const { app, BrowserWindow, ipcMain, dialog, Tray, Menu, shell, clipboard, nativeImage } = require('electron'); app.name = 'Auto-Git'; const { exec } = require('child_process'); const { execSync } = require('child_process'); //just for hack const http = require('http'); //just for hack const { spawn } = require('child_process'); const { spawnSync } = require('child_process'); const path = require('path'); const fs = require('fs'); const os = require('os'); const Store = require('electron-store'); const simpleGit = require('simple-git'); const chokidar = require('chokidar'); const debug = require('debug')('monitor'); const ignore = require('ignore'); const store = new Store({ defaults: { folders: [], selected: null, skymode: true, skipGitPrompt: true, intelligentCommitThreshold: 20, minutesCommitThreshold: 5, autostart: false, closeToTray: true, needsRelocation: false, dailyCommitStats: {} } }); let folders = store.get('folders') || []; folders = folders.map(f => ({ ...f, needsRelocation: !fs.existsSync(f.path) })); store.set('folders', folders); console.log("Startup-Folders:", store.get('folders')); let tray = null; let isQuiting = false; function createTray(win) { const iconPath = path.join(__dirname, 'assets/icon/trayicon.png'); const icon = nativeImage.createFromPath(iconPath); // Standard-Größen je nach OS let size; switch (process.platform) { case 'darwin': // macOS size = { width: 22, height: 22 }; break; case 'win32': // Windows size = { width: 16, height: 16 }; break; default: // Linux / other size = { width: 24, height: 24 }; } const trayImage = icon.resize(size); const tray = new Tray(trayImage); tray.setToolTip('Auto-Git läuft im Hintergrund'); tray.on('double-click', () => { win.show(); win.focus(); }); return tray; } if (Array.isArray(folders)) { folders = folders.map(f => ({ ...f, //linesChanged: 0, // zurück auf 0 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! //llmCandidates: [] // leeres Array })); store.set('folders', folders); } // Map zum Speichern der Watcher pro Ordner const repoWatchers = new Map(); // Debug Helper //function debug(msg) { // console.log(`[DEBUG ${new Date().toISOString()}] ${msg}`); //} /** * Erstellt das BrowserWindow und lädt index.html. * Gibt das Window-Objekt zurück. */ function createWindow() { const win = new BrowserWindow({ width: 900, height: 600, minWidth: 600, minHeight: 500, title: 'Auto-Git', webPreferences: { preload: path.join(__dirname, 'preload.js'), contextIsolation: true } }); win.loadFile('index.html'); return win; } // Settings-Fenster let settingsWin; function openSettings(win) { if (settingsWin) { settingsWin.focus(); return; } settingsWin = new BrowserWindow({ parent: win, modal: true, width: 600, height: 450, resizable: false, webPreferences: { preload: path.join(__dirname, 'preload.js'), contextIsolation: true } }); settingsWin.removeMenu(); settingsWin.loadFile('settings.html'); settingsWin.webContents.openDevTools({ mode: 'detach' }); settingsWin.on('closed', () => settingsWin = null); } // ************HACK // Hilfsfunktion: killt alle Prozesse auf Port 11434 (nur Unix/macOS) function killOllamaOnPort() { try { // Finde Zeilen wie: "ollama 1234 ..." const stdout = execSync("lsof -i :11434 -t || true").toString(); const pids = stdout.split('\n').map(l => l.trim()).filter(Boolean); if (pids.length) { console.log(`[AutoGit] Kille Prozess(e) auf Port 11434: ${pids.join(', ')}`); pids.forEach(pid => { try { process.kill(parseInt(pid), 'SIGKILL'); } catch (e) { /* ignore */ } }); return true; } } catch (err) { // ignore } return false; } async function ensureOllamaRunning() { function pingOllama() { return new Promise((resolve, reject) => { const req = http.request({ hostname: 'localhost', port: 11434, path: '/', method: 'GET', timeout: 500 }, res => { res.destroy(); resolve(true); }); req.on('error', reject); req.on('timeout', () => { req.destroy(); reject(new Error('Timeout')); }); req.end(); }); } // Probieren, ob Ollama erreichbar ist try { await pingOllama(); return true; // Bereits gestartet } catch (err) { // Port könnte blockiert sein. Versuch zu killen! killOllamaOnPort(); await new Promise(res => setTimeout(res, 500)); // Kurz warten // Noch einmal testen, ob der Port jetzt frei ist try { await pingOllama(); return true; } catch {} // Startversuch console.log('[AutoGit] Versuche ollama serve zu starten ...'); try { const proc = spawn('ollama', ['serve'], { detached: true, stdio: 'ignore' }); proc.unref(); } catch (e) { console.error('[AutoGit] ollama serve konnte nicht gestartet werden:', e.message); throw e; } // Warte bis zu 10x 500ms (max. 5 Sekunden), ob Port aufgeht for (let i = 0; i < 10; i++) { await new Promise(res => setTimeout(res, 500)); try { await pingOllama(); console.log('[AutoGit] Ollama läuft jetzt!'); return true; } catch (_) {/*noch nicht da*/} } throw new Error('[AutoGit] ollama serve konnte nach 5 Sekunden nicht erreicht werden!'); } } // ************ENDOFHACK /** * Startet einen File-Watcher auf .git/refs/heads/master, * sendet bei Änderungen 'repo-updated' an den Renderer. */ /*) function watchRepo(folder, win) { const gitHead = path.join(folder, '.git', 'refs', 'heads', 'master'); const watcher = chokidar.watch(gitHead, { ignoreInitial: true }); watcher.on('change', () => { win.webContents.send('repo-updated', folder); }); repoWatchers.set(folder, watcher); }*/ /** * Initiiert ein Git-Repo in `folder`, falls noch nicht vorhanden, * und erzeugt einen Initial-Commit mit Timestamp. */ async function initGitRepo(folder) { const git = simpleGit(folder); const gitDir = path.join(folder, '.git'); if (!fs.existsSync(gitDir)) { await git.init(); const message = `Initial commit (generated by auto-git)`; const readmePath = path.join(folder, 'README.md'); fs.writeFileSync(readmePath, `# Projekt in ${path.basename(folder)}\n`); //this is shit, it just writes something to prevent bugs when dealing with an empty folder, can be solved way better await git.add('./*'); await git.commit(message); } } // Map für Monitoring-Watcher (nicht repoWatchers!) const monitoringWatchers = new Map(); // Helper: Baut eine Commit-Message aus git.status() function buildCommitMessageFromStatus(status, prefix = '[auto]') { const changes = []; status.not_added.forEach(f => changes.push(`[add] ${f}`)); status.created.forEach(f => changes.push(`[add] ${f}`)); status.modified.forEach(f => changes.push(`[change] ${f}`)); status.deleted.forEach(f => changes.push(`[unlink] ${f}`)); status.renamed.forEach(r => changes.push(`[rename] ${r.from} → ${r.to}`)); return prefix + '\n' + changes.map(l => ` ${l}`).join('\n'); } // Erweitertes Ignore-Array (aus vorheriger Liste) const IGNORED_NAMES = [ // Betriebssystem-spezifische Dateien '.DS_Store', 'Thumbs.db', 'desktop.ini', '.AppleDouble', '.LSOverride', 'ehthumbs.db', 'Icon\r', // Git- und Versionskontrolle '.git', '.gitattributes', // Node.js / JavaScript / TypeScript 'node_modules', 'npm-debug.log', 'npm-debug.log*', 'yarn-error.log', 'yarn-debug.log*', 'pnpm-debug.log*', 'package-lock.json', 'yarn.lock', 'pnpm-lock.yaml', 'tsconfig.tsbuildinfo', 'dist', 'build', '.cache', 'out', '.next', '.turbo', // Python '.venv', 'venv', '__pycache__', '*.py[cod]', '*$py.class', '.mypy_cache', '.pytest_cache', '.tox', 'dist', 'build', '*.egg-info', 'eggs', 'parts', 'var', 'sdist', 'develop-eggs', 'lib', 'lib64', 'wheelhouse', '*.egg', '*.egg-info', '.coverage', 'htmlcov', '.cache', '.env', '.env.