"""FastAPI backend for podcast-mindmap.""" import json import os import numpy as np from pathlib import Path from typing import Optional from fastapi import FastAPI, Query, HTTPException from fastapi.staticfiles import StaticFiles from fastapi.responses import FileResponse from database import get_db, init_db, get_all_embeddings app = FastAPI(title="Podcast Mindmap API") DATA_DIR = os.environ.get("DATA_DIR", "/data") AUDIO_DIR = os.environ.get("AUDIO_DIR", "/audio") STATIC_DIR = os.environ.get("STATIC_DIR", "/static") # Cache embeddings in memory _embeddings_cache = {} def _load_embeddings(podcast_id: Optional[str] = None): """Load and cache embeddings.""" key = podcast_id or "__all__" if key not in _embeddings_cache: vectors, meta = get_all_embeddings(podcast_id) _embeddings_cache[key] = (vectors, meta) return _embeddings_cache[key] def _invalidate_cache(): _embeddings_cache.clear() # ── API Routes ── @app.get("/api/podcasts") def list_podcasts(): db = get_db() rows = db.execute("SELECT * FROM podcasts").fetchall() db.close() return [dict(r) for r in rows] @app.get("/api/podcasts/{podcast_id}") def get_podcast(podcast_id: str): db = get_db() podcast = db.execute("SELECT * FROM podcasts WHERE id = ?", (podcast_id,)).fetchone() if not podcast: raise HTTPException(404, "Podcast not found") staffeln = db.execute("SELECT * FROM staffeln WHERE podcast_id = ? ORDER BY id", (podcast_id,)).fetchall() themes = db.execute("SELECT * FROM themes WHERE podcast_id = ?", (podcast_id,)).fetchall() episodes = db.execute("SELECT * FROM episodes WHERE podcast_id = ? ORDER BY id", (podcast_id,)).fetchall() quotes = db.execute("SELECT * FROM quotes WHERE podcast_id = ?", (podcast_id,)).fetchall() db.close() # Build mindmap_data compatible format return { "name": podcast["name"], "host": podcast["host"], "description": podcast["description"], "staffeln": [dict(s) for s in staffeln], "themes": [{**dict(t), "episodes": json.loads(t["episodes_json"])} for t in themes], "episodes": [{"id": e["id"], "title": e["title"], "guest": e["guest"], "staffel": e["staffel"], "audioFile": e["audio_file"]} for e in episodes], "quotes": [{ "id": q["id"], "text": q["text"], "verbatim": q["verbatim"], "speaker": q["speaker"], "episode": q["episode_id"], "startTime": q["start_time"], "endTime": q["end_time"], "isTopQuote": bool(q["is_top_quote"]), "themes": json.loads(q["themes_json"]), "audioFile": next((e["audio_file"] for e in episodes if e["id"] == q["episode_id"]), None) } for q in quotes], } @app.get("/api/podcasts/{podcast_id}/transcript/{episode_id}") def get_transcript(podcast_id: str, episode_id: str): db = get_db() paras = db.execute( "SELECT idx, start_time, end_time, text FROM paragraphs WHERE podcast_id = ? AND episode_id = ? ORDER BY idx", (podcast_id, episode_id) ).fetchall() db.close() return {"paragraphs": [{"start": p["start_time"], "end": p["end_time"], "text": p["text"]} for p in paras]} @app.get("/api/podcasts/{podcast_id}/transcript/{episode_id}/words") def get_words(podcast_id: str, episode_id: str): """Get word-level timestamps for an episode.""" db = get_db() # Check if words table exists try: words = db.execute( "SELECT segment_idx, word_idx, word, start_time, end_time FROM words " "WHERE podcast_id = ? AND episode_id = ? ORDER BY segment_idx, word_idx", (podcast_id, episode_id) ).fetchall() except Exception: db.close() return {"words": [], "available": False} db.close() if not