source: imaps-frontend/node_modules/eslint/lib/rules/logical-assignment-operators.js@ d565449

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Last change on this file since d565449 was d565449, checked in by stefan toskovski <stefantoska84@…>, 4 weeks ago

Update repo after prototype presentation

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1/**
2 * @fileoverview Rule to replace assignment expressions with logical operator assignment
3 * @author Daniel Martens
4 */
5"use strict";
6
7//------------------------------------------------------------------------------
8// Requirements
9//------------------------------------------------------------------------------
10const astUtils = require("./utils/ast-utils.js");
11
12//------------------------------------------------------------------------------
13// Helpers
14//------------------------------------------------------------------------------
15
16const baseTypes = new Set(["Identifier", "Super", "ThisExpression"]);
17
18/**
19 * Returns true iff either "undefined" or a void expression (eg. "void 0")
20 * @param {ASTNode} expression Expression to check
21 * @param {import('eslint-scope').Scope} scope Scope of the expression
22 * @returns {boolean} True iff "undefined" or "void ..."
23 */
24function isUndefined(expression, scope) {
25 if (expression.type === "Identifier" && expression.name === "undefined") {
26 return astUtils.isReferenceToGlobalVariable(scope, expression);
27 }
28
29 return expression.type === "UnaryExpression" &&
30 expression.operator === "void" &&
31 expression.argument.type === "Literal" &&
32 expression.argument.value === 0;
33}
34
35/**
36 * Returns true iff the reference is either an identifier or member expression
37 * @param {ASTNode} expression Expression to check
38 * @returns {boolean} True for identifiers and member expressions
39 */
40function isReference(expression) {
41 return (expression.type === "Identifier" && expression.name !== "undefined") ||
42 expression.type === "MemberExpression";
43}
44
45/**
46 * Returns true iff the expression checks for nullish with loose equals.
47 * Examples: value == null, value == void 0
48 * @param {ASTNode} expression Test condition
49 * @param {import('eslint-scope').Scope} scope Scope of the expression
50 * @returns {boolean} True iff implicit nullish comparison
51 */
52function isImplicitNullishComparison(expression, scope) {
53 if (expression.type !== "BinaryExpression" || expression.operator !== "==") {
54 return false;
55 }
56
57 const reference = isReference(expression.left) ? "left" : "right";
58 const nullish = reference === "left" ? "right" : "left";
59
60 return isReference(expression[reference]) &&
61 (astUtils.isNullLiteral(expression[nullish]) || isUndefined(expression[nullish], scope));
62}
63
64/**
65 * Condition with two equal comparisons.
66 * @param {ASTNode} expression Condition
67 * @returns {boolean} True iff matches ? === ? || ? === ?
68 */
69function isDoubleComparison(expression) {
70 return expression.type === "LogicalExpression" &&
71 expression.operator === "||" &&
72 expression.left.type === "BinaryExpression" &&
73 expression.left.operator === "===" &&
74 expression.right.type === "BinaryExpression" &&
75 expression.right.operator === "===";
76}
77
78/**
79 * Returns true iff the expression checks for undefined and null.
80 * Example: value === null || value === undefined
81 * @param {ASTNode} expression Test condition
82 * @param {import('eslint-scope').Scope} scope Scope of the expression
83 * @returns {boolean} True iff explicit nullish comparison
84 */
85function isExplicitNullishComparison(expression, scope) {
86 if (!isDoubleComparison(expression)) {
87 return false;
88 }
89 const leftReference = isReference(expression.left.left) ? "left" : "right";
90 const leftNullish = leftReference === "left" ? "right" : "left";
91 const rightReference = isReference(expression.right.left) ? "left" : "right";
92 const rightNullish = rightReference === "left" ? "right" : "left";
93
94 return astUtils.isSameReference(expression.left[leftReference], expression.right[rightReference]) &&
95 ((astUtils.isNullLiteral(expression.left[leftNullish]) && isUndefined(expression.right[rightNullish], scope)) ||
96 (isUndefined(expression.left[leftNullish], scope) && astUtils.isNullLiteral(expression.right[rightNullish])));
97}
98
99/**
100 * Returns true for Boolean(arg) calls
101 * @param {ASTNode} expression Test condition
102 * @param {import('eslint-scope').Scope} scope Scope of the expression
103 * @returns {boolean} Whether the expression is a boolean cast
104 */
105function isBooleanCast(expression, scope) {
106 return expression.type === "CallExpression" &&
107 expression.callee.name === "Boolean" &&
108 expression.arguments.length === 1 &&
109 astUtils.isReferenceToGlobalVariable(scope, expression.callee);
110}
111
112/**
113 * Returns true for:
114 * truthiness checks: value, Boolean(value), !!value
115 * falsiness checks: !value, !Boolean(value)
116 * nullish checks: value == null, value === undefined || value === null
117 * @param {ASTNode} expression Test condition
118 * @param {import('eslint-scope').Scope} scope Scope of the expression
