src/third_party/devtools/node_modules/eslint/lib/rules/no-else-return.js - cobalt - Git at Google

 /**
  * @fileoverview Rule to flag `else` after a `return` in `if`
  * @author Ian Christian Myers
  */

 "use strict";

 //------------------------------------------------------------------------------
 // Requirements
 //------------------------------------------------------------------------------

 const astUtils = require("./utils/ast-utils");
 const FixTracker = require("./utils/fix-tracker");

 //------------------------------------------------------------------------------
 // Rule Definition
 //------------------------------------------------------------------------------

 module.exports = {
     meta: {
         type: "suggestion",

         docs: {
             description: "disallow `else` blocks after `return` statements in `if` statements",
             category: "Best Practices",
             recommended: false,
             url: "https://eslint.org/docs/rules/no-else-return"
         },

         schema: [{
             type: "object",
             properties: {
                 allowElseIf: {
                     type: "boolean",
                     default: true
                 }
             },
             additionalProperties: false
         }],

         fixable: "code",

         messages: {
             unexpected: "Unnecessary 'else' after 'return'."
         }
     },

     create(context) {

         //--------------------------------------------------------------------------
         // Helpers
         //--------------------------------------------------------------------------

         /**
          * Checks whether the given names can be safely used to declare block-scoped variables
          * in the given scope. Name collisions can produce redeclaration syntax errors,
          * or silently change references and modify behavior of the original code.
          *
          * This is not a generic function. In particular, it is assumed that the scope is a function scope or
          * a function's inner scope, and that the names can be valid identifiers in the given scope.
          *
          * @param {string[]} names Array of variable names.
          * @param {eslint-scope.Scope} scope Function scope or a function's inner scope.
          * @returns {boolean} True if all names can be safely declared, false otherwise.
          */
         function isSafeToDeclare(names, scope) {

             if (names.length === 0) {
                 return true;
             }

             const functionScope = scope.variableScope;

             /*
              * If this is a function scope, scope.variables will contain parameters, implicit variables such as "arguments",
              * all function-scoped variables ('var'), and block-scoped variables defined in the scope.
              * If this is an inner scope, scope.variables will contain block-scoped variables defined in the scope.
              *
              * Redeclaring any of these would cause a syntax error, except for the implicit variables.
              */
             const declaredVariables = scope.variables.filter(({ defs }) => defs.length > 0);

             if (declaredVariables.some(({ name }) => names.includes(name))) {
                 return false;
             }

             // Redeclaring a catch variable would also cause a syntax error.
             if (scope !== functionScope && scope.upper.type === "catch") {
                 if (scope.upper.variables.some(({ name }) => names.includes(name))) {
                     return false;
                 }
             }

             /*
              * Redeclaring an implicit variable, such as "arguments", would not cause a syntax error.
              * However, if the variable was used, declaring a new one with the same name would change references
              * and modify behavior.
              */
             const usedImplicitVariables = scope.variables.filter(({ defs, references }) =>
                 defs.length === 0 && references.length > 0);

             if (usedImplicitVariables.some(({ name }) => names.includes(name))) {
                 return false;
             }

             /*
              * Declaring a variable with a name that was already used to reference a variable from an upper scope
              * would change references and modify behavior.
              */
             if (scope.through.some(t => names.includes(t.identifier.name))) {
                 return false;
             }

             /*
              * If the scope is an inner scope (not the function scope), an uninitialized `var` variable declared inside
              * the scope node (directly or in one of its descendants) is neither declared nor 'through' in the scope.
              *
              * For example, this would be a syntax error "Identifier 'a' has already been declared":
              * function foo() { if (bar) { let a; if (baz) { var a; } } }
              */
             if (scope !== functionScope) {
                 const scopeNodeRange = scope.block.range;
                 const variablesToCheck = functionScope.variables.filter(({ name }) => names.includes(name));

                 if (variablesToCheck.some(v => v.defs.some(({ node: { range } }) =>
                     scopeNodeRange[0] <= range[0] && range[1] <= scopeNodeRange[1]))) {
                     return false;
                 }
             }

