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chore: update versions
2024-02-14 14:10:47 +00:00
/**
* @fileoverview Main class using flat config
* @author Nicholas C. Zakas
*/
"use strict";
//------------------------------------------------------------------------------
// Requirements
//------------------------------------------------------------------------------
// Note: Node.js 12 does not support fs/promises.
const fs = require("fs").promises;
const { existsSync } = require("fs");
const path = require("path");
const findUp = require("find-up");
const { version } = require("../../package.json");
const { Linter } = require("../linter");
const { getRuleFromConfig } = require("../config/flat-config-helpers");
const {
Legacy: {
ConfigOps: {
getRuleSeverity
},
ModuleResolver,
naming
}
} = require("@eslint/eslintrc");
const {
findFiles,
getCacheFile,
isNonEmptyString,
isArrayOfNonEmptyString,
createIgnoreResult,
isErrorMessage,
processOptions
} = require("./eslint-helpers");
const { pathToFileURL } = require("url");
const { FlatConfigArray } = require("../config/flat-config-array");
const LintResultCache = require("../cli-engine/lint-result-cache");
/*
* This is necessary to allow overwriting writeFile for testing purposes.
* We can just use fs/promises once we drop Node.js 12 support.
*/
//------------------------------------------------------------------------------
// Typedefs
//------------------------------------------------------------------------------
// For VSCode IntelliSense
/** @typedef {import("../shared/types").ConfigData} ConfigData */
/** @typedef {import("../shared/types").DeprecatedRuleInfo} DeprecatedRuleInfo */
/** @typedef {import("../shared/types").LintMessage} LintMessage */
/** @typedef {import("../shared/types").LintResult} LintResult */
/** @typedef {import("../shared/types").ParserOptions} ParserOptions */
/** @typedef {import("../shared/types").Plugin} Plugin */
/** @typedef {import("../shared/types").ResultsMeta} ResultsMeta */
/** @typedef {import("../shared/types").RuleConf} RuleConf */
/** @typedef {import("../shared/types").Rule} Rule */
/** @typedef {ReturnType<ConfigArray.extractConfig>} ExtractedConfig */
/**
* The options with which to configure the ESLint instance.
* @typedef {Object} FlatESLintOptions
* @property {boolean} [allowInlineConfig] Enable or disable inline configuration comments.
* @property {ConfigData} [baseConfig] Base config object, extended by all configs used with this instance
* @property {boolean} [cache] Enable result caching.
* @property {string} [cacheLocation] The cache file to use instead of .eslintcache.
* @property {"metadata" | "content"} [cacheStrategy] The strategy used to detect changed files.
* @property {string} [cwd] The value to use for the current working directory.
* @property {boolean} [errorOnUnmatchedPattern] If `false` then `ESLint#lintFiles()` doesn't throw even if no target files found. Defaults to `true`.
* @property {boolean|Function} [fix] Execute in autofix mode. If a function, should return a boolean.
* @property {string[]} [fixTypes] Array of rule types to apply fixes for.
* @property {boolean} [globInputPaths] Set to false to skip glob resolution of input file paths to lint (default: true). If false, each input file paths is assumed to be a non-glob path to an existing file.
* @property {boolean} [ignore] False disables all ignore patterns except for the default ones.
* @property {string[]} [ignorePatterns] Ignore file patterns to use in addition to config ignores. These patterns are relative to `cwd`.
* @property {ConfigData} [overrideConfig] Override config object, overrides all configs used with this instance
* @property {boolean|string} [overrideConfigFile] Searches for default config file when falsy;
* doesn't do any config file lookup when `true`; considered to be a config filename
* when a string.
* @property {Record<string,Plugin>} [plugins] An array of plugin implementations.
