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/*
 * Copyright 2007 The Closure Compiler Authors.
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
package com.google.javascript.jscomp;

import com.google.common.base.Preconditions;
import com.google.errorprone.annotations.Immutable;
import com.google.javascript.jscomp.newtypes.DeclaredTypeRegistry;
import com.google.javascript.jscomp.newtypes.JSType;
import com.google.javascript.rhino.FunctionTypeI;
import com.google.javascript.rhino.Node;
import com.google.javascript.rhino.NominalTypeBuilder;
import com.google.javascript.rhino.ObjectTypeI;
import com.google.javascript.rhino.StaticSourceFile;
import com.google.javascript.rhino.TypeIRegistry;
import com.google.javascript.rhino.jstype.JSTypeNative;
import com.google.javascript.rhino.jstype.JSTypeRegistry;
import java.io.Serializable;
import java.util.Collection;
import java.util.List;
import java.util.Map;

/**
 * CodingConvention defines a set of hooks to customize the behavior of the
 * Compiler for a specific team/company.
 *
 */
@Immutable
public interface CodingConvention extends Serializable {

  /**
   * This checks whether a given variable name, such as a name in all-caps
   * should be treated as if it had the @const annotation.
   *
   * @param variableName potentially constant variable name
   * @return {@code true} if the name should be treated as a constant.
   */
  public boolean isConstant(String variableName);

  /**
   * This checks whether a given key of an object literal, such as a
   * name in all-caps should be treated as if it had the @const
   * annotation.
   */
  public boolean isConstantKey(String keyName);

  /**
   * This checks that a given {@code key} may be used as a key for an enum.
   *
   * @param key the potential key to an enum
   * @return {@code true} if the {@code key} may be used as an enum key,
   *     {@code false} otherwise
   */
  public boolean isValidEnumKey(String key);

  /**
   * This checks whether a given parameter name should be treated as an
   * optional parameter as far as type checking or function call arg count
   * checking is concerned. Note that an optional function parameter may be
   * declared as a simple type and is automatically converted to a union of the
   * declared type and Undefined.
   *
   * @param parameter The parameter's node.
   * @return {@code true} if the parameter should be treated as an optional
   * parameter.
   */
  public boolean isOptionalParameter(Node parameter);

  /**
   * This checks whether a given parameter should be treated as a marker
   * for a variable argument list function. A VarArgs parameter must be the
   * last parameter in a function declaration.
   *
   * @param parameter The parameter's node.
   * @return {@code true} if the parameter should be treated as a variable
   * length parameter.
   */
  public boolean isVarArgsParameter(Node parameter);

  /**
   * Used by CheckMissingReturn. When a function call always throws an error,
   * it can be the last stm of a block and we don't warn about missing return.
   */
  public boolean isFunctionCallThatAlwaysThrows(Node n);

  /**
   * Checks whether a global variable or function name should be treated as
   * exported, or externally referenceable.
   *
   * @param name A global variable or function name.
   * @param local {@code true} if the name is a local variable.
   * @return {@code true} if the name should be considered exported.
   */
  public boolean isExported(String name, boolean local);

  /**
   * Should be isExported(name, true) || isExported(name, false);
   */
  public boolean isExported(String name);

  /**
   * Check whether the property name is eligible for renaming.
   *
   * This method will not block removal or collapsing
   * of the property; it will just block renaming if the
   * property is not optimized away.
   *
   * @param name A property name.
   * @return {@code true} if the name can not be renamed.
   */
  public boolean blockRenamingForProperty(String name);

  /**
   * @return the package name for the given source file, or null if
   *     no package name is known.
   */
  public String getPackageName(StaticSourceFile source);

  /**
   * Checks whether a name should be considered private. Private global
   * variables and functions can only be referenced within the source file in
   * which they are declared. Private properties and methods should only be
   * accessed by the class that defines them.
   *
   * @param name The name of a global variable or function, or a method or
   *     property.
   * @return {@code true} if the name should be considered private.
   */
  public boolean isPrivate(String name);

  /**
   * Whether this CodingConvention includes a convention for what private names should look like.
   */
  public boolean hasPrivacyConvention();

  /**
   * Checks if the given method defines a subclass relationship,
   * and if it does, returns information on that relationship. By default,
   * always returns null. Meant to be overridden by subclasses.
   *
   * @param callNode A CALL node.
   */
  public SubclassRelationship getClassesDefinedByCall(Node callNode);

  /**
   * Checks if the given method is a call to a class factory, such a factory returns a
   * unique class.
   *
   * @param callNode A CALL node.
   */
  public boolean isClassFactoryCall(Node callNode);

  /**
   * Returns true if passed a string referring to the superclass.  The string
   * will usually be from the string node at the right of a GETPROP, e.g.
   * this.superClass_.
   */
  public boolean isSuperClassReference(String propertyName);