             return true;
         }


         /**
          * Checks whether the removal of `else` and its braces is safe from variable name collisions.
          *
          * @param {Node} node The 'else' node.
          * @param {eslint-scope.Scope} scope The scope in which the node and the whole 'if' statement is.
          * @returns {boolean} True if it is safe, false otherwise.
          */
         function isSafeFromNameCollisions(node, scope) {

             if (node.type === "FunctionDeclaration") {

                 // Conditional function declaration. Scope and hoisting are unpredictable, different engines work differently.
                 return false;
             }

             if (node.type !== "BlockStatement") {
                 return true;
             }

             const elseBlockScope = scope.childScopes.find(({ block }) => block === node);

             if (!elseBlockScope) {

                 // ecmaVersion < 6, `else` block statement cannot have its own scope, no possible collisions.
                 return true;
             }

             /*
              * elseBlockScope is supposed to merge into its upper scope. elseBlockScope.variables array contains
              * only block-scoped variables (such as let and const variables or class and function declarations)
              * defined directly in the elseBlockScope. These are exactly the only names that could cause collisions.
              */
             const namesToCheck = elseBlockScope.variables.map(({ name }) => name);

             return isSafeToDeclare(namesToCheck, scope);
         }

         /**
          * Display the context report if rule is violated
          *
          * @param {Node} node The 'else' node
          * @returns {void}
          */
         function displayReport(node) {
             const currentScope = context.getScope();

             context.report({
                 node,
                 messageId: "unexpected",
                 fix: fixer => {

                     if (!isSafeFromNameCollisions(node, currentScope)) {
                         return null;
                     }

                     const sourceCode = context.getSourceCode();
                     const startToken = sourceCode.getFirstToken(node);
                     const elseToken = sourceCode.getTokenBefore(startToken);
                     const source = sourceCode.getText(node);
                     const lastIfToken = sourceCode.getTokenBefore(elseToken);
                     let fixedSource, firstTokenOfElseBlock;

                     if (startToken.type === "Punctuator" && startToken.value === "{") {
                         firstTokenOfElseBlock = sourceCode.getTokenAfter(startToken);
                     } else {
                         firstTokenOfElseBlock = startToken;
                     }

                     /*
                      * If the if block does not have curly braces and does not end in a semicolon
                      * and the else block starts with (, [, /, +, ` or -, then it is not
                      * safe to remove the else keyword, because ASI will not add a semicolon
                      * after the if block
                      */
                     const ifBlockMaybeUnsafe = node.parent.consequent.type !== "BlockStatement" && lastIfToken.value !== ";";
                     const elseBlockUnsafe = /^[([/+`-]/u.test(firstTokenOfElseBlock.value);

                     if (ifBlockMaybeUnsafe && elseBlockUnsafe) {
                         return null;
                     }

                     const endToken = sourceCode.getLastToken(node);
                     const lastTokenOfElseBlock = sourceCode.getTokenBefore(endToken);

                     if (lastTokenOfElseBlock.value !== ";") {
                         const nextToken = sourceCode.getTokenAfter(endToken);

                         const nextTokenUnsafe = nextToken && /^[([/+`-]/u.test(nextToken.value);
                         const nextTokenOnSameLine = nextToken && nextToken.loc.start.line === lastTokenOfElseBlock.loc.start.line;

                         /*
                          * If the else block contents does not end in a semicolon,
                          * and the else block starts with (, [, /, +, ` or -, then it is not
                          * safe to remove the else block, because ASI will not add a semicolon
                          * after the remaining else block contents
                          */
                         if (nextTokenUnsafe || (nextTokenOnSameLine && nextToken.value !== "}")) {
                             return null;
                         }
                     }

                     if (startToken.type === "Punctuator" && startToken.value === "{") {
                         fixedSource = source.slice(1, -1);
                     } else {
                         fixedSource = source;
                     }

                     /*
                      * Extend the replacement range to include the entire
                      * function to avoid conflicting with no-useless-return.
                      * https://github.com/eslint/eslint/issues/8026
                      *
                      * Also, to avoid name collisions between two else blocks.
                      */
                     return new FixTracker(fixer, sourceCode)
                         .retainEnclosingFunction(node)
                         .replaceTextRange([elseToken.range[0], node.range[1]], fixedSource);
                 }
             });
         }

