/** * utils.js * Utility functions for the Task Master CLI */ import fs from 'fs'; import path from 'path'; import chalk from 'chalk'; import dotenv from 'dotenv'; // Import specific config getters needed here import { getLogLevel, getDebugFlag } from './config-manager.js'; import { COMPLEXITY_REPORT_FILE, LEGACY_COMPLEXITY_REPORT_FILE, LEGACY_CONFIG_FILE } from '../../src/constants/paths.js'; // Global silent mode flag let silentMode = false; // --- Environment Variable Resolution Utility --- /** * Resolves an environment variable's value. * Precedence: * 1. session.env (if session provided) * 2. process.env * 3. .env file at projectRoot (if projectRoot provided) * @param {string} key - The environment variable key. * @param {object|null} [session=null] - The MCP session object. * @param {string|null} [projectRoot=null] - The project root directory (for .env fallback). * @returns {string|undefined} The value of the environment variable or undefined if not found. */ function resolveEnvVariable(key, session = null, projectRoot = null) { // 1. Check session.env if (session?.env?.[key]) { return session.env[key]; } // 2. Read .env file at projectRoot if (projectRoot) { const envPath = path.join(projectRoot, '.env'); if (fs.existsSync(envPath)) { try { const envFileContent = fs.readFileSync(envPath, 'utf-8'); const parsedEnv = dotenv.parse(envFileContent); // Use dotenv to parse if (parsedEnv && parsedEnv[key]) { // console.log(`DEBUG: Found key ${key} in ${envPath}`); // Optional debug log return parsedEnv[key]; } } catch (error) { // Log error but don't crash, just proceed as if key wasn't found in file log('warn', `Could not read or parse ${envPath}: ${error.message}`); } } } // 3. Fallback: Check process.env if (process.env[key]) { return process.env[key]; } // Not found anywhere return undefined; } // --- Project Root Finding Utility --- /** * Recursively searches upwards for project root starting from a given directory. * @param {string} [startDir=process.cwd()] - The directory to start searching from. * @param {string[]} [markers=['package.json', '.git', LEGACY_CONFIG_FILE]] - Marker files/dirs to look for. * @returns {string|null} The path to the project root, or null if not found. */ function findProjectRoot( startDir = process.cwd(), markers = ['package.json', '.git', LEGACY_CONFIG_FILE] ) { let currentPath = path.resolve(startDir); const rootPath = path.parse(currentPath).root; while (currentPath !== rootPath) { // Check if any marker exists in the current directory const hasMarker = markers.some((marker) => { const markerPath = path.join(currentPath, marker); return fs.existsSync(markerPath); }); if (hasMarker) { return currentPath; } // Move up one directory currentPath = path.dirname(currentPath); } // Check the root directory as well const hasMarkerInRoot = markers.some((marker) => { const markerPath = path.join(rootPath, marker); return fs.existsSync(markerPath); }); return hasMarkerInRoot ? rootPath : null; } // --- Dynamic Configuration Function --- (REMOVED) // --- Logging and Utility Functions --- // Set up logging based on log level const LOG_LEVELS = { debug: 0, info: 1, warn: 2, error: 3, success: 1 // Treat success like info level }; /** * Returns the task manager module * @returns {Promise} The task manager module object */ async function getTaskManager() { return import('./task-manager.js'); } /** * Enable silent logging mode */ function enableSilentMode() { silentMode = true; } /** * Disable silent logging mode */ function disableSilentMode() { silentMode = false; } /** * Check if silent mode is enabled * @returns {boolean} True if silent mode is enabled */ function isSilentMode() { return silentMode; } /** * Logs a message at the specified level * @param {string} level - The log level (debug, info, warn, error) * @param {...any} args - Arguments to log */ function log(level, ...args) { // Immediately return if silentMode is enabled if (isSilentMode()) { return; } // GUARD: Prevent circular dependency during config loading // Use a simple fallback log level instead of calling getLogLevel() let configLevel = 'info'; // Default fallback try { // Only try to get config level if we're not in the middle of config loading configLevel = getLogLevel() || 'info'; } catch (error) { // If getLogLevel() fails (likely due to circular dependency), // use default 'info' level and continue configLevel = 'info'; } // Use text prefixes instead of emojis const prefixes = { debug: chalk.gray('[DEBUG]'), info: chalk.blue('[INFO]'), warn: chalk.yellow('[WARN]'), error: chalk.red('[ERROR]'), success: chalk.green('[SUCCESS]') }; // Ensure level exists, default to info if not const currentLevel = LOG_LEVELS.hasOwnProperty(level) ? level : 'info'; // Check log level configuration if ( LOG_LEVELS[currentLevel] >= (LOG_LEVELS[configLevel] ?? LOG_LEVELS.info) ) { const prefix = prefixes[currentLevel] || ''; // Use console.log for all levels, let chalk handle coloring // Construct the message properly const message = args .map((arg) => (typeof arg === 'object' ? JSON.stringify(arg) : arg)) .join(' '); console.log(`${prefix} ${message}`); } } /** * Reads and parses a JSON file with automatic tag migration for tasks.json * @param {string} filepath - Path to the JSON file * @returns {Object|null} Parsed JSON data or null if error occurs */ function readJSON(filepath) { // GUARD: Prevent circular dependency during config loading let isDebug = false; // Default fallback try { // Only try to get debug flag if we're not in the middle of config loading isDebug = getDebugFlag(); } catch (error) { // If getDebugFlag() fails (likely due to circular dependency), // use default false and continue isDebug = false; } try { const rawData = fs.readFileSync(filepath, 'utf8'); let data = JSON.parse(rawData); // Silent migration for tasks.json files: Transform old format to tagged format // Only migrate if: 1) has "tasks" array at top level, 2) no "master" key exists // 3) filepath indicates this is likely a tasks.json file const isTasksFile = filepath.includes('tasks.json') || path.basename(filepath) === 'tasks.json'; if ( data && data.tasks && Array.isArray(data.tasks) && !data.master && isTasksFile ) { // Migrate from old format { "tasks": [...] } to new format { "master": { "tasks": [...] } } const migratedData = { master: { tasks: data.tasks } }; // Write the migrated format back using writeJSON for consistency try { writeJSON(filepath, migratedData); if (isDebug) { log( 'debug', `Silently migrated tasks.json to tagged format: ${filepath}` ); } // Set global flag for CLI notice global.taskMasterMigrationOccurred = true; // Also perform complete project migration (config.json and state.json) performCompleteTagMigration(filepath); // Return the migrated data data = migratedData; } catch (writeError) { // If we can't write back, log the error but continue with migrated data in memory if (isDebug) { log( 'warn', `Could not write migrated tasks.json to ${filepath}: ${writeError.message}` ); } // Set global flag even on write failure global.taskMasterMigrationOccurred = true; // Still attempt other migrations performCompleteTagMigration(filepath); data = migratedData; } } // Tag resolution: If data has tagged format, resolve the current tag and return old format // This makes tag support completely transparent to existing code if (data && !data.tasks && typeof data === 'object') { // Check if this looks like tagged format (has tag-like keys) const hasTaggedFormat = Object.keys(data).some( (key) => data[key] && data[key].tasks && Array.isArray(data[key].tasks) ); if (hasTaggedFormat) { // This is tagged format - resolve which tag to use // Derive project root from filepath to get correct tag context const projectRoot = findProjectRoot(path.dirname(filepath)) || path.dirname(filepath); const resolvedTag = resolveTag({ projectRoot }); if (data[resolvedTag] && data[resolvedTag].tasks) { // Return data in old format so existing code continues to work data = { tag: resolvedTag, tasks: data[resolvedTag].tasks, _rawTaggedData: data // Keep reference to full tagged data if needed }; } else { // Tag doesn't exist, create empty tasks array and log warning if (isDebug) { log( 'warn', `Tag "${resolvedTag}" not found in tasks file, using empty tasks array` ); } data = { tasks: [], tag: resolvedTag, _rawTaggedData: data }; } } } return data; } catch (error) { log('error', `Error reading JSON file ${filepath}:`, error.message); if (isDebug) { // Use dynamic debug flag // Use log utility for debug output too log('error', 'Full error details:', error); } return null; } } /** * Performs complete tag migration including config.json and state.json updates * @param {string} tasksJsonPath - Path to the tasks.json file that was migrated */ function performCompleteTagMigration(tasksJsonPath) { try { // Derive project root from tasks.json path const projectRoot = findProjectRoot(path.dirname(tasksJsonPath)) || path.dirname(tasksJsonPath); // 1. Migrate config.json - add defaultTag and tags section const configPath = path.join(projectRoot, '.taskmaster', 'config.json'); if (fs.existsSync(configPath)) { migrateConfigJson(configPath); } // 2. Create state.json if it doesn't exist const statePath = path.join(projectRoot, '.taskmaster', 'state.json'); if (!fs.existsSync(statePath)) { createStateJson(statePath); } if (getDebugFlag()) { log( 'debug', `Complete tag migration performed for project: ${projectRoot}` ); } } catch (error) { if (getDebugFlag()) { log('warn', `Error during complete tag migration: ${error.message}`); } } } /** * Migrates config.json to add tagged task system configuration * @param {string} configPath - Path to the config.json file */ function migrateConfigJson(configPath) { try { const configData = readJSON(configPath); if (!configData) return; let needsUpdate = false; // Add defaultTag to global section if missing if (!configData.global) { configData.global = {}; } if (!configData.global.defaultTag) { configData.global.defaultTag = 'master'; needsUpdate = true; } // Add tags section if missing if (!configData.tags) { configData.tags = { autoSwitchOnBranch: false, gitIntegration: { enabled: false, autoSwitchTagWithBranch: false } }; needsUpdate = true; } if (needsUpdate) { writeJSON(configPath, configData); if (getDebugFlag()) { log( 'debug', `Migrated config.json with tagged task system configuration` ); } } } catch (error) { if (getDebugFlag()) { log('warn', `Error migrating config.json: ${error.message}`); } } } /** * Creates initial state.json file for tagged task system * @param {string} statePath - Path where state.json should be created */ function createStateJson(statePath) { try { const initialState = { currentTag: 'master', lastSwitched: new Date().toISOString(), branchTagMapping: {}, migrationNoticeShown: false }; writeJSON(statePath, initialState); if (getDebugFlag()) { log('debug', `Created initial state.json for tagged task system`); } } catch (error) { if (getDebugFlag()) { log('warn', `Error creating state.json: ${error.message}`); } } } /** * Marks in state.json that migration occurred and notice should be shown * @param {string} tasksJsonPath - Path to the tasks.json file that was migrated */ function markMigrationForNotice(tasksJsonPath) { try { const projectRoot = findProjectRoot(path.dirname(tasksJsonPath)) || path.dirname(tasksJsonPath); const statePath = path.join(projectRoot, '.taskmaster', 'state.json'); // Ensure state.json exists if (!fs.existsSync(statePath)) { createStateJson(statePath); } // Read and update state to mark migration occurred const stateData = readJSON(statePath) || {}; if (stateData.migrationNoticeShown !== false) { // Set to false to trigger notice display stateData.migrationNoticeShown = false; writeJSON(statePath, stateData); } } catch (error) { if (getDebugFlag()) { log('warn', `Error marking migration for notice: ${error.message}`); } } } /** * Writes data to a JSON file * @param {string} filepath - Path to the JSON file * @param {Object} data - Data to write */ function writeJSON(filepath, data) { // GUARD: Prevent circular dependency during config loading let isDebug = false; // Default fallback try { // Only try to get debug flag if we're not in the middle of config loading isDebug = getDebugFlag(); } catch (error) { // If getDebugFlag() fails (likely due to circular dependency), // use default false and continue isDebug = false; } try { const dir = path.dirname(filepath); if (!fs.existsSync(dir)) { fs.mkdirSync(dir, { recursive: true }); } fs.writeFileSync(filepath, JSON.stringify(data, null, 2), 'utf8'); } catch (error) { log('error', `Error writing JSON file ${filepath}:`, error.message); if (isDebug) { // Use dynamic debug flag // Use log utility for debug output too log('error', 'Full error details:', error); } } } /** * Sanitizes a prompt string for use in a shell command * @param {string} prompt The prompt to sanitize * @returns {string} Sanitized prompt */ function sanitizePrompt(prompt) { // Replace double quotes with escaped double quotes return prompt.replace(/"/g, '\\"'); } /** * Reads the complexity report from file * @param {string} customPath - Optional custom path to the report * @returns {Object|null} The parsed complexity report or null if not found */ function readComplexityReport(customPath = null) { // GUARD: Prevent circular dependency during config loading let isDebug = false; // Default fallback try { // Only try to get debug flag if we're not in the middle of config loading isDebug = getDebugFlag(); } catch (error) { // If getDebugFlag() fails (likely due to circular