* @property {boolean} warnIgnored Show warnings when the file list includes ignored files
*/
//------------------------------------------------------------------------------
// Helpers
//------------------------------------------------------------------------------
const FLAT_CONFIG_FILENAME = "eslint.config.js";
const debug = require("debug")("eslint:flat-eslint");
const removedFormatters = new Set(["table", "codeframe"]);
const privateMembers = new WeakMap();
const importedConfigFileModificationTime = new Map();
/**
* It will calculate the error and warning count for collection of messages per file
* @param {LintMessage[]} messages Collection of messages
* @returns {Object} Contains the stats
* @private
*/
function calculateStatsPerFile(messages) {
const stat = {
errorCount: 0,
fatalErrorCount: 0,
warningCount: 0,
fixableErrorCount: 0,
fixableWarningCount: 0
};
for (let i = 0; i < messages.length; i++) {
const message = messages[i];
if (message.fatal || message.severity === 2) {
stat.errorCount++;
if (message.fatal) {
stat.fatalErrorCount++;
}
if (message.fix) {
stat.fixableErrorCount++;
}
} else {
stat.warningCount++;
if (message.fix) {
stat.fixableWarningCount++;
}
}
}
return stat;
}
/**
* Create rulesMeta object.
* @param {Map<string,Rule>} rules a map of rules from which to generate the object.
* @returns {Object} metadata for all enabled rules.
*/
function createRulesMeta(rules) {
return Array.from(rules).reduce((retVal, [id, rule]) => {
retVal[id] = rule.meta;
return retVal;
}, {});
}
/**
* Return the absolute path of a file named `"__placeholder__.js"` in a given directory.
* This is used as a replacement for a missing file path.
* @param {string} cwd An absolute directory path.
* @returns {string} The absolute path of a file named `"__placeholder__.js"` in the given directory.
*/
function getPlaceholderPath(cwd) {
return path.join(cwd, "__placeholder__.js");
}
/** @type {WeakMap<ExtractedConfig, DeprecatedRuleInfo[]>} */
const usedDeprecatedRulesCache = new WeakMap();
/**
* Create used deprecated rule list.
* @param {CLIEngine} eslint The CLIEngine instance.
* @param {string} maybeFilePath The absolute path to a lint target file or `"<text>"`.
* @returns {DeprecatedRuleInfo[]} The used deprecated rule list.
*/
function getOrFindUsedDeprecatedRules(eslint, maybeFilePath) {
const {
configs,
options: { cwd }
} = privateMembers.get(eslint);
const filePath = path.isAbsolute(maybeFilePath)
? maybeFilePath
: getPlaceholderPath(cwd);
const config = configs.getConfig(filePath);
// Most files use the same config, so cache it.
if (config && !usedDeprecatedRulesCache.has(config)) {
const retv = [];
if (config.rules) {
for (const [ruleId, ruleConf] of Object.entries(config.rules)) {
if (getRuleSeverity(ruleConf) === 0) {
continue;
}
const rule = getRuleFromConfig(ruleId, config);
const meta = rule && rule.meta;
if (meta && meta.deprecated) {
retv.push({ ruleId, replacedBy: meta.replacedBy || [] });
}
}
}
usedDeprecatedRulesCache.set(config, Object.freeze(retv));
}
return config ? usedDeprecatedRulesCache.get(config) : Object.freeze([]);
}
/**
* Processes the linting results generated by a CLIEngine linting report to
* match the ESLint class's API.
* @param {CLIEngine} eslint The CLIEngine instance.
* @param {CLIEngineLintReport} report The CLIEngine linting report to process.
* @returns {LintResult[]} The processed linting results.
*/
function processLintReport(eslint, { results }) {
const descriptor = {
configurable: true,
enumerable: true,
get() {
return getOrFindUsedDeprecatedRules(eslint, this.filePath);
}
};
for (const result of results) {
Object.defineProperty(result, "usedDeprecatedRules", descriptor);
}
return results;
}
/**
* An Array.prototype.sort() compatible compare function to order results by their file path.
* @param {LintResult} a The first lint result.
* @param {LintResult} b The second lint result.
