Java Code Examples for com.google.javascript.rhino.Node#setOptionalArg()
The following examples show how to use
com.google.javascript.rhino.Node#setOptionalArg() .
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Example 1
Source File: FunctionParamBuilder.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Copies the parameter specification from the given node. */ public Node newParameterFromNode(Node n) { Node newParam = newParameter(n.getJSType()); newParam.setVarArgs(n.isVarArgs()); newParam.setOptionalArg(n.isOptionalArg()); return newParam; }
Example 2
Source File: FunctionParamBuilder.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Copies the parameter specification from the given node, * but makes sure it's optional. */ public Node newOptionalParameterFromNode(Node n) { Node newParam = newParameterFromNode(n); if (!newParam.isVarArgs() && !newParam.isOptionalArg()) { newParam.setOptionalArg(true); } return newParam; }
Example 3
Source File: FunctionType.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Notice that "call" and "bind" have the same argument signature, * except that all the arguments of "bind" (except the first) * are optional. */ private FunctionType getCallOrBindSignature(boolean isCall) { boolean isBind = !isCall; FunctionBuilder builder = new FunctionBuilder(registry) .withReturnType(isCall ? getReturnType() : getBindReturnType(-1)) .withTemplateKeys(getTemplateKeys()); Node origParams = getParametersNode(); if (origParams != null) { Node params = origParams.cloneTree(); Node thisTypeNode = Node.newString(Token.NAME, "thisType"); thisTypeNode.setJSType( registry.createOptionalNullableType(getTypeOfThis())); params.addChildToFront(thisTypeNode); if (isBind) { // The arguments of bind() are unique in that they are all // optional but not undefinable. for (Node current = thisTypeNode.getNext(); current != null; current = current.getNext()) { current.setOptionalArg(true); } } else if (isCall) { // The first argument of call() is optional iff all the arguments // are optional. It's sufficient to check the first argument. Node firstArg = thisTypeNode.getNext(); if (firstArg == null || firstArg.isOptionalArg() || firstArg.isVarArgs()) { thisTypeNode.setOptionalArg(true); } } builder.withParamsNode(params); } return builder.build(); }
Example 4
Source File: Closure_90_FunctionTypeBuilder_s.java From coming with MIT License | 4 votes |
/** * Infer the parameter and return types of a function from * the parameter and return types of the function it is overriding. * * @param oldType The function being overridden. Does nothing if this is null. * @param paramsParent The LP node of the function that we're assigning to. * If null, that just means we're not initializing this to a function * literal. */ FunctionTypeBuilder inferFromOverriddenFunction( @Nullable FunctionType oldType, @Nullable Node paramsParent) { if (oldType == null) { return this; } returnType = oldType.getReturnType(); returnTypeInferred = oldType.isReturnTypeInferred(); if (paramsParent == null) { // Not a function literal. parametersNode = oldType.getParametersNode(); if (parametersNode == null) { parametersNode = new FunctionParamBuilder(typeRegistry).build(); } } else { // We're overriding with a function literal. Apply type information // to each parameter of the literal. FunctionParamBuilder paramBuilder = new FunctionParamBuilder(typeRegistry); Iterator<Node> oldParams = oldType.getParameters().iterator(); boolean warnedAboutArgList = false; boolean oldParamsListHitOptArgs = false; for (Node currentParam = paramsParent.getFirstChild(); currentParam != null; currentParam = currentParam.getNext()) { if (oldParams.hasNext()) { Node oldParam = oldParams.next(); Node newParam = paramBuilder.newParameterFromNode(oldParam); oldParamsListHitOptArgs = oldParamsListHitOptArgs || oldParam.isVarArgs() || oldParam.isOptionalArg(); // The subclass method might right its var_args as individual // arguments. if (currentParam.getNext() != null && newParam.isVarArgs()) { newParam.setVarArgs(false); newParam.setOptionalArg(true); } } else { warnedAboutArgList |= addParameter( paramBuilder, typeRegistry.getNativeType(UNKNOWN_TYPE), warnedAboutArgList, codingConvention.isOptionalParameter(currentParam) || oldParamsListHitOptArgs, codingConvention.isVarArgsParameter(currentParam)); } } parametersNode = paramBuilder.build(); } return this; }