*', // Java (Maven/Gradle) 'target', '*.class', '*.jar', '*.war', '*.ear', '*.nar', '*.zip', '*.tar.gz', '*.rar', '*.log', '*.iml', '.idea', '.project', '.classpath', '.settings', '*.launch', 'hs_err_pid*', '*.hprof', // C / C++ / Objective-C '*.o', '*.obj', '*.so', '*.dylib', '*.dll', '*.exe', '*.out', '*.app', '*.ilk', '*.pch', '*.pdb', '*.lib', '*.a', '*.lo', '*.la', 'CMakeFiles', 'CMakeCache.txt', 'cmake_install.cmake', 'Makefile', '*.mk', 'Debug', 'Release', 'build', 'xcodebuild', '*.xcworkspace', '*.xcuserstate', '*.xcuserdatad', // Go 'bin', 'pkg', 'vendor', // Rust 'target', 'Cargo.lock', // Ruby '*.gem', '*.rbc', '.bundle', 'vendor/bundle', 'log', 'tmp', 'coverage', 'byebug_history', // PHP / Composer 'vendor', 'composer.lock', '*.cache', '*.log', '*.session', // .NET / Visual Studio '*.user', '*.rsuser', '*.suo', '*.userosscache', '*.sln.docstates', '*.pdb', '*.ilk', '*.cache', '*.log', 'bin', 'obj', 'Debug', 'Release', 'TestResults', '.vs', '*.exe', '*.dll', '*.nupkg', '*.snk', // IDEs allgemein '.vscode', '.history', '*.code-workspace', '*.sublime-project', '*.sublime-workspace', '*.komodoproject', '.ropeproject', '.jupyter', // Vim / Emacs / Editor-Temp '*.swp', '*.swo', '*.tmp', '*.bak', '*~', '.netrwhist', '.session', '.emacs.desktop', '.emacs.desktop.lock', // Logs / Coverage / Reports '*.log', 'logs', 'log', '*.trace', 'coverage', 'test-results', 'lcov-report', // Datenbanken & SQLite '*.sqlite3', '*.sqlite3-journal', '*.db', '*.db-journal', // Docker / Container 'docker-compose.override.yml', '.docker', 'docker-compose.*.yml', 'docker-compose.*.env', '*.pid', '*.pid.lock', // Terraform '.terraform', '*.tfstate', '*.tfstate.backup', '.terraform.lock.hcl', // Kubernetes / Helm 'helm-debug.log', '.helm', 'kustomization.yaml~', // Ansible 'ansible.cfg~', 'inventory.ini', // Allgemein temporäre/versteckte Dateien '*.backup', '*.old', '*.orig', '*.rej', '#*#', '.*~', '*.kate-swp', '*.directory', '.Trash-*', '.fseventsd', // Lock-Dateien allgemein '*.lock', // Komprimierte/Archivdateien '*.zip', '*.tar.gz', '*.rar', '*.7z', // Mobile/Plattform-spezifisch '*.apk', '*.ap_', '*.aab', 'android/.gradle', 'android/gradle', 'android/local.properties', '*.keystore', '.android', '.flutter-plugins', '.flutter-plugins-dependencies', '.packages', 'DerivedData', '*.hmap', '*.ipa', '*.dSYM.zip', '*.dSYM', // Unity 'Library', 'Temp', 'Obj', 'Builds', 'Logs', 'MemoryCaptures', '*.csproj', '*.unityproj', '*.userprefs', '*.pidb', '*.booproj', '*.svd', '*.opendb', '*.VC.db', // Unreal Engine 'Binaries', 'DerivedDataCache', 'Intermediate', 'Saved', 'Build', '*.vcxproj', '*.sln', // Maven Wrapper 'mvnw.cmd', 'mvnw', '.mvn/wrapper/maven-wrapper.jar' ]; /** * Liest die .gitignore im Repo (falls vorhanden) und gibt eine "ignore"-Instanz * zurück, die alle aktuellen Einträge kennt. Sollte keine .gitignore existieren, * wird eine leere Instanz zurückgegeben. */ async function loadGitignoreFilter(folderPath) { const gitignorePath = path.join(folderPath, '.gitignore'); let raw; try { raw = await fs.readFile(gitignorePath, 'utf8'); } catch (e) { // Wenn keine .gitignore existiert, gibt's eine leere Instanz raw = ''; } // ignore() versteht Git-Ignore-Syntax (Kommentare, Leerzeilen, Glob-Pattern etc.) const ig = ignore(); ig.add(raw.split(/\r?\n/)); return ig; } /** * Wie zuvor: Prüft, ob ein relativer Pfad (innerhalb folderPath) mit einem * Eintrag in IGNORED_NAMES übereinstimmt. (Wildcards, Ordnernamen, Dateiendungen etc.) */ function isIgnoredByList(filePathRelative) { const basename = path.basename(filePathRelative); return IGNORED_NAMES.some(pattern => { if (pattern.includes('*')) { // Einfacher Wildcard-Abgleich: "*.log" -> /^.*\.log$/ const regex = new RegExp('^' + pattern.replace(/\./g, '\\.').replace(/\*/g, '.*') + '$'); return regex.test(basename); } return basename === pattern || filePathRelative.split(path.sep).includes(pattern); }); } /** * Schreibt einen Eintrag in .gitignore, falls noch nicht vorhanden. */ async function ensureIgnoredInGitignore(folderPath, entry) { const gitignorePath = path.join(folderPath, '.gitignore'); let content = ''; try { content = await fs.readFile(gitignorePath, 'utf8'); } catch (e) { content = ''; } const lines = content.split(/\r?\n/).map(l => l.trim()); if (!lines.includes(entry)) { const newContent = content.trim().length > 0 ? content.trim() + '\n' + entry + '\n' : entry + '\n'; await fs.writeFile(gitignorePath, newContent, 'utf8'); debug(`[IGNORE] Eintrag "${entry}" zu .gitignore hinzugefügt in ${folderPath}`); return true; } return false; } /** * Die kombinierte Funktion für initialen Commit + Watcher. */ async function startMonitoringWatcher(folderPath, win) { if (monitoringWatchers.has(folderPath)) return; const git = simpleGit(folderPath); // 1. Lade oder lege eine .gitignore-Filterinstanz an let igFilter = await loadGitignoreFilter(folderPath); /** * Führt Git-Status-Check aus, filtert Dateien heraus, * die in IGNORED_NAMES stehen, schreibt sie ggf. in .gitignore, * und committet dann verbleibende Änderungen. */ async function doAutoCommitWithIgnoreCheck() { const status = await git.status(); // 2. Alle not_added/created-Dateien, die in unserer IGNORED_NAMES-Liste stehen: const toIgnore = [ ...status.not_added, ...status.created ] .filter(rel => isIgnoredByList(rel)); // 3. Der Rest geht in toCommit: const toCommit = { not_added: status.not_added.filter(p => !toIgnore.includes(p)), created: status.created.filter(p => !toIgnore.includes(p)), modified: status.modified.slice(), deleted: status.deleted.slice(), renamed: status.renamed.slice() }; // 4. Zuerst .gitignore aktualisieren, falls nötig let ignoreWritten = false; for (const relPath of toIgnore) { const parts = relPath.split(path.sep); const entry = parts.length > 1 ? parts[0] + '/' : relPath; // "/" anhängen, damit Ordner wie "node_modules/" korrekt ignoriert werden const didWrite = await ensureIgnoredInGitignore(folderPath, entry); if (didWrite) ignoreWritten = true; } if (ignoreWritten) { // .gitignore wurde angepasst → committen await git.add('.gitignore'); await git.commit('auto-git: Aktualisiere .gitignore um ignorierte Dateien'); win.webContents.send('repo-updated', folderPath); // Neue .gitignore einladen, damit unser Filter aktuell ist igFilter = await loadGitignoreFilter(folderPath); // Danach Status erneut prüfen (Rekursionsaufruf), weil sich nun ignore-Muster geändert haben return doAutoCommitWithIgnoreCheck(); } // 5. Wenn keine .gitignore-Anpassung nötig war, committen