { if (info != null && info.hasType()) { return getDeclaredTypeInAnnotation(sourceName, lValue, info); } else if (rValue != null && rValue.isFunction() && shouldUseFunctionLiteralType( JSType.toMaybeFunctionType(rValue.getJSType()), info, lValue)) { return rValue.getJSType(); } else if (info != null) { if (info.hasEnumParameterType()) { if (rValue != null && rValue.isObjectLit()) { return rValue.getJSType(); } else { return createEnumTypeFromNodes( rValue, lValue.getQualifiedName(), info, lValue); } } else if (info.isConstructor() || info.isInterface()) { return createFunctionTypeFromNodes( rValue, lValue.getQualifiedName(), info, lValue); } else { // Check if this is constant, and if it has a known type. if (info.isConstant()) { JSType knownType = null; if (rValue != null) { JSDocInfo rValueInfo = rValue.getJSDocInfo(); if (rValueInfo != null && rValueInfo.hasType()) { // If rValue has a type-cast, we use the type in the type-cast. return rValueInfo.getType().evaluate(scope, typeRegistry); } else if (rValue.getJSType() != null && !rValue.getJSType().isUnknownType()) { // If rValue's type was already computed during scope creation, // then we can safely use that. return rValue.getJSType(); } else if (rValue.isOr()) { // Check for a very specific JS idiom: // var x = x || TYPE; // This is used by Closure's base namespace for esoteric // reasons. Node firstClause = rValue.getFirstChild(); Node secondClause = firstClause.getNext(); boolean namesMatch = firstClause.isName() && lValue.isName() && firstClause.getString().equals(lValue.getString()); if (namesMatch && secondClause.getJSType() != null && !secondClause.getJSType().isUnknownType()) { return secondClause.getJSType(); } } } } } } return getDeclaredTypeInAnnotation(sourceName, lValue, info); }
Example 16
Source File: TypedScopeCreator.java From astor with GNU General Public License v2.0 | 4 votes |
/** * Determines whether a qualified name is inferred. * NOTE(nicksantos): Determining whether a property is declared or not * is really really obnoxious. * * The problem is that there are two (equally valid) coding styles: * * (function() { * /* The authoritative definition of goog.bar. / * goog.bar = function() {}; * })(); * * function f() { * goog.bar(); * /* Reset goog.bar to a no-op. / * goog.bar = function() {}; * } * * In a dynamic language with first-class functions, it's very difficult * to know which one the user intended without looking at lots of * contextual information (the second example demonstrates a small case * of this, but there are some really pathological cases as well). * * The current algorithm checks if either the declaration has * JsDoc type information, or @const with a known type, * or a function literal with a name we haven't seen before. */ private boolean isQualifiedNameInferred( String qName, Node n, JSDocInfo info, Node rhsValue, JSType valueType) { if (valueType == null) { return true; } boolean inferred = true; if (info != null) { inferred = !(info.hasType() || info.hasEnumParameterType() || (info.isConstant() && valueType != null && !valueType.isUnknownType()) || FunctionTypeBuilder.isFunctionTypeDeclaration(info)); } if (inferred && rhsValue != null && rhsValue.isFunction()) { if (info != null) { return false; } else if (!scope.isDeclared(qName, false) && n.isUnscopedQualifiedName()) { // Check if this is in a conditional block. // Functions assigned in conditional blocks are inferred. for (Node current = n.getParent(); !(current.isScript() || current.isFunction()); current = current.getParent()) { if (NodeUtil.isControlStructure(current)) { return true; } } // Check if this is assigned in an inner scope. // Functions assigned in inner scopes are inferred. AstFunctionContents contents = getFunctionAnalysisResults(scope.getRootNode()); if (contents == null || !contents.getEscapedQualifiedNames().contains(qName)) { return false; } } } return inferred; }
Example 17
Source File: Normalize.java From astor with GNU General Public License v2.0 | 4 votes |
@Override public void visit(NodeTraversal t, Node n, Node parent) { if (n.isName()) { String name = n.getString(); if (n.getString().isEmpty()) { return; } boolean isConst = n.getBooleanProp(Node.IS_CONSTANT_NAME); if (checkUserDeclarations) { boolean expectedConst = false; CodingConvention convention = compiler.getCodingConvention(); if (NodeUtil.isConstantName(n) || NodeUtil.isConstantByConvention(convention, n, parent)) { expectedConst = true; } else { expectedConst = false; JSDocInfo info = null; Var var = t.getScope().getVar(n.getString()); if (var != null) { info = var.getJSDocInfo(); } if (info != null && info.isConstant()) { expectedConst = true; } else { expectedConst = false; } } if (expectedConst) { Preconditions.checkState(expectedConst == isConst, "The name %s is not annotated as constant.", name); } else { Preconditions.checkState(expectedConst == isConst, "The name %s should not be annotated as constant.", name); } } Boolean value = constantMap.get(name); if (value == null) { constantMap.put(name, isConst); } else { Preconditions.checkState(value.booleanValue() == isConst, "The name %s is not consistently annotated as constant.", name); } } }
Example 18
Source File: CollapseProperties.java From astor with GNU General Public License v2.0 | 4 votes |