* @returns {number} An integer representing the order in which the two results should occur.
*/
function compareResultsByFilePath(a, b) {
if (a.filePath < b.filePath) {
return -1;
}
if (a.filePath > b.filePath) {
return 1;
}
return 0;
}
/**
* Searches from the current working directory up until finding the
* given flat config filename.
* @param {string} cwd The current working directory to search from.
* @returns {Promise<string|undefined>} The filename if found or `undefined` if not.
*/
function findFlatConfigFile(cwd) {
return findUp(
FLAT_CONFIG_FILENAME,
{ cwd }
);
}
/**
* Load the config array from the given filename.
* @param {string} filePath The filename to load from.
* @returns {Promise<any>} The config loaded from the config file.
*/
async function loadFlatConfigFile(filePath) {
debug(`Loading config from ${filePath}`);
const fileURL = pathToFileURL(filePath);
debug(`Config file URL is ${fileURL}`);
const mtime = (await fs.stat(filePath)).mtime.getTime();
/*
* Append a query with the config file's modification time (`mtime`) in order
* to import the current version of the config file. Without the query, `import()` would
* cache the config file module by the pathname only, and then always return
* the same version (the one that was actual when the module was imported for the first time).
*
* This ensures that the config file module is loaded and executed again
* if it has been changed since the last time it was imported.
* If it hasn't been changed, `import()` will just return the cached version.
*
* Note that we should not overuse queries (e.g., by appending the current time
* to always reload the config file module) as that could cause memory leaks
* because entries are never removed from the import cache.
*/
fileURL.searchParams.append("mtime", mtime);
/*
* With queries, we can bypass the import cache. However, when import-ing a CJS module,
* Node.js uses the require infrastructure under the hood. That includes the require cache,
* which caches the config file module by its file path (queries have no effect).
* Therefore, we also need to clear the require cache before importing the config file module.
* In order to get the same behavior with ESM and CJS config files, in particular - to reload
* the config file only if it has been changed, we track file modification times and clear
* the require cache only if the file has been changed.
*/
if (importedConfigFileModificationTime.get(filePath) !== mtime) {
delete require.cache[filePath];
}
const config = (await import(fileURL)).default;
importedConfigFileModificationTime.set(filePath, mtime);
return config;
}
/**
* Determines which config file to use. This is determined by seeing if an
* override config file was passed, and if so, using it; otherwise, as long
* as override config file is not explicitly set to `false`, it will search
* upwards from the cwd for a file named `eslint.config.js`.
* @param {import("./eslint").ESLintOptions} options The ESLint instance options.
* @returns {{configFilePath:string|undefined,basePath:string,error:Error|null}} Location information for
* the config file.
*/
async function locateConfigFileToUse({ configFile, cwd }) {
// determine where to load config file from
let configFilePath;
let basePath = cwd;
let error = null;
if (typeof configFile === "string") {
debug(`Override config file path is ${configFile}`);
configFilePath = path.resolve(cwd, configFile);
} else if (configFile !== false) {
debug("Searching for eslint.config.js");
configFilePath = await findFlatConfigFile(cwd);
if (configFilePath) {
basePath = path.resolve(path.dirname(configFilePath));
} else {
error = new Error("Could not find config file.");
}
}
return {
configFilePath,
basePath,
error
};
}
/**
* Calculates the config array for this run based on inputs.
* @param {FlatESLint} eslint The instance to create the config array for.
* @param {import("./eslint").ESLintOptions} options The ESLint instance options.
* @returns {FlatConfigArray} The config array for `eslint``.