wir alle echten Änderungen: const hasChanges = toCommit.not_added.length > 0 || toCommit.created.length > 0 || toCommit.modified.length > 0 || toCommit.deleted.length > 0 || toCommit.renamed.length > 0; if (hasChanges) { const fakeStatus = { not_added: toCommit.not_added, created: toCommit.created, modified: toCommit.modified, deleted: toCommit.deleted, renamed: toCommit.renamed }; const msg = buildCommitMessageFromStatus(fakeStatus, 'auto-git: '); await autoCommit(folderPath, msg, win); win.webContents.send('repo-updated', folderPath); debug(`[MONITOR] Auto-Commit durchgeführt:\n${msg}`); } } // 6. Chokidar-Watcher startet – nutzt eine Funktion, die sowohl .gitignore-Muster // abfragt als auch das .git-Verzeichnis immer aussperrt. const watcher = chokidar.watch(folderPath, { ignored: (filePath) => { // Immer das .git-Verzeichnis ausschließen const isInDotGit = /(^|[\/\\])\.git(?:[\/\\]|$)/.test(filePath); if (isInDotGit) return true; // Relativer Pfad zum Repo const rel = path.relative(folderPath, filePath); // 1) Wenn die Datei in der .gitignore steht → ignorieren if (igFilter.ignores(rel)) return true; // 2) Ansonsten wird die Änderung durch unseren Code ohnehin // beim Commit-Check berücksichtigt (wir ignorieren nur, was auch wirklich in IGNORED_NAMES ist). return false; }, ignoreInitial: true, persistent: true, depth: 99, awaitWriteFinish: { stabilityThreshold: 300, pollInterval: 100 } }); // 7. Initialer Commit-Check (async () => { debug(`[MONITOR] Starte initialen Commit-Check für ${folderPath}`); await doAutoCommitWithIgnoreCheck(); })(); // 8. Bei jedem Event: Prüfen, ob Pfad in .gitignore gehört, // sonst normal doAutoCommitWithIgnoreCheck() aufrufen. watcher.on('all', async (event, filePathAbsolute) => { const rel = path.relative(folderPath, filePathAbsolute); // a) Prüfe, ob dieser Pfad durch die aktuell geladene .gitignore // bereits ausgeschlossen ist (z.B. node_modules/foo.js): if (igFilter.ignores(rel)) { // Falls wir bisher noch nicht in .gitignore hatten, dort hinzufügen: // (Aber eigentlich sollte .gitignore aktuell sein, weil doAutoCommitWithIgnoreCheck() // ja erst dafür gesorgt hat.) const parts = rel.split(path.sep); const entry = parts.length > 1 ? parts[0] + '/' : rel; const didWrite = await ensureIgnoredInGitignore(folderPath, entry); if (didWrite) { // Neue .gitignore-Muster einladen igFilter = await loadGitignoreFilter(folderPath); await git.add('.gitignore'); await git.commit('auto-git: Hinzufügen zu .gitignore'); win.webContents.send('repo-updated', folderPath); debug(`[WATCHER] "${entry}" zu .gitignore hinzugefügt und committed`); } return; } // b) Ansonsten ganz normal alle Änderungen committen await doAutoCommitWithIgnoreCheck(); }); monitoringWatchers.set(folderPath, watcher); debug(`[MONITOR] Watcher aktiv für ${folderPath}`); } function stopMonitoringWatcher(folderPath) { const watcher = monitoringWatchers.get(folderPath); if (watcher) { watcher.close(); monitoringWatchers.delete(folderPath); debug(`[MONITOR] Watcher gestoppt für ${folderPath}`); } } // ---- Rewrite Git Messages with LLM generated messages ---- // ---- 1. Commits & Diffs für LLM sammeln ---- async function getCommitsForLLM(folderPath, hashes) { const git = simpleGit(folderPath); const commits = []; for (const hash of hashes) { const shortHash = hash.substring(0, 7); const diff = await git.diff([`${hash}^!`]); const msg = (await git.show(['-s', '--format=%B', hash])).trim(); commits.push({ hash: shortHash, message: msg, diff }); } return commits; } // ---- 2. Prompt für LLM bauen ---- async function generateLLMCommitMessages(folderPath, hashes) { const commits = await getCommitsForLLM(folderPath, hashes); const prompt = ` Analyze the following git commits. For each commit, generate a concise commit message summarizing the actual change. - ONLY output a JSON object mapping each commit hash to its new message. - Do NOT add any explanations, greetings, or extra text. Example Output: { "1a2b3c4": "Fix bug in user registration", "2b3c4d5": "Refactor login logic" } COMMITS (as JSON): ${JSON.stringify(commits, null, 2)} `; return prompt; } // ---- 3. LLM Streaming Call ---- async function streamLLMCommitMessages(prompt, onDataChunk, win) { await ensureOllamaRunning(); const selectedModel = store.get('commitModel') || 'qwen2.5-coder:7b'; const response = await fetch('http://localhost:11434/api/generate', { method: 'POST', headers: { 'Content-Type': 'application/json' }, body: JSON.stringify({ model: selectedModel, prompt: prompt, stream: true, options: { temperature: 0.3 } }) }); if (!response.body) throw new Error('No stream returned'); const reader = response.body.getReader(); const decoder = new TextDecoder(); let fullOutput = ''; let done = false; // ⭐️ Starte den Stream für die Katze! win.webContents.send('cat-begin'); while (!done) { const { value, done: streamDone } = await reader.read(); done = streamDone; if (value) { const chunk = decoder.decode(value, { stream: true }); for (const line of chunk.split('\n')) { if (!line.trim()) continue; try { const obj = JSON.parse(line); if (obj.response) { fullOutput += obj.response; // Sende Chunk an Renderer/Katze: win.webContents.send('cat-chunk', obj.response); if (onDataChunk) onDataChunk(obj.response); } if (obj.done) break; } catch (e) { // ignore malformed chunk } } } } // ⭐️ Stream ist zu Ende win.webContents.send('cat-end'); return fullOutput; } async function streamLLMREADME(prompt, onDataChunk, win) { //merge with streamLLMCommit please await ensureOllamaRunning(); const selectedModel = store.get('readmeModel') || 'qwen2.5-coder:32b'; const response = await fetch('http://localhost:11434/api/generate', { method: 'POST', headers: { 'Content-Type': 'application/json' }, body: JSON.stringify({ model: selectedModel, prompt: prompt, stream: true, options: { temperature: 0.4 } }) }); if (!response.body) throw new Error('No stream returned'); const reader = response.body.getReader(); const decoder = new TextDecoder(); let fullOutput = ''; let done = false; // ⭐️ Starte den Stream für die Katze! win.webContents.send('cat-begin'); while (!done) { const { value, done: streamDone } = await reader.read(); done = streamDone; if (value) { const chunk = decoder.decode(value, { stream: true }); for (const line of chunk.split('\n')) { if (!line.trim()) continue; try { const obj = JSON.parse(line); if (obj.response) { fullOutput += obj.response; // Sende Chunk an Renderer/Katze: win.webContents.send('cat-chunk', obj.response); if (onDataChunk) onDataChunk(obj.response); } if (obj.done) break; } catch (e) { // ignore malformed chunk } } } } // ⭐️ Stream ist zu Ende win.webContents.send('cat-end'); return fullOutput; } // ---- 4. JSON Output robust parsen ---- function parseLLMCommitMessages(rawOutput) { let cleaned = rawOutput.trim(); cleaned = cleaned.replace(/^```(?:json)?