Example 5
Source File: Closure_90_FunctionTypeBuilder_t.java From coming with MIT License | 4 votes |
/** * Infer the parameter and return types of a function from * the parameter and return types of the function it is overriding. * * @param oldType The function being overridden. Does nothing if this is null. * @param paramsParent The LP node of the function that we're assigning to. * If null, that just means we're not initializing this to a function * literal. */ FunctionTypeBuilder inferFromOverriddenFunction( @Nullable FunctionType oldType, @Nullable Node paramsParent) { if (oldType == null) { return this; } returnType = oldType.getReturnType(); returnTypeInferred = oldType.isReturnTypeInferred(); if (paramsParent == null) { // Not a function literal. parametersNode = oldType.getParametersNode(); if (parametersNode == null) { parametersNode = new FunctionParamBuilder(typeRegistry).build(); } } else { // We're overriding with a function literal. Apply type information // to each parameter of the literal. FunctionParamBuilder paramBuilder = new FunctionParamBuilder(typeRegistry); Iterator<Node> oldParams = oldType.getParameters().iterator(); boolean warnedAboutArgList = false; boolean oldParamsListHitOptArgs = false; for (Node currentParam = paramsParent.getFirstChild(); currentParam != null; currentParam = currentParam.getNext()) { if (oldParams.hasNext()) { Node oldParam = oldParams.next(); Node newParam = paramBuilder.newParameterFromNode(oldParam); oldParamsListHitOptArgs = oldParamsListHitOptArgs || oldParam.isVarArgs() || oldParam.isOptionalArg(); // The subclass method might right its var_args as individual // arguments. if (currentParam.getNext() != null && newParam.isVarArgs()) { newParam.setVarArgs(false); newParam.setOptionalArg(true); } } else { warnedAboutArgList |= addParameter( paramBuilder, typeRegistry.getNativeType(UNKNOWN_TYPE), warnedAboutArgList, codingConvention.isOptionalParameter(currentParam) || oldParamsListHitOptArgs, codingConvention.isVarArgsParameter(currentParam)); } } parametersNode = paramBuilder.build(); } return this; }
Example 6
Source File: Closure_90_FunctionType_s.java From coming with MIT License | 4 votes |
@Override public JSType getPropertyType(String name) { if ("prototype".equals(name)) { return getPrototype(); } else { if (!hasOwnProperty(name)) { if ("call".equals(name)) { // Define the "call" function lazily. Node params = getParametersNode(); if (params == null) { // If there's no params array, don't do any type-checking // in this CALL function. defineDeclaredProperty(name, new FunctionBuilder(registry) .withReturnType(getReturnType()) .build(), false); } else { params = params.cloneTree(); Node thisTypeNode = Node.newString(Token.NAME, "thisType"); thisTypeNode.setJSType( registry.createOptionalNullableType(getTypeOfThis())); params.addChildToFront(thisTypeNode); thisTypeNode.setOptionalArg(true); defineDeclaredProperty(name, new FunctionBuilder(registry) .withParamsNode(params) .withReturnType(getReturnType()) .build(), false); } } else if ("apply".equals(name)) { // Define the "apply" function lazily. FunctionParamBuilder builder = new FunctionParamBuilder(registry); // Ecma-262 says that apply's second argument must be an Array // or an arguments object. We don't model the arguments object, // so let's just be forgiving for now. // TODO(nicksantos): Model the Arguments object. builder.addOptionalParams( registry.createNullableType(getTypeOfThis()), registry.createNullableType( registry.getNativeType(JSTypeNative.OBJECT_TYPE))); defineDeclaredProperty(name, new FunctionBuilder(registry) .withParams(builder) .withReturnType(getReturnType()) .build(), false); } } return super.getPropertyType(name); } }
