bigint-crypto-utils/node_modules/eslint-plugin-react/lib/rules/jsx-one-expression-per-line.js

223 lines
7.1 KiB
JavaScript
Executable File

/**
* @fileoverview Limit to one expression per line in JSX
* @author Mark Ivan Allen <Vydia.com>
*/
'use strict';
const docsUrl = require('../util/docsUrl');
// ------------------------------------------------------------------------------
// Rule Definition
// ------------------------------------------------------------------------------
const optionDefaults = {
allow: 'none'
};
module.exports = {
meta: {
docs: {
description: 'Limit to one expression per line in JSX',
category: 'Stylistic Issues',
recommended: false,
url: docsUrl('jsx-one-expression-per-line')
},
fixable: 'whitespace',
schema: [
{
type: 'object',
properties: {
allow: {
enum: ['none', 'literal', 'single-child']
}
},
default: optionDefaults,
additionalProperties: false
}
]
},
create(context) {
const options = Object.assign({}, optionDefaults, context.options[0]);
function nodeKey(node) {
return `${node.loc.start.line},${node.loc.start.column}`;
}
function nodeDescriptor(n) {
return n.openingElement ? n.openingElement.name.name : context.getSourceCode().getText(n).replace(/\n/g, '');
}
function handleJSX(node) {
const children = node.children;
if (!children || !children.length) {
return;
}
const openingElement = node.openingElement || node.openingFragment;
const closingElement = node.closingElement || node.closingFragment;
const openingElementStartLine = openingElement.loc.start.line;
const openingElementEndLine = openingElement.loc.end.line;
const closingElementStartLine = closingElement.loc.start.line;
const closingElementEndLine = closingElement.loc.end.line;
if (children.length === 1) {
const child = children[0];
if (
openingElementStartLine === openingElementEndLine &&
openingElementEndLine === closingElementStartLine &&
closingElementStartLine === closingElementEndLine &&
closingElementEndLine === child.loc.start.line &&
child.loc.start.line === child.loc.end.line
) {
if (
options.allow === 'single-child' ||
options.allow === 'literal' && (child.type === 'Literal' || child.type === 'JSXText')
) {
return;
}
}
}
const childrenGroupedByLine = {};
const fixDetailsByNode = {};
children.forEach((child) => {
let countNewLinesBeforeContent = 0;
let countNewLinesAfterContent = 0;
if (child.type === 'Literal' || child.type === 'JSXText') {
if (/^\s*$/.test(child.raw)) {
return;
}
countNewLinesBeforeContent = (child.raw.match(/^\s*\n/g) || []).length;
countNewLinesAfterContent = (child.raw.match(/\n\s*$/g) || []).length;
}
const startLine = child.loc.start.line + countNewLinesBeforeContent;
const endLine = child.loc.end.line - countNewLinesAfterContent;
if (startLine === endLine) {
if (!childrenGroupedByLine[startLine]) {
childrenGroupedByLine[startLine] = [];
}
childrenGroupedByLine[startLine].push(child);
} else {
if (!childrenGroupedByLine[startLine]) {
childrenGroupedByLine[startLine] = [];
}
childrenGroupedByLine[startLine].push(child);
if (!childrenGroupedByLine[endLine]) {
childrenGroupedByLine[endLine] = [];
}
childrenGroupedByLine[endLine].push(child);
}
});
Object.keys(childrenGroupedByLine).forEach((_line) => {
const line = parseInt(_line, 10);
const firstIndex = 0;
const lastIndex = childrenGroupedByLine[line].length - 1;
childrenGroupedByLine[line].forEach((child, i) => {
let prevChild;
let nextChild;
if (i === firstIndex) {
if (line === openingElementEndLine) {
prevChild = openingElement;
}
} else {
prevChild = childrenGroupedByLine[line][i - 1];
}
if (i === lastIndex) {
if (line === closingElementStartLine) {
nextChild = closingElement;
}
} else {
// We don't need to append a trailing because the next child will prepend a leading.
// nextChild = childrenGroupedByLine[line][i + 1];
}
function spaceBetweenPrev() {
return ((prevChild.type === 'Literal' || prevChild.type === 'JSXText') && / $/.test(prevChild.raw)) ||
((child.type === 'Literal' || child.type === 'JSXText') && /^ /.test(child.raw)) ||
context.getSourceCode().isSpaceBetweenTokens(prevChild, child);
}
function spaceBetweenNext() {
return ((nextChild.type === 'Literal' || nextChild.type === 'JSXText') && /^ /.test(nextChild.raw)) ||
((child.type === 'Literal' || child.type === 'JSXText') && / $/.test(child.raw)) ||
context.getSourceCode().isSpaceBetweenTokens(child, nextChild);
}
if (!prevChild && !nextChild) {
return;
}
const source = context.getSourceCode().getText(child);
const leadingSpace = !!(prevChild && spaceBetweenPrev());
const trailingSpace = !!(nextChild && spaceBetweenNext());
const leadingNewLine = !!prevChild;
const trailingNewLine = !!nextChild;
const key = nodeKey(child);
if (!fixDetailsByNode[key]) {
fixDetailsByNode[key] = {
node: child,
source,
descriptor: nodeDescriptor(child)
};
}
if (leadingSpace) {
fixDetailsByNode[key].leadingSpace = true;
}
if (leadingNewLine) {
fixDetailsByNode[key].leadingNewLine = true;
}
if (trailingNewLine) {
fixDetailsByNode[key].trailingNewLine = true;
}
if (trailingSpace) {
fixDetailsByNode[key].trailingSpace = true;
}
});
});
Object.keys(fixDetailsByNode).forEach((key) => {
const details = fixDetailsByNode[key];
const nodeToReport = details.node;
const descriptor = details.descriptor;
const source = details.source.replace(/(^ +| +(?=\n)*$)/g, '');
const leadingSpaceString = details.leadingSpace ? '\n{\' \'}' : '';
const trailingSpaceString = details.trailingSpace ? '{\' \'}\n' : '';
const leadingNewLineString = details.leadingNewLine ? '\n' : '';
const trailingNewLineString = details.trailingNewLine ? '\n' : '';
const replaceText = `${leadingSpaceString}${leadingNewLineString}${source}${trailingNewLineString}${trailingSpaceString}`;
context.report({
node: nodeToReport,
message: `\`${descriptor}\` must be placed on a new line`,
fix(fixer) {
return fixer.replaceText(nodeToReport, replaceText);
}
});
});
}
return {
JSXElement: handleJSX,
JSXFragment: handleJSX
};
}
};