github-pages-deploy-action/node_modules/eslint-plugin-react/lib/util/Components.js
2020-03-06 22:45:40 -05:00

923 lines
27 KiB
JavaScript

/**
* @fileoverview Utility class and functions for React components detection
* @author Yannick Croissant
*/
'use strict';
const doctrine = require('doctrine');
const arrayIncludes = require('array-includes');
const values = require('object.values');
const variableUtil = require('./variable');
const pragmaUtil = require('./pragma');
const astUtil = require('./ast');
const propTypesUtil = require('./propTypes');
const jsxUtil = require('./jsx');
const usedPropTypesUtil = require('./usedPropTypes');
const defaultPropsUtil = require('./defaultProps');
function getId(node) {
return node && node.range.join(':');
}
function usedPropTypesAreEquivalent(propA, propB) {
if (propA.name === propB.name) {
if (!propA.allNames && !propB.allNames) {
return true;
}
if (Array.isArray(propA.allNames) && Array.isArray(propB.allNames) && propA.allNames.join('') === propB.allNames.join('')) {
return true;
}
return false;
}
return false;
}
function mergeUsedPropTypes(propsList, newPropsList) {
const propsToAdd = [];
newPropsList.forEach((newProp) => {
const newPropisAlreadyInTheList = propsList.some(prop => usedPropTypesAreEquivalent(prop, newProp));
if (!newPropisAlreadyInTheList) {
propsToAdd.push(newProp);
}
});
return propsList.concat(propsToAdd);
}
function isReturnsConditionalJSX(node, property, strict) {
const returnsConditionalJSXConsequent = node[property] &&
node[property].type === 'ConditionalExpression' &&
jsxUtil.isJSX(node[property].consequent);
const returnsConditionalJSXAlternate = node[property] &&
node[property].type === 'ConditionalExpression' &&
jsxUtil.isJSX(node[property].alternate);
return strict ?
(returnsConditionalJSXConsequent && returnsConditionalJSXAlternate) :
(returnsConditionalJSXConsequent || returnsConditionalJSXAlternate);
}
function isReturnsLogicalJSX(node, property, strict) {
const returnsLogicalJSXLeft = node[property] &&
node[property].type === 'LogicalExpression' &&
jsxUtil.isJSX(node[property].left);
const returnsLogicalJSXRight = node[property] &&
node[property].type === 'LogicalExpression' &&
jsxUtil.isJSX(node[property].right);
return strict ?
(returnsLogicalJSXLeft && returnsLogicalJSXRight) :
(returnsLogicalJSXLeft || returnsLogicalJSXRight);
}
const Lists = new WeakMap();
/**
* Components
*/
class Components {
constructor() {
Lists.set(this, {});
}
/**
* Add a node to the components list, or update it if it's already in the list
*
* @param {ASTNode} node The AST node being added.
* @param {Number} confidence Confidence in the component detection (0=banned, 1=maybe, 2=yes)
* @returns {Object} Added component object
*/
add(node, confidence) {
const id = getId(node);
const list = Lists.get(this);
if (list[id]) {
if (confidence === 0 || list[id].confidence === 0) {
list[id].confidence = 0;
} else {
list[id].confidence = Math.max(list[id].confidence, confidence);
}
return list[id];
}
list[id] = {
node,
confidence
};
return list[id];
}
/**
* Find a component in the list using its node
*
* @param {ASTNode} node The AST node being searched.
* @returns {Object} Component object, undefined if the component is not found or has confidence value of 0.
*/
get(node) {
const id = getId(node);
const item = Lists.get(this)[id];
if (item && item.confidence >= 1) {
return item;
}
return null;
}
/**
* Update a component in the list
*
* @param {ASTNode} node The AST node being updated.
* @param {Object} props Additional properties to add to the component.