119 * @returns {?{ reference: ASTNode, operator: '??'|'||'|'&&'}} Null if not a known existence
120 */
121function getExistence(expression, scope) {
122 const isNegated = expression.type === "UnaryExpression" && expression.operator === "!";
123 const base = isNegated ? expression.argument : expression;
124
125 switch (true) {
126 case isReference(base):
127 return { reference: base, operator: isNegated ? "||" : "&&" };
128 case base.type === "UnaryExpression" && base.operator === "!" && isReference(base.argument):
129 return { reference: base.argument, operator: "&&" };
130 case isBooleanCast(base, scope) && isReference(base.arguments[0]):
131 return { reference: base.arguments[0], operator: isNegated ? "||" : "&&" };
132 case isImplicitNullishComparison(expression, scope):
133 return { reference: isReference(expression.left) ? expression.left : expression.right, operator: "??" };
134 case isExplicitNullishComparison(expression, scope):
135 return { reference: isReference(expression.left.left) ? expression.left.left : expression.left.right, operator: "??" };
136 default: return null;
137 }
138}
139
140/**
141 * Returns true iff the node is inside a with block
142 * @param {ASTNode} node Node to check
143 * @returns {boolean} True iff passed node is inside a with block
144 */
145function isInsideWithBlock(node) {
146 if (node.type === "Program") {
147 return false;
148 }
149
150 return node.parent.type === "WithStatement" && node.parent.body === node ? true : isInsideWithBlock(node.parent);
151}
152
153/**
154 * Gets the leftmost operand of a consecutive logical expression.
155 * @param {SourceCode} sourceCode The ESLint source code object
156 * @param {LogicalExpression} node LogicalExpression
157 * @returns {Expression} Leftmost operand
158 */
159function getLeftmostOperand(sourceCode, node) {
160 let left = node.left;
161
162 while (left.type === "LogicalExpression" && left.operator === node.operator) {
163
164 if (astUtils.isParenthesised(sourceCode, left)) {
165
166 /*
167 * It should have associativity,
168 * but ignore it if use parentheses to make the evaluation order clear.
169 */
170 return left;
171 }
172 left = left.left;
173 }
174 return left;
175
176}
177
178//------------------------------------------------------------------------------
179// Rule Definition
180//------------------------------------------------------------------------------
181/** @type {import('../shared/types').Rule} */
182module.exports = {
183 meta: {
184 type: "suggestion",
185
186 docs: {
187 description: "Require or disallow logical assignment operator shorthand",
188 recommended: false,
189 url: "https://eslint.org/docs/latest/rules/logical-assignment-operators"
190 },
191
192 schema: {
193 type: "array",
194 oneOf: [{
195 items: [
196 { const: "always" },
197 {
198 type: "object",
199 properties: {
200 enforceForIfStatements: {
201 type: "boolean"
202 }
203 },
204 additionalProperties: false
205 }
206 ],
207 minItems: 0, // 0 for allowing passing no options
208 maxItems: 2
209 }, {
210 items: [{ const: "never" }],
211 minItems: 1,
212 maxItems: 1
213 }]
214 },
215 fixable: "code",
216 hasSuggestions: true,
217 messages: {
218 assignment: "Assignment (=) can be replaced with operator assignment ({{operator}}).",
219 useLogicalOperator: "Convert this assignment to use the operator {{ operator }}.",
220 logical: "Logical expression can be replaced with an assignment ({{ operator }}).",
221 convertLogical: "Replace this logical expression with an assignment with the operator {{ operator }}.",
222 if: "'if' statement can be replaced with a logical operator assignment with operator {{ operator }}.",
223 convertIf: "Replace this 'if' statement with a logical assignment with operator {{ operator }}.",
224 unexpected: "Unexpected logical operator assignment ({{operator}}) shorthand.",
225 separate: "Separate the logical assignment into an assignment with a logical operator."
226 }
227 },
228
229 create(context) {
230 const mode = context.options[0] === "never" ? "never" : "always";
231 const checkIf = mode === "always" && context.options.length > 1 && context.options[1].enforceForIfStatements;
232 const sourceCode = context.sourceCode;
233 const isStrict = sourceCode.getScope(sourceCode.ast).isStrict;
234
235 /**
236 * Returns false if the access could be a getter
237 * @param {ASTNode} node Assignment expression
238 * @returns {boolean} True iff the fix is safe
239 */
240 function cannotBeGetter(node) {
241 return node.type === "Identifier" &&
242 (isStrict || !isInsideWithBlock(node));
243 }
244
245 /**
246 * Check whether only a single property is accessed
247 * @param {ASTNode} node reference
248 * @returns {boolean} True iff a single property is accessed
249 */
250 function accessesSingleProperty(node) {
251 if (!isStrict && isInsideWithBlock(node)) {
252 return node.type === "Identifier";
253 }
254
255 return node.type === "MemberExpression" &&
256 baseTypes.has(node.object.type) &&
257 (!node.computed || (node.property.type !== "MemberExpression" && node.property.type !== "ChainExpression"));
258 }
259
260 /**
261 * Adds a fixer or suggestion whether on the fix is safe.
