${escapeXml(r.title)}

#!/usr/bin/env bun import { Database } from "bun:sqlite"; import { Glob, $ } from "bun"; import { parseArgs } from "util"; import * as sqliteVec from "sqlite-vec"; import { getDb, getDbPath, getPwd, getRealPath, homedir, resolve, setCustomIndexName, searchFTS, searchVec, reciprocalRankFusion, extractSnippet, getContextForFile, getCollectionIdByName, findSimilarFiles, matchFilesByGlob, getHashesNeedingEmbedding, getDocument as storeGetDocument, getMultipleDocuments as storeMultiGetDocuments, getStatus, hashContent, extractTitle, formatDocForEmbedding, formatQueryForEmbedding, chunkDocument, ensureVecTable, clearCache, getCacheKey, getCachedResult, setCachedResult, getIndexHealth, OLLAMA_URL, DEFAULT_EMBED_MODEL, DEFAULT_QUERY_MODEL, DEFAULT_RERANK_MODEL, DEFAULT_GLOB, DEFAULT_MULTI_GET_MAX_BYTES, } from "./store.js"; import type { SearchResult, RankedResult } from "./store.js"; import { formatSearchResults, formatDocuments, escapeXml, escapeCSV, type OutputFormat, } from "./formatter.js"; // Chunking: ~2000 tokens per chunk, ~3 bytes/token = 6KB const CHUNK_BYTE_SIZE = 6 * 1024; // Terminal colors (respects NO_COLOR env) const useColor = !process.env.NO_COLOR && process.stdout.isTTY; const c = { reset: useColor ? "\x1b[0m" : "", dim: useColor ? "\x1b[2m" : "", bold: useColor ? "\x1b[1m" : "", cyan: useColor ? "\x1b[36m" : "", yellow: useColor ? "\x1b[33m" : "", green: useColor ? "\x1b[32m" : "", magenta: useColor ? "\x1b[35m" : "", blue: useColor ? "\x1b[34m" : "", }; // Terminal cursor control const cursor = { hide() { process.stderr.write('\x1b[?25l'); }, show() { process.stderr.write('\x1b[?25h'); }, }; // Ensure cursor is restored on exit process.on('SIGINT', () => { cursor.show(); process.exit(130); }); process.on('SIGTERM', () => { cursor.show(); process.exit(143); }); // Terminal progress bar using OSC 9;4 escape sequence const progress = { set(percent: number) { process.stderr.write(`\x1b]9;4;1;${Math.round(percent)}\x07`); }, clear() { process.stderr.write(`\x1b]9;4;0\x07`); }, indeterminate() { process.stderr.write(`\x1b]9;4;3\x07`); }, error() { process.stderr.write(`\x1b]9;4;2\x07`); }, }; // Format seconds into human-readable ETA function formatETA(seconds: number): string { if (seconds < 60) return `${Math.round(seconds)}s`; if (seconds < 3600) return `${Math.floor(seconds / 60)}m ${Math.round(seconds % 60)}s`; return `${Math.floor(seconds / 3600)}h ${Math.floor((seconds % 3600) / 60)}m`; } // Check index health and print warnings/tips function checkIndexHealth(db: Database): void { const { needsEmbedding, totalDocs, daysStale } = getIndexHealth(db); // Warn if many docs need embedding if (needsEmbedding > 0) { const pct = Math.round((needsEmbedding / totalDocs) * 100); if (pct >= 10) { process.stderr.write(`${c.yellow}Warning: ${needsEmbedding} documents (${pct}%) need embeddings. Run 'qmd embed' for better results.${c.reset}\n`); } else { process.stderr.write(`${c.dim}Tip: ${needsEmbedding} documents need embeddings. Run 'qmd embed' to index them.${c.reset}\n`); } } // Check if most recent document update is older than 2 weeks if (daysStale !== null && daysStale >= 14) { process.stderr.write(`${c.dim}Tip: Index last updated ${daysStale} days ago. Run 'qmd update-all' to refresh.${c.reset}\n`); } } // Compute unique display path for a document // Always include at least parent folder + filename, add more parent dirs until unique function computeDisplayPath( filepath: string, collectionPath: string, existingPaths: Set ): string { // Get path relative to collection (include collection dir name) const collectionDir = collectionPath.replace(/\/$/, ''); const collectionName = collectionDir.split('/').pop() || ''; let relativePath: string; if (filepath.startsWith(collectionDir + '/')) { // filepath is under collection: use collection name + relative path relativePath = collectionName + filepath.slice(collectionDir.length); } else { // Fallback: just use the filepath relativePath = filepath; } const parts = relativePath.split('/').filter(p => p.length > 0); // Always include at least parent folder + filename (minimum 2 parts if available) // Then add more parent dirs until unique const minParts = Math.min(2, parts.length); for (let i = parts.length - minParts; i >= 0; i--) { const candidate = parts.slice(i).join('/'); if (!existingPaths.has(candidate)) { return candidate; } } // Absolute fallback: use full path (should be unique) return filepath; } // Auto-pull model if not found async function ensureModelAvailable(model: string): Promise { try { const response = await fetch(`${OLLAMA_URL}/api/show`, { method: "POST", headers: { "Content-Type": "application/json" }, body: JSON.stringify({ name: model }), }); if (response.ok) return; } catch { // Continue to pull attempt } console.log(`Model ${model} not found. Pulling...`); progress.indeterminate(); const pullResponse = await fetch(`${OLLAMA_URL}/api/pull`, { method: "POST", headers: { "Content-Type": "application/json" }, body: JSON.stringify({ name: model, stream: false }), }); if (!pullResponse.ok) { progress.error(); throw new Error(`Failed to pull model ${model}: ${pullResponse.status} - ${await pullResponse.text()}`); } progress.clear(); console.log(`Model ${model} pulled successfully.`); } async function getEmbedding(text: string, model: string, isQuery: boolean = false, title?: string, retried: boolean = false): Promise { const input = isQuery ? formatQueryForEmbedding(text) : formatDocForEmbedding(text, title); const response = await fetch(`${OLLAMA_URL}/api/embed`, { method: "POST", headers: { "Content-Type": "application/json" }, body: JSON.stringify({ model, input }), }); if (!response.ok) { const errorText = await response.text(); if (!retried && (errorText.includes("not found") || errorText.includes("does not exist"))) { await ensureModelAvailable(model); return getEmbedding(text, model, isQuery, title, true); } throw new Error(`Ollama API error: ${response.status} - ${errorText}`); } const data = await response.json() as { embeddings: number[][] }; return data.embeddings[0]; } // Qwen3-Reranker prompt format (trained for yes/no relevance classification) const RERANK_SYSTEM = `Judge whether the Document meets the requirements based on the Query and the Instruct provided. Note that the answer can only be "yes" or "no".`; function formatRerankPrompt(query: string, title: string, doc: string): string { return `: Determine if this document from a Shopify knowledge base is relevant to the search query. The query may reference specific Shopify programs, competitions, features, or named concepts (e.g., "Build a Business" competition, "Shop Pay", "Polaris"). Match documents that discuss the queried topic, even if phrasing differs. : ${query} : ${title} : ${doc}`; } type LogProb = { token: string; logprob: number }; type RerankResponse = { response: string; logprobs?: LogProb[]; }; function parseRerankResponse(data: RerankResponse): number { if (!data.logprobs || data.logprobs.length === 0) { throw new Error("Reranker response missing logprobs"); } const firstToken = data.logprobs[0]; const token = firstToken.token.toLowerCase().trim(); const confidence = Math.exp(firstToken.logprob); if (token === "yes") { return confidence; } if (token === "no") { return (1 - confidence) * 0.3; } throw new Error(`Unexpected reranker token: "${token}"`); } async function rerankSingle(prompt: string, model: string, db?: Database, retried: boolean = false): Promise { // Use generate with raw template for qwen3-reranker format // Include empty tags as per HuggingFace reference implementation const fullPrompt = `<|im_start|>system ${RERANK_SYSTEM}<|im_end|> <|im_start|>user ${prompt}<|im_end|> <|im_start|>assistant `; const requestBody = { model, prompt: fullPrompt, raw: true, stream: false, logprobs: true, options: { num_predict: 1 }, }; // Check cache const cacheKey = db ? getCacheKey(`${OLLAMA_URL}/api/generate`, requestBody) : ""; if (db) { const cached = getCachedResult(db, cacheKey); if (cached) { const data = JSON.parse(cached) as RerankResponse; return parseRerankResponse(data); } } const response = await fetch(`${OLLAMA_URL}/api/generate`, { method: "POST", headers: { "Content-Type": "application/json" }, body: JSON.stringify(requestBody), }); if (!response.ok) { const errorText = await response.text(); if (!retried && (errorText.includes("not found") || errorText.includes("does not exist"))) { await ensureModelAvailable(model); return rerankSingle(prompt, model, db, true); } throw new Error(`Ollama API error: ${response.status} - ${errorText}`); } const data = await response.json() as RerankResponse; // Cache the result if (db) { setCachedResult(db, cacheKey, JSON.stringify(data)); } return parseRerankResponse(data); } async function rerank(query: string, documents: { file: string; text: string }[], model: string = DEFAULT_RERANK_MODEL, db?: Database): Promise<{ file: string; score: number }[]> { const results: { file: string; score: number }[] = []; const total = documents.length; const PARALLEL = 5; process.stderr.write(`Reranking ${total} documents with ${model} (parallel: ${PARALLEL})...