Example 7
Source File: Closure_90_FunctionType_t.java From coming with MIT License | 4 votes |
@Override public JSType getPropertyType(String name) { if ("prototype".equals(name)) { return getPrototype(); } else { if (!hasOwnProperty(name)) { if ("call".equals(name)) { // Define the "call" function lazily. Node params = getParametersNode(); if (params == null) { // If there's no params array, don't do any type-checking // in this CALL function. defineDeclaredProperty(name, new FunctionBuilder(registry) .withReturnType(getReturnType()) .build(), false); } else { params = params.cloneTree(); Node thisTypeNode = Node.newString(Token.NAME, "thisType"); thisTypeNode.setJSType( registry.createOptionalNullableType(getTypeOfThis())); params.addChildToFront(thisTypeNode); thisTypeNode.setOptionalArg(true); defineDeclaredProperty(name, new FunctionBuilder(registry) .withParamsNode(params) .withReturnType(getReturnType()) .build(), false); } } else if ("apply".equals(name)) { // Define the "apply" function lazily. FunctionParamBuilder builder = new FunctionParamBuilder(registry); // Ecma-262 says that apply's second argument must be an Array // or an arguments object. We don't model the arguments object, // so let's just be forgiving for now. // TODO(nicksantos): Model the Arguments object. builder.addOptionalParams( registry.createNullableType(getTypeOfThis()), registry.createNullableType( registry.getNativeType(JSTypeNative.OBJECT_TYPE))); defineDeclaredProperty(name, new FunctionBuilder(registry) .withParams(builder) .withReturnType(getReturnType()) .build(), false); } } return super.getPropertyType(name); } }
Example 8
Source File: Closure_41_FunctionTypeBuilder_s.java From coming with MIT License | 4 votes |
/** * Infer the parameter and return types of a function from * the parameter and return types of the function it is overriding. * * @param oldType The function being overridden. Does nothing if this is null. * @param paramsParent The LP node of the function that we're assigning to. * If null, that just means we're not initializing this to a function * literal. */ FunctionTypeBuilder inferFromOverriddenFunction( @Nullable FunctionType oldType, @Nullable Node paramsParent) { if (oldType == null) { return this; } returnType = oldType.getReturnType(); returnTypeInferred = oldType.isReturnTypeInferred(); if (paramsParent == null) { // Not a function literal. parametersNode = oldType.getParametersNode(); if (parametersNode == null) { parametersNode = new FunctionParamBuilder(typeRegistry).build(); } } else { // We're overriding with a function literal. Apply type information // to each parameter of the literal. FunctionParamBuilder paramBuilder = new FunctionParamBuilder(typeRegistry); Iterator<Node> oldParams = oldType.getParameters().iterator(); boolean warnedAboutArgList = false; boolean oldParamsListHitOptArgs = false; for (Node currentParam = paramsParent.getFirstChild(); currentParam != null; currentParam = currentParam.getNext()) { if (oldParams.hasNext()) { Node oldParam = oldParams.next(); Node newParam = paramBuilder.newParameterFromNode(oldParam); oldParamsListHitOptArgs = oldParamsListHitOptArgs || oldParam.isVarArgs() || oldParam.isOptionalArg(); // The subclass method might write its var_args as individual // arguments. if (currentParam.getNext() != null && newParam.isVarArgs()) { newParam.setVarArgs(false); newParam.setOptionalArg(true); } } else { warnedAboutArgList |= addParameter( paramBuilder, typeRegistry.getNativeType(UNKNOWN_TYPE), warnedAboutArgList, codingConvention.isOptionalParameter(currentParam) || oldParamsListHitOptArgs, codingConvention.isVarArgsParameter(currentParam)); } } // Clone any remaining params that aren't in the function literal. parametersNode = paramBuilder.build(); } return this; }