  /**
   * Convenience method for determining if the node indicates the file
   * is a "module" file (a file whose top level symbols are not in global
   * scope).
   */
  boolean extractIsModuleFile(Node node, Node parent);

  /**
   * Convenience method for determining provided dependencies amongst different
   * JS scripts.
   */
  public String extractClassNameIfProvide(Node node, Node parent);

  /**
   * Convenience method for determining required dependencies amongst different
   * JS scripts.
   */
  public String extractClassNameIfRequire(Node node, Node parent);

  /**
   * Function name used when exporting properties.
   * Signature: fn(object, publicName, symbol).
   * @return function name.
   */
  public String getExportPropertyFunction();

  /**
   * Function name used when exporting symbols.
   * Signature: fn(publicPath, object).
   * @return function name.
   */
  public String getExportSymbolFunction();

  /**
   * Checks if the given CALL node is forward-declaring any types,
   * and returns the name of the types if it is.
   */
  public List identifyTypeDeclarationCall(Node n);

  /**
   * In many JS libraries, the function that produces inheritance also
   * adds properties to the superclass and/or subclass.
   */
  public void applySubclassRelationship(
      NominalTypeBuilder parent, NominalTypeBuilder child, SubclassType type);

  /**
   * Function name for abstract methods. An abstract method can be assigned to
   * an interface method instead of an function expression in order to avoid
   * linter warnings produced by assigning a function without a return value
   * where a return value is expected.
   * @return function name.
   */
  public String getAbstractMethodName();

  /**
   * Checks if the given method defines a singleton getter, and if it does,
   * returns the name of the class with the singleton getter. By default, always
   * returns null. Meant to be overridden by subclasses.
   *
   * addSingletonGetter needs a coding convention because in the general case,
   * it can't be inlined. The function inliner sees that it creates an alias
   * to the given class in an inner closure, and bails out.
   *
   * @param callNode A CALL node.
   */
  public String getSingletonGetterClassName(Node callNode);

  /**
   * In many JS libraries, the function that adds a singleton getter to a class
   * adds properties to the class.
   */
  public void applySingletonGetter(
      NominalTypeBuilder classType, FunctionTypeI getterType);

  /**
   * @return Whether the function is inlinable by convention.
   */
  public boolean isInlinableFunction(Node n);

  /**
   * @return the delegate relationship created by the call or null.
   */
  public DelegateRelationship getDelegateRelationship(Node callNode);

  /**
   * In many JS libraries, the function that creates a delegate relationship
   * also adds properties to the delegator and delegate base.
   */
  public void applyDelegateRelationship(
      NominalTypeBuilder delegateSuperclass,
      NominalTypeBuilder delegateBase,
      NominalTypeBuilder delegator,
      ObjectTypeI delegateProxy,
      FunctionTypeI findDelegate);

  /**
   * @return the name of the delegate superclass.
   */
  public String getDelegateSuperclassName();

  /**
   * Checks for getprops that set the calling conventions on delegate methods.
   */
  public void checkForCallingConventionDefinitions(
      Node getPropNode, Map delegateCallingConventions);

  /**
   * Defines the delegate proxy prototype properties. Their types depend on
   * properties of the delegate base methods.
   *
   * @param delegateProxies List of delegate proxy types.
   */
  public void defineDelegateProxyPrototypeProperties(
      TypeIRegistry registry,
      List delegateProxies,
      Map delegateCallingConventions);

  /**
   * Gets the name of the global object.
   */
  public String getGlobalObject();

  /**
   * Whether this statement is creating an alias of the global object
   */
  public boolean isAliasingGlobalThis(Node n);

  /**
   * A Bind instance or null.
   */
  public Bind describeFunctionBind(Node n);

  /**
   * A Bind instance or null.
   *
   * When seeing an expression exp1.bind(recv, arg1, ...);
   * we only know that it's a function bind if exp1 has type function.
   * W/out type info, exp1 has certainly a function type only if it's a
   * function literal.
   *
   * If (the old) type checking has already happened, exp1's type is attached to
   * the AST node.
   * When iCheckTypes is true, describeFunctionBind looks for that type.
   *
   * The new type inference does not yet attach types to nodes, but we can still
   * use type information in describeFunctionBind by passing true for
   * callerChecksTypes.
   *
   * @param callerChecksTypes Trust that the caller of this method has verified
   *        that the bound node has a function type.
   * @param iCheckTypes Check that the bound node has a function type.
   */
  public Bind describeFunctionBind(
      Node n, boolean callerChecksTypes, boolean iCheckTypes);

  /** Bind class */
  public static class Bind {
    // The target of the bind action
    final Node target;
    // The node representing the "this" value, maybe null
    final Node thisValue;
    // The head of a Node list representing the parameters
    final Node parameters;

    public Bind(Node target, Node thisValue, Node parameters) {
      this.target = target;
      this.thisValue = thisValue;
      this.parameters = parameters;
    }