dependency), // use default false and continue isDebug = false; } try { let reportPath; if (customPath) { reportPath = customPath; } else { // Try new location first, then fall back to legacy const newPath = path.join(process.cwd(), COMPLEXITY_REPORT_FILE); const legacyPath = path.join( process.cwd(), LEGACY_COMPLEXITY_REPORT_FILE ); reportPath = fs.existsSync(newPath) ? newPath : legacyPath; } if (!fs.existsSync(reportPath)) { if (isDebug) { log('debug', `Complexity report not found at ${reportPath}`); } return null; } const reportData = readJSON(reportPath); if (isDebug) { log('debug', `Successfully read complexity report from ${reportPath}`); } return reportData; } catch (error) { if (isDebug) { log('error', `Error reading complexity report: ${error.message}`); } return null; } } /** * Finds a task analysis in the complexity report * @param {Object} report - The complexity report * @param {number} taskId - The task ID to find * @returns {Object|null} The task analysis or null if not found */ function findTaskInComplexityReport(report, taskId) { if ( !report || !report.complexityAnalysis || !Array.isArray(report.complexityAnalysis) ) { return null; } return report.complexityAnalysis.find((task) => task.taskId === taskId); } function addComplexityToTask(task, complexityReport) { let taskId; if (task.isSubtask) { taskId = task.parentTask.id; } else if (task.parentId) { taskId = task.parentId; } else { taskId = task.id; } const taskAnalysis = findTaskInComplexityReport(complexityReport, taskId); if (taskAnalysis) { task.complexityScore = taskAnalysis.complexityScore; } } /** * Checks if a task exists in the tasks array * @param {Array} tasks - The tasks array * @param {string|number} taskId - The task ID to check * @returns {boolean} True if the task exists, false otherwise */ function taskExists(tasks, taskId) { if (!taskId || !tasks || !Array.isArray(tasks)) { return false; } // Handle both regular task IDs and subtask IDs (e.g., "1.2") if (typeof taskId === 'string' && taskId.includes('.')) { const [parentId, subtaskId] = taskId .split('.') .map((id) => parseInt(id, 10)); const parentTask = tasks.find((t) => t.id === parentId); if (!parentTask || !parentTask.subtasks) { return false; } return parentTask.subtasks.some((st) => st.id === subtaskId); } const id = parseInt(taskId, 10); return tasks.some((t) => t.id === id); } /** * Formats a task ID as a string * @param {string|number} id - The task ID to format * @returns {string} The formatted task ID */ function formatTaskId(id) { if (typeof id === 'string' && id.includes('.')) { return id; // Already formatted as a string with a dot (e.g., "1.2") } if (typeof id === 'number') { return id.toString(); } return id; } /** * Finds a task by ID in the tasks array. Optionally filters subtasks by status. * @param {Array} tasks - The tasks array * @param {string|number} taskId - The task ID to find * @param {Object|null} complexityReport - Optional pre-loaded complexity report * @returns {Object|null} The task object or null if not found * @param {string} [statusFilter] - Optional status to filter subtasks by * @returns {{task: Object|null, originalSubtaskCount: number|null}} The task object (potentially with filtered subtasks) and the original subtask count if filtered, or nulls if not found. */ function findTaskById( tasks, taskId, complexityReport = null, statusFilter = null ) { if (!taskId || !tasks || !Array.isArray(tasks)) { return { task: null, originalSubtaskCount: null }; } // Check if it's a subtask ID (e.g., "1.2") if (typeof taskId === 'string' && taskId.includes('.')) { // If looking for a subtask, statusFilter doesn't apply directly here. const [parentId, subtaskId] = taskId .split('.') .map((id) => parseInt(id, 10)); const parentTask = tasks.find((t) => t.id === parentId); if (!parentTask || !parentTask.subtasks) { return { task: null, originalSubtaskCount: null }; } const subtask = parentTask.subtasks.find((st) => st.id === subtaskId); if (subtask) { // Add reference to parent task for context subtask.parentTask = { id: parentTask.id, title: parentTask.title, status: parentTask.status }; subtask.isSubtask = true; } // If we found a task, check for complexity data if (subtask && complexityReport) { addComplexityToTask(subtask, complexityReport); } return { task: subtask || null, originalSubtaskCount: null }; } let taskResult = null; const originalSubtaskCount = null; // Find the main task const id = parseInt(taskId, 10); const task = tasks.find((t) => t.id === id) || null; // If