\n`); progress.indeterminate(); // Process in parallel batches for (let i = 0; i < documents.length; i += PARALLEL) { const batch = documents.slice(i, i + PARALLEL); const batchResults = await Promise.all( batch.map(async (doc) => { try { // Extract title from filename for reranker context const title = doc.file.split('/').pop()?.replace(/\.md$/, '') || doc.file; const prompt = formatRerankPrompt(query, title, doc.text.slice(0, 4000)); const score = await rerankSingle(prompt, model, db); return { file: doc.file, score }; } catch (err) { return { file: doc.file, score: 0 }; } }) ); results.push(...batchResults); const processed = Math.min(i + PARALLEL, total); progress.set((processed / total) * 100); process.stderr.write(`\rReranking: ${processed}/${total}`); } progress.clear(); process.stderr.write("\n"); return results.sort((a, b) => b.score - a.score); } function getOrCreateCollection(db: Database, pwd: string, globPattern: string): number { const now = new Date().toISOString(); // Use INSERT OR IGNORE to handle race conditions, then SELECT db.prepare(`INSERT OR IGNORE INTO collections (pwd, glob_pattern, created_at) VALUES (?, ?, ?)`).run(pwd, globPattern, now); const existing = db.prepare(`SELECT id FROM collections WHERE pwd = ? AND glob_pattern = ?`).get(pwd, globPattern) as { id: number }; return existing.id; } function cleanupDuplicateCollections(db: Database): void { // Remove duplicate collections keeping the oldest one db.exec(` DELETE FROM collections WHERE id NOT IN ( SELECT MIN(id) FROM collections GROUP BY pwd, glob_pattern ) `); // Remove bogus "." glob pattern entries (from earlier bug) db.exec(`DELETE FROM collections WHERE glob_pattern = '.'`); } function formatTimeAgo(date: Date): string { const seconds = Math.floor((Date.now() - date.getTime()) / 1000); if (seconds < 60) return `${seconds}s ago`; const minutes = Math.floor(seconds / 60); if (minutes < 60) return `${minutes}m ago`; const hours = Math.floor(minutes / 60); if (hours < 24) return `${hours}h ago`; const days = Math.floor(hours / 24); return `${days}d ago`; } function formatBytes(bytes: number): string { if (bytes < 1024) return `${bytes} B`; if (bytes < 1024 * 1024) return `${(bytes / 1024).toFixed(1)} KB`; if (bytes < 1024 * 1024 * 1024) return `${(bytes / (1024 * 1024)).toFixed(1)} MB`; return `${(bytes / (1024 * 1024 * 1024)).toFixed(1)} GB`; } function showStatus(): void { const dbPath = getDbPath(); const db = getDb(); // Cleanup any duplicate collections cleanupDuplicateCollections(db); // Index size let indexSize = 0; try { const stat = Bun.file(dbPath).size; indexSize = stat; } catch {} // Collections info const collections = db.prepare(` SELECT c.id, c.pwd, c.glob_pattern, c.created_at, COUNT(d.id) as doc_count, SUM(CASE WHEN d.active = 1 THEN 1 ELSE 0 END) as active_count, MAX(d.modified_at) as last_modified FROM collections c LEFT JOIN documents d ON d.collection_id = c.id GROUP BY c.id ORDER BY c.created_at DESC `).all() as { id: number; pwd: string; glob_pattern: string; created_at: string; doc_count: number; active_count: number; last_modified: string | null }[]; // Overall stats const totalDocs = db.prepare(`SELECT COUNT(*) as count FROM documents WHERE active = 1`).get() as { count: number }; const vectorCount = db.prepare(`SELECT COUNT(*) as count FROM content_vectors`).get() as { count: number }; const needsEmbedding = getHashesNeedingEmbedding(db); // Most recent update across all collections const mostRecent = db.prepare(`SELECT MAX(modified_at) as latest FROM documents WHERE active = 1`).get() as { latest: string | null }; console.log(`${c.bold}QMD Status${c.reset}\n`); console.log(`Index: ${dbPath}`); console.log(`Size: ${formatBytes(indexSize)}\n`); console.log(`${c.bold}Documents${c.reset}`); console.log(` Total: ${totalDocs.count} files indexed`); console.log(` Vectors: ${vectorCount.count} embedded`); if (needsEmbedding > 0) { console.log(` ${c.yellow}Pending: ${needsEmbedding} need embedding${c.reset} (run 'qmd embed')`); } if (mostRecent.latest) { const lastUpdate = new Date(mostRecent.latest); console.log(` Updated: ${formatTimeAgo(lastUpdate)}`); } // Get all path contexts const pathContexts = db.prepare(`SELECT path_prefix, context FROM path_contexts ORDER BY path_prefix`).all() as { path_prefix: string; context: string }[]; if (collections.length > 0) { console.log(`\n${c.bold}Collections${c.reset}`); for (const col of collections) { const lastMod = col.last_modified ? formatTimeAgo(new Date(col.last_modified)) : "never"; console.log(` ${c.cyan}${col.pwd}${c.reset}`); console.log(` ${col.glob_pattern} → ${col.active_count} docs (updated ${lastMod})`); // Show contexts that match this collection's path const matchingContexts = pathContexts.filter(ctx => ctx.path_prefix.startsWith(col.pwd) || col.pwd.startsWith(ctx.path_prefix) ); for (const ctx of matchingContexts) { const displayPath = shortPath(ctx.path_prefix); console.log(` ${c.dim}context: ${displayPath} → "${ctx.context}"${c.reset}`); } } } else { console.log(`\n${c.dim}No collections. Run 'qmd add .' to index markdown files.${c.reset}`); } db.close(); } // Update display_paths for all documents that have empty display_path function updateDisplayPaths(db: Database): number { // Get all docs with empty display_path, grouped by collection const emptyDocs = db.prepare(` SELECT d.id, d.filepath, c.pwd FROM documents d JOIN collections c ON d.collection_id = c.id WHERE d.active = 1 AND (d.display_path IS NULL OR d.display_path = '') `).all() as { id: number; filepath: string; pwd: string }[]; if (emptyDocs.length === 0) return 0; // Collect existing display_paths const existingPaths = new Set( (db.prepare(`SELECT display_path FROM documents WHERE active = 1 AND display_path != ''`).all() as { display_path: string }[]) .map(r => r.display_path) ); const updateStmt = db.prepare(`UPDATE documents SET display_path = ? WHERE id = ?`); let updated = 0; for (const doc of emptyDocs) { const displayPath = computeDisplayPath(doc.filepath, doc.pwd, existingPaths); updateStmt.run(displayPath, doc.id); existingPaths.add(displayPath); updated++; } return updated; } async function updateAllCollections(): Promise { const db = getDb(); cleanupDuplicateCollections(db); // Clear Ollama cache on update clearCache(db); const collections = db.prepare(`SELECT id, pwd, glob_pattern FROM collections`).all() as { id: number; pwd: string; glob_pattern: string }[]; if (collections.length === 0) { console.log(`${c.dim}No collections found. Run 'qmd add .' to index markdown files.${c.reset}`); db.close(); return; } // Update display_paths for any documents missing them (migration) const pathsUpdated = updateDisplayPaths(db); if (pathsUpdated > 0) { console.log(`${c.green}✓${c.reset} Updated ${pathsUpdated} display paths`); } db.close(); console.log(`${c.bold}Updating ${collections.length} collection(s)...${c.reset}\n`); for (let i = 0; i < collections.length; i++) { const col = collections[i]; console.log(`${c.cyan}[${i + 1}/${collections.length}]${c.reset} ${c.bold}${col.pwd}${c.reset}`); console.log(`${c.dim} Pattern: ${col.glob_pattern}${c.reset}`); // Temporarily set PWD for indexing const originalPwd = process.env.PWD; process.env.PWD = col.pwd; await indexFiles(col.glob_pattern); process.env.PWD = originalPwd; console.log(""); } console.log(`${c.green}✓ All collections updated.