words: return {"words": [], "available": False} return { "available": True, "words": [{"seg": w["segment_idx"], "idx": w["word_idx"], "word": w["word"], "start": w["start_time"], "end": w["end_time"]} for w in words] } def _table_exists(db, name: str) -> bool: return db.execute( "SELECT 1 FROM sqlite_master WHERE type='table' AND name=?", (name,) ).fetchone() is not None @app.get("/api/podcasts/{podcast_id}/episodes/{episode_id}/claims") def get_episode_claims(podcast_id: str, episode_id: str, claim_type: Optional[str] = None): """Claims (Behauptungen) für eine Episode.""" db = get_db() if not _table_exists(db, "claims"): db.close() return {"available": False, "claims": []} sql = ("SELECT id, paragraph_idx, claim_text, claim_type, verifiable, start_time " "FROM claims WHERE podcast_id = ? AND episode_id = ?") params = [podcast_id, episode_id] if claim_type: sql += " AND claim_type = ?" params.append(claim_type) sql += " ORDER BY paragraph_idx, id" rows = db.execute(sql, params).fetchall() db.close() return {"available": True, "claims": [dict(r) for r in rows]} @app.get("/api/podcasts/{podcast_id}/episodes/{episode_id}/questions") def get_episode_questions(podcast_id: str, episode_id: str, question_type: Optional[str] = None, answered: Optional[str] = None): """Fragen einer Episode.""" db = get_db() if not _table_exists(db, "questions"): db.close() return {"available": False, "questions": []} sql = ("SELECT id, paragraph_idx, question_text, question_type, answered, " "answered_by_podcast, answered_by_episode, answered_by_idx, start_time " "FROM questions WHERE podcast_id = ? AND episode_id = ?") params = [podcast_id, episode_id] if question_type: sql += " AND question_type = ?" params.append(question_type) if answered: sql += " AND answered = ?" params.append(answered) sql += " ORDER BY paragraph_idx, id" rows = db.execute(sql, params).fetchall() db.close() return {"available": True, "questions": [dict(r) for r in rows]} @app.get("/api/podcasts/{podcast_id}/episodes/{episode_id}/analyses-summary") def get_episode_analyses_summary(podcast_id: str, episode_id: str): """Zähler für die Analyse-Datentöpfe einer Episode (für UI-Buttons).""" db = get_db() out = {} if _table_exists(db, "claims"): out["claims"] = db.execute( "SELECT COUNT(*) FROM claims WHERE podcast_id = ? AND episode_id = ?", (podcast_id, episode_id) ).fetchone()[0] if _table_exists(db, "questions"): out["questions"] = db.execute( "SELECT COUNT(*) FROM questions WHERE podcast_id = ? AND episode_id = ?", (podcast_id, episode_id) ).fetchone()[0] out["questions_unanswered"] = db.execute( "SELECT COUNT(*) FROM questions WHERE podcast_id = ? AND episode_id = ? AND answered = 'no'", (podcast_id, episode_id) ).fetchone()[0] db.close() return out @app.get("/api/analyses/gaps") def get_gaps_analysis(min_size: int = 0, missing_in: Optional[str] = None, limit: int = 200): """Leerstellen-Analyse (#14): Cluster, die in mindestens einem Podcast fehlen.""" path = Path(DATA_DIR) / "gaps_analysis.json" if not path.exists(): return {"available": False} try: with open(path) as f: data = json.load(f) except Exception: return {"available": False} gaps = data.get("gaps", []) if min_size > 0: gaps = [g for g in gaps if g.get("cluster_size", 0) >= min_size] if missing_in: gaps = [g for g in gaps if g.get("missing_in") == missing_in] gaps = gaps[:limit] return { "available": True, "total_paragraphs": data.get("total_paragraphs"), "podcasts": data.get("podcasts", []), "n_clusters": data.get("n_clusters"), "clusters": data.get("clusters", []), "gaps": gaps, } @app.get("/api/analyses/shifts") def get_shifts_analysis(podcast: Optional[str] = None, theme: Optional[str] = None, min_drift: float = 0.0, limit: int = 200): """Narrative-Shift-Analyse (#15): Drift zwischen aufeinanderfolgenden Episoden je Theme.""" path = Path(DATA_DIR) / "narrative_shifts.json" if not path.exists(): return {"available": False} try: with open(path) as f: data = json.load(f) except Exception: return {"available": False} shifts = data.get("shifts", []) if podcast: shifts = [s for s in shifts if s.get("podcast") == podcast] if theme: shifts = [s for s in shifts if s.get("theme") == theme] if min_drift > 0: shifts = [s for s in shifts if s.get("max_drift", 0) >= min_drift] shifts = shifts[:limit] podcasts = sorted({s.get("podcast") for s in data.get("shifts", []) if s.get("podcast")}) return { "available": True, "total_themes_tracked": data.get("total_themes_tracked"), "themes": data.get("themes", []), "podcasts": podcasts, "shifts": shifts, } @app.get("/api/analyses/density") def get_density(podcast_id: Optional[str] = None, bins: int = 20): """Faktendichte (#16): claims-Verteilung je Episode in N Bins ueber die Paragraph-Achse.""" db = get_db() if not _table_exists(db, "claims"): db.close() return {"available": False, "episodes": []} where = "WHERE 1=1" params = [] if podcast_id: where += " AND e.podcast_id = ?" params.append(podcast_id) rows = db.execute( f""" SELECT e.podcast_id, e.id AS episode_id, e.title, e.guest, e.staffel, (SELECT MAX(p.idx) FROM paragraphs p WHERE p.podcast_id = e.podcast_id AND p.episode_id = e.id) AS max_para, (SELECT COUNT(*) FROM paragraphs p WHERE p.podcast_id = e.podcast_id AND p.episode_id = e.id) AS n_para FROM episodes e {where} ORDER BY e.podcast_id, e.id """, params, ).fetchall() out = [] for r in rows: n_para = r["n_para"] or 0 max_para = r["max_para"] or 0 if n_para == 0: continue claim_rows = db.execute( "SELECT paragraph_idx, claim_type, verifiable FROM claims " "WHERE podcast_id = ? AND episode_id = ?", (r["podcast_id"], r["episode_id"]), ).fetchall() total_claims = len(claim_rows) verifiable = sum(1 for c in claim_rows if c["verifiable"]) bin_counts = [0] * bins bin_verifiable = [0] * bins denom = max(max_para, 1) for c in claim_rows: idx = c["paragraph_idx"] or 0 b = min(bins - 1, int(idx * bins / (denom + 1))) bin_counts[b] += 1 if c["verifiable"]: bin_verifiable[b] += 1 out.append({ "podcast_id": r["podcast_id"], "episode_id": r["episode_id"], "title": r["title"], "guest": r["guest"], "staffel": r["staffel"], "n_paragraphs": n_para, "total_claims": total_claims, "verifiable_claims": verifiable, "density_bins": bin_counts, "verifiable_bins": bin_verifiable, "claims_per_para": (total_claims / n_para) if n_para else 0.0, }) db.close() return {"available": True, "bins": bins, "episodes": out} @app.get("/api/analyses/debates") def get_debates(topic: Optional[str] = None, source_podcast: Optional[str] = None, target_podcast: Optional[str] = None, limit: int = 200): """Cross-Podcast-Debatten (#18): kuratierte Gegenueberstellungen je Thema.""" db = get_db() if not _table_exists(db, "debates"): db.close() return {"available": False, "debates": []} sql = ( "SELECT d.id, d.topic, d.agreement, d.divergence, d.insight, d.score, " "d.source_podcast, d.source_episode, d.source_idx, " "d.target_podcast, d.target_episode, d.target_idx, " "p1.text