*/
set(node, props) {
const list = Lists.get(this);
let component = list[getId(node)];
while (!component) {
node = node.parent;
if (!node) {
return;
}
component = list[getId(node)];
}
Object.assign(
component,
props,
{
usedPropTypes: mergeUsedPropTypes(
component.usedPropTypes || [],
props.usedPropTypes || []
)
}
);
}
/**
* Return the components list
* Components for which we are not confident are not returned
*
* @returns {Object} Components list
*/
list() {
const thisList = Lists.get(this);
const list = {};
const usedPropTypes = {};
// Find props used in components for which we are not confident
Object.keys(thisList).filter(i => thisList[i].confidence < 2).forEach((i) => {
let component = null;
let node = null;
node = thisList[i].node;
while (!component && node.parent) {
node = node.parent;
// Stop moving up if we reach a decorator
if (node.type === 'Decorator') {
break;
}
component = this.get(node);
}
if (component) {
const newUsedProps = (thisList[i].usedPropTypes || []).filter(propType => !propType.node || propType.node.kind !== 'init');
const componentId = getId(component.node);
usedPropTypes[componentId] = mergeUsedPropTypes(usedPropTypes[componentId] || [], newUsedProps);
}
});
// Assign used props in not confident components to the parent component
Object.keys(thisList).filter(j => thisList[j].confidence >= 2).forEach((j) => {
const id = getId(thisList[j].node);
list[j] = thisList[j];
if (usedPropTypes[id]) {
list[j].usedPropTypes = mergeUsedPropTypes(list[j].usedPropTypes || [], usedPropTypes[id]);
}
});
return list;
}
/**
* Return the length of the components list
* Components for which we are not confident are not counted
*
* @returns {Number} Components list length
*/
length() {
const list = Lists.get(this);
return Object.keys(list).filter(i => list[i].confidence >= 2).length;
}
}
function componentRule(rule, context) {
const createClass = pragmaUtil.getCreateClassFromContext(context);
const pragma = pragmaUtil.getFromContext(context);
const sourceCode = context.getSourceCode();
const components = new Components();
// Utilities for component detection
const utils = {
/**
* Check if the node is a React ES5 component
*
* @param {ASTNode} node The AST node being checked.
* @returns {Boolean} True if the node is a React ES5 component, false if not
*/
isES5Component(node) {
if (!node.parent) {
return false;
}
return new RegExp(`^(${pragma}\\.)?${createClass}$`).test(sourceCode.getText(node.parent.callee));
},
/**
* Check if the node is a React ES6 component
*
* @param {ASTNode} node The AST node being checked.
* @returns {Boolean} True if the node is a React ES6 component, false if not
*/
isES6Component(node) {
if (utils.isExplicitComponent(node)) {
return true;
}
if (!node.superClass) {
return false;
}
return new RegExp(`^(${pragma}\\.)?(Pure)?Component$`).test(sourceCode.getText(node.superClass));
},
/**
* Check if the node is explicitly declared as a descendant of a React Component
*
* @param {ASTNode} node The AST node being checked (can be a ReturnStatement or an ArrowFunctionExpression).
* @returns {Boolean} True if the node is explicitly declared as a descendant of a React Component, false if not
*/
isExplicitComponent(node) {
let comment;
// Sometimes the passed node may not have been parsed yet by eslint, and this function call crashes.
// Can be removed when eslint sets "parent" property for all nodes on initial AST traversal: https://github.com/eslint/eslint-scope/issues/27
// eslint-disable-next-line no-warning-comments
// FIXME: Remove try/catch when https://github.com/eslint/eslint-scope/issues/27 is implemented.
try {
comment = sourceCode.getJSDocComment(node);
} catch (e) {
comment = null;
}
if (comment === null) {
return false;
}
const commentAst = doctrine.parse(comment.value, {
unwrap: true,
tags: ['extends', 'augments']
});
const relevantTags = commentAst.tags.filter(tag => tag.name === 'React.Component' || tag.name === 'React.PureComponent');
return relevantTags.length > 0;
},
/**
* Checks to see if our component extends React.PureComponent
*
* @param {ASTNode} node The AST node being checked.