|```$/gmi, ''); try { if (cleaned.trim().startsWith('[')) return JSON.parse(cleaned); if (cleaned.trim().startsWith('{')) { const obj = JSON.parse(cleaned); return Object.entries(obj).map(([commit, newMessage]) => ({ commit, newMessage })); } // Zeilenweise Objekte (fuzzy) if (cleaned.includes('\n')) { let lines = cleaned.split('\n').map(l => l.trim()).filter(Boolean); let objs = []; for (let line of lines) { try { let o = JSON.parse(line); objs.push(o); } catch {} } if (objs.length) return objs; } } catch (err) { // Fallback repair try { cleaned = cleaned.replace(/}\s*{/g, '},\n{'); if (!cleaned.startsWith('[')) cleaned = '[' + cleaned; if (!cleaned.endsWith(']')) cleaned = cleaned + ']'; return JSON.parse(cleaned); } catch (e) { throw new Error('Could not parse LLM output:\n' + rawOutput); } } throw new Error('Could not parse LLM output:\n' + rawOutput); } // --- Hauptfunktion --- /** * Rewords commit messages for each hash (oldest to newest) using git rebase -i in a loop. * @param {string} repoPath - Path to your repo * @param {object} commitMessageMap - { fullHash: newMessage } * @param {string[]} hashes - array of full commit hashes (oldest first!) */ async function rewordCommitsSequentially(repoPath, commitMessageMap, hashes) { const git = simpleGit(repoPath); // Sort hashes... const allCommits = (await git.log()).all; const hashesOrdered = hashes .map(h => allCommits.find(c => c.hash.startsWith(h))) .filter(Boolean) .sort((a, b) => allCommits.findIndex(c => c.hash === a.hash) - allCommits.findIndex(c => c.hash === b.hash) ) .map(c => c.hash); // EIN Loop! for (const hash of hashesOrdered) { // --- Lookup: full hash oder short hash let msg = commitMessageMap[hash]; if (!msg) msg = commitMessageMap[hash.substring(0, 7)]; if (!msg) { console.warn('No commit message found for hash', hash, 'or', hash.substring(0, 7)); continue; } const commitMsg = msg.replace(/(["$`\\])/g, '\\$1'); const sequenceEditor = `sed -i '' '1s/pick/reword/'`; // await auf Promise – aber OHNE zweiten for! await new Promise((resolve, reject) => { const proc = spawn('git', [ 'rebase', '-i', `${hash}^` ], { cwd: repoPath, env: { ...process.env, GIT_SEQUENCE_EDITOR: sequenceEditor, GIT_EDITOR: `echo "${commitMsg}" >` }, stdio: 'inherit' }); proc.on('exit', code => code === 0 ? resolve() : reject(new Error(`Failed to reword ${hash}`))); }); console.log(`[AutoGit] Reworded commit ${hash} ✔`); } console.log('[AutoGit] All specified commit messages updated!'); } /* */ //---- 6. Workflow ---- async function runLLMCommitRewrite(folderObj, win) { if(!folderObj.needsRelocation){ const hashes = folderObj.llmCandidates; const birthday = folderObj.firstCandidateBirthday; const folderPath = folderObj.path; folderObj.llmCandidates = []; folderObj.firstCandidateBirthday = null; folderObj.linesChanged = 0; const folders = store.get('folders') || []; const idx = folders.findIndex(f => f.path === folderObj.path); if (idx !== -1) { folders[idx] = folderObj; store.set('folders', folders); } const prompt = await generateLLMCommitMessages(folderPath, hashes); const llmRaw = await streamLLMCommitMessages(prompt, chunk => process.stdout.write(chunk), win); const commitList = parseLLMCommitMessages(llmRaw); const messageMap = {}; for (const entry of commitList) messageMap[entry.commit] = entry.newMessage; await rewordCommitsSequentially(folderPath, messageMap, hashes); win.webContents.send('repo-updated', folderObj.path); } } /* // ---- 6. Komplett-Workflow (Random instant messages für debugging) ---- async function runLLMCommitRewrite(folderPath, hashes) { // Generate a mapping { hash: message } const messageMap = hashes.reduce((map, hash) => { map[hash] = getRandomMessage(); return map; }, {}); console.log(messageMap) // Call your existing rewrite step with the fake messages //await cherryPickCommitRewrite(folderPath, messageMap, hashes); await rewordCommitsSequentially(folderPath, messageMap, hashes); } // Helper: returns a “random” placeholder commit message function getRandomMessage() { const verbs = [ 'Update', 'Refactor', 'Fix', 'Add', 'Remove', 'Improve', 'Optimize', 'Document', 'Cleanup', 'Configure', 'Upgrade', 'Revert' ]; const objects = [ 'authentication flow', 'API endpoint', 'styling', 'logging', 'error handling', 'data model', 'build script', 'test suite', 'configuration', 'dependencies', 'README', 'README.md' ]; const details = [ 'for better performance', 'to meet new requirements', 'after feedback', 'as per spec', 'to fix typo', 'to improve readability', 'to avoid regressions', 'for consistency' ]; const pick = arr => arr[Math.floor(Math.random() * arr.length)]; return `${pick(verbs)} ${pick(objects)} ${pick(details)}`; } */ // Nutze das Template aus dem Projektordner: const TEMPLATE_PATH = path.join(__dirname, 'rewrite-commit-msg.js.template'); function createRewriteScript(mapping) { // Lies das Template let content = fs.readFileSync(TEMPLATE_PATH, 'utf-8'); // Ersetze __MESSAGE_MAP__ durch dein Mapping content = content.replace('__MESSAGE_MAP__', JSON.stringify(mapping)); // Speichere als temporäre Datei const scriptPath = path.join(__dirname, `rewrite-commit-msg.${Date.now()}.js`); fs.writeFileSync(scriptPath, content, 'utf-8'); return scriptPath; } async function autoCommit(folderPath, message, win) { const git = simpleGit(folderPath); const status = await git.status(); if ( status.not_added.length === 0 && status.created.length === 0 && status.deleted.length === 0 && status.modified.length === 0 && status.renamed.length === 0 ) { debug('Auto-Commit: Keine Änderungen zum committen.'); return false; } let currentBranch = null; try { currentBranch = (await git.revparse(['--abbrev-ref', 'HEAD'])).trim(); debug(`[autoCommit] Aktueller Branch: ${currentBranch}`); } catch { debug('[autoCommit] HEAD ist detached.'); currentBranch = null; } if (!currentBranch || currentBranch === 'HEAD') { // === Erweiterte Logs === const headCommit = (await git.revparse(['HEAD'])).trim(); let masterCommit = null; let hasMaster = false; try { masterCommit = (await git.revparse(['refs/heads/master'])).trim(); hasMaster = true; } catch (e) { debug('[autoCommit] master branch existiert nicht.'); masterCommit = null; hasMaster = false; } debug(`[autoCommit] HEAD: ${headCommit}`); debug(`[autoCommit] master: ${masterCommit}`); if (hasMaster && headCommit === masterCommit) { // HEAD ist detached, zeigt aber exakt auf master-Tip → einfach auf master auschecken. await git.checkout('master'); debug('[autoCommit] HEAD war detached, zeigte aber exakt auf master – jetzt zurück auf master.'); // Nach dem Checkout nochmal aktuellen Branch loggen: currentBranch = (await git.revparse(['--abbrev-ref', 'HEAD'])).trim(); debug(`[autoCommit] Nach checkout: Aktueller Branch: ${currentBranch}`); // Jetzt **NICHT** weiter zur Umbenenn-Logik! } else if (hasMaster) { // HEAD ist detached, zeigt auf einen anderen Commit → backup master und neuen master-Branch const timestamp = new Date().toISOString().replace(/[:.]/g, '-'); const backupBranch = `backup-master-${timestamp}`; await git.branch(['-m', 'master', backupBranch]); debug(`[autoCommit] Alter master in ${backupBranch} umbenannt.