*/
async function calculateConfigArray(eslint, {
cwd,
baseConfig,
overrideConfig,
configFile,
ignore: shouldIgnore,
ignorePatterns
}) {
// check for cached instance
const slots = privateMembers.get(eslint);
if (slots.configs) {
return slots.configs;
}
const { configFilePath, basePath, error } = await locateConfigFileToUse({ configFile, cwd });
// config file is required to calculate config
if (error) {
throw error;
}
const configs = new FlatConfigArray(baseConfig || [], { basePath, shouldIgnore });
// load config file
if (configFilePath) {
const fileConfig = await loadFlatConfigFile(configFilePath);
if (Array.isArray(fileConfig)) {
configs.push(...fileConfig);
} else {
configs.push(fileConfig);
}
}
// add in any configured defaults
configs.push(...slots.defaultConfigs);
// append command line ignore patterns
if (ignorePatterns && ignorePatterns.length > 0) {
let relativeIgnorePatterns;
/*
* If the config file basePath is different than the cwd, then
* the ignore patterns won't work correctly. Here, we adjust the
* ignore pattern to include the correct relative path. Patterns
* passed as `ignorePatterns` are relative to the cwd, whereas
* the config file basePath can be an ancestor of the cwd.
*/
if (basePath === cwd) {
relativeIgnorePatterns = ignorePatterns;
} else {
const relativeIgnorePath = path.relative(basePath, cwd);
relativeIgnorePatterns = ignorePatterns.map(pattern => {
const negated = pattern.startsWith("!");
const basePattern = negated ? pattern.slice(1) : pattern;
return (negated ? "!" : "") +
path.posix.join(relativeIgnorePath, basePattern);
});
}
/*
* Ignore patterns are added to the end of the config array
* so they can override default ignores.
*/
configs.push({
ignores: relativeIgnorePatterns
});
}
if (overrideConfig) {
if (Array.isArray(overrideConfig)) {
configs.push(...overrideConfig);
} else {
configs.push(overrideConfig);
}
}
await configs.normalize();
// cache the config array for this instance
slots.configs = configs;
return configs;
}
/**
* Processes an source code using ESLint.
* @param {Object} config The config object.
* @param {string} config.text The source code to verify.
* @param {string} config.cwd The path to the current working directory.
* @param {string|undefined} config.filePath The path to the file of `text`. If this is undefined, it uses `<text>`.
* @param {FlatConfigArray} config.configs The config.
* @param {boolean} config.fix If `true` then it does fix.
* @param {boolean} config.allowInlineConfig If `true` then it uses directive comments.
* @param {Linter} config.linter The linter instance to verify.
* @returns {LintResult} The result of linting.
* @private
*/
function verifyText({
text,
cwd,
filePath: providedFilePath,
configs,
fix,
allowInlineConfig,
linter
}) {
const filePath = providedFilePath || "<text>";
debug(`Lint ${filePath}`);
/*
* Verify.
* `config.extractConfig(filePath)` requires an absolute path, but `linter`
* doesn't know CWD, so it gives `linter` an absolute path always.
*/
const filePathToVerify = filePath === "<text>" ? getPlaceholderPath(cwd) : filePath;
const { fixed, messages, output } = linter.verifyAndFix(
text,
configs,
{
allowInlineConfig,
filename: filePathToVerify,
fix,
/**
* Check if the linter should adopt a given code block or not.
* @param {string} blockFilename The virtual filename of a code block.
* @returns {boolean} `true` if the linter should adopt the code block.
*/
filterCodeBlock(blockFilename) {
return configs.isExplicitMatch(blockFilename);
}
}
);
// Tweak and return.
const result = {
filePath: filePath === "<text>" ? filePath : path.resolve(filePath),
messages,
suppressedMessages: linter.getSuppressedMessages(),
...calculateStatsPerFile(messages)
};
if (fixed) {
result.output = output;
}
if (
result.errorCount + result.warningCount > 0 &&
typeof result.output === "undefined"
) {
result.source = text;
}
return result;
}
/**
* Checks whether a message's rule type should be fixed.
* @param {LintMessage} message The message to check.
* @param {FlatConfig} config The config for the file that generated the message.
* @param {string[]} fixTypes An array of fix types to check.