${c.reset}`); } async function addContext(pathArg: string, contextText: string): Promise { const db = getDb(); const now = new Date().toISOString(); // Resolve path - could be relative, absolute, or use ~ let pathPrefix = pathArg; if (pathPrefix === '.' || pathPrefix === './') { pathPrefix = getPwd(); } else if (pathPrefix.startsWith('~/')) { pathPrefix = homedir() + pathPrefix.slice(1); } else if (!pathPrefix.startsWith('/')) { pathPrefix = resolve(getPwd(), pathPrefix); } // Get realpath and normalize: remove trailing slash pathPrefix = getRealPath(pathPrefix).replace(/\/$/, ''); // Insert or update db.prepare(`INSERT INTO path_contexts (path_prefix, context, created_at) VALUES (?, ?, ?) ON CONFLICT(path_prefix) DO UPDATE SET context = excluded.context`).run(pathPrefix, contextText, now); console.log(`${c.green}✓${c.reset} Added context for: ${shortPath(pathPrefix)}`); console.log(`${c.dim}Context: ${contextText}${c.reset}`); db.close(); } function getDocument(filename: string, fromLine?: number, maxLines?: number): void { const db = getDb(); // Parse :linenum suffix from filename (e.g., "file.md:100") let filepath = filename; const colonMatch = filepath.match(/:(\d+)$/); if (colonMatch && !fromLine) { fromLine = parseInt(colonMatch[1], 10); filepath = filepath.slice(0, -colonMatch[0].length); } // Expand ~ to home directory if (filepath.startsWith('~/')) { filepath = homedir() + filepath.slice(1); } // Try exact match on filepath first let doc = db.prepare(`SELECT filepath, body FROM documents WHERE filepath = ? AND active = 1`).get(filepath) as { filepath: string; body: string } | null; // Try exact match on display_path if (!doc) { doc = db.prepare(`SELECT filepath, body FROM documents WHERE display_path = ? AND active = 1`).get(filepath) as { filepath: string; body: string } | null; } // Try matching by filename ending (allows partial paths) if (!doc) { doc = db.prepare(`SELECT filepath, body FROM documents WHERE filepath LIKE ? AND active = 1 LIMIT 1`).get(`%${filepath}`) as { filepath: string; body: string } | null; } // Try matching by display_path ending if (!doc) { doc = db.prepare(`SELECT filepath, body FROM documents WHERE display_path LIKE ? AND active = 1 LIMIT 1`).get(`%${filepath}`) as { filepath: string; body: string } | null; } if (!doc) { // Suggest similar files using Levenshtein distance const similar = findSimilarFiles(db, filepath, 5, 5); console.error(`Document not found: ${filename}`); if (similar.length > 0) { console.error(`\nDid you mean one of these?`); for (const s of similar) { console.error(` ${s}`); } } db.close(); process.exit(1); } // Get context for this file const context = getContextForFile(db, doc.filepath); let output = doc.body; // Apply line filtering if specified if (fromLine !== undefined || maxLines !== undefined) { const lines = output.split('\n'); const start = (fromLine || 1) - 1; // Convert to 0-indexed const end = maxLines !== undefined ? start + maxLines : lines.length; output = lines.slice(start, end).join('\n'); } // Output context header if exists if (context) { console.log(`Folder Context: ${context}\n---\n`); } console.log(output); db.close(); } // Multi-get: fetch multiple documents by glob pattern or comma-separated list function multiGet(pattern: string, maxLines?: number, maxBytes: number = DEFAULT_MULTI_GET_MAX_BYTES, format: OutputFormat = "cli"): void { const db = getDb(); // Check if it's a comma-separated list or a glob pattern const isCommaSeparated = pattern.includes(',') && !pattern.includes('*') && !pattern.includes('?'); let files: { filepath: string; displayPath: string; bodyLength: number }[]; if (isCommaSeparated) { // Comma-separated list of files const names = pattern.split(',').map(s => s.trim()).filter(Boolean); files = []; for (const name of names) { // Try exact match on display_path first let doc = db.prepare(`SELECT filepath, display_path, LENGTH(body) as body_length FROM documents WHERE display_path = ? AND active = 1`).get(name) as { filepath: string; display_path: string; body_length: number } | null; // Try suffix match if (!doc) { doc = db.prepare(`SELECT filepath, display_path, LENGTH(body) as body_length FROM documents WHERE display_path LIKE ? AND active = 1 LIMIT 1`).get(`%${name}`) as { filepath: string; display_path: string; body_length: number } | null; } if (doc) { files.push({ filepath: doc.filepath, displayPath: doc.display_path, bodyLength: doc.body_length }); } else { // Suggest similar files const similar = findSimilarFiles(db, name, 5, 3); console.error(`File not found: ${name}`); if (similar.length > 0) { console.error(` Did you mean: ${similar.join(', ')}`); } } } } else { // Glob pattern on display_path files = matchFilesByGlob(db, pattern); if (files.length === 0) { console.error(`No files matched pattern: ${pattern}`); db.close(); process.exit(1); } } // Collect results for structured output const results: { file: string; displayPath: string; title: string; body: string; context: string | null; skipped: boolean; skipReason?: string }[] = []; for (const file of files) { const context = getContextForFile(db, file.filepath); // Check size limit if (file.bodyLength > maxBytes) { results.push({ file: file.filepath, displayPath: file.displayPath, title: file.displayPath.split('/').pop() || file.displayPath, body: "", context, skipped: true, skipReason: `File too large (${Math.round(file.bodyLength / 1024)}KB > ${Math.round(maxBytes / 1024)}KB). Use 'qmd get ${file.displayPath}' to retrieve.`, }); continue; } const doc = db.prepare(`SELECT body, title FROM documents WHERE filepath = ? AND active = 1`).get(file.filepath) as { body: string; title: string } | null; if (!doc) continue; let body = doc.body; // Apply line limit if specified if (maxLines !== undefined) { const lines = body.split('\n'); body = lines.slice(0, maxLines).join('\n'); if (lines.length > maxLines) { body += `\n\n[... truncated ${lines.length - maxLines} more lines]`; } } results.push({ file: file.filepath, displayPath: file.displayPath, title: doc.title || file.displayPath.split('/').pop() || file.displayPath, body, context, skipped: false, }); } db.close(); // Output based on format if (format === "json") { const output = results.map(r => ({ file: r.displayPath, title: r.title, ...(r.context && { context: r.context }), ...(r.skipped ? { skipped: true, reason: r.skipReason } : { body: r.body }), })); console.log(JSON.stringify(output, null, 2)); } else if (format === "csv") { const escapeField = (val: string | null): string => { if (val === null || val === undefined) return ""; const str = String(val); if (str.includes(",") || str.includes('"') || str.includes("\n")) { return `"${str.replace(/"/g, '""')}"`; } return str; }; console.log("file,title,context,skipped,body"); for (const r of results) { console.log([r.displayPath, r.title, r.context || "", r.skipped ? "true" : "false", r.skipped ? r.skipReason : r.body].map(escapeField).join(",")); } } else if (format === "files") { for (const r of results) { const ctx = r.context ? `,"${r.context.replace(/"/g, '""')}"` : ""; const status = r.skipped ? "[SKIPPED]" : ""; console.log(`${r.displayPath}${ctx}${status ? `,${status}` : ""}`); } } else if (format === "md") { for (const r of results) { console.log(`## ${r.displayPath}\n`); if (r.title && r.title !== r.displayPath) console.log(`**Title:** ${r.title}\n`); if (r.context) console.log(`**Context:** ${r.context}\n`); if (r.skipped) { console.log(`> ${r.skipReason}\n`); } else { console.log("```"); console.log(r.body); console.log("```\n"); } } } else if (format === "xml") { console.log(''); console.log(""); for (const r of results) { console.log(" "); console.log(` ${escapeXml(r.displayPath)}`); console.log(` ${escapeXml(r.title)}`); if (r.context) console.log(` ${escapeXml(r.context)}`); if (r.skipped) { console.log(` true`); console.log(` ${escapeXml(r.skipReason || "")}`); } else { console.log(` ${escapeXml(r.body)}`); } console.log(" "); } console.log(""); } else { // CLI format (default) for (const r of results) { console.log(`\n${'='.repeat(60)}`); console.log(`File: ${r.displayPath}`); console.log(`${'='.repeat(60)}\n`); if (r.skipped) { console.log(`[SKIPPED: ${r.skipReason}]`); continue; } if (r.context) { console.log(`Folder Context: ${r.context}\n---\n`); } console.log(r.body); } } } // Get context for a filepath (finds most specific matching path prefix) function getContextForFile(db: Database, filepath: string): string | null { // Find all matching prefixes and return the longest (most specific) one const result = db.prepare(` SELECT context FROM path_contexts WHERE ? LIKE path_prefix || '%' ORDER BY LENGTH(path_prefix) DESC LIMIT 1 `).get(filepath) as { context: string } | null; return result?.context || null; } async function dropCollection(globPattern: string): Promise { const db = getDb(); const pwd = getPwd(); const collection = db.prepare(`SELECT id FROM collections WHERE pwd = ? AND glob_pattern = ?