* @returns {Boolean} True if node extends React.PureComponent, false if not
*/
isPureComponent(node) {
if (node.superClass) {
return new RegExp(`^(${pragma}\\.)?PureComponent$`).test(sourceCode.getText(node.superClass));
}
return false;
},
/**
* Check if variable is destructured from pragma import
*
* @param {string} variable The variable name to check
* @returns {Boolean} True if createElement is destructured from the pragma
*/
isDestructuredFromPragmaImport(variable) {
const variables = variableUtil.variablesInScope(context);
const variableInScope = variableUtil.getVariable(variables, variable);
if (variableInScope) {
const map = variableInScope.scope.set;
return map.has(pragma);
}
return false;
},
/**
* Checks to see if node is called within createElement from pragma
*
* @param {ASTNode} node The AST node being checked.
* @returns {Boolean} True if createElement called from pragma
*/
isCreateElement(node) {
const calledOnPragma = (
node &&
node.callee &&
node.callee.object &&
node.callee.object.name === pragma &&
node.callee.property &&
node.callee.property.name === 'createElement'
);
const calledDirectly = (
node &&
node.callee &&
node.callee.name === 'createElement'
);
if (this.isDestructuredFromPragmaImport('createElement')) {
return calledDirectly || calledOnPragma;
}
return calledOnPragma;
},
/**
* Check if we are in a class constructor
* @return {boolean} true if we are in a class constructor, false if not
*/
inConstructor() {
let scope = context.getScope();
while (scope) {
if (scope.block && scope.block.parent && scope.block.parent.kind === 'constructor') {
return true;
}
scope = scope.upper;
}
return false;
},
/**
* Determine if the node is MemberExpression of `this.state`
* @param {Object} node The node to process
* @returns {Boolean}
*/
isStateMemberExpression(node) {
return node.type === 'MemberExpression' && node.object.type === 'ThisExpression' && node.property.name === 'state';
},
getReturnPropertyAndNode(ASTnode) {
let property;
let node = ASTnode;
switch (node.type) {
case 'ReturnStatement':
property = 'argument';
break;
case 'ArrowFunctionExpression':
property = 'body';
if (node[property] && node[property].type === 'BlockStatement') {
node = utils.findReturnStatement(node);
property = 'argument';
}
break;
default:
node = utils.findReturnStatement(node);
property = 'argument';
}
return {
node,
property
};
},
/**
* Check if the node is returning JSX
*
* @param {ASTNode} ASTnode The AST node being checked
* @param {Boolean} [strict] If true, in a ternary condition the node must return JSX in both cases
* @returns {Boolean} True if the node is returning JSX, false if not
*/
isReturningJSX(ASTnode, strict) {
const nodeAndProperty = utils.getReturnPropertyAndNode(ASTnode);
const node = nodeAndProperty.node;
const property = nodeAndProperty.property;
if (!node) {
return false;
}
const returnsConditionalJSX = isReturnsConditionalJSX(node, property, strict);
const returnsLogicalJSX = isReturnsLogicalJSX(node, property, strict);
const returnsJSX = node[property] && jsxUtil.isJSX(node[property]);
const returnsPragmaCreateElement = this.isCreateElement(node[property]);
return !!(
returnsConditionalJSX ||
returnsLogicalJSX ||
returnsJSX ||
returnsPragmaCreateElement
);
},
/**
* Check if the node is returning null
*
* @param {ASTNode} ASTnode The AST node being checked
* @returns {Boolean} True if the node is returning null, false if not
*/
isReturningNull(ASTnode) {
const nodeAndProperty = utils.getReturnPropertyAndNode(ASTnode);
const property = nodeAndProperty.property;
const node = nodeAndProperty.node;
if (!node) {
return false;
}
return node[property] && node[property].value === null;
},
/**
* Check if the node is returning JSX or null
*
* @param {ASTNode} ASTNode The AST node being checked
* @param {Boolean} [strict] If true, in a ternary condition the node must return JSX in both cases
* @returns {Boolean} True if the node is returning JSX or null, false if not
*/
isReturningJSXOrNull(ASTNode, strict) {
return utils.isReturningJSX(ASTNode, strict) || utils.isReturningNull(ASTNode);
},
getPragmaComponentWrapper(node) {
let isPragmaComponentWrapper;
let currentNode = node;
let prevNode;
do {
currentNode = currentNode.parent;
isPragmaComponentWrapper = this.isPragmaComponentWrapper(currentNode);
if (isPragmaComponentWrapper) {
prevNode = currentNode;
}
} while (isPragmaComponentWrapper);
return prevNode;
},
getComponentNameFromJSXElement(node) {
if (node.type !== 'JSXElement') {
return null;
}
if (node.openingElement && node.openingElement.name && node.openingElement.name.name) {
return node.openingElement.name.name;
}
return null;
},
/**
* Getting the first JSX element's name.