* @returns {boolean} Whether the message should be fixed.
*/
function shouldMessageBeFixed(message, config, fixTypes) {
if (!message.ruleId) {
return fixTypes.has("directive");
}
const rule = message.ruleId && getRuleFromConfig(message.ruleId, config);
return Boolean(rule && rule.meta && fixTypes.has(rule.meta.type));
}
/**
* Creates an error to be thrown when an array of results passed to `getRulesMetaForResults` was not created by the current engine.
* @returns {TypeError} An error object.
*/
function createExtraneousResultsError() {
return new TypeError("Results object was not created from this ESLint instance.");
}
//-----------------------------------------------------------------------------
// Main API
//-----------------------------------------------------------------------------
/**
* Primary Node.js API for ESLint.
*/
class FlatESLint {
/**
* Creates a new instance of the main ESLint API.
* @param {FlatESLintOptions} options The options for this instance.
*/
constructor(options = {}) {
const defaultConfigs = [];
const processedOptions = processOptions(options);
const linter = new Linter({
cwd: processedOptions.cwd,
configType: "flat"
});
const cacheFilePath = getCacheFile(
processedOptions.cacheLocation,
processedOptions.cwd
);
const lintResultCache = processedOptions.cache
? new LintResultCache(cacheFilePath, processedOptions.cacheStrategy)
: null;
privateMembers.set(this, {
options: processedOptions,
linter,
cacheFilePath,
lintResultCache,
defaultConfigs,
configs: null
});
/**
* If additional plugins are passed in, add that to the default
* configs for this instance.
*/
if (options.plugins) {
const plugins = {};
for (const [pluginName, plugin] of Object.entries(options.plugins)) {
plugins[naming.getShorthandName(pluginName, "eslint-plugin")] = plugin;
}
defaultConfigs.push({
plugins
});
}
}
/**
* The version text.
* @type {string}
*/
static get version() {
return version;
}
/**
* Outputs fixes from the given results to files.
* @param {LintResult[]} results The lint results.
* @returns {Promise<void>} Returns a promise that is used to track side effects.
*/
static async outputFixes(results) {
if (!Array.isArray(results)) {
throw new Error("'results' must be an array");
}
await Promise.all(
results
.filter(result => {
if (typeof result !== "object" || result === null) {
throw new Error("'results' must include only objects");
}
return (
typeof result.output === "string" &&
path.isAbsolute(result.filePath)
);
})
.map(r => fs.writeFile(r.filePath, r.output))
);
}
/**
* Returns results that only contains errors.
* @param {LintResult[]} results The results to filter.
* @returns {LintResult[]} The filtered results.
*/
static getErrorResults(results) {
const filtered = [];
results.forEach(result => {
const filteredMessages = result.messages.filter(isErrorMessage);
const filteredSuppressedMessages = result.suppressedMessages.filter(isErrorMessage);
if (filteredMessages.length > 0) {
filtered.push({
...result,
messages: filteredMessages,
suppressedMessages: filteredSuppressedMessages,
errorCount: filteredMessages.length,
warningCount: 0,
fixableErrorCount: result.fixableErrorCount,
fixableWarningCount: 0
});
}
});
return filtered;
}
/**
* Returns meta objects for each rule represented in the lint results.
* @param {LintResult[]} results The results to fetch rules meta for.
* @returns {Object} A mapping of ruleIds to rule meta objects.
* @throws {TypeError} When the results object wasn't created from this ESLint instance.
* @throws {TypeError} When a plugin or rule is missing.
*/
getRulesMetaForResults(results) {
// short-circuit simple case
if (results.length === 0) {
return {};
}
const resultRules = new Map();
const {
configs,
options: { cwd }
} = privateMembers.get(this);
/*
* We can only accurately return rules meta information for linting results if the
* results were created by this instance. Otherwise, the necessary rules data is
* not available. So if the config array doesn't already exist, just throw an error
* to let the user know we can't do anything here.