`).get(pwd, globPattern) as { id: number } | null; if (!collection) { console.log(`No collection found for ${pwd} with pattern ${globPattern}`); db.close(); return; } // Delete documents in this collection const deleted = db.prepare(`DELETE FROM documents WHERE collection_id = ?`).run(collection.id); // Delete the collection db.prepare(`DELETE FROM collections WHERE id = ?`).run(collection.id); console.log(`Dropped collection: ${pwd} (${globPattern})`); console.log(`Removed ${deleted.changes} documents`); console.log(`(Vectors kept for potential reuse)`); db.close(); } async function indexFiles(globPattern: string = DEFAULT_GLOB): Promise { const db = getDb(); const pwd = getPwd(); const now = new Date().toISOString(); const excludeDirs = ["node_modules", ".git", ".cache", "vendor", "dist", "build"]; // Clear Ollama cache on index clearCache(db); // Get or create collection for this (pwd, glob) const collectionId = getOrCreateCollection(db, pwd, globPattern); console.log(`Collection: ${pwd} (${globPattern})`); progress.indeterminate(); const glob = new Glob(globPattern); const files: string[] = []; for await (const file of glob.scan({ cwd: pwd, onlyFiles: true, followSymlinks: true })) { // Skip node_modules, hidden folders (.*), and other common excludes const parts = file.split("/"); const shouldSkip = parts.some(part => part === "node_modules" || part.startsWith(".") || excludeDirs.includes(part) ); if (!shouldSkip) { files.push(file); } } const total = files.length; if (total === 0) { progress.clear(); console.log("No files found matching pattern."); db.close(); return; } const insertStmt = db.prepare(`INSERT INTO documents (collection_id, name, title, hash, filepath, display_path, body, created_at, modified_at, active) VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, 1)`); const deactivateStmt = db.prepare(`UPDATE documents SET active = 0 WHERE collection_id = ? AND filepath = ? AND active = 1`); const findActiveStmt = db.prepare(`SELECT id, hash, title, display_path FROM documents WHERE collection_id = ? AND filepath = ? AND active = 1`); const findActiveAnyCollectionStmt = db.prepare(`SELECT id, collection_id, hash, title, display_path FROM documents WHERE filepath = ? AND active = 1`); const updateTitleStmt = db.prepare(`UPDATE documents SET title = ?, modified_at = ? WHERE id = ?`); const updateDisplayPathStmt = db.prepare(`UPDATE documents SET display_path = ? WHERE id = ?`); // Collect all existing display_paths for uniqueness check const existingDisplayPaths = new Set( (db.prepare(`SELECT display_path FROM documents WHERE active = 1 AND display_path != ''`).all() as { display_path: string }[]) .map(r => r.display_path) ); let indexed = 0, updated = 0, unchanged = 0, processed = 0; const seenFiles = new Set(); const startTime = Date.now(); for (const relativeFile of files) { const filepath = getRealPath(resolve(pwd, relativeFile)); seenFiles.add(filepath); const content = await Bun.file(filepath).text(); const hash = await hashContent(content); const name = relativeFile.replace(/\.md$/, "").split("/").pop() || relativeFile; const title = extractTitle(content, relativeFile); // First check if file exists in THIS collection const existing = findActiveStmt.get(collectionId, filepath) as { id: number; hash: string; title: string; display_path: string } | null; if (existing) { if (existing.hash === hash) { // Hash unchanged, but check if title needs updating if (existing.title !== title) { updateTitleStmt.run(title, now, existing.id); updated++; } else { unchanged++; } // Update display_path if empty if (!existing.display_path) { const displayPath = computeDisplayPath(filepath, pwd, existingDisplayPaths); updateDisplayPathStmt.run(displayPath, existing.id); existingDisplayPaths.add(displayPath); } } else { // Content changed - deactivate old, insert new existingDisplayPaths.delete(existing.display_path); deactivateStmt.run(collectionId, filepath); updated++; const stat = await Bun.file(filepath).stat(); const displayPath = computeDisplayPath(filepath, pwd, existingDisplayPaths); insertStmt.run(collectionId, name, title, hash, filepath, displayPath, content, stat ? new Date(stat.birthtime).toISOString() : now, stat ? new Date(stat.mtime).toISOString() : now); existingDisplayPaths.add(displayPath); } } else { // Check if file exists in ANY collection (would violate unique constraint) const existingAnywhere = findActiveAnyCollectionStmt.get(filepath) as { id: number; collection_id: number; hash: string; title: string; display_path: string } | null; if (existingAnywhere) { // File already indexed in another collection - skip it unchanged++; } else { indexed++; const stat = await Bun.file(filepath).stat(); const displayPath = computeDisplayPath(filepath, pwd, existingDisplayPaths); insertStmt.run(collectionId, name, title, hash, filepath, displayPath, content, stat ? new Date(stat.birthtime).toISOString() : now, stat ? new Date(stat.mtime).toISOString() : now); existingDisplayPaths.add(displayPath); } } processed++; progress.set((processed / total) * 100); const elapsed = (Date.now() - startTime) / 1000; const rate = processed / elapsed; const remaining = (total - processed) / rate; const eta = processed > 2 ? ` ETA: ${formatETA(remaining)}` : ""; process.stderr.write(`\rIndexing: ${processed}/${total}${eta} `); } // Deactivate documents in this collection that no longer exist const allActive = db.prepare(`SELECT filepath FROM documents WHERE collection_id = ? AND active = 1`).all(collectionId) as { filepath: string }[]; let removed = 0; for (const row of allActive) { if (!seenFiles.has(row.filepath)) { deactivateStmt.run(collectionId, row.filepath); removed++; } } // Check if vector index needs updating const needsEmbedding = getHashesNeedingEmbedding(db); progress.clear(); console.log(`\nIndexed: ${indexed} new, ${updated} updated, ${unchanged} unchanged, ${removed} removed`); if (needsEmbedding > 0) { console.log(`\nRun 'qmd embed' to update embeddings (${needsEmbedding} unique hashes need vectors)`); } db.close(); } function renderProgressBar(percent: number, width: number = 30): string { const filled = Math.round((percent / 100) * width); const empty = width - filled; const bar = "█".repeat(filled) + "░".repeat(empty); return bar; } async function vectorIndex(model: string = DEFAULT_EMBED_MODEL, force: boolean = false): Promise { const db = getDb(); const now = new Date().toISOString(); // If force, clear all vectors if (force) { console.log(`${c.yellow}Force re-indexing: clearing all vectors...${c.reset}`); db.exec(`DELETE FROM content_vectors`); db.exec(`DROP TABLE IF EXISTS vectors_vec`); } // Find unique hashes that need embedding (from active documents) // Use MIN(filepath) to get one representative filepath per hash const hashesToEmbed = db.prepare(` SELECT d.hash, d.body, MIN(d.filepath) as filepath, MIN(d.display_path) as display_path FROM documents d LEFT JOIN content_vectors v ON d.hash = v.hash AND v.seq = 0 WHERE d.active = 1 AND v.hash IS NULL GROUP BY d.hash `).all() as { hash: string; body: string; filepath: string; display_path: string }[]; if (hashesToEmbed.length === 0) { console.log(`${c.green}✓ All content hashes already have embeddings.