"""Interactive playback for React data -- accepts a single `.pt` OR a directory of segments / episodes, concatenates same-episode segments into one continuous timeline, and lets you switch between source episodes with N / P. The viewer reuses `twm.viz.build_preview_panel`'s 1280x480 grid: Row 1 (y=0..240): [left cam | middle cam | right cam | OptiTrack] Row 2 (y=240..480): [gs_L_raw | gs_L_diff | gs_R_raw | gs_R_diff | Controls] The three RealSense thumbnails and both GelSight raw streams are pulled from the source HDF5 file (referenced by each .pt segment's `_contact_meta.source_episode` + `source_h5_frame_range`). When the source H5 cannot be located, those cells are filled with a "no H5" placeholder. Usage ----- Single .pt file (mode1_v1 episode OR one mode2_v1 segment): python scripts/play_react_pt.py \\ processed/mode2_v1/motherboard/2026-05-11/episode_012.segment_00.pt Episode stem (no .pt suffix) -- loads ALL segments of that episode and seeds N/P navigation across the rest of the date folder: python scripts/play_react_pt.py \\ processed/mode2_v1/motherboard/2026-05-11/episode_005 Date folder -- all episodes recorded that day: python scripts/play_react_pt.py \\ processed/mode2_v1/motherboard/2026-05-11 Whole task -- every episode across every date: python scripts/play_react_pt.py \\ processed/mode2_v1/motherboard In all multi-episode modes, same-episode segments are concatenated into one playback timeline; N / P jumps to the next / previous source episode. Headless export (one MP4 per episode): python scripts/play_react_pt.py --save_video_dir /tmp/out Override the source-H5 root (otherwise inferred by replacing `processed/` with `data` in the input path): python scripts/play_react_pt.py --h5_root /path/to/data/ Controls -------- space pause / resume -> / d next frame <- / a previous frame 1..6 playback speed 1x / 2x / 5x / 10x / 25x / 50x r reset GelSight diff reference to current frame n next episode p previous episode q quit """ import argparse import re import sys import time from pathlib import Path from typing import Optional import cv2 import h5py import numpy as np import torch try: from twm.viz import ( load_optitrack as _viz_load_optitrack, optitrack_at as _viz_optitrack_at, DISPLAY_ORDER, ) except Exception: _viz_load_optitrack = None _viz_optitrack_at = None DISPLAY_ORDER = [1, 2, 0] # H5 cam_idx order for [left, middle, right] # ────────────────────────────────────────────────────────────────────────────── # Layout constants (matches twm.viz.build_preview_panel) # ────────────────────────────────────────────────────────────────────────────── PANEL_W, PANEL_H = 1280, 480 RS_THUMB_W, RS_THUMB_H = 320, 240 # RealSense cam cell GS_THUMB_W, GS_THUMB_H = 240, 240 # GelSight raw/diff cell CONTROLS_W, CONTROLS_H = 320, 240 # Controls panel (replaces blank in row 2) TRACKER_COLORS = { "sensor_left": ( 0, 255, 120), "sensor_right": ( 0, 180, 255), } SEGMENT_FNAME_RE = re.compile(r"^(episode_\d+)\.segment_(\d+)\.pt$") PLAIN_EPISODE_RE = re.compile(r"^(episode_\d+)\.pt$") DATE_RE = re.compile(r"^\d{4}-\d{2}-\d{2}$") # ────────────────────────────────────────────────────────────────────────────── def _tactile_to_bgr(tac_chw): rgb = tac_chw.permute(1, 2, 0).numpy() return rgb[..., ::-1] def _missing_cell(w, h, label): panel = np.full((h, w, 3), 32, np.uint8) cv2.putText(panel, label, (10, h // 2), cv2.FONT_HERSHEY_SIMPLEX, 0.45, (140, 140, 140), 1, cv2.LINE_AA) return panel # ────────────────────────────────────────────────────────────────────────────── # H5 source resolution # ────────────────────────────────────────────────────────────────────────────── def infer_h5_root(pt_path: Path) -> Optional[Path]: """Map a .pt path to its source-H5 root by replacing the `processed//` prefix with `data/`. Examples: .../twm/processed/mode2_v1/motherboard/2026-05-11/ep.pt -> .../twm/data/motherboard .../twm/processed/mode2_v1/motherboard -> .../twm/data/motherboard """ parts = list(pt_path.parts) try: i = parts.index("processed") except ValueError: return None if i + 1 >= len(parts): return None base = parts[:i] tail = [] for p in parts[i + 2:]: if