Example 9
Source File: Closure_41_FunctionTypeBuilder_t.java From coming with MIT License | 4 votes |
/** * Infer the parameter and return types of a function from * the parameter and return types of the function it is overriding. * * @param oldType The function being overridden. Does nothing if this is null. * @param paramsParent The LP node of the function that we're assigning to. * If null, that just means we're not initializing this to a function * literal. */ FunctionTypeBuilder inferFromOverriddenFunction( @Nullable FunctionType oldType, @Nullable Node paramsParent) { if (oldType == null) { return this; } returnType = oldType.getReturnType(); returnTypeInferred = oldType.isReturnTypeInferred(); if (paramsParent == null) { // Not a function literal. parametersNode = oldType.getParametersNode(); if (parametersNode == null) { parametersNode = new FunctionParamBuilder(typeRegistry).build(); } } else { // We're overriding with a function literal. Apply type information // to each parameter of the literal. FunctionParamBuilder paramBuilder = new FunctionParamBuilder(typeRegistry); Iterator<Node> oldParams = oldType.getParameters().iterator(); boolean warnedAboutArgList = false; boolean oldParamsListHitOptArgs = false; for (Node currentParam = paramsParent.getFirstChild(); currentParam != null; currentParam = currentParam.getNext()) { if (oldParams.hasNext()) { Node oldParam = oldParams.next(); Node newParam = paramBuilder.newParameterFromNode(oldParam); oldParamsListHitOptArgs = oldParamsListHitOptArgs || oldParam.isVarArgs() || oldParam.isOptionalArg(); // The subclass method might write its var_args as individual // arguments. if (currentParam.getNext() != null && newParam.isVarArgs()) { newParam.setVarArgs(false); newParam.setOptionalArg(true); } } else { warnedAboutArgList |= addParameter( paramBuilder, typeRegistry.getNativeType(UNKNOWN_TYPE), warnedAboutArgList, codingConvention.isOptionalParameter(currentParam) || oldParamsListHitOptArgs, codingConvention.isVarArgsParameter(currentParam)); } } // Clone any remaining params that aren't in the function literal. while (oldParams.hasNext()) { paramBuilder.newParameterFromNode(oldParams.next()); } parametersNode = paramBuilder.build(); } return this; }
Example 10
Source File: Closure_54_FunctionType_t.java From coming with MIT License | 4 votes |
@Override public JSType getPropertyType(String name) { if (!hasOwnProperty(name)) { if ("call".equals(name)) { // Define the "call" function lazily. Node params = getParametersNode(); if (params == null) { // If there's no params array, don't do any type-checking // in this CALL function. defineDeclaredProperty(name, new FunctionBuilder(registry) .withReturnType(getReturnType()) .build(), source); } else { params = params.cloneTree(); Node thisTypeNode = Node.newString(Token.NAME, "thisType"); thisTypeNode.setJSType( registry.createOptionalNullableType(getTypeOfThis())); params.addChildToFront(thisTypeNode); thisTypeNode.setOptionalArg(true); defineDeclaredProperty(name, new FunctionBuilder(registry) .withParamsNode(params) .withReturnType(getReturnType()) .build(), source); } } else if ("apply".equals(name)) { // Define the "apply" function lazily. FunctionParamBuilder builder = new FunctionParamBuilder(registry); // Ecma-262 says that apply's second argument must be an Array // or an arguments object. We don't model the arguments object, // so let's just be forgiving for now. // TODO(nicksantos): Model the Arguments object. builder.addOptionalParams( registry.createNullableType(getTypeOfThis()), registry.createNullableType( registry.getNativeType(JSTypeNative.OBJECT_TYPE))); defineDeclaredProperty(name, new FunctionBuilder(registry) .withParams(builder) .withReturnType(getReturnType()) .build(), source); } } return super.getPropertyType(name); }