* @param {object} node
* @returns {string | null}
*/
getNameOfWrappedComponent(node) {
if (node.length < 1) {
return null;
}
const body = node[0].body;
if (!body) {
return null;
}
if (body.type === 'JSXElement') {
return this.getComponentNameFromJSXElement(body);
}
if (body.type === 'BlockStatement') {
const jsxElement = body.body.find(item => item.type === 'ReturnStatement');
return jsxElement && this.getComponentNameFromJSXElement(jsxElement.argument);
}
return null;
},
/**
* Get the list of names of components created till now
* @returns {string | boolean}
*/
getDetectedComponents() {
const list = components.list();
return values(list).filter((val) => {
if (val.node.type === 'ClassDeclaration') {
return true;
}
if (
val.node.type === 'ArrowFunctionExpression' &&
val.node.parent &&
val.node.parent.type === 'VariableDeclarator' &&
val.node.parent.id
) {
return true;
}
return false;
}).map((val) => {
if (val.node.type === 'ArrowFunctionExpression') return val.node.parent.id.name;
return val.node.id.name;
});
},
/**
* It will check wheater memo/forwardRef is wrapping existing component or
* creating a new one.
* @param {object} node
* @returns {boolean}
*/
nodeWrapsComponent(node) {
const childComponent = this.getNameOfWrappedComponent(node.arguments);
const componentList = this.getDetectedComponents();
return !!childComponent && arrayIncludes(componentList, childComponent);
},
isPragmaComponentWrapper(node) {
if (!node || node.type !== 'CallExpression') {
return false;
}
const propertyNames = ['forwardRef', 'memo'];
const calleeObject = node.callee.object;
if (calleeObject && node.callee.property) {
return arrayIncludes(propertyNames, node.callee.property.name) &&
calleeObject.name === pragma &&
!this.nodeWrapsComponent(node);
}
return arrayIncludes(propertyNames, node.callee.name) && this.isDestructuredFromPragmaImport(node.callee.name);
},
/**
* Find a return statment in the current node
*
* @param {ASTNode} ASTnode The AST node being checked
*/
findReturnStatement: astUtil.findReturnStatement,
/**
* Get the parent component node from the current scope
*
* @returns {ASTNode} component node, null if we are not in a component
*/
getParentComponent() {
return (
utils.getParentES6Component() ||
utils.getParentES5Component() ||
utils.getParentStatelessComponent()
);
},
/**
* Get the parent ES5 component node from the current scope
*
* @returns {ASTNode} component node, null if we are not in a component
*/
getParentES5Component() {
let scope = context.getScope();
while (scope) {
const node = scope.block && scope.block.parent && scope.block.parent.parent;
if (node && utils.isES5Component(node)) {
return node;
}
scope = scope.upper;
}
return null;
},
/**
* Get the parent ES6 component node from the current scope
*
* @returns {ASTNode} component node, null if we are not in a component
*/
getParentES6Component() {
let scope = context.getScope();
while (scope && scope.type !== 'class') {
scope = scope.upper;
}
const node = scope && scope.block;
if (!node || !utils.isES6Component(node)) {
return null;
}
return node;
},
/**
* @param {ASTNode} node
* @returns {boolean}
*/
isInAllowedPositionForComponent(node) {
switch (node.parent.type) {
case 'VariableDeclarator':
case 'AssignmentExpression':
case 'Property':
case 'ReturnStatement':
case 'ExportDefaultDeclaration': {
return true;
}
case 'SequenceExpression': {
return utils.isInAllowedPositionForComponent(node.parent) &&
node === node.parent.expressions[node.parent.expressions.length - 1];
}
default:
return false;
}
},
/**
* Get node if node is a stateless component, or node.parent in cases like
* `React.memo` or `React.forwardRef`. Otherwise returns `undefined`.