*/
if (!configs) {
throw createExtraneousResultsError();
}
for (const result of results) {
/*
* Normalize filename for <text>.
*/
const filePath = result.filePath === "<text>"
? getPlaceholderPath(cwd) : result.filePath;
const allMessages = result.messages.concat(result.suppressedMessages);
for (const { ruleId } of allMessages) {
if (!ruleId) {
continue;
}
/*
* All of the plugin and rule information is contained within the
* calculated config for the given file.
*/
const config = configs.getConfig(filePath);
if (!config) {
throw createExtraneousResultsError();
}
const rule = getRuleFromConfig(ruleId, config);
// ignore unknown rules
if (rule) {
resultRules.set(ruleId, rule);
}
}
}
return createRulesMeta(resultRules);
}
/**
* Executes the current configuration on an array of file and directory names.
* @param {string|string[]} patterns An array of file and directory names.
* @returns {Promise<LintResult[]>} The results of linting the file patterns given.
*/
async lintFiles(patterns) {
if (!isNonEmptyString(patterns) && !isArrayOfNonEmptyString(patterns)) {
throw new Error("'patterns' must be a non-empty string or an array of non-empty strings");
}
const {
cacheFilePath,
lintResultCache,
linter,
options: eslintOptions
} = privateMembers.get(this);
const configs = await calculateConfigArray(this, eslintOptions);
const {
allowInlineConfig,
cache,
cwd,
fix,
fixTypes,
globInputPaths,
errorOnUnmatchedPattern,
warnIgnored
} = eslintOptions;
const startTime = Date.now();
const fixTypesSet = fixTypes ? new Set(fixTypes) : null;
// Delete cache file; should this be done here?
if (!cache && cacheFilePath) {
debug(`Deleting cache file at ${cacheFilePath}`);
try {
await fs.unlink(cacheFilePath);
} catch (error) {
const errorCode = error && error.code;
// Ignore errors when no such file exists or file system is read only (and cache file does not exist)
if (errorCode !== "ENOENT" && !(errorCode === "EROFS" && !existsSync(cacheFilePath))) {
throw error;
}
}
}
const filePaths = await findFiles({
patterns: typeof patterns === "string" ? [patterns] : patterns,
cwd,
globInputPaths,
configs,
errorOnUnmatchedPattern
});
debug(`${filePaths.length} files found in: ${Date.now() - startTime}ms`);
/*
* Because we need to process multiple files, including reading from disk,
* it is most efficient to start by reading each file via promises so that
* they can be done in parallel. Then, we can lint the returned text. This
* ensures we are waiting the minimum amount of time in between lints.
*/
const results = await Promise.all(
filePaths.map(({ filePath, ignored }) => {
/*
* If a filename was entered that matches an ignore
* pattern, then notify the user.
*/
if (ignored) {
if (warnIgnored) {
return createIgnoreResult(filePath, cwd);
}
return void 0;
}
const config = configs.getConfig(filePath);
/*
* Sometimes a file found through a glob pattern will
* be ignored. In this case, `config` will be undefined
* and we just silently ignore the file.
*/
if (!config) {
return void 0;
}
// Skip if there is cached result.
if (lintResultCache) {
const cachedResult =
lintResultCache.getCachedLintResults(filePath, config);
if (cachedResult) {
const hadMessages =
cachedResult.messages &&
cachedResult.messages.length > 0;
if (hadMessages && fix) {
debug(`Reprocessing cached file to allow autofix: ${filePath}`);
} else {
debug(`Skipping file since it hasn't changed: ${filePath}`);
return cachedResult;
}
}
}
// set up fixer for fixTypes if necessary
let fixer = fix;
if (fix && fixTypesSet) {
// save original value of options.fix in case it's a function
const originalFix = (typeof fix === "function")
? fix : () => true;
fixer = message => shouldMessageBeFixed(message, config, fixTypesSet) && originalFix(message);
}
return fs.readFile(filePath, "utf8")
.then(text => {
// do the linting
const result = verifyText({
text,
filePath,
configs,
cwd,
fix: fixer,
allowInlineConfig,
linter
});
/*
* Store the lint result in the LintResultCache.