262 * @param {{ messageId: string, node: ASTNode }} descriptor Report descriptor without fix or suggest
263 * @param {{ messageId: string, fix: Function }} suggestion Adds the fix or the whole suggestion as only element in "suggest" to suggestion
264 * @param {boolean} shouldBeFixed Fix iff the condition is true
265 * @returns {Object} Descriptor with either an added fix or suggestion
266 */
267 function createConditionalFixer(descriptor, suggestion, shouldBeFixed) {
268 if (shouldBeFixed) {
269 return {
270 ...descriptor,
271 fix: suggestion.fix
272 };
273 }
274
275 return {
276 ...descriptor,
277 suggest: [suggestion]
278 };
279 }
280
281
282 /**
283 * Returns the operator token for assignments and binary expressions
284 * @param {ASTNode} node AssignmentExpression or BinaryExpression
285 * @returns {import('eslint').AST.Token} Operator token between the left and right expression
286 */
287 function getOperatorToken(node) {
288 return sourceCode.getFirstTokenBetween(node.left, node.right, token => token.value === node.operator);
289 }
290
291 if (mode === "never") {
292 return {
293
294 // foo ||= bar
295 "AssignmentExpression"(assignment) {
296 if (!astUtils.isLogicalAssignmentOperator(assignment.operator)) {
297 return;
298 }
299
300 const descriptor = {
301 messageId: "unexpected",
302 node: assignment,
303 data: { operator: assignment.operator }
304 };
305 const suggestion = {
306 messageId: "separate",
307 *fix(ruleFixer) {
308 if (sourceCode.getCommentsInside(assignment).length > 0) {
309 return;
310 }
311
312 const operatorToken = getOperatorToken(assignment);
313
314 // -> foo = bar
315 yield ruleFixer.replaceText(operatorToken, "=");
316
317 const assignmentText = sourceCode.getText(assignment.left);
318 const operator = assignment.operator.slice(0, -1);
319
320 // -> foo = foo || bar
321 yield ruleFixer.insertTextAfter(operatorToken, ` ${assignmentText} ${operator}`);
322
323 const precedence = astUtils.getPrecedence(assignment.right) <= astUtils.getPrecedence({ type: "LogicalExpression", operator });
324
325 // ?? and || / && cannot be mixed but have same precedence
326 const mixed = assignment.operator === "??=" && astUtils.isLogicalExpression(assignment.right);
327
328 if (!astUtils.isParenthesised(sourceCode, assignment.right) && (precedence || mixed)) {
329
330 // -> foo = foo || (bar)
331 yield ruleFixer.insertTextBefore(assignment.right, "(");
332 yield ruleFixer.insertTextAfter(assignment.right, ")");
333 }
334 }
335 };
336
337 context.report(createConditionalFixer(descriptor, suggestion, cannotBeGetter(assignment.left)));
338 }
339 };
340 }
341
342 return {
343
344 // foo = foo || bar
345 "AssignmentExpression[operator='='][right.type='LogicalExpression']"(assignment) {
346 const leftOperand = getLeftmostOperand(sourceCode, assignment.right);
347
348 if (!astUtils.isSameReference(assignment.left, leftOperand)
349 ) {
350 return;
351 }
352
353 const descriptor = {
354 messageId: "assignment",
355 node: assignment,
356 data: { operator: `${assignment.right.operator}=` }
357 };
358 const suggestion = {
359 messageId: "useLogicalOperator",
360 data: { operator: `${assignment.right.operator}=` },
361 *fix(ruleFixer) {
362 if (sourceCode.getCommentsInside(assignment).length > 0) {
363 return;
364 }
365
366 // No need for parenthesis around the assignment based on precedence as the precedence stays the same even with changed operator
367 const assignmentOperatorToken = getOperatorToken(assignment);
368
369 // -> foo ||= foo || bar
370 yield ruleFixer.insertTextBefore(assignmentOperatorToken, assignment.right.operator);
371
372 // -> foo ||= bar
373 const logicalOperatorToken = getOperatorToken(leftOperand.parent);
374 const firstRightOperandToken = sourceCode.getTokenAfter(logicalOperatorToken);
375
376 yield ruleFixer.removeRange([leftOperand.parent.range[0], firstRightOperandToken.range[0]]);
377 }
378 };
379
380 context.report(createConditionalFixer(descriptor, suggestion, cannotBeGetter(assignment.left)));
381 },
382
383 // foo || (foo = bar)
384 'LogicalExpression[right.type="AssignmentExpression"][right.operator="="]'(logical) {