Example 11
Source File: Closure_54_FunctionType_s.java From coming with MIT License | 4 votes |
@Override public JSType getPropertyType(String name) { if (!hasOwnProperty(name)) { if ("call".equals(name)) { // Define the "call" function lazily. Node params = getParametersNode(); if (params == null) { // If there's no params array, don't do any type-checking // in this CALL function. defineDeclaredProperty(name, new FunctionBuilder(registry) .withReturnType(getReturnType()) .build(), source); } else { params = params.cloneTree(); Node thisTypeNode = Node.newString(Token.NAME, "thisType"); thisTypeNode.setJSType( registry.createOptionalNullableType(getTypeOfThis())); params.addChildToFront(thisTypeNode); thisTypeNode.setOptionalArg(true); defineDeclaredProperty(name, new FunctionBuilder(registry) .withParamsNode(params) .withReturnType(getReturnType()) .build(), source); } } else if ("apply".equals(name)) { // Define the "apply" function lazily. FunctionParamBuilder builder = new FunctionParamBuilder(registry); // Ecma-262 says that apply's second argument must be an Array // or an arguments object. We don't model the arguments object, // so let's just be forgiving for now. // TODO(nicksantos): Model the Arguments object. builder.addOptionalParams( registry.createNullableType(getTypeOfThis()), registry.createNullableType( registry.getNativeType(JSTypeNative.OBJECT_TYPE))); defineDeclaredProperty(name, new FunctionBuilder(registry) .withParams(builder) .withReturnType(getReturnType()) .build(), source); } } return super.getPropertyType(name); }
Example 12
Source File: FunctionTypeBuilder.java From astor with GNU General Public License v2.0 | 4 votes |
/** * Infer the parameter and return types of a function from * the parameter and return types of the function it is overriding. * * @param oldType The function being overridden. Does nothing if this is null. * @param paramsParent The LP node of the function that we're assigning to. * If null, that just means we're not initializing this to a function * literal. */ FunctionTypeBuilder inferFromOverriddenFunction( @Nullable FunctionType oldType, @Nullable Node paramsParent) { if (oldType == null) { return this; } returnType = oldType.getReturnType(); returnTypeInferred = oldType.isReturnTypeInferred(); if (paramsParent == null) { // Not a function literal. parametersNode = oldType.getParametersNode(); if (parametersNode == null) { parametersNode = new FunctionParamBuilder(typeRegistry).build(); } } else { // We're overriding with a function literal. Apply type information // to each parameter of the literal. FunctionParamBuilder paramBuilder = new FunctionParamBuilder(typeRegistry); Iterator<Node> oldParams = oldType.getParameters().iterator(); boolean warnedAboutArgList = false; boolean oldParamsListHitOptArgs = false; for (Node currentParam = paramsParent.getFirstChild(); currentParam != null; currentParam = currentParam.getNext()) { if (oldParams.hasNext()) { Node oldParam = oldParams.next(); Node newParam = paramBuilder.newParameterFromNode(oldParam); oldParamsListHitOptArgs = oldParamsListHitOptArgs || oldParam.isVarArgs() || oldParam.isOptionalArg(); // The subclass method might write its var_args as individual // arguments. if (currentParam.getNext() != null && newParam.isVarArgs()) { newParam.setVarArgs(false); newParam.setOptionalArg(true); } } else { warnedAboutArgList |= addParameter( paramBuilder, typeRegistry.getNativeType(UNKNOWN_TYPE), warnedAboutArgList, codingConvention.isOptionalParameter(currentParam) || oldParamsListHitOptArgs, codingConvention.isVarArgsParameter(currentParam)); } } // Clone any remaining params that aren't in the function literal, // but make them optional. while (oldParams.hasNext()) { paramBuilder.newOptionalParameterFromNode(oldParams.next()); } parametersNode = paramBuilder.build(); } return this; }