* NOTE: The LintResultCache will remove the file source and any
* other properties that are difficult to serialize, and will
* hydrate those properties back in on future lint runs.
*/
if (lintResultCache) {
lintResultCache.setCachedLintResults(filePath, config, result);
}
return result;
});
})
);
// Persist the cache to disk.
if (lintResultCache) {
lintResultCache.reconcile();
}
const finalResults = results.filter(result => !!result);
return processLintReport(this, {
results: finalResults
});
}
/**
* Executes the current configuration on text.
* @param {string} code A string of JavaScript code to lint.
* @param {Object} [options] The options.
* @param {string} [options.filePath] The path to the file of the source code.
* @param {boolean} [options.warnIgnored] When set to true, warn if given filePath is an ignored path.
* @returns {Promise<LintResult[]>} The results of linting the string of code given.
*/
async lintText(code, options = {}) {
// Parameter validation
if (typeof code !== "string") {
throw new Error("'code' must be a string");
}
if (typeof options !== "object") {
throw new Error("'options' must be an object, null, or undefined");
}
// Options validation
const {
filePath,
warnIgnored,
...unknownOptions
} = options || {};
const unknownOptionKeys = Object.keys(unknownOptions);
if (unknownOptionKeys.length > 0) {
throw new Error(`'options' must not include the unknown option(s): ${unknownOptionKeys.join(", ")}`);
}
if (filePath !== void 0 && !isNonEmptyString(filePath)) {
throw new Error("'options.filePath' must be a non-empty string or undefined");
}
if (typeof warnIgnored !== "boolean" && typeof warnIgnored !== "undefined") {
throw new Error("'options.warnIgnored' must be a boolean or undefined");
}
// Now we can get down to linting
const {
linter,
options: eslintOptions
} = privateMembers.get(this);
const configs = await calculateConfigArray(this, eslintOptions);
const {
allowInlineConfig,
cwd,
fix,
warnIgnored: constructorWarnIgnored
} = eslintOptions;
const results = [];
const startTime = Date.now();
const resolvedFilename = path.resolve(cwd, filePath || "__placeholder__.js");
// Clear the last used config arrays.
if (resolvedFilename && await this.isPathIgnored(resolvedFilename)) {
const shouldWarnIgnored = typeof warnIgnored === "boolean" ? warnIgnored : constructorWarnIgnored;
if (shouldWarnIgnored) {
results.push(createIgnoreResult(resolvedFilename, cwd));
}
} else {
// Do lint.
results.push(verifyText({
text: code,
filePath: resolvedFilename.endsWith("__placeholder__.js") ? "<text>" : resolvedFilename,
configs,
cwd,
fix,
allowInlineConfig,
linter
}));
}
debug(`Linting complete in: ${Date.now() - startTime}ms`);
return processLintReport(this, {
results
});
}
/**
* Returns the formatter representing the given formatter name.
* @param {string} [name] The name of the formatter to load.
* The following values are allowed:
* - `undefined` ... Load `stylish` builtin formatter.
* - A builtin formatter name ... Load the builtin formatter.
* - A third-party formatter name:
* - `foo` → `eslint-formatter-foo`
* - `@foo` → `@foo/eslint-formatter`
* - `@foo/bar` → `@foo/eslint-formatter-bar`
* - A file path ... Load the file.
* @returns {Promise<Formatter>} A promise resolving to the formatter object.
* This promise will be rejected if the given formatter was not found or not
* a function.