         /**
          * Check to see if the node is a ReturnStatement
          *
          * @param {Node} node The node being evaluated
          * @returns {boolean} True if node is a return
          */
         function checkForReturn(node) {
             return node.type === "ReturnStatement";
         }

         /**
          * Naive return checking, does not iterate through the whole
          * BlockStatement because we make the assumption that the ReturnStatement
          * will be the last node in the body of the BlockStatement.
          *
          * @param {Node} node The consequent/alternate node
          * @returns {boolean} True if it has a return
          */
         function naiveHasReturn(node) {
             if (node.type === "BlockStatement") {
                 const body = node.body,
                     lastChildNode = body[body.length - 1];

                 return lastChildNode && checkForReturn(lastChildNode);
             }
             return checkForReturn(node);
         }

         /**
          * Check to see if the node is valid for evaluation,
          * meaning it has an else.
          *
          * @param {Node} node The node being evaluated
          * @returns {boolean} True if the node is valid
          */
         function hasElse(node) {
             return node.alternate && node.consequent;
         }

         /**
          * If the consequent is an IfStatement, check to see if it has an else
          * and both its consequent and alternate path return, meaning this is
          * a nested case of rule violation.  If-Else not considered currently.
          *
          * @param {Node} node The consequent node
          * @returns {boolean} True if this is a nested rule violation
          */
         function checkForIf(node) {
             return node.type === "IfStatement" && hasElse(node) &&
                 naiveHasReturn(node.alternate) && naiveHasReturn(node.consequent);
         }

         /**
          * Check the consequent/body node to make sure it is not
          * a ReturnStatement or an IfStatement that returns on both
          * code paths.
          *
          * @param {Node} node The consequent or body node
          * @returns {boolean} `true` if it is a Return/If node that always returns.
          */
         function checkForReturnOrIf(node) {
             return checkForReturn(node) || checkForIf(node);
         }


         /**
          * Check whether a node returns in every codepath.
          * @param {Node} node The node to be checked
          * @returns {boolean} `true` if it returns on every codepath.
          */
         function alwaysReturns(node) {
             if (node.type === "BlockStatement") {

                 // If we have a BlockStatement, check each consequent body node.
                 return node.body.some(checkForReturnOrIf);
             }

             /*
              * If not a block statement, make sure the consequent isn't a
              * ReturnStatement or an IfStatement with returns on both paths.
              */
             return checkForReturnOrIf(node);
         }


         /**
          * Check the if statement, but don't catch else-if blocks.
          * @returns {void}
          * @param {Node} node The node for the if statement to check
          * @private
          */
         function checkIfWithoutElse(node) {
             const parent = node.parent;

             /*
              * Fixing this would require splitting one statement into two, so no error should
              * be reported if this node is in a position where only one statement is allowed.
              */
             if (!astUtils.STATEMENT_LIST_PARENTS.has(parent.type)) {
                 return;
             }

             const consequents = [];
             let alternate;

             for (let currentNode = node; currentNode.type === "IfStatement"; currentNode = currentNode.alternate) {
                 if (!currentNode.alternate) {
                     return;
                 }
                 consequents.push(currentNode.consequent);
                 alternate = currentNode.alternate;
             }

             if (consequents.every(alwaysReturns)) {
                 displayReport(alternate);
             }
         }

         /**
          * Check the if statement
          * @returns {void}
          * @param {Node} node The node for the if statement to check
          * @private
          */
         function checkIfWithElse(node) {
             const parent = node.parent;


             /*
              * Fixing this would require splitting one statement into two, so no error should
              * be reported if this node is in a position where only one statement is allowed.
              */
             if (!astUtils.STATEMENT_LIST_PARENTS.has(parent.type)) {
                 return;
             }

             const alternate = node.alternate;

             if (alternate && alwaysReturns(node.consequent)) {
                 displayReport(alternate);
             }
         }

         const allowElseIf = !(context.options[0] && context.options[0].allowElseIf === false);