${c.reset}`); db.close(); return; } // Prepare documents with chunks type ChunkItem = { hash: string; title: string; text: string; seq: number; pos: number; bytes: number; displayName: string }; const allChunks: ChunkItem[] = []; let multiChunkDocs = 0; for (const item of hashesToEmbed) { const encoder = new TextEncoder(); const bodyBytes = encoder.encode(item.body).length; if (bodyBytes === 0) continue; // Skip empty const title = extractTitle(item.body, item.filepath); const displayName = item.display_path || item.filepath; const chunks = chunkDocument(item.body, CHUNK_BYTE_SIZE); if (chunks.length > 1) multiChunkDocs++; for (let seq = 0; seq < chunks.length; seq++) { allChunks.push({ hash: item.hash, title, text: chunks[seq].text, seq, pos: chunks[seq].pos, bytes: encoder.encode(chunks[seq].text).length, displayName, }); } } if (allChunks.length === 0) { console.log(`${c.green}✓ No non-empty documents to embed.${c.reset}`); db.close(); return; } const totalBytes = allChunks.reduce((sum, c) => sum + c.bytes, 0); const totalChunks = allChunks.length; const totalDocs = hashesToEmbed.length; console.log(`${c.bold}Embedding ${totalDocs} documents${c.reset} ${c.dim}(${totalChunks} chunks, ${formatBytes(totalBytes)})${c.reset}`); if (multiChunkDocs > 0) { console.log(`${c.dim}${multiChunkDocs} documents split into multiple chunks${c.reset}`); } console.log(`${c.dim}Model: ${model}${c.reset}\n`); // Hide cursor during embedding cursor.hide(); // Get embedding dimensions from first chunk progress.indeterminate(); const firstEmbedding = await getEmbedding(allChunks[0].text, model, false, allChunks[0].title); ensureVecTable(db, firstEmbedding.length); const insertVecStmt = db.prepare(`INSERT OR REPLACE INTO vectors_vec (hash_seq, embedding) VALUES (?, ?)`); const insertContentVectorStmt = db.prepare(`INSERT OR REPLACE INTO content_vectors (hash, seq, pos, model, embedded_at) VALUES (?, ?, ?, ?, ?)`); let chunksEmbedded = 0, errors = 0, bytesProcessed = 0; const startTime = Date.now(); // Insert first chunk const firstHashSeq = `${allChunks[0].hash}_${allChunks[0].seq}`; insertVecStmt.run(firstHashSeq, new Float32Array(firstEmbedding)); insertContentVectorStmt.run(allChunks[0].hash, allChunks[0].seq, allChunks[0].pos, model, now); chunksEmbedded++; bytesProcessed += allChunks[0].bytes; for (let i = 1; i < allChunks.length; i++) { const chunk = allChunks[i]; try { const embedding = await getEmbedding(chunk.text, model, false, chunk.title); const hashSeq = `${chunk.hash}_${chunk.seq}`; insertVecStmt.run(hashSeq, new Float32Array(embedding)); insertContentVectorStmt.run(chunk.hash, chunk.seq, chunk.pos, model, now); chunksEmbedded++; bytesProcessed += chunk.bytes; } catch (err) { errors++; bytesProcessed += chunk.bytes; progress.error(); console.error(`\n${c.yellow}⚠ Error embedding "${chunk.displayName}" chunk ${chunk.seq}: ${err}${c.reset}`); } const percent = (bytesProcessed / totalBytes) * 100; progress.set(percent); const elapsed = (Date.now() - startTime) / 1000; const bytesPerSec = bytesProcessed / elapsed; const remainingBytes = totalBytes - bytesProcessed; const etaSec = remainingBytes / bytesPerSec; const bar = renderProgressBar(percent); const percentStr = percent.toFixed(0).padStart(3); const throughput = `${formatBytes(bytesPerSec)}/s`; const eta = elapsed > 2 ? formatETA(etaSec) : "..."; const errStr = errors > 0 ? ` ${c.yellow}${errors} err${c.reset}` : ""; process.stderr.write(`\r${c.cyan}${bar}${c.reset} ${c.bold}${percentStr}%${c.reset} ${c.dim}${chunksEmbedded}/${totalChunks}${c.reset}${errStr} ${c.dim}${throughput} ETA ${eta}${c.reset} `); } progress.clear(); cursor.show(); const totalTimeSec = (Date.now() - startTime) / 1000; const avgThroughput = formatBytes(totalBytes / totalTimeSec); console.log(`\r${c.green}${renderProgressBar(100)}${c.reset} ${c.bold}100%${c.reset} `); console.log(`\n${c.green}✓ Done!${c.reset} Embedded ${c.bold}${chunksEmbedded}${c.reset} chunks from ${c.bold}${totalDocs}${c.reset} documents in ${c.bold}${formatETA(totalTimeSec)}${c.reset} ${c.dim}(${avgThroughput}/s)${c.reset}`); if (errors > 0) { console.log(`${c.yellow}⚠ ${errors} chunks failed${c.reset}`); } db.close(); } // Sanitize a term for FTS5: remove punctuation except apostrophes function sanitizeFTS5Term(term: string): string { // Remove all non-alphanumeric except apostrophes (for contractions like "don't") return term.replace(/[^\w']/g, '').trim(); } // Build FTS5 query: phrase-aware with fallback to individual terms function buildFTS5Query(query: string): string { // Sanitize the full query for phrase matching const sanitizedQuery = query.replace(/[^\w\s']/g, '').trim(); const terms = query .split(/\s+/) .map(sanitizeFTS5Term) .filter(term => term.length >= 2); // Skip single chars and empty if (terms.length === 0) return ""; if (terms.length === 1) return `"${terms[0].replace(/"/g, '""')}"`; // Strategy: exact phrase OR proximity match OR individual terms // Exact phrase matches rank highest, then close proximity, then any term const phrase = `"${sanitizedQuery.replace(/"/g, '""')}"`; const quotedTerms = terms.map(t => `"${t.replace(/"/g, '""')}"`); // FTS5 NEAR syntax: NEAR(term1 term2, distance) const nearPhrase = `NEAR(${quotedTerms.join(' ')}, 10)`; const orTerms = quotedTerms.join(' OR '); // Exact phrase > proximity > any term return `(${phrase}) OR (${nearPhrase}) OR (${orTerms})`; } // Normalize BM25 score to 0-1 range using sigmoid function normalizeBM25(score: number): number { // BM25 scores are negative in SQLite (lower = better) // Typical range: -15 (excellent) to -2 (weak match) // Map to 0-1 where higher is better const absScore = Math.abs(score); // Sigmoid-ish normalization: maps ~2-15 range to ~0.1-0.95 return 1 / (1 + Math.exp(-(absScore - 5) / 3)); } // Get collection ID by name (matches pwd suffix) function getCollectionIdByName(db: Database, name: string): number | null { const result = db.prepare(`SELECT id FROM collections WHERE pwd LIKE ? ORDER BY LENGTH(pwd) DESC LIMIT 1`).get(`%${name}`) as { id: number } | null; return result?.id || null; } function searchFTS(db: Database, query: string, limit: number = 20, collectionId?: number): SearchResult[] { const ftsQuery = buildFTS5Query(query); if (!ftsQuery) return []; // BM25 weights: name=10, body=1 (title matches ranked higher) let sql = ` SELECT d.filepath, d.display_path, d.title, d.body, bm25(documents_fts, 10.0, 1.0) as score FROM documents_fts f JOIN documents d ON d.id = f.rowid WHERE documents_fts MATCH ? AND d.active = 1 `; const params: (string | number)[] = [ftsQuery]; if (collectionId !== undefined) { sql += ` AND d.collection_id = ?`; params.push(collectionId); } sql += ` ORDER BY score LIMIT ?`; params.push(limit); const stmt = db.prepare(sql); const results = stmt.all(...params) as { filepath: string; display_path: string; title: string; body: string; score: number }[]; return results.map(r => ({ file: r.filepath, displayPath: r.display_path, title: r.title, body: r.body, score: normalizeBM25(r.score), source: "fts" as const, })); } async function searchVec(db: Database, query: string, model: string, limit: number = 20, collectionId?: number): Promise { const tableExists = db.prepare(`SELECT name FROM sqlite_master WHERE type='table' AND name='vectors_vec'`).get(); if (!tableExists) return []; const queryEmbedding = await getEmbedding(query, model, true); const queryVec = new Float32Array(queryEmbedding); // Join: vectors_vec -> content_vectors -> documents // Over-retrieve to handle multiple chunks per document, then dedupe let sql = ` SELECT d.filepath, d.display_path, d.title, d.body, vec.distance, cv.pos FROM vectors_vec vec JOIN content_vectors cv ON vec.hash_seq = cv.hash || '_' || cv.seq JOIN documents d ON d.hash = cv.hash AND d.active = 1 WHERE vec.embedding MATCH ? AND k = ? `; if (collectionId !