385
386 // Right side has to be parenthesized, otherwise would be parsed as (foo || foo) = bar which is illegal
387 if (isReference(logical.left) && astUtils.isSameReference(logical.left, logical.right.left)) {
388 const descriptor = {
389 messageId: "logical",
390 node: logical,
391 data: { operator: `${logical.operator}=` }
392 };
393 const suggestion = {
394 messageId: "convertLogical",
395 data: { operator: `${logical.operator}=` },
396 *fix(ruleFixer) {
397 if (sourceCode.getCommentsInside(logical).length > 0) {
398 return;
399 }
400
401 const parentPrecedence = astUtils.getPrecedence(logical.parent);
402 const requiresOuterParenthesis = logical.parent.type !== "ExpressionStatement" && (
403 parentPrecedence === -1 ||
404 astUtils.getPrecedence({ type: "AssignmentExpression" }) < parentPrecedence
405 );
406
407 if (!astUtils.isParenthesised(sourceCode, logical) && requiresOuterParenthesis) {
408 yield ruleFixer.insertTextBefore(logical, "(");
409 yield ruleFixer.insertTextAfter(logical, ")");
410 }
411
412 // Also removes all opening parenthesis
413 yield ruleFixer.removeRange([logical.range[0], logical.right.range[0]]); // -> foo = bar)
414
415 // Also removes all ending parenthesis
416 yield ruleFixer.removeRange([logical.right.range[1], logical.range[1]]); // -> foo = bar
417
418 const operatorToken = getOperatorToken(logical.right);
419
420 yield ruleFixer.insertTextBefore(operatorToken, logical.operator); // -> foo ||= bar
421 }
422 };
423 const fix = cannotBeGetter(logical.left) || accessesSingleProperty(logical.left);
424
425 context.report(createConditionalFixer(descriptor, suggestion, fix));
426 }
427 },
428
429 // if (foo) foo = bar
430 "IfStatement[alternate=null]"(ifNode) {
431 if (!checkIf) {
432 return;
433 }
434
435 const hasBody = ifNode.consequent.type === "BlockStatement";
436
437 if (hasBody && ifNode.consequent.body.length !== 1) {
438 return;
439 }
440
441 const body = hasBody ? ifNode.consequent.body[0] : ifNode.consequent;
442 const scope = sourceCode.getScope(ifNode);
443 const existence = getExistence(ifNode.test, scope);
444
445 if (
446 body.type === "ExpressionStatement" &&
447 body.expression.type === "AssignmentExpression" &&
448 body.expression.operator === "=" &&
449 existence !== null &&
450 astUtils.isSameReference(existence.reference, body.expression.left)
451 ) {
452 const descriptor = {
453 messageId: "if",
454 node: ifNode,
455 data: { operator: `${existence.operator}=` }
456 };
457 const suggestion = {
458 messageId: "convertIf",
459 data: { operator: `${existence.operator}=` },
460 *fix(ruleFixer) {
461 if (sourceCode.getCommentsInside(ifNode).length > 0) {
462 return;
463 }
464
465 const firstBodyToken = sourceCode.getFirstToken(body);
466 const prevToken = sourceCode.getTokenBefore(ifNode);
467
468 if (
469 prevToken !== null &&
470 prevToken.value !== ";" &&
471 prevToken.value !== "{" &&
472 firstBodyToken.type !== "Identifier" &&
473 firstBodyToken.type !== "Keyword"
474 ) {
475
476 // Do not fix if the fixed statement could be part of the previous statement (eg. fn() if (a == null) (a) = b --> fn()(a) ??= b)
477 return;
478 }
479
480
481 const operatorToken = getOperatorToken(body.expression);
482
483 yield ruleFixer.insertTextBefore(operatorToken, existence.operator); // -> if (foo) foo ||= bar
484
485 yield ruleFixer.removeRange([ifNode.range[0], body.range[0]]); // -> foo ||= bar
486
487 yield ruleFixer.removeRange([body.range[1], ifNode.range[1]]); // -> foo ||= bar, only present if "if" had a body
488
489 const nextToken = sourceCode.getTokenAfter(body.expression);
490
491 if (hasBody && (nextToken !== null && nextToken.value !== ";")) {
492 yield ruleFixer.insertTextAfter(ifNode, ";");
493 }
494 }
495 };
496 const shouldBeFixed = cannotBeGetter(existence.reference) ||
497 (ifNode.test.type !== "LogicalExpression" && accessesSingleProperty(existence.reference));
498
499 context.report(createConditionalFixer(descriptor, suggestion, shouldBeFixed));
500 }
501 }
502 };
503 }
504};
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