* @param {ASTNode} node
* @returns {ASTNode | undefined}
*/
getStatelessComponent(node) {
if (node.type === 'FunctionDeclaration') {
if (utils.isReturningJSXOrNull(node)) {
return node;
}
}
if (node.type === 'FunctionExpression' || node.type === 'ArrowFunctionExpression') {
if (utils.isInAllowedPositionForComponent(node) && utils.isReturningJSXOrNull(node)) {
return node;
}
// Case like `React.memo(() => <></>)` or `React.forwardRef(...)`
const pragmaComponentWrapper = utils.getPragmaComponentWrapper(node);
if (pragmaComponentWrapper) {
return pragmaComponentWrapper;
}
}
return undefined;
},
/**
* Get the parent stateless component node from the current scope
*
* @returns {ASTNode} component node, null if we are not in a component
*/
getParentStatelessComponent() {
let scope = context.getScope();
while (scope) {
const node = scope.block;
const statelessComponent = utils.getStatelessComponent(node);
if (statelessComponent) {
return statelessComponent;
}
scope = scope.upper;
}
return null;
},
/**
* Get the related component from a node
*
* @param {ASTNode} node The AST node being checked (must be a MemberExpression).
* @returns {ASTNode} component node, null if we cannot find the component
*/
getRelatedComponent(node) {
let i;
let j;
let k;
let l;
let componentNode;
// Get the component path
const componentPath = [];
while (node) {
if (node.property && node.property.type === 'Identifier') {
componentPath.push(node.property.name);
}
if (node.object && node.object.type === 'Identifier') {
componentPath.push(node.object.name);
}
node = node.object;
}
componentPath.reverse();
const componentName = componentPath.slice(0, componentPath.length - 1).join('.');
// Find the variable in the current scope
const variableName = componentPath.shift();
if (!variableName) {
return null;
}
let variableInScope;
const variables = variableUtil.variablesInScope(context);
for (i = 0, j = variables.length; i < j; i++) {
if (variables[i].name === variableName) {
variableInScope = variables[i];
break;
}
}
if (!variableInScope) {
return null;
}
// Try to find the component using variable references
const refs = variableInScope.references;
refs.some((ref) => {
let refId = ref.identifier;
if (refId.parent && refId.parent.type === 'MemberExpression') {
refId = refId.parent;
}
if (sourceCode.getText(refId) !== componentName) {
return false;
}
if (refId.type === 'MemberExpression') {
componentNode = refId.parent.right;
} else if (
refId.parent &&
refId.parent.type === 'VariableDeclarator' &&
refId.parent.init &&
refId.parent.init.type !== 'Identifier'
) {
componentNode = refId.parent.init;
}
return true;
});
if (componentNode) {
// Return the component
return components.add(componentNode, 1);
}
// Try to find the component using variable declarations
const defs = variableInScope.defs;
const defInScope = defs.find(def => (
def.type === 'ClassName' ||
def.type === 'FunctionName' ||
def.type === 'Variable'
));
if (!defInScope || !defInScope.node) {
return null;
}
componentNode = defInScope.node.init || defInScope.node;
// Traverse the node properties to the component declaration
for (i = 0, j = componentPath.length; i < j; i++) {
if (!componentNode.properties) {
continue; // eslint-disable-line no-continue
}
for (k = 0, l = componentNode.properties.length; k < l; k++) {
if (componentNode.properties[k].key && componentNode.properties[k].key.name === componentPath[i]) {
componentNode = componentNode.properties[k];
break;
}
}
if (!componentNode || !componentNode.value) {
return null;
}