== undefined) { sql += ` AND d.collection_id = ${collectionId}`; } sql += ` ORDER BY vec.distance`; const stmt = db.prepare(sql); const rawResults = stmt.all(queryVec, limit * 3) as { filepath: string; display_path: string; title: string; body: string; distance: number; pos: number }[]; // Aggregate chunks per document: max score + small bonus for additional matches const byFile = new Map(); for (const r of rawResults) { const existing = byFile.get(r.filepath); if (!existing) { byFile.set(r.filepath, { filepath: r.filepath, displayPath: r.display_path, title: r.title, body: r.body, chunkCount: 1, bestPos: r.pos, bestDist: r.distance }); } else { existing.chunkCount++; if (r.distance < existing.bestDist) { existing.bestDist = r.distance; existing.bestPos = r.pos; } } } // Score = max chunk score + 0.02 bonus per additional chunk (capped at +0.1) return Array.from(byFile.values()) .map(r => { const maxScore = 1 / (1 + r.bestDist); const bonusChunks = Math.min(r.chunkCount - 1, 5); const bonus = bonusChunks * 0.02; return { file: r.filepath, displayPath: r.displayPath, title: r.title, body: r.body, score: maxScore + bonus, source: "vec" as const, chunkPos: r.bestPos, }; }) .sort((a, b) => b.score - a.score) .slice(0, limit); } function normalizeScores(results: SearchResult[]): SearchResult[] { if (results.length === 0) return results; const maxScore = Math.max(...results.map(r => r.score)); const minScore = Math.min(...results.map(r => r.score)); const range = maxScore - minScore || 1; return results.map(r => ({ ...r, score: (r.score - minScore) / range })); } // Reciprocal Rank Fusion: combines multiple ranked lists // RRF score = sum(1 / (k + rank)) across all lists where doc appears // k=60 is standard, provides good balance between top and lower ranks export type RankedResult = { file: string; displayPath: string; title: string; body: string; score: number }; function reciprocalRankFusion( resultLists: RankedResult[][], weights: number[] = [], // Weight per result list (default 1.0) k: number = 60 ): RankedResult[] { const scores = new Map(); for (let listIdx = 0; listIdx < resultLists.length; listIdx++) { const results = resultLists[listIdx]; const weight = weights[listIdx] ?? 1.0; for (let rank = 0; rank < results.length; rank++) { const doc = results[rank]; const rrfScore = weight / (k + rank + 1); const existing = scores.get(doc.file); if (existing) { existing.score += rrfScore; existing.bestRank = Math.min(existing.bestRank, rank); } else { scores.set(doc.file, { score: rrfScore, displayPath: doc.displayPath, title: doc.title, body: doc.body, bestRank: rank }); } } } // Add bonus for best rank: documents that ranked #1-3 in any list get a boost // This prevents dilution of exact matches by expansion queries return Array.from(scores.entries()) .map(([file, { score, displayPath, title, body, bestRank }]) => { let bonus = 0; if (bestRank === 0) bonus = 0.05; // Ranked #1 somewhere else if (bestRank <= 2) bonus = 0.02; // Ranked top-3 somewhere return { file, displayPath, title, body, score: score + bonus }; }) .sort((a, b) => b.score - a.score); } type OutputOptions = { format: OutputFormat; full: boolean; limit: number; minScore: number; all?: boolean; collection?: string; // Filter by collection name (pwd suffix match) }; // Extract snippet with more context lines for CLI display function extractSnippetWithContext(body: string, query: string, contextLines = 3, chunkPos?: number): { line: number; snippet: string; hasMatch: boolean } { // If chunkPos provided, focus search on that area let lineOffset = 0; let searchBody = body; if (chunkPos && chunkPos > 0) { const contextStart = Math.max(0, chunkPos - 200); searchBody = body.slice(contextStart); if (contextStart > 0) { lineOffset = body.slice(0, contextStart).split('\n').length - 1; } } const lines = searchBody.split('\n'); const queryTerms = query.toLowerCase().split(/\s+/).filter(t => t.length > 0); let bestLine = 0, bestScore = -1; for (let i = 0; i < lines.length; i++) { const lineLower = lines[i].toLowerCase(); let score = 0; for (const term of queryTerms) { if (lineLower.includes(term)) score++; } if (score > bestScore) { bestScore = score; bestLine = i; } } // No query match found - return beginning of chunk area or file if (bestScore <= 0) { const preview = lines.slice(0, contextLines * 2).join('\n').trim(); return { line: lineOffset + 1, snippet: preview, hasMatch: false }; } const startLine = Math.max(0, bestLine - contextLines); const endLine = Math.min(lines.length, bestLine + contextLines + 1); const snippet = lines.slice(startLine, endLine).join('\n').trim(); return { line: lineOffset + bestLine + 1, snippet, hasMatch: true }; } // Highlight query terms in text (skip short words < 3 chars) function highlightTerms(text: string, query: string): string { if (!useColor) return text; const terms = query.toLowerCase().split(/\s+/).filter(t => t.length >= 3); let result = text; for (const term of terms) { const regex = new RegExp(`(${term.replace(/[.*+?^${}()|[\]\\]/g, '\\$&')})`, 'gi'); result = result.replace(regex, `${c.yellow}${c.bold}$1${c.reset}`); } return result; } // Format score with color based on value function formatScore(score: number): string { const pct = (score * 100).toFixed(0).padStart(3); if (!useColor) return `${pct}%`; if (score >= 0.7) return `${c.green}${pct}%${c.reset}`; if (score >= 0.4) return `${c.yellow}${pct}%${c.reset}`; return `${c.dim}${pct}%${c.reset}`; } // Shorten directory path for display - relative to $HOME (used for context paths, not documents) function shortPath(dirpath: string): string { const home = homedir(); if (dirpath.startsWith(home)) { return '~' + dirpath.slice(home.length); } return dirpath; } function outputResults(results: { file: string; displayPath: string; title: string; body: string; score: number; context?: string | null; chunkPos?: number }[], query: string, opts: OutputOptions): void { const filtered = results.filter(r => r.score >= opts.minScore).slice(0, opts.limit); if (filtered.length === 0) { console.log("No results found above minimum score threshold."); return; } if (opts.format === "json") { // JSON output for LLM consumption const output = filtered.map(row => ({ score: Math.round(row.score * 100) / 100, file: row.displayPath, title: row.title, ...(row.context && { context: row.context }), ...(opts.full && { body: row.body }), ...(!opts.full && { snippet: extractSnippet(row.body, query, 300, row.chunkPos).snippet }), })); console.log(JSON.stringify(output, null, 2)); } else if (opts.format === "files") { // Simple score,filepath,context output for (const row of filtered) { const ctx = row.context ? `,"${row.context.replace(/"/g, '""')}"` : ""; console.log(`${row.score.toFixed(2)},${row.displayPath}${ctx}`); } } else if (opts.format === "cli") { for (let i = 0; i < filtered.length; i++) { const row = filtered[i]; const { line, snippet, hasMatch } = extractSnippetWithContext(row.body, query, 2, row.chunkPos); // Line 1: filepath const path = row.displayPath; const lineInfo = hasMatch ? `:${line}` : ""; console.log(`${c.cyan}${path}${c.dim}${lineInfo}${c.reset}`); // Line 2: Title (if available) if (row.title) { console.log(`${c.bold}Title: ${row.title}${c.reset}`); } // Line 3: Context (if available) if (row.context) { console.log(`${c.dim}Context: ${row.context}${c.reset}`); } // Line 4: Score const score = formatScore(row.score); console.log(`Score: ${c.bold}${score}${c.reset}`); console.log(); // Snippet with highlighting (no leading | chars for better word wrap) const highlighted = highlightTerms(snippet, query); console.log(highlighted); // Double empty line between results if (i < filtered.length - 1) console.log('\n'); } } else if (opts.format === "md") { for (const row of filtered) { const heading = row.title || row.displayPath; if (opts.full) { console.log(`---\n# ${heading}\n\n${row.body}\n`); } else { const { snippet } = extractSnippet(row.body, query, 500, row.chunkPos); console.log(`---\n# ${heading}\n\n${snippet}\n`); } } } else if (opts.format === "xml") { for (const row of filtered) { const titleAttr = row.title ? ` title="${row.title.replace(/"/g, '"')}"` : ""; if (opts.full) { console.log(`\n${row.body}\n\n`); } else { const { snippet } = extractSnippet(row.body, query, 500, row.chunkPos); console.log(`\n${snippet}\n\n`); } } } else { // CSV format console.log("score,file,title,line,snippet"); for (const row of filtered) { const { line, snippet } = extractSnippet(row.body, query, 500, row.chunkPos); const content = opts.full ? row.body : snippet; console.log(`${row.score.toFixed(4)},${escapeCSV(row.displayPath)},${escapeCSV(row.title)},${line},${escapeCSV(content)}`); } } } function search(query: string, opts: OutputOptions): void { const db = getDb(); // Resolve collection filter if specified let collectionId: number | undefined; if (opts.collection) { collectionId = getCollectionIdByName(db, opts.collection) ?? undefined; if (collectionId === undefined) { console.error(`Collection not found: ${opts.collection}`); db.close(); process.exit(1); } } // Use large limit for --all, otherwise fetch more than needed and let outputResults filter const fetchLimit = opts.all ? 