task not found, return nulls if (!task) { return { task: null, originalSubtaskCount: null }; } taskResult = task; // If task found and statusFilter provided, filter its subtasks if (statusFilter && task.subtasks && Array.isArray(task.subtasks)) { // Clone the task to avoid modifying the original array const filteredTask = { ...task }; filteredTask.subtasks = task.subtasks.filter( (subtask) => subtask.status && subtask.status.toLowerCase() === statusFilter.toLowerCase() ); taskResult = filteredTask; } // If task found and complexityReport provided, add complexity data if (taskResult && complexityReport) { addComplexityToTask(taskResult, complexityReport); } // Return the found task and original subtask count return { task: taskResult, originalSubtaskCount }; } /** * Truncates text to a specified length * @param {string} text - The text to truncate * @param {number} maxLength - The maximum length * @returns {string} The truncated text */ function truncate(text, maxLength) { if (!text || text.length <= maxLength) { return text; } return `${text.slice(0, maxLength - 3)}...`; } /** * Find cycles in a dependency graph using DFS * @param {string} subtaskId - Current subtask ID * @param {Map} dependencyMap - Map of subtask IDs to their dependencies * @param {Set} visited - Set of visited nodes * @param {Set} recursionStack - Set of nodes in current recursion stack * @returns {Array} - List of dependency edges that need to be removed to break cycles */ function findCycles( subtaskId, dependencyMap, visited = new Set(), recursionStack = new Set(), path = [] ) { // Mark the current node as visited and part of recursion stack visited.add(subtaskId); recursionStack.add(subtaskId); path.push(subtaskId); const cyclesToBreak = []; // Get all dependencies of the current subtask const dependencies = dependencyMap.get(subtaskId) || []; // For each dependency for (const depId of dependencies) { // If not visited, recursively check for cycles if (!visited.has(depId)) { const cycles = findCycles(depId, dependencyMap, visited, recursionStack, [ ...path ]); cyclesToBreak.push(...cycles); } // If the dependency is in the recursion stack, we found a cycle else if (recursionStack.has(depId)) { // Find the position of the dependency in the path const cycleStartIndex = path.indexOf(depId); // The last edge in the cycle is what we want to remove const cycleEdges = path.slice(cycleStartIndex); // We'll remove the last edge in the cycle (the one that points back) cyclesToBreak.push(depId); } } // Remove the node from recursion stack before returning recursionStack.delete(subtaskId); return cyclesToBreak; } /** * Convert a string from camelCase to kebab-case * @param {string} str - The string to convert * @returns {string} The kebab-case version of the string */ const toKebabCase = (str) => { // Special handling for common acronyms const withReplacedAcronyms = str .replace(/ID/g, 'Id') .replace(/API/g, 'Api') .replace(/UI/g, 'Ui') .replace(/URL/g, 'Url') .replace(/URI/g, 'Uri') .replace(/JSON/g, 'Json') .replace(/XML/g, 'Xml') .replace(/HTML/g, 'Html') .replace(/CSS/g, 'Css'); // Insert hyphens before capital letters and convert to lowercase return withReplacedAcronyms .replace(/([A-Z])/g, '-$1') .toLowerCase() .replace(/^-/, ''); // Remove leading hyphen if present }; /** * Detect camelCase flags in command arguments * @param {string[]} args - Command line arguments to check * @returns {Array<{original: string, kebabCase: string}>} - List of flags that should be converted */ function detectCamelCaseFlags(args) { const camelCaseFlags = []; for (const arg of args) { if (arg.startsWith('--')) { const flagName = arg.split('=')[0].slice(2); // Remove -- and anything after = // Skip single-word flags - they can't be camelCase if (!flagName.includes('-') && !/[A-Z]/.test(flagName)) { continue; } // Check for camelCase pattern (lowercase followed by uppercase) if (/[a-z][A-Z]/.test(flagName)) { const kebabVersion = toKebabCase(flagName); if (kebabVersion !