componentNode = componentNode.value;
}
// Return the component
return components.add(componentNode, 1);
}
};
// Component detection instructions
const detectionInstructions = {
CallExpression(node) {
if (!utils.isPragmaComponentWrapper(node)) {
return;
}
if (node.arguments.length > 0 && astUtil.isFunctionLikeExpression(node.arguments[0])) {
components.add(node, 2);
}
},
ClassExpression(node) {
if (!utils.isES6Component(node)) {
return;
}
components.add(node, 2);
},
ClassDeclaration(node) {
if (!utils.isES6Component(node)) {
return;
}
components.add(node, 2);
},
ClassProperty(node) {
node = utils.getParentComponent();
if (!node) {
return;
}
components.add(node, 2);
},
ObjectExpression(node) {
if (!utils.isES5Component(node)) {
return;
}
components.add(node, 2);
},
FunctionExpression(node) {
if (node.async) {
components.add(node, 0);
return;
}
const component = utils.getParentComponent();
if (
!component ||
(component.parent && component.parent.type === 'JSXExpressionContainer')
) {
// Ban the node if we cannot find a parent component
components.add(node, 0);
return;
}
components.add(component, 1);
},
FunctionDeclaration(node) {
if (node.async) {
components.add(node, 0);
return;
}
node = utils.getParentComponent();
if (!node) {
return;
}
components.add(node, 1);
},
ArrowFunctionExpression(node) {
if (node.async) {
components.add(node, 0);
return;
}
const component = utils.getParentComponent();
if (
!component ||
(component.parent && component.parent.type === 'JSXExpressionContainer')
) {
// Ban the node if we cannot find a parent component
components.add(node, 0);
return;
}
if (component.expression && utils.isReturningJSX(component)) {
components.add(component, 2);
} else {
components.add(component, 1);
}
},
ThisExpression(node) {
const component = utils.getParentComponent();
if (!component || !/Function/.test(component.type) || !node.parent.property) {
return;
}
// Ban functions accessing a property on a ThisExpression
components.add(node, 0);
},
ReturnStatement(node) {
if (!utils.isReturningJSX(node)) {
return;
}
node = utils.getParentComponent();
if (!node) {
const scope = context.getScope();
components.add(scope.block, 1);
return;
}
components.add(node, 2);
}
};
// Update the provided rule instructions to add the component detection
const ruleInstructions = rule(context, components, utils);
const updatedRuleInstructions = Object.assign({}, ruleInstructions);
const propTypesInstructions = propTypesUtil(context, components, utils);
const usedPropTypesInstructions = usedPropTypesUtil(context, components, utils);
const defaultPropsInstructions = defaultPropsUtil(context, components, utils);
const allKeys = new Set(Object.keys(detectionInstructions).concat(
Object.keys(propTypesInstructions),
Object.keys(usedPropTypesInstructions),
Object.keys(defaultPropsInstructions)
));
allKeys.forEach((instruction) => {
updatedRuleInstructions[instruction] = (node) => {
if (instruction in detectionInstructions) {
detectionInstructions[instruction](node);
}
if (instruction in propTypesInstructions) {
propTypesInstructions[instruction](node);
}
if (instruction in usedPropTypesInstructions) {
usedPropTypesInstructions[instruction](node);
}
if (instruction in defaultPropsInstructions) {
defaultPropsInstructions[instruction](node);
}
if (ruleInstructions[instruction]) {
return ruleInstructions[instruction](node);
}
};
});
// Return the updated rule instructions
return updatedRuleInstructions;
}
module.exports = Object.assign(Components, {
detect(rule) {
return componentRule.bind(this, rule);
}
});