         //--------------------------------------------------------------------------
         // Public API
         //--------------------------------------------------------------------------

         return {

             "IfStatement:exit": allowElseIf ? checkIfWithoutElse : checkIfWithElse

         };

     }
 };
	/**
	* @fileoverview Rule to flag `else` after a `return` in `if`
	* @author Ian Christian Myers
	*/

	"use strict";

	//------------------------------------------------------------------------------
	// Requirements
	//------------------------------------------------------------------------------

	const astUtils = require("./utils/ast-utils");
	const FixTracker = require("./utils/fix-tracker");

	//------------------------------------------------------------------------------
	// Rule Definition
	//------------------------------------------------------------------------------

	module.exports = {
	meta: {
	type: "suggestion",

	docs: {
	description: "disallow `else` blocks after `return` statements in `if` statements",
	category: "Best Practices",
	recommended: false,
	url: "https://eslint.org/docs/rules/no-else-return"
	},

	schema: [{
	type: "object",
	properties: {
	allowElseIf: {
	type: "boolean",
	default: true
	}
	},
	additionalProperties: false
	}],

	fixable: "code",

	messages: {
	unexpected: "Unnecessary 'else' after 'return'."
	}
	},

	create(context) {

	//--------------------------------------------------------------------------
	// Helpers
	//--------------------------------------------------------------------------

	/**
	* Checks whether the given names can be safely used to declare block-scoped variables
	* in the given scope. Name collisions can produce redeclaration syntax errors,
	* or silently change references and modify behavior of the original code.
	*
	* This is not a generic function. In particular, it is assumed that the scope is a function scope or
	* a function's inner scope, and that the names can be valid identifiers in the given scope.
	*
	* @param {string[]} names Array of variable names.
	* @param {eslint-scope.Scope} scope Function scope or a function's inner scope.
	* @returns {boolean} True if all names can be safely declared, false otherwise.
	*/
	function isSafeToDeclare(names, scope) {

	if (names.length === 0) {
	return true;
	}

	const functionScope = scope.variableScope;

	/*
	* If this is a function scope, scope.variables will contain parameters, implicit variables such as "arguments",
	* all function-scoped variables ('var'), and block-scoped variables defined in the scope.
	* If this is an inner scope, scope.variables will contain block-scoped variables defined in the scope.
	*
	* Redeclaring any of these would cause a syntax error, except for the implicit variables.
	*/
	const declaredVariables = scope.variables.filter(({ defs }) => defs.length > 0);

	if (declaredVariables.some(({ name }) => names.includes(name))) {
	return false;
	}

	// Redeclaring a catch variable would also cause a syntax error.
	if (scope !== functionScope && scope.upper.type === "catch") {
	if (scope.upper.variables.some(({ name }) => names.includes(name))) {
	return false;
	}
	}

	/*
	* Redeclaring an implicit variable, such as "arguments", would not cause a syntax error.
	* However, if the variable was used, declaring a new one with the same name would change references
	* and modify behavior.
	*/
	const usedImplicitVariables = scope.variables.filter(({ defs, references }) =>
	defs.length === 0 && references.length > 0);

	if (usedImplicitVariables.some(({ name }) => names.includes(name))) {
	return false;
	}

	/*
	* Declaring a variable with a name that was already used to reference a variable from an upper scope
	* would change references and modify behavior.
	*/
	if (scope.through.some(t => names.includes(t.identifier.name))) {
	return false;
	}

	/*
	* If the scope is an inner scope (not the function scope), an uninitialized `var` variable declared inside
	* the scope node (directly or in one of its descendants) is neither declared nor 'through' in the scope.
	*
	* For example, this would be a syntax error "Identifier 'a' has already been declared":
	* function foo() { if (bar) { let a; if (baz) { var a; } } }
	*/
	if (scope !== functionScope) {
	const scopeNodeRange = scope.block.range;
	const variablesToCheck = functionScope.variables.filter(({ name }) => names.includes(name));

	if (variablesToCheck.some(v => v.defs.some(({ node: { range } }) =>
	scopeNodeRange[0] <= range[0] && range[1] <= scopeNodeRange[1]))) {
	return false;
	}
	}