`); await git.checkout(['-b', 'master']); debug('[autoCommit] Neuer master-Branch erstellt und ausgecheckt.'); currentBranch = 'master'; } else { // Kein master vorhanden (erstmalig) await git.checkout(['-b', 'master']); debug('[autoCommit] Kein master-Branch vorhanden, neuer master erstellt.'); currentBranch = 'master'; } } // --- Zeilenzählung --- let diffOutput = await git.diff(['--numstat']); // Zeilensumme berechnen: let changedLines = 0; for (let line of diffOutput.split('\n')) { const match = line.match(/^(\d+|\-)\s+(\d+|\-)\s+(.*)$/); if (match) { const added = match[1] === '-' ? 0 : parseInt(match[1], 10); const deleted = match[2] === '-' ? 0 : parseInt(match[2], 10); changedLines += added + deleted; } } // Folders aus Store holen let folders = store.get('folders') || []; let idx = folders.findIndex(f => f.path === folderPath); if (idx !== -1) { folders[idx].linesChanged = (folders[idx].linesChanged || 0) + changedLines; folders[idx].llmCandidates = folders[idx].llmCandidates || []; // ===> WICHTIG: Wir commiten ja jetzt, daher merken wir uns gleich die neue Commit-Hash // Vor git.commit: Merke alten HEAD const oldHead = (await git.revparse(['HEAD'])).trim(); // Stagen & Committen await git.add(['-A']); debug('[autoCommit] Alle Änderungen gestaged.'); await git.commit(message || '[auto]'); debug('[autoCommit] Commit erfolgreich erstellt.'); // --- Gamification: Commit-Statistik speichern --- const today = new Date().toISOString().slice(0, 10); // Format: 'YYYY-MM-DD' const stats = store.get('dailyCommitStats') || {}; stats[today] = (stats[today] || 0) + 1; store.set('dailyCommitStats', stats); // Nach Commit: neuen HEAD ermitteln und in llmCandidates speichern const newHead = (await git.revparse(['HEAD'])).trim(); folders[idx].llmCandidates = folders[idx].llmCandidates || []; folders[idx].llmCandidates.push(newHead); if(folders[idx].llmCandidates.length == 1){ folders[idx].firstCandidateBirthday = Date.now(); debug('[autoCommit] Erster Commit aufgenommen.'); } folders[idx].lastHeadHash = newHead; console.log(folders[idx].llmCandidates) // Threshold holen const threshold = store.get('intelligentCommitThreshold') || 10; if (folders[idx].linesChanged >= threshold) { debug('Congratulations! You changed enough lines of code :)'); await runLLMCommitRewrite(folders[idx], win); //folders[idx].linesChanged = 0; // !!!!!!!!!!!!!!!!!!!! needs logic to handle several llm runs called at the same time test //folders[idx].llmCandidates = []; //folders.[idx].firstCandidateBirthday = null } store.set('folders', folders); } else { // Folder not found! (Debug) debug(`[autoCommit] Warning: Folder ${folderPath} not found in store`); } } app.whenReady().then(main); async function main() { const win = createWindow(); async function updateFoldersListener(win) { let folders = store.get('folders') || []; /* NEXT BLOCK: MONITOR FOLDERS INITIAL CANDIDATE-COMMITS BIRTHDAY FOR AUTOCOMMIT */ /* ─── NEXT BLOCK: MONITOR “BIRTHDAY” FOR AUTOCOMMIT ─── */ const minutesThreshold = store.get('minutesCommitThreshold'); const now = Date.now(); folders.forEach(folderObj => { if (folderObj.firstCandidateBirthday != null) { const elapsedMin = (now - folderObj.firstCandidateBirthday) / 1000 / 60; if (elapsedMin >= minutesThreshold) { runLLMCommitRewrite(folderObj, win); } } }); /* ──────────────────────────────────────────────────── */ /* NEXT BLOCK: MONITOR FOLDER MISSING / RELOCATED */ let updatedFolders = []; let anyChanged = false; // Wir müssen auf asynchrone Checks warten (wegen simple-git) folders = await Promise.all(folders.map(async f => { const wasRelocated = f.needsRelocation || false; const nowExists = fs.existsSync(f.path); // EdgeCase: Ordner taucht "wieder" auf if (wasRelocated && nowExists) { let hashFound = false; if (f.lastHeadHash) { try { const git = simpleGit(f.path); // Prüfe, ob Commit irgendwo im Repo existiert const result = await git.raw(['branch', '--contains', f.lastHeadHash]); hashFound = result.trim().length > 0; } catch (err) { hashFound = false; } } if (hashFound) { // Repo validiert → needsRelocation zurücknehmen, Monitoring bleibt wie es war anyChanged = true; updatedFolders.push({ ...f, needsRelocation: false }); return { ...f, needsRelocation: false }; } else { // Commit-Hash nicht gefunden → Ordner bleibt in Relocation return { ...f, needsRelocation: true }; } } // EdgeCase: Ordner verschwindet if (!nowExists && !wasRelocated) { anyChanged = true; updatedFolders.push({ ...f, needsRelocation: true, monitoring: false }); // Monitoring sofort beenden! stopMonitoringWatcher(f.path); return { ...f, needsRelocation: true, monitoring: false }; } // Keine Änderung an needsRelocation return f; })); if (anyChanged) { store.set('folders', folders); // Benachrichtige Renderer für alle betroffenen Folder updatedFolders.forEach(folderObj => { win.webContents.send('folders-location-updated', folderObj); }); } } await updateFoldersListener(win); setInterval(() => { updateFoldersListener(win); }, 3000); // Menubar const menu = Menu.buildFromTemplate([ { role: 'appMenu', submenu: [ { label: 'Settings', click: () => openSettings(win) }, { label: 'Quit', role: 'quit', click: () => { isQuiting = true; app.quit(); } } ] }, { role: 'editMenu' } ]); Menu.setApplicationMenu(menu); const tray = createTray(win); // --- Context Menu bauen --- function buildTrayMenu() { const folders = store.get('folders') || []; const monitoringActive = folders.some(f => f.monitoring); return Menu.buildFromTemplate([ { label: 'Auto-Git öffnen', click: () => { win.show(); win.focus(); } }, { type: 'separator' }, ...folders.map(f => ({ label: `${f.monitoring ? '🟢' : '🔴'} ${path.basename(f.path)}`, submenu: [ { label: f.monitoring ? 'Monitoring stoppen' : 'Monitoring starten', enabled: !f.needsRelocation, // <--- HIER! click: () => { if (!f.needsRelocation) { win.webContents.send('tray-toggle-monitoring', f.path); } // Optional: Feedback anzeigen, falls doch geklickt wird. } }, { label: 'Ordner entfernen', click: () => { win.webContents.send('tray-remove-folder', f.path); } } ] })), { type: 'separator' }, { label: 'Neuen Ordner hinzufügen', click: () => { win.webContents.send('tray-add-folder'); } }, { label: 'Alle Monitorings starten', click: () => { folders.forEach(f => { if (!f.monitoring && !f.needsRelocation) { win.webContents.send('tray-toggle-monitoring', f.path); } }); } }, { label: 'Alle Monitorings stoppen', click: () => { folders.forEach(f => { if (f.monitoring) win.webContents.send('tray-toggle-monitoring', f.path); }); } }, { type: 'separator' }, { label: 'Beenden', click: () => { isQuiting = true; app.quit(); } } ]); } tray.setToolTip('Auto-Git läuft im Hintergrund'); tray.setContextMenu(buildTrayMenu()); // Menu immer wieder aktualisieren, wenn sich Ordner ändern: store.onDidChange('folders', () => { tray.setContextMenu(buildTrayMenu()); }); // Optional: Minimieren auf Tray bei Fenster-Schließen