    /**
     * The number of parameters bound (not including the 'this' value).
     */
    int getBoundParameterCount() {
      if (parameters == null) {
        return 0;
      }
      Node paramParent = parameters.getParent();
      return paramParent.getChildCount() - paramParent.getIndexOfChild(parameters);
    }
  }

  /**
   * Builds a {@link Cache} instance from the given call node and returns that instance, or null
   * if the {@link Node} does not resemble a cache utility call.
   *
   * 

This should match calls to a cache utility method. This type of node is specially considered * for side-effects since conventionally storing something on a cache object would be seen as a * side-effect. * */ public Cache describeCachingCall(Node node); /** Cache class */ public static class Cache { final Node cacheObj; final Node key; final Node valueFn; final Node keyFn; public Cache(Node cacheObj, Node key, Node valueFn, Node keyFn) { this.cacheObj = cacheObj; this.key = key; this.valueFn = valueFn; this.keyFn = keyFn; } } /** * Whether this CALL function is testing for the existence of a property. */ public boolean isPropertyTestFunction(Node call); /** * Whether this GETPROP node is an alias for an object prototype. */ public boolean isPrototypeAlias(Node getProp); /** * Whether this CALL function is returning the string name for a property, but allows renaming. */ public boolean isPropertyRenameFunction(String name); /** * Checks if the given method performs a object literal cast, and if it does, * returns information on the cast. By default, always returns null. Meant * to be overridden by subclasses. * * @param callNode A CALL node. */ public ObjectLiteralCast getObjectLiteralCast(Node callNode); /** * Gets a collection of all properties that are defined indirectly on global * objects. (For example, Closure defines superClass_ in the goog.inherits * call). */ public Collection getIndirectlyDeclaredProperties(); /** * Returns the set of AssertionFunction. */ public Collection getAssertionFunctions(); /** Specify the kind of inheritance */ static enum SubclassType { INHERITS, MIXIN } /** Record subclass relations */ static class SubclassRelationship { final SubclassType type; final String subclassName; final String superclassName; public SubclassRelationship( SubclassType type, Node subclassNode, Node superclassNode) { Preconditions.checkArgument( subclassNode.isQualifiedName(), "Expected qualified name, found: %s", subclassNode); Preconditions.checkArgument( superclassNode.isQualifiedName(), "Expected qualified name, found: %s", superclassNode); this.type = type; this.subclassName = subclassNode.getQualifiedName(); this.superclassName = superclassNode.getQualifiedName(); } } /** * Delegates provides a mechanism and structure for identifying where classes * can call out to optional code to augment their functionality. The optional * code is isolated from the base code through the use of a subclass in the * optional code derived from the delegate class in the base code. */ static class DelegateRelationship { /** The subclass in the base code. */ final String delegateBase; /** The class in the base code. */ final String delegator; DelegateRelationship(String delegateBase, String delegator) { this.delegateBase = delegateBase; this.delegator = delegator; } } /** * An object literal cast provides a mechanism to cast object literals to * other types without a warning. */ static class ObjectLiteralCast { /** Type to cast to. */ final String typeName; /** Object to cast. */ final Node objectNode; /** Error message */ final DiagnosticType diagnosticType; ObjectLiteralCast(String typeName, Node objectNode, DiagnosticType diagnosticType) { this.typeName = typeName; this.objectNode = objectNode; this.diagnosticType = diagnosticType; } } /** * A function that will throw an exception when either: * -One or more of its parameters evaluate to false. * -One or more of its parameters are not of a certain type. */ public class AssertionFunctionSpec { protected final String functionName; protected final JSTypeNative assertedType; @Deprecated public AssertionFunctionSpec(String functionName) { this(functionName, null); } public AssertionFunctionSpec(String functionName, JSTypeNative assertedType) { this.functionName = functionName; this.assertedType = assertedType; } /** Returns the name of the function. */ public String getFunctionName() { return functionName; } /** * Returns the parameter of the assertion function that is being checked. * @param firstParam The first parameter of the function call. */ public Node getAssertedParam(Node firstParam) { return firstParam; } /** * Returns the old type system type for a type assertion, or null if * the function asserts that the node must not be null or undefined. * @param call The asserting call */ public com.google.javascript.rhino.jstype.JSType getAssertedOldType(Node call, JSTypeRegistry registry) { return assertedType != null ? registry.getNativeType(assertedType) : null; } /** * Returns the new type system type for a type assertion. * @param call The asserting call */ public JSType getAssertedNewType(Node call, DeclaredTypeRegistry scope) { return assertedType != null ? scope.getCommonTypes().getNativeType(assertedType) : null; } } }





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