AS source_text, p1.start_time AS source_start, " "p2.text AS target_text, p2.start_time AS target_start, " "pc1.name AS source_pname, pc2.name AS target_pname, " "e1.title AS source_title, e1.guest AS source_guest, " "e2.title AS target_title, e2.guest AS target_guest " "FROM debates d " "JOIN paragraphs p1 ON d.source_podcast = p1.podcast_id AND d.source_episode = p1.episode_id AND d.source_idx = p1.idx " "JOIN paragraphs p2 ON d.target_podcast = p2.podcast_id AND d.target_episode = p2.episode_id AND d.target_idx = p2.idx " "JOIN podcasts pc1 ON d.source_podcast = pc1.id " "JOIN podcasts pc2 ON d.target_podcast = pc2.id " "JOIN episodes e1 ON d.source_podcast = e1.podcast_id AND d.source_episode = e1.id " "JOIN episodes e2 ON d.target_podcast = e2.podcast_id AND d.target_episode = e2.id " "WHERE d.topic IS NOT NULL AND d.topic != 'error' AND d.topic != ''" ) params = [] if topic: sql += " AND d.topic LIKE ?" params.append(f"%{topic}%") if source_podcast: sql += " AND d.source_podcast = ?" params.append(source_podcast) if target_podcast: sql += " AND d.target_podcast = ?" params.append(target_podcast) sql += " ORDER BY d.score DESC LIMIT ?" params.append(limit) rows = db.execute(sql, params).fetchall() topics = db.execute( "SELECT topic, COUNT(*) c FROM debates " "WHERE topic IS NOT NULL AND topic != 'error' AND topic != '' " "GROUP BY topic ORDER BY c DESC LIMIT 30" ).fetchall() podcasts = db.execute("SELECT id, name FROM podcasts").fetchall() db.close() return { "available": True, "podcasts": [dict(p) for p in podcasts], "topics": [{"topic": t["topic"], "count": t["c"]} for t in topics], "debates": [dict(r) for r in rows], } @app.get("/api/analyses/arguments") def get_arguments(relation: Optional[str] = None, podcast_id: Optional[str] = None, episode_id: Optional[str] = None, source_podcast: Optional[str] = None, target_podcast: Optional[str] = None, limit: int = 200): """Argumentketten (#13): klassifizierte Relationen zwischen Absatz-Paaren.""" db = get_db() if not _table_exists(db, "argument_links"): db.close() return {"available": False, "links": []} sql = ( "SELECT a.id, a.relation, a.confidence, a.explanation, a.score, " "a.source_podcast, a.source_episode, a.source_idx, " "a.target_podcast, a.target_episode, a.target_idx, " "p1.text AS source_text, p1.start_time AS source_start, " "p2.text AS target_text, p2.start_time AS target_start, " "e1.title AS source_title, e1.guest AS source_guest, " "e2.title AS target_title, e2.guest AS target_guest " "FROM argument_links a " "JOIN paragraphs p1 ON a.source_podcast = p1.podcast_id AND a.source_episode = p1.episode_id AND a.source_idx = p1.idx " "JOIN paragraphs p2 ON a.target_podcast = p2.podcast_id AND a.target_episode = p2.episode_id AND a.target_idx = p2.idx " "JOIN episodes e1 ON a.source_podcast = e1.podcast_id AND a.source_episode = e1.id " "JOIN episodes e2 ON a.target_podcast = e2.podcast_id AND a.target_episode = e2.id " "WHERE a.relation IS NOT NULL AND a.relation != 'error' " # Wortwoertlich identische Paare als Sicherheitsnetz fuer kuenftige Re-Runs nicht zeigen. "AND NOT (a.relation = 'gleicher_punkt' AND p1.text = p2.text)" ) params = [] if relation: sql += " AND a.relation = ?" params.append(relation) if podcast_id: sql += " AND (a.source_podcast = ? OR a.target_podcast = ?)" params.extend([podcast_id, podcast_id]) if episode_id: sql += " AND (a.source_episode = ? OR a.target_episode = ?)" params.extend([episode_id, episode_id]) if source_podcast: sql += " AND a.source_podcast = ?" params.append(source_podcast) if target_podcast: sql += " AND a.target_podcast = ?" params.append(target_podcast) sql += " ORDER BY a.confidence DESC, a.score DESC LIMIT ?" params.append(limit) rows = db.execute(sql, params).fetchall() relations = db.execute( "SELECT relation, COUNT(*) c FROM argument_links " "WHERE relation IS NOT NULL AND relation != 'error' " "GROUP BY relation ORDER BY c DESC" ).fetchall() podcasts = db.execute("SELECT id, name FROM podcasts").fetchall() db.close() return { "available": True, "podcasts": [dict(p) for p in podcasts], "relations": [{"relation": r["relation"], "count": r["c"]} for r in relations], "links": [dict(r) for r in rows], } @app.get("/api/search") def search(q: str = Query(..., min_length=2), podcast_id: Optional[str] = None, limit: int = 50): """Full-text search across all transcripts.""" db = get_db() q_like = f"%{q}%" if podcast_id: rows = db.execute( "SELECT p.podcast_id, p.episode_id, p.idx, p.start_time, p.text, e.title, e.guest " "FROM paragraphs p JOIN episodes e ON p.podcast_id = e.podcast_id AND p.episode_id = e.id " "WHERE p.podcast_id = ? AND p.text LIKE ? LIMIT ?", (podcast_id, q_like, limit) ).fetchall() else: rows = db.execute( "SELECT p.podcast_id, p.episode_id, p.idx, p.start_time, p.text, e.title, e.guest " "FROM paragraphs p JOIN episodes e ON p.podcast_id = e.podcast_id AND p.episode_id = e.id " "WHERE p.text LIKE ? LIMIT ?", (q_like, limit) ).fetchall() db.close() return [dict(r) for r in rows] @app.get("/api/similar/{podcast_id}/{episode_id}/{para_idx}") def find_similar(podcast_id: str, episode_id: str, para_idx: int, limit: int = 10, cross_podcast: bool = False): """Find semantically similar paragraphs using embeddings.""" db = get_db() row = db.execute( "SELECT id, embedding FROM paragraphs WHERE podcast_id = ? AND episode_id = ? AND idx = ?", (podcast_id, episode_id, para_idx) ).fetchone() db.close() if not row or not row["embedding"]: raise HTTPException(404, "Paragraph not found or not embedded") query_vec = np.frombuffer(row["embedding"], dtype=np.float32) query_vec = query_vec / np.linalg.norm(query_vec) # Load all embeddings search_podcast = None if cross_podcast else podcast_id vectors, meta = _load_embeddings(search_podcast) if vectors is None or len(meta) == 0: return [] # Cosine similarity (vectors are already normalized) scores = vectors @ query_vec # Get top results (skip self) indices = np.argsort(scores)[::-1] results = [] for idx in indices: m = meta[idx] # Skip self if m["podcast_id"] == podcast_id and m["episode_id"] == episode_id and m["idx"] == para_idx: continue # Skip same episode unless cross_podcast if not cross_podcast and m["episode_id"] == episode_id: continue results.append({ "podcast_id": m["podcast_id"], "episode_id": m["episode_id"], "paragraph_idx": m["idx"], "score": float(scores[idx]) }) if len(results) >= limit: break # Enrich with text previews db = get_db() for r in results: p = db.execute( "SELECT text, start_time FROM paragraphs WHERE podcast_id = ? AND episode_id = ? AND idx = ?", (r["podcast_id"], r["episode_id"], r["paragraph_idx"]) ).fetchone() if p: r["text_preview"] = p["text"][:150] r["start_time"] = p["start_time"] ep = db.execute( "SELECT title, guest FROM episodes WHERE podcast_id = ? AND id = ?", (r["podcast_id"], r["episode_id"]) ).fetchone() if ep: r["episode_title"] = ep["title"] r["guest"] = ep["guest"] db.close() return results @app.get("/api/similar-precomputed/{podcast_id}/{episode_id}/{para_idx}") def get_precomputed_similar(podcast_id: str, episode_id: str, para_idx: int, limit: int = 10): """Get precomputed similar paragraphs (fast, no embedding computation).""" db = get_db() rows = db.execute( "SELECT sl.target_podcast, sl.target_episode, sl.target_idx, sl.score, " "p.text, p.start_time, e.title, e.guest " "FROM semantic_links sl " "JOIN paragraphs p ON sl.target_podcast = p.podcast_id AND sl.target_episode = p.episode_id AND sl.target_idx = p.idx " "JOIN episodes e ON sl.target_podcast = e.podcast_id AND sl.target_episode = e.id " "WHERE sl.podcast_id = ? AND sl.source_episode = ? AND sl.source_idx = ? " "ORDER BY sl.score DESC LIMIT ?", (podcast_id, episode_id, para_idx, limit) ).fetchall() db.close() return [{ "podcast_id": r["target_podcast"], "episode_id": r["target_episode"], "paragraph_idx": r["target_idx"], "score": r["score"], "text_preview": r["text"][:150], "start_time": r["start_time"], "episode_title": r["title"], "guest": r["guest"], } for r in rows] @app.get("/api/compare") def compare_podcasts(a: str = Query(...), b: str = Query(...)): """Compare two podcasts: shared topics, stats, cross-links.""" db = get_db() # Basic stats stats = {} for pid in (a, b): podcast = db.execute("SELECT * FROM podcasts WHERE id = ?", (pid,)).fetchone() if not podcast: raise HTTPException(404, f"Podcast '{pid}' not found") ep_count = db.execute("SELECT COUNT(*) as c FROM episodes WHERE podcast_id = ?", (pid,)).fetchone()["c"] q_count = db.execute("SELECT COUNT(*) as c FROM quotes WHERE podcast_id = ?", (pid,)).fetchone()["c"] p_count = db.execute("SELECT COUNT(*) as c FROM paragraphs WHERE podcast_id = ?", (pid,)).fetchone()["c"] stats[pid] = {"name": podcast["name"], "episodes": ep_count, "quotes": q_count, "paragraphs": p_count} # Shared topics via topic tags topics_a = db.execute( "SELECT DISTINCT t.tag FROM topics t JOIN paragraphs p ON t.paragraph_id = p.id WHERE p.podcast_id = ?", (a,) ).fetchall() topics_b = db.execute( "SELECT DISTINCT t.tag FROM topics t JOIN paragraphs p ON t.paragraph_id = p.id WHERE p.podcast_id = ?", (b,) ).fetchall() set_a = {r["tag"] for r in topics_a} set_b = {r["tag"] for r in topics_b} shared = sorted(set_a & set_b) only_a = sorted(set_a - set_b) only_b = sorted(set_b - set_a) # Cross-podcast semantic links count cross_links = 0 top_links = [] try: cross_links = db.execute( "SELECT COUNT(*) as c FROM semantic_links WHERE " "(podcast_id = ? AND target_podcast = ?) OR (podcast_id = ? AND target_podcast = ?)", (a, b, b, a) ).fetchone()["c"] top_links = db.execute( "SELECT sl.*, p1.text as source_text, p2.text as target_text, " "e1.title as source_title, e2.title as target_title " "FROM semantic_links sl " "JOIN paragraphs p1 ON sl.podcast_id = p1.podcast_id AND sl.source_episode = p1.episode_id AND sl.source_idx = p1.idx " "JOIN paragraphs p2 ON sl.target_podcast = p2.podcast_id AND sl.target_episode = p2.episode_id AND sl.target_idx = p2.idx " "JOIN episodes e1 ON sl.podcast_id = e1.podcast_id AND sl.source_episode = e1.id " "JOIN episodes e2 ON sl.target_podcast = e2.podcast_id AND sl.target_episode = e2.id " "WHERE (sl.podcast_id = ? AND sl.target_podcast = ?) OR (sl.podcast_id = ? AND sl.target_podcast = ?) " "ORDER BY sl.score