/** * Updates the first initialization (a.k.a "declaration") of a global name * that occurs at an ASSIGN node. See comment for * {@link #updateObjLitOrFunctionDeclaration}. * * @param n An object representing a global name (e.g. "a", "a.b.c") * @param alias The flattened name for {@code n} (e.g. "a", "a$b$c") */ private void updateObjLitOrFunctionDeclarationAtAssignNode( Name n, String alias, boolean canCollapseChildNames) { // NOTE: It's important that we don't add additional nodes // (e.g. a var node before the exprstmt) because the exprstmt might be // the child of an if statement that's not inside a block). Ref ref = n.getDeclaration(); Node rvalue = ref.node.getNext(); Node varNode = new Node(Token.VAR); Node varParent = ref.node.getAncestor(3); Node gramps = ref.node.getAncestor(2); boolean isObjLit = rvalue.isObjectLit(); boolean insertedVarNode = false; if (isObjLit && n.canEliminate()) { // Eliminate the object literal altogether. varParent.replaceChild(gramps, varNode); ref.node = null; insertedVarNode = true; } else if (!n.isSimpleName()) { // Create a VAR node to declare the name. if (rvalue.isFunction()) { checkForHosedThisReferences(rvalue, n.docInfo, n); } ref.node.getParent().removeChild(rvalue); Node nameNode = NodeUtil.newName( compiler.getCodingConvention(), alias, ref.node.getAncestor(2), n.getFullName()); JSDocInfo info = ref.node.getParent().getJSDocInfo(); if (ref.node.getLastChild().getBooleanProp(Node.IS_CONSTANT_NAME) || (info != null && info.isConstant())) { nameNode.putBooleanProp(Node.IS_CONSTANT_NAME, true); } if (info != null) { varNode.setJSDocInfo(info); } varNode.addChildToBack(nameNode); nameNode.addChildToFront(rvalue); varParent.replaceChild(gramps, varNode); // Update the node ancestry stored in the reference. ref.node = nameNode; insertedVarNode = true; } if (canCollapseChildNames) { if (isObjLit) { declareVarsForObjLitValues( n, alias, rvalue, varNode, varParent.getChildBefore(varNode), varParent); } addStubsForUndeclaredProperties(n, alias, varParent, varNode); } if (insertedVarNode) { if (!varNode.hasChildren()) { varParent.removeChild(varNode); } compiler.reportCodeChange(); } }
Example 19
Source File: Closure_43_TypedScopeCreator_t.java From coming with MIT License | 4 votes |
/** * Look for a type declaration on a property assignment * (in an ASSIGN or an object literal key). * * @param info The doc info for this property. * @param lValue The l-value node. * @param rValue The node that {@code n} is being initialized to, * or {@code null} if this is a stub declaration. */ private JSType getDeclaredType(String sourceName, JSDocInfo info, Node lValue, @Nullable Node rValue) { if (info != null && info.hasType()) { return getDeclaredTypeInAnnotation(sourceName, lValue, info); } else if (rValue != null && rValue.isFunction() && shouldUseFunctionLiteralType( JSType.toMaybeFunctionType(rValue.getJSType()), info, lValue)) { return rValue.getJSType(); } else if (info != null) { if (info.hasEnumParameterType()) { if (rValue != null && rValue.isObjectLit()) { return rValue.getJSType(); } else { return createEnumTypeFromNodes( rValue, lValue.getQualifiedName(), info, lValue); } } else if (info.isConstructor() || info.isInterface()) { return createFunctionTypeFromNodes( rValue, lValue.getQualifiedName(), info, lValue); } else { // Check if this is constant, and if it has a known type. if (info.isConstant()) { JSType knownType = null; if (rValue != null) { if (rValue.getJSType() != null && !rValue.getJSType().isUnknownType()) { return rValue.getJSType(); } else if (rValue.isOr()) { // Check for a very specific JS idiom: // var x = x || TYPE; // This is used by Closure's base namespace for esoteric // reasons. Node firstClause = rValue.getFirstChild(); Node secondClause = firstClause.getNext(); boolean namesMatch = firstClause.isName() && lValue.isName() && firstClause.getString().equals(lValue.getString()); if (namesMatch && secondClause.getJSType() != null && !secondClause.getJSType().isUnknownType()) { return secondClause.getJSType(); } } } } } } return getDeclaredTypeInAnnotation(sourceName, lValue, info); }
Example 20
Source File: Closure_43_TypedScopeCreator_t.java From coming with MIT License | 3 votes |
/** * Determines whether a qualified name is inferred. * NOTE(nicksantos): Determining whether a property is declared or not * is really really obnoxious. * * The problem is that there are two (equally valid) coding styles: * * (function() { * /* The authoritative definition of goog.bar. / * goog.bar = function() {}; * })(); * * function f() { * goog.bar(); * /* Reset goog.bar to a no-op. / * goog.bar = function() {}; * } * * In a dynamic language with first-class functions, it's very difficult * to know which one the user intended without looking at lots of * contextual information (the second example demonstrates a small case * of this, but there are some really pathological cases as well). * * The current algorithm checks if either the declaration has * jsdoc type information, or @const with a known type, * or a function literal with a name we haven't seen before. */ private boolean isQualifiedNameInferred( String qName, Node n, JSDocInfo info, Node rhsValue, JSType valueType) { if (valueType == null) { return true; } boolean inferred = true; if (info != null) { inferred = !(info.hasType() || info.hasEnumParameterType() || (info.isConstant() && valueType != null && !valueType.isUnknownType()) || FunctionTypeBuilder.isFunctionTypeDeclaration(info)); } if (inferred && rhsValue != null && rhsValue.isFunction()) { if (info != null) { inferred = false; } else if (!scope.isDeclared(qName, false) && n.isUnscopedQualifiedName()) { inferred = false; } } return inferred; }