win.on('close', (e) => { if (!app.isQuiting) { e.preventDefault(); win.hide(); } }); // Doppelklick aufs Tray: Fenster zeigen tray.on('double-click', () => { win.show(); }); // 1) Beim Start bereits gespeicherte Ordner überwachen und monitoren const folders = store.get('folders') || []; folders.forEach(folderObj => { //if (fs.existsSync(path.join(folderObj.path, '.git', 'refs', 'heads', 'master'))) { //watchRepo(folderObj.path, win); //} if (folderObj.monitoring) { startMonitoringWatcher(folderObj.path, win); } }); // 2) IPC-Handler ipcMain.handle('get-selected', () => { const folders = store.get('folders') || []; const selectedPath = store.get('selected'); return folders.find(f => f.path === selectedPath) || null; }); ipcMain.handle('set-selected', (_e, folderObjOrPath) => { // Akzeptiert sowohl String (legacy) als auch Objekt: const folderPath = typeof folderObjOrPath === 'string' ? folderObjOrPath : folderObjOrPath.path; store.set('selected', folderPath); const folders = store.get('folders') || []; return folders.find(f => f.path === folderPath) || null; }); // Liste aller Folders ipcMain.handle('get-folders', () => store.get('folders')); // (1) Die Kernfunktion async function addFolderByPath(newFolder) { await initGitRepo(newFolder); // HEAD-Hash holen let lastHeadHash = null; try { const git = simpleGit(newFolder); lastHeadHash = (await git.revparse(['HEAD'])).trim(); } catch {} let folders = store.get('folders') || []; let folderObj = folders.find(f => f.path === newFolder); if (!folderObj) { folderObj = { path: newFolder, monitoring: true, linesChanged: 0, llmCandidates: [], firstCandidateBirthday: null, lastHeadHash }; folders.push(folderObj); store.set('folders', folders); } else { folderObj.lastHeadHash = lastHeadHash; store.set('folders', folders); } store.set('selected', newFolder); //watchRepo(newFolder, win); startMonitoringWatcher(newFolder, win); return store.get('folders'); } // (2) Die IPC-Handler anpassen: ipcMain.handle('add-folder', async () => { const { canceled, filePaths } = await dialog.showOpenDialog({ properties: ['openDirectory'] }); if (canceled || !filePaths[0]) { return store.get('folders'); } return await addFolderByPath(filePaths[0]); }); ipcMain.handle('add-folder-by-path', async (_e, folderPath) => { return await addFolderByPath(folderPath); }); // Ordner entfernen: Watcher schließen, Store-Update ipcMain.handle('remove-folder', (_e, folderObj) => { const folders = store.get('folders') || []; const updated = folders.filter(f => f.path !== folderObj.path); store.set('folders', updated); if (store.get('selected') === folderObj.path) store.set('selected', null); stopMonitoringWatcher(folderObj.path); const watcher = repoWatchers.get(folderObj.path); if (watcher) watcher.close(), repoWatchers.delete(folderObj.path); return updated; }); // Zähle Commits ipcMain.handle('get-commit-count', async (_e, folderObj) => { try { if (folderObj.needsRelocation || !fs.existsSync(folderObj.path)) { return 0; } const git = simpleGit(folderObj.path); const log = await git.log(); return log.total; } catch (err) { return 0; } }); // Prüfe, ob es ungestagte Änderungen gibt /*ipcMain.handle('has-diffs', async (_e, folderObj) => { const git = simpleGit(folderObj.path); const status = await git.status(); // modified, not_added, deleted, etc. return status.files.length > 0; });*/ ipcMain.handle('has-diffs', async (_e, folderObj) => { if (folderObj.needsRelocation || !fs.existsSync(folderObj.path)) { return false; } const git = simpleGit(folderObj.path); const status = await git.status(); return status.files.length > 0; }); // Entferne das .git-Verzeichnis ipcMain.handle('remove-git-folder', async (_e, folderObj) => { if (folderObj.needsRelocation || !fs.existsSync(folderObj.path)) { return; } const gitDir = path.join(folderObj.path, '.git'); if (fs.existsSync(gitDir)) { await fs.promises.rm(gitDir, { recursive: true, force: true }); } return; }); // Commits holen (paginiert) ipcMain.handle('get-commits', async (_e, folderObj, page = 1, pageSize = 50) => { try { if (folderObj.needsRelocation || !fs.existsSync(folderObj.path)) { return { head: null, commits: [], total: 0, page: 1, pageSize: 50, pages: 1 }; } const git = simpleGit(folderObj.path); // Offset berechnen (0-basiert!) const skip = (page - 1) * pageSize; const log = await git.log({ '--all': null, '--skip': skip, '--max-count': pageSize }); // Gesamte Anzahl Commits für die Pagination const totalLog = await git.log({ '--all': null }); const total = totalLog.total || totalLog.all.length; const fullHead = (await git.revparse(['--verify', 'HEAD'])).trim(); const head = fullHead.substring(0, 7); const pages = Math.max(1, Math.ceil(total / pageSize)); return { head, commits: log.all.map(c => ({ hash: c.hash.substring(0, 7), date: c.date, message: c.message })), total, page, pageSize, pages }; } catch (err) { return { head: null, commits: [], total: 0, page: 1, pageSize: 50, pages: 1 }; } }); // Diff ipcMain.handle('diff-commit', async (_e, folderObj, hash) => { if (folderObj.needsRelocation || !fs.existsSync(folderObj.path)) { return null; } const git = simpleGit(folderObj.path); return git.diff([`${hash}^!`]); }); // Revert ipcMain.handle('revert-commit', async (_e, folderObj, hash) => { if (folderObj.needsRelocation || !fs.existsSync(folderObj.path)) { return; } const git = simpleGit(folderObj.path); await git.revert(hash, ['--no-edit']); }); //yo /** * Checkt das Arbeitsverzeichnis auf exakt den Zustand von `hash` aus. */ ipcMain.handle('checkout-commit', async (_e, folderObj, hash) => { if (folderObj.needsRelocation || !fs.existsSync(folderObj.path)) { return; } const git = simpleGit(folderObj.path); // clean mode: alle lokalen Veränderungen verwerfen await git.checkout([hash, '--force']); }); // Snapshot ipcMain.handle('snapshot-commit', async (_e, folderObj, hash) => { if (folderObj.needsRelocation || !fs.existsSync(folderObj.path)) { return null; } const { canceled, filePaths } = await dialog.showOpenDialog({ title: 'Ordner auswählen zum Speichern des Snapshots', properties: ['openDirectory'] }); if (canceled || !filePaths[0]) return; const outDir = filePaths[0]; const baseName = path.basename(folderObj.path); const filePath = path.join(outDir, `${baseName}-${hash}.zip`); return new Promise((resolve, reject) => { exec( `git -C "${folderObj.path}" archive --format zip --output "${filePath}" ${hash}`, err => err ? reject(err) : resolve(filePath) ); }); }); // IPC für skymode ipcMain.handle('get-skymode', () => store.get('skymode')); ipcMain.handle('set-skymode', (_e, val) => { store.set('skymode', val); // sende an alle Fenster BrowserWindow.getAllWindows().forEach(win => { win.webContents.send('skymode-changed', val); }); }); ipcMain.handle('get-skip-git-prompt', () => store.get('skipGitPrompt')); ipcMain.handle('set-skip-git-prompt', (_e,val) => store.set('skipGitPrompt', val)); function isIgnored(name) { return IGNORED_NAMES.includes(name); } function walkDir(base, rel = '.') { const full = path.join(base, rel); let list = []; try { fs.readdirSync(full, { withFileTypes: true }).forEach(dirent => { if (isIgnored(dirent.name)) return; const entry = path.join(rel, dirent.name); if (dirent.isDirectory()) { list.push({ name: dirent.name, type: 'dir', children: walkDir(base, entry) }); } else { list.push({ name: dirent.name, type: 'file' }); } }); } catch (e) {} return list; } ipcMain.handle('get-folder-tree', async (_e, folderPath) => { try { return walkDir(folderPath, '.'); } catch { return []; } }); /* ipcMain.handle('commit-current-folder', async (_e, folderObj, message) => { if (folderObj.needsRelocation || !fs.existsSync(folderObj.path)) { return {}; } folder = folderObj.path; try { debug(`Commit-Vorgang für ${folder} gestartet…`); const git = simpleGit(folder); // Prüfe: Gibt es was zu committen? const status = await git.status(); if ( status.not_added.length === 0 && status.created.length === 0 && status.deleted.length === 0 && status.modified.length === 0 && status.renamed.length === 0 ) { debug('Nichts zu committen.'); return { success: false, error: 'Nichts zu committen.' }; } // HEAD-Status prüfen let currentBranch = null; try { currentBranch = (await git.revparse(['--abbrev-ref', 'HEAD'])).trim(); debug(`Aktueller Branch: ${currentBranch}`); } catch (err) { debug('HEAD ist detached.'); } // Falls detached, **jetzt erst** alten Branch umbenennen und neuen master erzeugen if (!currentBranch || currentBranch === 'HEAD') { // HEAD ist detached, prüfe ob HEAD auf dem Tip von master ist! const headCommit = (await git.revparse(['HEAD'])).trim(); let masterCommit = null; let hasMaster = false; try { masterCommit = (await git.revparse(['refs/heads/master'])).trim(); hasMaster = true; } catch (e) { masterCommit = null; //wawa hasMaster = false; } if (hasMaster && headCommit === masterCommit) { // HEAD ist detached, aber zeigt exakt auf master! await git.checkout('master'); debug('[autoCommit] HEAD war detached, zeigte aber exakt auf master – jetzt zurück auf master.'); // **Return nicht vergessen, sonst geht der Branch-Move weiter** // ----> Das ist die Zeile die du wahrscheinlich vergessen hast! // Beende hier die Branch-Logik return { success: true }; } // Ansonsten wie gehabt: if (hasMaster) { // HEAD ist detached, zeigt nicht auf master -> backup + neuer master const timestamp = new Date().toISOString().replace(/[:.]/g, '-'); const backupBranch = `backup-master-${timestamp}`; await git.branch(['-m', 'master', backupBranch]); debug(`[autoCommit] Alter master in ${backupBranch} umbenannt.`); await git.checkout(['-b', 'master']); debug('[autoCommit] Neuer master-Branch erstellt und ausgecheckt.'); } else { // Kein master vorhanden (erstmalig) await git.checkout(['-b', 'master']); debug('[autoCommit] Kein master-Branch vorhanden, neuer master erstellt.'); } } await git.add(['-A']); debug('Alle Änderungen gestaged.'); await git.commit(message || 'test'); debug('Commit erfolgreich erstellt.'); // Push hier ggf. noch auskommentiert lassen return { success: true }; } catch (err) { debug(`FEHLER beim Commit: ${err.message}`); return { success: false, error: err.message }; } }); */ ipcMain.handle('set-monitoring', async (_e, folderPath, monitoring) => { let folders = store.get('folders') || []; const folderObj = folders.find(f => f.path === folderPath); if (!folderObj || folderObj.needsRelocation) { // Monitoring-Start für fehlenden Ordner: Ignorieren! return false; } folders = folders.map(f => f.path === folderPath ? { ...f, monitoring } : f ); store.set('folders', folders); debug(`[STORE] Monitoring für ${folderPath}: ${monitoring}`); // Monitoring-Watcher starten/stoppen if (monitoring) { startMonitoringWatcher(folderPath, win); } else { stopMonitoringWatcher(folderPath); } return monitoring; }); ipcMain.handle('ollama-list', async () => { // Versuche erst JSON-Ausgabe return new Promise(resolve => { exec('ollama list --json', (err, stdout, stderr) => { if (err) { // ENOENT → ollama CLI fehlt if (err.code === 'ENOENT') { return resolve({ status: 'no-cli' }); } // JSON-Modus nicht unterstützt? Dann Fallback auf plain text return parsePlain(); } try { const lines = stdout .split('\n') .filter(l => l.trim()) .map(l => JSON.parse(l)); return resolve({ status: 'ok', models: lines }); } catch (_) { return parsePlain(); } }); // Fallback-Funktion: parst die tabellarische Ausgabe function parsePlain() { exec('ollama list', (err2, out2, stderr2) => { if (err2) { if (err2.code === 'ENOENT') return resolve({ status: 'no-cli' }); return resolve({ status: 'error', msg: stderr2 || err2.message }); } const models = []; // Jede Zeile nach HEADER ignorieren, Spalten splitten out2.split('\n').slice(1).forEach(line => { const cols = line.trim().split(/\s{2,}/); if (cols[0]) models.push({ name: cols[0] }); }); resolve({ status: 'ok', models }); }); } }); }); ipcMain.handle('ollama-pull', async (_e, model) => { return new Promise(resolve => { exec(`ollama pull ${model}`, (err, stdout, stderr) => { if (err) return resolve({ status: 'error', msg: stderr || err.message }); resolve({ status: 'ok', msg: stdout }); }); }); }); ipcMain.handle('get-commit-model', () => store.get('commitModel') || 'qwen2.5-coder:7b'); ipcMain.handle('set-commit-model', (_e, val) => store.set('commitModel', val)); ipcMain.handle('get-readme-model', () => store.get('readmeModel') || 'qwen2.5-coder:32b'); ipcMain.handle('set-readme-model', (_e, val) => store.set('readmeModel', val)); ipcMain.handle('get-intelligent-commit-threshold', () => store.get('intelligentCommitThreshold')); ipcMain.handle('set-intelligent-commit-threshold', (_e, value) => { store.set('intelligentCommitThreshold', value); }); ipcMain.handle('get-minutes-commit-threshold', () => store.get('minutesCommitThreshold')); ipcMain.handle('set-minutes-commit-threshold', (_e, value) => { store.set('minutesCommitThreshold', value); }); ipcMain.handle('get-autostart', () => store.get('autostart')); ipcMain.handle('set-autostart', (_e, enabled) => { store.set('autostart', enabled); app.setLoginItemSettings({ openAtLogin: !!enabled }); }); ipcMain.handle('get-close-to-tray', () => store.get('closeToTray')); ipcMain.handle('set-close-to-tray', (_e, val) => store.set('closeToTray', val)); ipcMain.on('close-settings', () => { if (settingsWin) settingsWin.close(); }); ipcMain.handle('is-git-repo', async (_e, folderPath) => { const gitFolder = path.join(folderPath, '.git'); return fs.existsSync(gitFolder); }); // Setzt für ein Folder-Objekt den neuen Pfad, needsRelocation => false ipcMain.handle('relocate-folder', async (_e, oldPath, newPath) => { let folders = store.get('folders') || []; folders = folders.map(f => f.path === oldPath ? { ...f, path: newPath, needsRelocation: false } : f ); store.set('folders', folders); return folders.find(f => f.path === newPath); }); ipcMain.handle('pick-folder', async () => { const result = await dialog.showOpenDialog({ properties: ['openDirectory'] }); return