	return true;
	}


	/**
	* Checks whether the removal of `else` and its braces is safe from variable name collisions.
	*
	* @param {Node} node The 'else' node.
	* @param {eslint-scope.Scope} scope The scope in which the node and the whole 'if' statement is.
	* @returns {boolean} True if it is safe, false otherwise.
	*/
	function isSafeFromNameCollisions(node, scope) {

	if (node.type === "FunctionDeclaration") {

	// Conditional function declaration. Scope and hoisting are unpredictable, different engines work differently.
	return false;
	}

	if (node.type !== "BlockStatement") {
	return true;
	}

	const elseBlockScope = scope.childScopes.find(({ block }) => block === node);

	if (!elseBlockScope) {

	// ecmaVersion < 6, `else` block statement cannot have its own scope, no possible collisions.
	return true;
	}

	/*
	* elseBlockScope is supposed to merge into its upper scope. elseBlockScope.variables array contains
	* only block-scoped variables (such as let and const variables or class and function declarations)
	* defined directly in the elseBlockScope. These are exactly the only names that could cause collisions.
	*/
	const namesToCheck = elseBlockScope.variables.map(({ name }) => name);

	return isSafeToDeclare(namesToCheck, scope);
	}

	/**
	* Display the context report if rule is violated
	*
	* @param {Node} node The 'else' node
	* @returns {void}
	*/
	function displayReport(node) {
	const currentScope = context.getScope();

	context.report({
	node,
	messageId: "unexpected",
	fix: fixer => {

	if (!isSafeFromNameCollisions(node, currentScope)) {
	return null;
	}

	const sourceCode = context.getSourceCode();
	const startToken = sourceCode.getFirstToken(node);
	const elseToken = sourceCode.getTokenBefore(startToken);
	const source = sourceCode.getText(node);
	const lastIfToken = sourceCode.getTokenBefore(elseToken);
	let fixedSource, firstTokenOfElseBlock;

	if (startToken.type === "Punctuator" && startToken.value === "{") {
	firstTokenOfElseBlock = sourceCode.getTokenAfter(startToken);
	} else {
	firstTokenOfElseBlock = startToken;
	}

	/*
	* If the if block does not have curly braces and does not end in a semicolon
	* and the else block starts with (, [, /, +, ` or -, then it is not
	* safe to remove the else keyword, because ASI will not add a semicolon
	* after the if block
	*/
	const ifBlockMaybeUnsafe = node.parent.consequent.type !== "BlockStatement" && lastIfToken.value !== ";";
	const elseBlockUnsafe = /^[([/+`-]/u.test(firstTokenOfElseBlock.value);

	if (ifBlockMaybeUnsafe && elseBlockUnsafe) {
	return null;
	}

	const endToken = sourceCode.getLastToken(node);
	const lastTokenOfElseBlock = sourceCode.getTokenBefore(endToken);

	if (lastTokenOfElseBlock.value !== ";") {
	const nextToken = sourceCode.getTokenAfter(endToken);

	const nextTokenUnsafe = nextToken && /^[([/+`-]/u.test(nextToken.value);
	const nextTokenOnSameLine = nextToken && nextToken.loc.start.line === lastTokenOfElseBlock.loc.start.line;

	/*
	* If the else block contents does not end in a semicolon,
	* and the else block starts with (, [, /, +, ` or -, then it is not
	* safe to remove the else block, because ASI will not add a semicolon
	* after the remaining else block contents
	*/
	if (nextTokenUnsafe \|\| (nextTokenOnSameLine && nextToken.value !== "}")) {
	return null;
	}
	}

	if (startToken.type === "Punctuator" && startToken.value === "{") {
	fixedSource = source.slice(1, -1);
	} else {
	fixedSource = source;
	}

	/*
	* Extend the replacement range to include the entire
	* function to avoid conflicting with no-useless-return.
	* https://github.com/eslint/eslint/issues/8026
	*
	* Also, to avoid name collisions between two else blocks.
	*/
	return new FixTracker(fixer, sourceCode)
	.retainEnclosingFunction(node)
	.replaceTextRange([elseToken.range[0], node.range[1]], fixedSource);
	}
	});
	}