DESC LIMIT 20", (a, b, b, a) ).fetchall() except Exception: pass # semantic_links table may not exist yet db.close() return { "stats": stats, "shared_topics": shared, "only_in": {a: only_a, b: only_b}, "cross_links_count": cross_links, "top_cross_links": [{ "source_podcast": r["podcast_id"], "source_episode": r["source_episode"], "source_text": r["source_text"][:150], "source_title": r["source_title"], "target_podcast": r["target_podcast"], "target_episode": r["target_episode"], "target_text": r["target_text"][:150], "target_title": r["target_title"], "score": r["score"] } for r in top_links] } @app.get("/api/semantic-search") def semantic_search(q: str = Query(..., min_length=3), podcast_id: Optional[str] = None, limit: int = 20): """Semantic search using query embedding.""" from embeddings import embed_texts try: query_vec = np.array(embed_texts([q])[0], dtype=np.float32) query_vec = query_vec / np.linalg.norm(query_vec) except Exception as e: raise HTTPException(500, f"Embedding failed: {e}") vectors, meta = _load_embeddings(podcast_id) if vectors is None: return [] scores = vectors @ query_vec indices = np.argsort(scores)[::-1][:limit] db = get_db() results = [] for idx in indices: m = meta[idx] score = float(scores[idx]) if score < 0.3: break p = db.execute( "SELECT text, start_time FROM paragraphs WHERE id = ?", (m["id"],) ).fetchone() ep = db.execute( "SELECT title, guest FROM episodes WHERE podcast_id = ? AND id = ?", (m["podcast_id"], m["episode_id"]) ).fetchone() results.append({ "podcast_id": m["podcast_id"], "episode_id": m["episode_id"], "paragraph_idx": m["idx"], "score": score, "text_preview": p["text"][:200] if p else "", "start_time": p["start_time"] if p else None, "episode_title": ep["title"] if ep else "", "guest": ep["guest"] if ep else "", }) db.close() return results # ── Startup ── @app.on_event("startup") def startup(): init_db() # Auto-import podcasts from data directory data_path = Path(DATA_DIR) if data_path.exists(): for podcast_dir in data_path.iterdir(): if not podcast_dir.is_dir(): continue mindmap_file = podcast_dir / "mindmap_data.json" srt_file = podcast_dir / "srt_index.json" if mindmap_file.exists() and srt_file.exists(): podcast_id = podcast_dir.name db = get_db() existing = db.execute("SELECT id FROM podcasts WHERE id = ?", (podcast_id,)).fetchone() db.close() if not existing: print(f"Importing podcast: {podcast_id}") with open(mindmap_file) as f: mindmap_data = json.load(f) with open(srt_file) as f: srt_index = json.load(f) from database import import_podcast import_podcast(podcast_id, mindmap_data, srt_index) # ── Static Files + Audio ── # Mount audio directory (per-podcast subdirs) if os.path.isdir(AUDIO_DIR): app.mount("/audio", StaticFiles(directory=AUDIO_DIR), name="audio") # SPA-Routing: erst statische Files versuchen, sonst index.html zurueckliefern. # Damit funktionieren Tiefen-Links wie /ldn oder /neu-denken (Issue #10). @app.get("/") def spa_root(): index = Path(STATIC_DIR) / "index.html" if index.is_file(): return FileResponse(str(index)) raise HTTPException(404) @app.get("/{path:path}") def spa_fallback(path: str): if path.startswith("api/") or path.startswith("audio/"): raise HTTPException(404) static_path = Path(STATIC_DIR) / path if static_path.is_file(): return FileResponse(str(static_path)) index = Path(STATIC_DIR) / "index.html" if index.is_file(): return FileResponse(str(index)) raise HTTPException(404)