*/
async loadFormatter(name = "stylish") {
if (typeof name !== "string") {
throw new Error("'name' must be a string");
}
// replace \ with / for Windows compatibility
const normalizedFormatName = name.replace(/\\/gu, "/");
const namespace = naming.getNamespaceFromTerm(normalizedFormatName);
// grab our options
const { cwd } = privateMembers.get(this).options;
let formatterPath;
// if there's a slash, then it's a file (TODO: this check seems dubious for scoped npm packages)
if (!namespace && normalizedFormatName.includes("/")) {
formatterPath = path.resolve(cwd, normalizedFormatName);
} else {
try {
const npmFormat = naming.normalizePackageName(normalizedFormatName, "eslint-formatter");
// TODO: This is pretty dirty...would be nice to clean up at some point.
formatterPath = ModuleResolver.resolve(npmFormat, getPlaceholderPath(cwd));
} catch {
formatterPath = path.resolve(__dirname, "../", "cli-engine", "formatters", `${normalizedFormatName}.js`);
}
}
let formatter;
try {
formatter = (await import(pathToFileURL(formatterPath))).default;
} catch (ex) {
// check for formatters that have been removed
if (removedFormatters.has(name)) {
ex.message = `The ${name} formatter is no longer part of core ESLint. Install it manually with \`npm install -D eslint-formatter-${name}\``;
} else {
ex.message = `There was a problem loading formatter: ${formatterPath}\nError: ${ex.message}`;
}
throw ex;
}
if (typeof formatter !== "function") {
throw new TypeError(`Formatter must be a function, but got a ${typeof formatter}.`);
}
const eslint = this;
return {
/**
* The main formatter method.
* @param {LintResults[]} results The lint results to format.
* @param {ResultsMeta} resultsMeta Warning count and max threshold.
* @returns {string} The formatted lint results.
*/
format(results, resultsMeta) {
let rulesMeta = null;
results.sort(compareResultsByFilePath);
return formatter(results, {
...resultsMeta,
cwd,
get rulesMeta() {
if (!rulesMeta) {
rulesMeta = eslint.getRulesMetaForResults(results);
}
return rulesMeta;
}
});
}
};
}
/**
* Returns a configuration object for the given file based on the CLI options.
* This is the same logic used by the ESLint CLI executable to determine
* configuration for each file it processes.
* @param {string} filePath The path of the file to retrieve a config object for.
* @returns {Promise<ConfigData|undefined>} A configuration object for the file
* or `undefined` if there is no configuration data for the object.
*/
async calculateConfigForFile(filePath) {
if (!isNonEmptyString(filePath)) {
throw new Error("'filePath' must be a non-empty string");
}
const options = privateMembers.get(this).options;
const absolutePath = path.resolve(options.cwd, filePath);
const configs = await calculateConfigArray(this, options);
return configs.getConfig(absolutePath);
}
/**
* Finds the config file being used by this instance based on the options
* passed to the constructor.
* @returns {string|undefined} The path to the config file being used or
* `undefined` if no config file is being used.
*/
async findConfigFile() {
const options = privateMembers.get(this).options;
const { configFilePath } = await locateConfigFileToUse(options);
return configFilePath;
}
/**
* Checks if a given path is ignored by ESLint.
* @param {string} filePath The path of the file to check.
* @returns {Promise<boolean>} Whether or not the given path is ignored.
*/
async isPathIgnored(filePath) {
const config = await this.calculateConfigForFile(filePath);
return config === void 0;
}
}
/**
* Returns whether flat config should be used.
* @returns {Promise<boolean>} Whether flat config should be used.
*/
async function shouldUseFlatConfig() {
switch (process.env.ESLINT_USE_FLAT_CONFIG) {
case "true":
return true;
case "false":
return false;
default:
/*
* If neither explicitly enabled nor disabled, then use the presence
* of a flat config file to determine enablement.
*/
return !!(await findFlatConfigFile(process.cwd()));
}
}
//------------------------------------------------------------------------------
// Public Interface
//------------------------------------------------------------------------------
module.exports = {
FlatESLint,
shouldUseFlatConfig
};