100000 : Math.max(50, opts.limit * 2); const results = searchFTS(db, query, fetchLimit, collectionId); // Add context to results const resultsWithContext = results.map(r => ({ ...r, context: getContextForFile(db, r.file), })); db.close(); if (resultsWithContext.length === 0) { console.log("No results found."); return; } outputResults(resultsWithContext, query, opts); } async function vectorSearch(query: string, opts: OutputOptions, model: string = DEFAULT_EMBED_MODEL): Promise { const db = getDb(); // Resolve collection filter if specified let collectionId: number | undefined; if (opts.collection) { collectionId = getCollectionIdByName(db, opts.collection) ?? undefined; if (collectionId === undefined) { console.error(`Collection not found: ${opts.collection}`); db.close(); process.exit(1); } } const tableExists = db.prepare(`SELECT name FROM sqlite_master WHERE type='table' AND name='vectors_vec'`).get(); if (!tableExists) { console.error("Vector index not found. Run 'qmd embed' first to create embeddings."); db.close(); return; } // Check index health and warn about issues checkIndexHealth(db); // Expand query to multiple variations (with caching) const queries = await expandQuery(query, DEFAULT_QUERY_MODEL, db); process.stderr.write(`Searching with ${queries.length} query variations...\n`); // Collect results from all query variations // For --all, fetch more results per query const perQueryLimit = opts.all ? 500 : 20; const allResults = new Map(); for (const q of queries) { const vecResults = await searchVec(db, q, model, perQueryLimit, collectionId); for (const r of vecResults) { const existing = allResults.get(r.file); if (!existing || r.score > existing.score) { allResults.set(r.file, { file: r.file, displayPath: r.displayPath, title: r.title, body: r.body, score: r.score }); } } } // Sort by max score and limit to requested count const results = Array.from(allResults.values()) .sort((a, b) => b.score - a.score) .slice(0, opts.limit) .map(r => ({ ...r, context: getContextForFile(db, r.file) })); db.close(); if (results.length === 0) { console.log("No results found."); return; } outputResults(results, query, { ...opts, limit: results.length }); // Already limited } async function expandQuery(query: string, model: string = DEFAULT_QUERY_MODEL, db?: Database): Promise { process.stderr.write("Generating query variations...\n"); const prompt = `You are a search query expander. Given a search query, generate 2 alternative queries that would help find relevant documents. Rules: - Use synonyms and related terminology (e.g., "craft" → "craftsmanship", "quality", "excellence") - Rephrase to capture different angles (e.g., "engineering culture" → "technical excellence", "developer practices") - Keep proper nouns and named concepts exactly as written (e.g., "Build a Business", "Stripe", "Shopify") - Each variation should be 3-8 words, natural search terms - Do NOT just append words like "search" or "find" or "documents" Query: "${query}" Output exactly 2 variations, one per line, no numbering or bullets:`; const requestBody = { model, prompt, stream: false, think: false, options: { num_predict: 150 }, }; // Check cache const cacheDb = db || getDb(); const cacheKey = getCacheKey(`${OLLAMA_URL}/api/generate`, requestBody); const cached = getCachedResult(cacheDb, cacheKey); let responseText: string; if (cached) { responseText = cached; } else { const response = await fetch(`${OLLAMA_URL}/api/generate`, { method: "POST", headers: { "Content-Type": "application/json" }, body: JSON.stringify(requestBody), }); if (!response.ok) { const errorText = await response.text(); if (errorText.includes("not found") || errorText.includes("does not exist")) { await ensureModelAvailable(model); if (!db) cacheDb.close(); return expandQuery(query, model, db); } if (!db) cacheDb.close(); return [query]; } const data = await response.json() as { response: string }; responseText = data.response; setCachedResult(cacheDb, cacheKey, responseText); } if (!db) cacheDb.close(); const lines = responseText.trim().split('\n') .map(l => l.replace(/^[\d\.\-\*\"\s]+/, '').replace(/["\s]+$/, '').trim()) .filter(l => l.length > 2 && l.length < 100 && !l.startsWith('<') && !l.toLowerCase().includes('variation')) .slice(0, 2); const allQueries = [query, ...lines]; process.stderr.write(`${c.dim}Queries: ${allQueries.join(' | ')}${c.reset}\n`); return allQueries; } async function querySearch(query: string, opts: OutputOptions, embedModel: string = DEFAULT_EMBED_MODEL, rerankModel: string = DEFAULT_RERANK_MODEL): Promise { const db = getDb(); // Resolve collection filter if specified let collectionId: number | undefined; if (opts.collection) { collectionId = getCollectionIdByName(db, opts.collection) ?? undefined; if (collectionId === undefined) { console.error(`Collection not found: ${opts.collection}`); db.close(); process.exit(1); } } // Check index health and warn about issues checkIndexHealth(db); // Expand query to multiple variations (with caching) const queries = await expandQuery(query, DEFAULT_QUERY_MODEL, db); process.stderr.write(`Searching with ${queries.length} query variations...\n`); // Collect ranked result lists for RRF fusion const rankedLists: RankedResult[][] = []; const hasVectors = !!db.prepare(`SELECT name FROM sqlite_master WHERE type='table' AND name='vectors_vec'`).get(); for (const q of queries) { // FTS search - get ranked results const ftsResults = searchFTS(db, q, 20, collectionId); if (ftsResults.length > 0) { rankedLists.push(ftsResults.map(r => ({ file: r.file, displayPath: r.displayPath, title: r.title, body: r.body, score: r.score }))); } // Vector search - get ranked results if (hasVectors) { const vecResults = await searchVec(db, q, embedModel, 20, collectionId); if (vecResults.length > 0) { rankedLists.push(vecResults.map(r => ({ file: r.file, displayPath: r.displayPath, title: r.title, body: r.body, score: r.score }))); } } } // Apply Reciprocal Rank Fusion to combine all ranked lists // Give 2x weight to original query results (first 2 lists: FTS + vector) const weights = rankedLists.map((_, i) => i < 2 ? 2.0 : 1.0); const fused = reciprocalRankFusion(rankedLists, weights); const candidates = fused.slice(0, 30); // Over-retrieve for reranking if (candidates.length === 0) { console.log("No results found."); db.close(); return; } // Rerank with the original query (with caching) const reranked = await rerank( query, candidates.map(c => ({ file: c.file, text: c.body })), rerankModel, db ); // Blend RRF position score with reranker score using position-aware weights // Top retrieval results get more protection from reranker disagreement const candidateMap = new Map(candidates.map(c => [c.file, { displayPath: c.displayPath, title: c.title, body: c.body }])); const rrfRankMap = new Map(candidates.map((c, i) => [c.file, i + 1])); // 1-indexed rank const finalResults = reranked.map(r => { const rrfRank = rrfRankMap.get(r.file) || 30; // Position-aware blending: top retrieval results preserved more // Rank 1-3: 75% RRF, 25% reranker (trust retrieval for exact matches) // Rank 4-10: 60% RRF, 40% reranker // Rank 11+: 40% RRF, 60% reranker (trust reranker for lower-ranked) let rrfWeight: number; if (rrfRank <= 3) { rrfWeight = 0.75; } else if (rrfRank <= 10) { rrfWeight = 0.60; } else { rrfWeight = 0.40; } const rrfScore = 1 / rrfRank; // Position-based: 1, 0.5, 0.33... const blendedScore = rrfWeight * rrfScore + (1 - rrfWeight) * r.score; const candidate = candidateMap.get(r.file); return { file: r.file, displayPath: candidate?.displayPath || "", title: candidate?.title || "", body: candidate?.body || "", score: blendedScore, context: getContextForFile(db, r.file), }; }).sort((a, b) => b.score - a.score); db.close(); outputResults(finalResults, query, opts); } // Parse CLI arguments using util.parseArgs function parseCLI() { const { values, positionals } = parseArgs({ args: Bun.argv.slice(2), // Skip bun and script path options: { // Global options index: { type: "string" }, help: { type: "boolean", short: "h" }, // Search options n: { type: "string" }, "min-score": { type: "string" }, all: { type: "boolean" }, full: { type: "boolean" }, csv: { type: "boolean" }, md: { type: "boolean" }, xml: { type: "boolean" }, files: { type: "boolean" }, json: { type: "boolean" }, collection: { type: "string", short: "c" }, // Filter by collection // Add options drop: { type: "boolean" }, // Embed options force: { type: "boolean", short: "f" }, // Get options l: { type: "string" }, // max lines from: { type: "string" }, // start line "max-bytes": { type: "string" }, // max bytes for multi-get }, allowPositionals: true, strict: false, // Allow unknown options to pass through }); // Set global index name in store if (values.index) { setCustomIndexName(values.index); } // Determine output format let format: OutputFormat = "cli"; if (values.csv) format = "csv"; else if (values.md) format = "md"; else if (values.xml) format = "xml"; else if (values.files) format = "files"; else if (values.json) format = "json"; // Default limit: 20 for --files/--json, 5 otherwise // --all means return all results (use very large limit) const defaultLimit = (format === "files" || format === "json") ? 