	/**
	* Check to see if the node is a ReturnStatement
	*
	* @param {Node} node The node being evaluated
	* @returns {boolean} True if node is a return
	*/
	function checkForReturn(node) {
	return node.type === "ReturnStatement";
	}

	/**
	* Naive return checking, does not iterate through the whole
	* BlockStatement because we make the assumption that the ReturnStatement
	* will be the last node in the body of the BlockStatement.
	*
	* @param {Node} node The consequent/alternate node
	* @returns {boolean} True if it has a return
	*/
	function naiveHasReturn(node) {
	if (node.type === "BlockStatement") {
	const body = node.body,
	lastChildNode = body[body.length - 1];

	return lastChildNode && checkForReturn(lastChildNode);
	}
	return checkForReturn(node);
	}

	/**
	* Check to see if the node is valid for evaluation,
	* meaning it has an else.
	*
	* @param {Node} node The node being evaluated
	* @returns {boolean} True if the node is valid
	*/
	function hasElse(node) {
	return node.alternate && node.consequent;
	}

	/**
	* If the consequent is an IfStatement, check to see if it has an else
	* and both its consequent and alternate path return, meaning this is
	* a nested case of rule violation. If-Else not considered currently.
	*
	* @param {Node} node The consequent node
	* @returns {boolean} True if this is a nested rule violation
	*/
	function checkForIf(node) {
	return node.type === "IfStatement" && hasElse(node) &&
	naiveHasReturn(node.alternate) && naiveHasReturn(node.consequent);
	}

	/**
	* Check the consequent/body node to make sure it is not
	* a ReturnStatement or an IfStatement that returns on both
	* code paths.
	*
	* @param {Node} node The consequent or body node
	* @returns {boolean} `true` if it is a Return/If node that always returns.
	*/
	function checkForReturnOrIf(node) {
	return checkForReturn(node) \|\| checkForIf(node);
	}


	/**
	* Check whether a node returns in every codepath.
	* @param {Node} node The node to be checked
	* @returns {boolean} `true` if it returns on every codepath.
	*/
	function alwaysReturns(node) {
	if (node.type === "BlockStatement") {

	// If we have a BlockStatement, check each consequent body node.
	return node.body.some(checkForReturnOrIf);
	}

	/*
	* If not a block statement, make sure the consequent isn't a
	* ReturnStatement or an IfStatement with returns on both paths.
	*/
	return checkForReturnOrIf(node);
	}


	/**
	* Check the if statement, but don't catch else-if blocks.
	* @returns {void}
	* @param {Node} node The node for the if statement to check
	* @private
	*/
	function checkIfWithoutElse(node) {
	const parent = node.parent;

	/*
	* Fixing this would require splitting one statement into two, so no error should
	* be reported if this node is in a position where only one statement is allowed.
	*/
	if (!astUtils.STATEMENT_LIST_PARENTS.has(parent.type)) {
	return;
	}

	const consequents = [];
	let alternate;

	for (let currentNode = node; currentNode.type === "IfStatement"; currentNode = currentNode.alternate) {
	if (!currentNode.alternate) {
	return;
	}
	consequents.push(currentNode.consequent);
	alternate = currentNode.alternate;
	}

	if (consequents.every(alwaysReturns)) {
	displayReport(alternate);
	}
	}

	/**
	* Check the if statement
	* @returns {void}
	* @param {Node} node The node for the if statement to check
	* @private
	*/
	function checkIfWithElse(node) {
	const parent = node.parent;


	/*
	* Fixing this would require splitting one statement into two, so no error should
	* be reported if this node is in a position where only one statement is allowed.
	*/
	if (!astUtils.STATEMENT_LIST_PARENTS.has(parent.type)) {
	return;
	}

	const alternate = node.alternate;

	if (alternate && alwaysReturns(node.consequent)) {
	displayReport(alternate);
	}
	}

	const allowElseIf = !(context.options[0] && context.options[0].allowElseIf === false);

	//--------------------------------------------------------------------------
	// Public API
	//--------------------------------------------------------------------------

	return {

	"IfStatement:exit": allowElseIf ? checkIfWithoutElse : checkIfWithElse

	};

	}
	};