== flagName) { camelCaseFlags.push({ original: flagName, kebabCase: kebabVersion }); } } } } return camelCaseFlags; } /** * Aggregates an array of telemetry objects into a single summary object. * @param {Array} telemetryArray - Array of telemetryData objects. * @param {string} overallCommandName - The name for the aggregated command. * @returns {Object|null} Aggregated telemetry object or null if input is empty. */ function aggregateTelemetry(telemetryArray, overallCommandName) { if (!telemetryArray || telemetryArray.length === 0) { return null; } const aggregated = { timestamp: new Date().toISOString(), // Use current time for aggregation time userId: telemetryArray[0].userId, // Assume userId is consistent commandName: overallCommandName, modelUsed: 'Multiple', // Default if models vary providerName: 'Multiple', // Default if providers vary inputTokens: 0, outputTokens: 0, totalTokens: 0, totalCost: 0, currency: telemetryArray[0].currency || 'USD' // Assume consistent currency or default }; const uniqueModels = new Set(); const uniqueProviders = new Set(); const uniqueCurrencies = new Set(); telemetryArray.forEach((item) => { aggregated.inputTokens += item.inputTokens || 0; aggregated.outputTokens += item.outputTokens || 0; aggregated.totalCost += item.totalCost || 0; uniqueModels.add(item.modelUsed); uniqueProviders.add(item.providerName); uniqueCurrencies.add(item.currency || 'USD'); }); aggregated.totalTokens = aggregated.inputTokens + aggregated.outputTokens; aggregated.totalCost = parseFloat(aggregated.totalCost.toFixed(6)); // Fix precision if (uniqueModels.size === 1) { aggregated.modelUsed = [...uniqueModels][0]; } if (uniqueProviders.size === 1) { aggregated.providerName = [...uniqueProviders][0]; } if (uniqueCurrencies.size > 1) { aggregated.currency = 'Multiple'; // Mark if currencies actually differ } else if (uniqueCurrencies.size === 1) { aggregated.currency = [...uniqueCurrencies][0]; } return aggregated; } /** * Gets the current tag from state.json or falls back to defaultTag from config * @param {string} projectRoot - The project root directory * @returns {string} The current tag name */ function getCurrentTag(projectRoot = process.cwd()) { try { // Try to read current tag from state.json const statePath = path.join(projectRoot, '.taskmaster', 'state.json'); if (fs.existsSync(statePath)) { const stateData = JSON.parse(fs.readFileSync(statePath, 'utf8')); if (stateData && stateData.currentTag) { return stateData.currentTag; } } } catch (error) { // Ignore errors, fall back to default } // Fall back to defaultTag from config or hardcoded default try { const configPath = path.join(projectRoot, '.taskmaster', 'config.json'); if (fs.existsSync(configPath)) { const configData = JSON.parse(fs.readFileSync(configPath, 'utf8')); if (configData && configData.global && configData.global.defaultTag) { return configData.global.defaultTag; } } } catch (error) { // Ignore errors, use hardcoded default } // Final fallback return 'master'; } /** * Resolves which tag to use based on context * @param {Object} options - Options object * @param {string} [options.tag] - Explicit tag from --tag flag * @param {string} [options.projectRoot] - Project root directory * @returns {string} The resolved tag name */ function resolveTag(options = {}) { // Priority: explicit tag > current tag from state > defaultTag from config > 'master' if (options.tag) { return options.tag; } return getCurrentTag(options.projectRoot); } /** * Gets the tasks array for a specific tag from tagged tasks.json data * @param {Object} data - The parsed tasks.json data (after migration) * @param {string} tagName - The tag name to get tasks for * @returns {Array} The tasks array for the specified tag, or empty array if not found */ function getTasksForTag(data, tagName) { if (!data || !tagName) { return []; } // Handle migrated format: { "master": { "tasks": [...] }, "otherTag": { "tasks": [...] } } if ( data[tagName] && data[tagName].tasks && Array.isArray(data[tagName].tasks) ) { return data[tagName].tasks; } return []; } /** * Sets the tasks array for a specific tag in the data structure * @param {Object} data - The tasks.json data object * @param {string} tagName - The tag name to set tasks for * @param {Array} tasks - The tasks array to set * @returns {Object} The updated data object */ function setTasksForTag(data, tagName, tasks) { if (!data) { data = {}; } if (!data[tagName]) { data[tagName] = {}; } data[tagName].tasks = tasks || []; return data; } // Export all utility functions and configuration export { LOG_LEVELS, log, readJSON, writeJSON, sanitizePrompt, readComplexityReport, findTaskInComplexityReport, taskExists, formatTaskId, findTaskById, truncate, findCycles, toKebabCase, detectCamelCaseFlags, disableSilentMode, enableSilentMode, getTaskManager, isSilentMode, addComplexityToTask, resolveEnvVariable, findProjectRoot, aggregateTelemetry, getCurrentTag, resolveTag, getTasksForTag, setTasksForTag, performCompleteTagMigration, migrateConfigJson, createStateJson, markMigrationForNotice };