20 : 5; const isAll = values.all || false; const opts: OutputOptions = { format, full: values.full || false, limit: isAll ? 100000 : (values.n ? parseInt(values.n, 10) || defaultLimit : defaultLimit), minScore: values["min-score"] ? parseFloat(values["min-score"]) || 0 : 0, all: isAll, collection: values.collection as string | undefined, }; return { command: positionals[0] || "", args: positionals.slice(1), query: positionals.slice(1).join(" "), opts, values, }; } function showHelp(): void { console.log("Usage:"); console.log(" qmd add [--drop] [glob] - Add/update collection from $PWD (default: **/*.md)"); console.log(" qmd add-context - Add context description for files under path"); console.log(" qmd get [:line] [-l N] [--from N] - Get document (optionally from line, max N lines)"); console.log(" qmd multi-get [-l N] [--max-bytes N] - Get multiple docs by glob or comma-separated list"); console.log(" qmd status - Show index status and collections"); console.log(" qmd update-all - Re-index all collections"); console.log(" qmd embed [-f] - Create vector embeddings (chunks ~6KB each)"); console.log(" qmd cleanup - Remove cache and orphaned data, vacuum DB"); console.log(" qmd search - Full-text search (BM25)"); console.log(" qmd vsearch - Vector similarity search"); console.log(" qmd query - Combined search with query expansion + reranking"); console.log(" qmd mcp - Start MCP server (for AI agent integration)"); console.log(""); console.log("Global options:"); console.log(" --index - Use custom index name (default: index)"); console.log(""); console.log("Search options:"); console.log(" -n - Number of results (default: 5, or 20 for --files)"); console.log(" --all - Return all matches (use with --min-score to filter)"); console.log(" --min-score - Minimum similarity score"); console.log(" --full - Output full document instead of snippet"); console.log(" --files - Output score,filepath,context (default: 20 results)"); console.log(" --json - JSON output with snippets (default: 20 results)"); console.log(" --csv - CSV output with snippets"); console.log(" --md - Markdown output"); console.log(" --xml - XML output"); console.log(" -c, --collection - Filter results to a specific collection"); console.log(""); console.log("Multi-get options:"); console.log(" -l - Maximum lines per file"); console.log(" --max-bytes - Skip files larger than N bytes (default: 10240)"); console.log(" --json/--csv/--md/--xml/--files - Output format (same as search)"); console.log(""); console.log("Environment:"); console.log(" OLLAMA_URL - Ollama server URL (default: http://localhost:11434)"); console.log(""); console.log("Models:"); console.log(` Embedding: ${DEFAULT_EMBED_MODEL}`); console.log(` Reranking: ${DEFAULT_RERANK_MODEL}`); console.log(""); console.log(`Index: ${getDbPath()}`); } // Main CLI - only run if this is the main module if (import.meta.main) { const cli = parseCLI(); if (!cli.command || cli.values.help) { showHelp(); process.exit(cli.values.help ? 0 : 1); } switch (cli.command) { case "add": { const globArg = cli.args[0]; // Treat "." as "use default glob in current directory" const globPattern = (!globArg || globArg === ".") ? DEFAULT_GLOB : globArg; if (cli.values.drop) { await dropCollection(globPattern); } else { await indexFiles(globPattern); } break; } case "add-context": { // qmd add-context OR qmd add-context (uses .) if (cli.args.length === 0) { console.error("Usage: qmd add-context "); console.error(" qmd add-context . \"Description of files in current directory\""); process.exit(1); } let pathArg: string; let contextText: string; if (cli.args.length === 1) { // Single arg = context for current directory pathArg = "."; contextText = cli.args[0]; } else { pathArg = cli.args[0]; contextText = cli.args.slice(1).join(" "); } await addContext(pathArg, contextText); break; } case "get": { if (!cli.args[0]) { console.error("Usage: qmd get [:line] [--from ] [-l ]"); process.exit(1); } const fromLine = cli.values.from ? parseInt(cli.values.from as string, 10) : undefined; const maxLines = cli.values.l ? parseInt(cli.values.l as string, 10) : undefined; getDocument(cli.args[0], fromLine, maxLines); break; } case "multi-get": { if (!cli.args[0]) { console.error("Usage: qmd multi-get [-l ] [--max-bytes ] [--json|--csv|--md|--xml|--files]"); console.error(" pattern: glob (e.g., 'journals/2025-05*.md') or comma-separated list"); process.exit(1); } const maxLinesMulti = cli.values.l ? parseInt(cli.values.l as string, 10) : undefined; const maxBytes = cli.values["max-bytes"] ? parseInt(cli.values["max-bytes"] as string, 10) : DEFAULT_MULTI_GET_MAX_BYTES; multiGet(cli.args[0], maxLinesMulti, maxBytes, cli.opts.format); break; } case "status": showStatus(); break; case "update-all": await updateAllCollections(); break; case "embed": await vectorIndex(DEFAULT_EMBED_MODEL, cli.values.force || false); break; case "search": if (!cli.query) { console.error("Usage: qmd search [options] "); process.exit(1); } search(cli.query, cli.opts); break; case "vsearch": if (!cli.query) { console.error("Usage: qmd vsearch [options] "); process.exit(1); } // Default min-score for vector search is 0.3 if (!cli.values["min-score"]) { cli.opts.minScore = 0.3; } await vectorSearch(cli.query, cli.opts); break; case "query": if (!cli.query) { console.error("Usage: qmd query [options] "); process.exit(1); } await querySearch(cli.query, cli.opts); break; case "mcp": { const { startMcpServer } = await import("./mcp.js"); await startMcpServer(); break; } case "cleanup": { const db = getDb(); // 1. Clear ollama_cache const cacheCount = db.prepare(`SELECT COUNT(*) as c FROM ollama_cache`).get() as { c: number }; db.exec(`DELETE FROM ollama_cache`); console.log(`${c.green}✓${c.reset} Cleared ${cacheCount.c} cached API responses`); // 2. Remove orphaned vectors (no active document with that hash) const orphanedVecs = db.prepare(` SELECT COUNT(*) as c FROM content_vectors cv WHERE NOT EXISTS ( SELECT 1 FROM documents d WHERE d.hash = cv.hash AND d.active = 1 ) `).get() as { c: number }; if (orphanedVecs.c > 0) { db.exec(` DELETE FROM vectors_vec WHERE hash_seq IN ( SELECT cv.hash || '_' || cv.seq FROM content_vectors cv WHERE NOT EXISTS ( SELECT 1 FROM documents d WHERE d.hash = cv.hash AND d.active = 1 ) ) `); db.exec(` DELETE FROM content_vectors WHERE hash NOT IN ( SELECT hash FROM documents WHERE active = 1 ) `); console.log(`${c.green}✓${c.reset} Removed ${orphanedVecs.c} orphaned embedding chunks`); } else { console.log(`${c.dim}No orphaned embeddings to remove${c.reset}`); } // 3. Count inactive documents const inactiveDocs = db.prepare(`SELECT COUNT(*) as c FROM documents WHERE active = 0`).get() as { c: number }; if (inactiveDocs.c > 0) { db.exec(`DELETE FROM documents WHERE active = 0`); console.log(`${c.green}✓${c.reset} Removed ${inactiveDocs.c} inactive document records`); } // 4. Vacuum to reclaim space db.exec(`VACUUM`); console.log(`${c.green}✓${c.reset} Database vacuumed`); db.close(); break; } default: console.error(`Unknown command: ${cli.command}`); console.error("Run 'qmd --help' for usage."); process.exit(1); } } // end if (import.meta.main)