webhook/node_modules/eslint/lib/rules/curly.js
2020-08-26 09:57:08 +10:00

495 lines
19 KiB
JavaScript

/**
* @fileoverview Rule to flag statements without curly braces
* @author Nicholas C. Zakas
*/
"use strict";
//------------------------------------------------------------------------------
// Requirements
//------------------------------------------------------------------------------
const astUtils = require("./utils/ast-utils");
//------------------------------------------------------------------------------
// Rule Definition
//------------------------------------------------------------------------------
module.exports = {
meta: {
type: "suggestion",
docs: {
description: "enforce consistent brace style for all control statements",
category: "Best Practices",
recommended: false,
url: "https://eslint.org/docs/rules/curly"
},
schema: {
anyOf: [
{
type: "array",
items: [
{
enum: ["all"]
}
],
minItems: 0,
maxItems: 1
},
{
type: "array",
items: [
{
enum: ["multi", "multi-line", "multi-or-nest"]
},
{
enum: ["consistent"]
}
],
minItems: 0,
maxItems: 2
}
]
},
fixable: "code",
messages: {
missingCurlyAfter: "Expected { after '{{name}}'.",
missingCurlyAfterCondition: "Expected { after '{{name}}' condition.",
unexpectedCurlyAfter: "Unnecessary { after '{{name}}'.",
unexpectedCurlyAfterCondition: "Unnecessary { after '{{name}}' condition."
}
},
create(context) {
const multiOnly = (context.options[0] === "multi");
const multiLine = (context.options[0] === "multi-line");
const multiOrNest = (context.options[0] === "multi-or-nest");
const consistent = (context.options[1] === "consistent");
const sourceCode = context.getSourceCode();
//--------------------------------------------------------------------------
// Helpers
//--------------------------------------------------------------------------
/**
* Determines if a given node is a one-liner that's on the same line as it's preceding code.
* @param {ASTNode} node The node to check.
* @returns {boolean} True if the node is a one-liner that's on the same line as it's preceding code.
* @private
*/
function isCollapsedOneLiner(node) {
const before = sourceCode.getTokenBefore(node);
const last = sourceCode.getLastToken(node);
const lastExcludingSemicolon = astUtils.isSemicolonToken(last) ? sourceCode.getTokenBefore(last) : last;
return before.loc.start.line === lastExcludingSemicolon.loc.end.line;
}
/**
* Determines if a given node is a one-liner.
* @param {ASTNode} node The node to check.
* @returns {boolean} True if the node is a one-liner.
* @private
*/
function isOneLiner(node) {
if (node.type === "EmptyStatement") {
return true;
}
const first = sourceCode.getFirstToken(node);
const last = sourceCode.getLastToken(node);
const lastExcludingSemicolon = astUtils.isSemicolonToken(last) ? sourceCode.getTokenBefore(last) : last;
return first.loc.start.line === lastExcludingSemicolon.loc.end.line;
}
/**
* Determines if the given node is a lexical declaration (let, const, function, or class)
* @param {ASTNode} node The node to check
* @returns {boolean} True if the node is a lexical declaration
* @private
*/
function isLexicalDeclaration(node) {
if (node.type === "VariableDeclaration") {
return node.kind === "const" || node.kind === "let";
}
return node.type === "FunctionDeclaration" || node.type === "ClassDeclaration";
}
/**
* Checks if the given token is an `else` token or not.
* @param {Token} token The token to check.
* @returns {boolean} `true` if the token is an `else` token.
*/
function isElseKeywordToken(token) {
return token.value === "else" && token.type === "Keyword";
}
/**
* Gets the `else` keyword token of a given `IfStatement` node.
* @param {ASTNode} node A `IfStatement` node to get.
* @returns {Token} The `else` keyword token.
*/
function getElseKeyword(node) {
return node.alternate && sourceCode.getFirstTokenBetween(node.consequent, node.alternate, isElseKeywordToken);
}
/**
* Determines whether the given node has an `else` keyword token as the first token after.
* @param {ASTNode} node The node to check.
* @returns {boolean} `true` if the node is followed by an `else` keyword token.
*/
function isFollowedByElseKeyword(node) {
const nextToken = sourceCode.getTokenAfter(node);
return Boolean(nextToken) && isElseKeywordToken(nextToken);
}
/**
* Determines if a semicolon needs to be inserted after removing a set of curly brackets, in order to avoid a SyntaxError.
* @param {Token} closingBracket The } token
* @returns {boolean} `true` if a semicolon needs to be inserted after the last statement in the block.