result.canceled ? null : result.filePaths; }); ipcMain.handle('repo-has-commit', async (_e, repoPath, commitHash) => { try { const git = simpleGit(repoPath); // Perform a git log to check if the commit exists anywhere in the history const result = await git.raw(['branch', '--contains', commitHash]); // Falls irgendein Branch den Commit enthält, ist das unser Repo! return result.trim().length > 0; } catch { return false; } }); ipcMain.handle('get-daily-commit-stats', () => store.get('dailyCommitStats') || {}); ipcMain.handle('get-all-commit-hashes', async (_e, folderObj) => { try { if (folderObj.needsRelocation || !fs.existsSync(folderObj.path)) { return []; } const git = simpleGit(folderObj.path); // Wir holen ALLE Commits, HEAD → root const log = await git.log(['--all']); // Rückgabe: Array mit vollständigen Hashes (du kannst auch .substring(0, 7) nehmen, falls du überall Short-Hashes verwendest) return log.all.map(c => c.hash); } catch (err) { return []; } }); ipcMain.on('show-folder-context-menu', (event, folderPath) => { const win = BrowserWindow.fromWebContents(event.sender); const template = [ { label: 'Open Folder', click: () => { // öffnet den Ordner in der nativen Dateiansicht shell.openPath(folderPath); } }, { label: 'Copy Folder Path', click: () => { clipboard.writeText(folderPath); } } ]; const menu = Menu.buildFromTemplate(template); menu.popup({ window: win }); }); ipcMain.on('show-tree-context-menu', (event, { absPath, relPath, root, type }) => { const win = BrowserWindow.fromWebContents(event.sender); const template = [ { label: 'Open File', click: () => shell.openPath(absPath), visible: type === 'file' // Nur für Dateien anzeigen }, { label: 'Open Folder', click: () => shell.openPath(absPath), visible: type === 'dir' // Nur für Dateien anzeigen }, { label: 'Copy File Path', click: () => clipboard.writeText(absPath), visible: type === 'file' // Nur für Dateien anzeigen }, { label: 'Copy Folder Path', click: () => clipboard.writeText(absPath), visible: type === 'dir' // Nur für Dateien anzeigen }, { label: 'Add to .gitignore', click: () => { const gitignore = path.join(root, '.gitignore'); fs.appendFile(gitignore, `\n${relPath}\n`, (err) => { if (err) { dialog.showErrorBox('Error', 'Konnte nicht zu .gitignore hinzufügen:\n' + err.message); } }); } } ]; const menu = Menu.buildFromTemplate(template); menu.popup({ window: win }); }); // README STUFF const MAX_TOTAL_SIZE = 100 * 1024; // 100 KB const CODE_EXTS = [ '.js','.jsx','.ts','.tsx','.py','.sh','.rb','.pl','.php','.java','.c','.cpp','.h','.cs','.go','.rs','.json','.yml','.yaml','.toml','.md','.html','.css','.txt' ]; function isTextFile(filePath) { // Optional: Mehr Intelligenz! const ext = path.extname(filePath).toLowerCase(); if (CODE_EXTS.includes(ext)) return true; // Ignoriere node_modules und große Binaries! const stat = fs.statSync(filePath); if (stat.size > 200*1024) return false; const buffer = fs.readFileSync(filePath, {encoding: null, flag: 'r'}); for (let i = 0; i < Math.min(buffer.length, 400); i++) { if (buffer[i] === 0) return false; } return true; } // --- Dateien sammeln --- function getRelevantFiles(dir, maxSize = MAX_TOTAL_SIZE) { let files = []; function walk(current) { for (const f of fs.readdirSync(current)) { const full = path.join(current, f); if (fs.statSync(full).isDirectory()) { if (f.startsWith('.')) continue; // .git etc auslassen walk(full); } else if (isTextFile(full)) { files.push(full); console.log("pushed " + full) } } } walk(dir); // Sortiere nach Größe, nimm so viele wie ins Limit passen files = files.map(f => ({f, s: fs.statSync(f).size})) .sort((a,b)=>a.s-b.s); let sum = 0, selected = []; for (let {f,s} of files) { if (sum + s > maxSize) break; selected.push(f); sum += s; } console.log("files to generate readme from: " + selected) return selected; } ipcMain.handle('has-readme', async (_evt, folderPath) => { const readmePath = path.join(folderPath, 'README.md'); return fs.existsSync(readmePath); }); ipcMain.handle('generate-readme', async (evt, folderPath) => { // Hole Author aus Settings oder Default // const store = require('./yourStore'); // oder wie auch immer... const authorName = store.get('author') || 'Unknown'; const licenseType = store.get('license') || 'MIT'; const repoName = path.basename(folderPath); // Finde alle Code/Textdateien const codeFiles = getRelevantFiles(folderPath); let prompt = ` You are a tool that generates README.md files in markdown format. Do not review, suggest, or improve the code. Your only job is to create a clear and concise README in markdown, suitable for immediate use on GitHub. The project source code is below. Example README.md: --- # Example Project Name **Author:** Alice A simple script for downloading and processing web pages. ## Features - Downloads pages from a list of URLs - Extracts and saves the text content - Generates a summary report ## Usage \`\`\`bash python main.py input.txt \`\`\` --- NEVER add Contact Details. IMPORTANT: The LICENSE is ${licenseType}! So, write something like: "## License This project is licensed under the ${licenseType} License." Now write a similar README.md for the following project (think of a good name and use the provided author): **Author:** ${authorName} Source Code: `; for (const f of codeFiles) { let rel = path.relative(folderPath, f); prompt += `\n---\nFile: ${rel}\n${fs.readFileSync(f, 'utf-8')}\n`; } prompt += `\n---\nWrite ONLY the complete README.md in markdown format. Do NOT add extra explanations, commentary, or code reviews. And remember, the license is ${licenseType}!`; console.log(prompt); // LLM call //const win = BrowserWindow.fromWebContents(evt.sender); // für Cat-Stream await ensureOllamaRunning(); const selectedModel = store.get('readmeModel') || 'qwen2.5-coder:32b'; //let result = await streamLLMCommitMessages(prompt, null, win); let result = await streamLLMREADME(prompt, chunk => process.stdout.write(chunk), win); // Output fixen: Entferne eventuelle Codeblocks result = result.replace(/^```markdown|^```md|^```/gmi, '').replace(/```$/gmi, '').trim(); // Disclaimer einbauen const disclaimer = `> ⚠️ **This README.md has been automatically generated using AI and might contain hallucinations or inaccuracies. Please proceed with caution!**\n\n`; // Falls nötig, Name/Author oben einbauen let final = `# ${repoName}\n\n**Author:** ${authorName}\n\n${disclaimer}${result}`; // Schreibe/Überschreibe README.md (wenn du willst, oder Preview) fs.writeFileSync(path.join(folderPath, 'README.md'), final, 'utf-8'); return final; }); // … Ende der IPC-Handler … win.webContents.openDevTools({ mode: 'detach' }); // clean up on exit win.on('close', (e) => { if (!isQuiting && store.get('closeToTray')) { e.preventDefault(); win.hide(); } }); }; ipcMain.on('get-selected-sync', (event) => { const folders = store.get('folders') || []; const selectedPath = store.get('selected'); event.returnValue = folders.find(f => f.path === selectedPath) || null; });