*/
function needsSemicolon(closingBracket) {
const tokenBefore = sourceCode.getTokenBefore(closingBracket);
const tokenAfter = sourceCode.getTokenAfter(closingBracket);
const lastBlockNode = sourceCode.getNodeByRangeIndex(tokenBefore.range[0]);
if (astUtils.isSemicolonToken(tokenBefore)) {
// If the last statement already has a semicolon, don't add another one.
return false;
}
if (!tokenAfter) {
// If there are no statements after this block, there is no need to add a semicolon.
return false;
}
if (lastBlockNode.type === "BlockStatement" && lastBlockNode.parent.type !== "FunctionExpression" && lastBlockNode.parent.type !== "ArrowFunctionExpression") {
/*
* If the last node surrounded by curly brackets is a BlockStatement (other than a FunctionExpression or an ArrowFunctionExpression),
* don't insert a semicolon. Otherwise, the semicolon would be parsed as a separate statement, which would cause
* a SyntaxError if it was followed by `else`.
*/
return false;
}
if (tokenBefore.loc.end.line === tokenAfter.loc.start.line) {
// If the next token is on the same line, insert a semicolon.
return true;
}
if (/^[([/`+-]/u.test(tokenAfter.value)) {
// If the next token starts with a character that would disrupt ASI, insert a semicolon.
return true;
}
if (tokenBefore.type === "Punctuator" && (tokenBefore.value === "++" || tokenBefore.value === "--")) {
// If the last token is ++ or --, insert a semicolon to avoid disrupting ASI.
return true;
}
// Otherwise, do not insert a semicolon.
return false;
}
/**
* Determines whether the code represented by the given node contains an `if` statement
* that would become associated with an `else` keyword directly appended to that code.
*
* Examples where it returns `true`:
*
* if (a)
* foo();
*
* if (a) {
* foo();
* }
*
* if (a)
* foo();
* else if (b)
* bar();
*
* while (a)
* if (b)
* if(c)
* foo();
* else
* bar();
*
* Examples where it returns `false`:
*
* if (a)
* foo();
* else
* bar();
*
* while (a) {
* if (b)
* if(c)
* foo();
* else
* bar();
* }
*
* while (a)
* if (b) {
* if(c)
* foo();
* }
* else
* bar();
* @param {ASTNode} node Node representing the code to check.
* @returns {boolean} `true` if an `if` statement within the code would become associated with an `else` appended to that code.
*/
function hasUnsafeIf(node) {
switch (node.type) {
case "IfStatement":
if (!node.alternate) {
return true;
}
return hasUnsafeIf(node.alternate);
case "ForStatement":
case "ForInStatement":
case "ForOfStatement":
case "LabeledStatement":
case "WithStatement":
case "WhileStatement":
return hasUnsafeIf(node.body);
default:
return false;
}
}
/**
* Determines whether the existing curly braces around the single statement are necessary to preserve the semantics of the code.
* The braces, which make the given block body, are necessary in either of the following situations:
*
* 1. The statement is a lexical declaration.
* 2. Without the braces, an `if` within the statement would become associated with an `else` after the closing brace:
*
* if (a) {
* if (b)
* foo();
* }
* else
* bar();
*
* if (a)
* while (b)
* while (c) {
* while (d)
* if (e)
* while(f)
* foo();
* }
* else
* bar();
* @param {ASTNode} node `BlockStatement` body with exactly one statement directly inside. The statement can have its own nested statements.
* @returns {boolean} `true` if the braces are necessary - removing them (replacing the given `BlockStatement` body with its single statement content)
* would change the semantics of the code or produce a syntax error.
*/
function areBracesNecessary(node) {
const statement = node.body[0];
return isLexicalDeclaration(statement) ||
hasUnsafeIf(statement) && isFollowedByElseKeyword(node);
}
/**
* Prepares to check the body of a node to see if it's a block statement.
* @param {ASTNode} node The node to report if there's a problem.
* @param {ASTNode} body The body node to check for blocks.
* @param {string} name The name to report if there's a problem.
* @param {{ condition: boolean }} opts Options to pass to the report functions
* @returns {Object} a prepared check object, with "actual", "expected", "check" properties.
* "actual" will be `true` or `false` whether the body is already a block statement.
* "expected" will be `true` or `false` if the body should be a block statement or not, or
* `null` if it doesn't matter, depending on the rule options. It can be modified to change
* the final behavior of "check".
* "check" will be a function reporting appropriate problems depending on the other
* properties.
*/
function prepareCheck(node, body, name, opts) {
const hasBlock = (body.type === "BlockStatement");
let expected = null;
if (hasBlock && (body.body.length !== 1 || areBracesNecessary(body))) {
expected = true;
} else if (multiOnly) {
expected = false;
} else if (multiLine) {
if (!isCollapsedOneLiner(body)) {
expected = true;
}
// otherwise, the body is allowed to have braces or not to have braces
} else if (multiOrNest) {
if (hasBlock) {
const statement = body.body[0];
const leadingCommentsInBlock = sourceCode.getCommentsBefore(statement);
expected = !isOneLiner(statement) || leadingCommentsInBlock.length > 0;
} else {
expected = !isOneLiner(body);
}
} else {
// default "all"
expected = true;
}
return {
actual: hasBlock,
expected,
check() {
if (this.expected !== null && this.expected !== this.actual) {
if (this.expected) {
context.report({
node,
loc: (name !== "else" ? node : getElseKeyword(node)).loc.start,
messageId: opts && opts.condition ? "missingCurlyAfterCondition" : "missingCurlyAfter",
data: {
name
},
fix: fixer => fixer.replaceText(body, `{${sourceCode.getText(body)}}`)
});
} else {
context.report({
node,
loc: (name !== "else" ? node : getElseKeyword(node)).loc.start,
messageId: opts && opts.condition ? "unexpectedCurlyAfterCondition" : "unexpectedCurlyAfter",
data: {
name
},
fix(fixer) {
/*
* `do while` expressions sometimes need a space to be inserted after `do`.
* e.g. `do{foo()} while (bar)` should be corrected to `do foo() while (bar)`
*/
const needsPrecedingSpace = node.type === "DoWhileStatement" &&
sourceCode.getTokenBefore(body).range[1] === body.range[0] &&
!astUtils.canTokensBeAdjacent("do", sourceCode.getFirstToken(body, { skip: 1 }));
const openingBracket = sourceCode.getFirstToken(body);
const closingBracket = sourceCode.getLastToken(body);
const lastTokenInBlock = sourceCode.getTokenBefore(closingBracket);
if (needsSemicolon(closingBracket)) {
/*
* If removing braces would cause a SyntaxError due to multiple statements on the same line (or
* change the semantics of the code due to ASI), don't perform a fix.
*/
return null;
}
const resultingBodyText = sourceCode.getText().slice(openingBracket.range[1], lastTokenInBlock.range[0]) +
sourceCode.getText(lastTokenInBlock) +
sourceCode.getText().slice(lastTokenInBlock.range[1], closingBracket.range[0]);
return fixer.replaceText(body, (needsPrecedingSpace ? " " : "") + resultingBodyText);
}
});
}
}
}
};
}
/**
* Prepares to check the bodies of a "if", "else if" and "else" chain.
* @param {ASTNode} node The first IfStatement node of the chain.
* @returns {Object[]} prepared checks for each body of the chain. See `prepareCheck` for more
* information.
*/
function prepareIfChecks(node) {
const preparedChecks = [];
for (let currentNode = node; currentNode; currentNode = currentNode.alternate) {
preparedChecks.push(prepareCheck(currentNode, currentNode.consequent, "if", { condition: true }));
if (currentNode.alternate && currentNode.alternate.type !== "IfStatement") {
preparedChecks.push(prepareCheck(currentNode, currentNode.alternate, "else"));
break;
}
}
if (consistent) {
/*
* If any node should have or already have braces, make sure they
* all have braces.
* If all nodes shouldn't have braces, make sure they don't.
*/
const expected = preparedChecks.some(preparedCheck => {
if (preparedCheck.expected !== null) {
return preparedCheck.expected;
}
return preparedCheck.actual;
});
preparedChecks.forEach(preparedCheck => {
preparedCheck.expected = expected;
});
}
return preparedChecks;
}
//--------------------------------------------------------------------------
// Public
//--------------------------------------------------------------------------
return {
IfStatement(node) {
const parent = node.parent;
const isElseIf = parent.type === "IfStatement" && parent.alternate === node;
if (!isElseIf) {
// This is a top `if`, check the whole `if-else-if` chain
prepareIfChecks(node).forEach(preparedCheck => {
preparedCheck.check();
});
}
// Skip `else if`, it's already checked (when the top `if` was visited)
},
WhileStatement(node) {
prepareCheck(node, node.body, "while", { condition: true }).check();
},
DoWhileStatement(node) {
prepareCheck(node, node.body, "do").check();
},
ForStatement(node) {
prepareCheck(node, node.body, "for", { condition: true }).check();
},
ForInStatement(node) {
prepareCheck(node, node.body, "for-in").check();
},
ForOfStatement(node) {
prepareCheck(node, node.body, "for-of").check();
}
};
}
};