DATE_RE.match(p) or p.endswith(".pt"): break tail.append(p) return Path(*base, "data", *tail) def resolve_h5_path(h5_root: Optional[Path], source_episode: Optional[str]) -> Optional[Path]: """`source_episode` is '/'. Returns /.h5 if it exists, else None. """ if not h5_root or not source_episode: return None candidate = h5_root / f"{source_episode}.h5" return candidate if candidate.exists() else None class H5Source: """Lazy read-only access to a source H5: cams, gelsight frames, OT poses.""" def __init__(self, h5_path: Optional[Path]): self.path = h5_path self.f = None self.n_frames = 0 self.timestamps = None self.gs_left_n = 0 self.gs_right_n = 0 self.optitrack = None if h5_path is None: return try: self.f = h5py.File(str(h5_path), "r") self.n_frames = int(self.f["timestamps"].shape[0]) self.timestamps = self.f["timestamps"][:] self.gs_left_n = int(self.f["gelsight/left/frames"].shape[0]) self.gs_right_n = int(self.f["gelsight/right/frames"].shape[0]) if _viz_load_optitrack is not None: self.optitrack = _viz_load_optitrack(self.f) except Exception as e: print(f"[player] ! failed to open H5 {h5_path}: {e}") self.close() @property def ok(self) -> bool: return self.f is not None def cam(self, idx: int, h5_frame: int) -> Optional[np.ndarray]: if not self.ok or h5_frame < 0 or h5_frame >= self.n_frames: return None return self.f[f"realsense/cam{idx}/color"][h5_frame] def gelsight(self, side: str, h5_frame: int) -> Optional[np.ndarray]: if not self.ok: return None n = self.gs_left_n if side == "left" else self.gs_right_n if n == 0: return None return self.f[f"gelsight/{side}/frames"][min(max(h5_frame, 0), n - 1)] def ot_at(self, h5_frame: int) -> dict: if not self.ok or self.optitrack is None or _viz_optitrack_at is None: return {} idx = min(max(h5_frame, 0), self.n_frames - 1) return _viz_optitrack_at(self.optitrack, float(self.timestamps[idx])) def close(self): if self.f is not None: try: self.f.close() except Exception: pass self.f = None # ────────────────────────────────────────────────────────────────────────────── # Episode discovery # ────────────────────────────────────────────────────────────────────────────── def discover_episodes(root: Path) -> list[dict]: """Walk `root`, group .pt files by source episode key '/episode_NNN', and return one entry per episode with its segment paths sorted. Handles both: - mode2_v1: `//episode_NNN.segment_MM.pt` - mode1_v1: `//episode_NNN.pt` """ pts = sorted(root.rglob("*.pt")) if not pts: raise SystemExit(f"No .pt files under {root}") episodes: dict[str, dict] = {} for p in pts: m_seg = SEGMENT_FNAME_RE.match(p.name) m_plain = PLAIN_EPISODE_RE.match(p.name) if m_seg: ep_stem, seg_idx = m_seg.group(1), int(m_seg.group(2)) elif m_plain: ep_stem, seg_idx = m_plain.group(1), 0 else: continue date = p.parent.name key = f"{date}/{ep_stem}" episodes.setdefault(key, {"date": date, "ep_stem": ep_stem, "segs": []}) episodes[key]["segs"].append((seg_idx, p)) out = [] for key in sorted(episodes): ep = episodes[key] ep["segs"].sort(key=lambda x: x[0]) out.append({"key": key, **ep}) return out # ────────────────────────────────────────────────────────────────────────────── # Episode-load # ────────────────────────────────────────────────────────────────────────────── class LoadedEpisode: """One source episode, with all its segments concatenated for playback. The concat timeline only carries .pt scalar/pose tensors; image cells are served on-demand from the bound source H5 file. """ PER_FRAME_KEYS = ( "timestamps", "sensor_left_pose", "sensor_right_pose", "tactile_left_intensity", "tactile_right_intensity", "tactile_left_mixed", "tactile_right_mixed", ) def __init__(self, ep_meta: dict, h5_root: Optional[Path] = None): self.key = ep_meta["key"] self.date = ep_meta["date"] self.ep_stem = ep_meta["ep_stem"] self.segment_paths = [p for _, p in ep_meta["segs"]] print(f"[player] loading episode {self.key} " f"({len(self.segment_paths)} segment{'s' if len(self.segment_paths) > 1 else ''})...") per_seg = [torch.load(p, weights_only=False, map_location="cpu") for p in self.segment_paths] cat = {} for k in self.PER_FRAME_KEYS: if k in per_seg[0]: cat[k] = torch.cat([s[k] for s in per_seg], dim=0) bounds = [] cursor = 0 source_ep = None for i, s in enumerate(per_seg): n = s["view"].shape[0] meta = s.get("_contact_meta", {}) if source_ep is None: source_ep = meta.get("source_episode") bounds.append({ "start_in_concat": cursor, "end_in_concat": cursor + n - 1, "seg_idx": int(meta.get("source_segment_idx", i)), "source_h5_range": meta.get("source_h5_frame_range"), "n_frames": n, }) cursor += n self.data = cat self.bounds = bounds self.n_frames = cursor self.source_episode = source_ep # Bind source H5 h5_path = resolve_h5_path(h5_root, source_ep) if source_ep else None self.h5 = H5Source(h5_path) if self.h5.ok: print(f"[player] H5 source: {h5_path} ({self.h5.n_frames} frames)") else: print(f"[player] H5 source not available " f"(source_episode={source_ep!r}, h5_root={h5_root}) -- " f"cam/gelsight cells will be blank") # GelSight diff references = H5 gelsight at the first segment's H5 start self.gs_ref_L = None self.gs_ref_R = None if self.h5.ok: r0 = bounds[0]["source_h5_range"] ref_h5_frame = r0[0] if r0 else 0 self.gs_ref_L = self.h5.gelsight("left", ref_h5_frame) self.gs_ref_R = self.h5.gelsight("right", ref_h5_frame) print(f"[player] total {self.n_frames} frames ({self.n_frames / 30.0:.1f}s)") def segment_at(self, frame_idx: int) -> dict: for b in self.bounds: if b["start_in_concat"] <= frame_idx <= b["end_in_concat"]: return b return self.bounds[-1] def is_segment_start(self, frame_idx: int) -> bool: return any(frame_idx == b["start_in_concat"] for b in self.bounds[1:]) def h5_frame_for(self, frame_idx: int) -> Optional[int]: seg = self.segment_at(frame_idx) r = seg["source_h5_range"] if r is None: return None return r[0] + (frame_idx - seg["start_in_concat"]) def close(self): self.h5.close() # ────────────────────────────────────────────────────────────────────────────── # Panel renderer (visualize.py-style 1280x480 grid) # ────────────────────────────────────────────────────────────────────────────── def _make_ot_panel(ot_poses, t_idx, t_sec, w, h): panel = np.zeros((h, w, 3), np.uint8) cv2.putText(panel, "OptiTrack (this frame)", (8, 22), cv2.FONT_HERSHEY_SIMPLEX, 0.55, (200, 200, 200), 1, cv2.LINE_AA) cv2.line(panel, (8, 30), (w - 8, 30), (60, 60, 60), 1) y = 56 for name in ("sensor_left", "sensor_right"): color = TRACKER_COLORS[name] cv2.putText(panel, name, (8, y), cv2.FONT_HERSHEY_SIMPLEX, 0.45, color, 1, cv2.LINE_AA) y += 18 pose = ot_poses.get(name) if isinstance(ot_poses, dict) else None if pose is None: cv2.putText(panel, " no data", (8, y), cv2.FONT_HERSHEY_SIMPLEX, 0.4, (100, 100, 100), 1, cv2.LINE_AA) y += 36 continue _, xyz_quat = pose x_m, y_m, z_m = xyz_quat[:3] qx, qy, qz, qw = xyz_quat[3:] cv2.putText(panel, f" x={x_m:+.3f} y={y_m:+.3f} z={z_m:+.3f}", (8, y), cv2.FONT_HERSHEY_SIMPLEX, 0.38, (220, 220, 220), 1, cv2.LINE_AA) y += 16 cv2.putText(panel, f" qx={qx:+.2f} qy={qy:+.2f}", (8, y), cv2.FONT_HERSHEY_SIMPLEX, 0.38, (160, 160, 160), 1, cv2.LINE_AA) y += 16 cv2.putText(panel, f" qz={qz:+.2f} qw={qw:+.2f}", (8, y), cv2.FONT_HERSHEY_SIMPLEX, 0.38, (160, 160, 160), 1, cv2.LINE_AA) y += 24 cv2.putText(panel, f"t = {t_sec:.2f} s (concat frame {t_idx})", (8, h - 14), cv2.FONT_HERSHEY_SIMPLEX, 0.45, (200, 200, 200), 1, cv2.LINE_AA) return panel def _make_controls_panel(w, h, paused, speed, ep_idx, n_eps): panel = np.zeros((h, w, 3), np.uint8) cv2.putText(panel, "Controls", (10, 24), cv2.FONT_HERSHEY_SIMPLEX, 0.6, (200, 200, 200), 1, cv2.LINE_AA) cv2.line(panel, (10, 32), (w - 10, 32), (80, 80, 80), 1) keys = [ ("SPACE", "pause / resume"), ("-> / d", "next frame"), ("<- / a", "prev frame"), ("1..6", "speed 1x/2x/5x/10x/25x/50x"), ("n / p", "next / prev episode"), ("r", "reset gel-diff ref"), ("q", "quit"), ] y = 56 for key, desc in keys: highlight = (key == "SPACE") key_color = (0, 220, 255) if highlight else (140, 200, 140) desc_color = (220, 220, 220) if highlight else (160, 160, 160) cv2.putText(panel, f"[{key}]", (10, y), cv2.FONT_HERSHEY_SIMPLEX, 0.45, key_color, 1, cv2.LINE_AA) cv2.putText(panel, desc, (110, y), cv2.FONT_HERSHEY_SIMPLEX, 0.45, desc_color, 1, cv2.LINE_AA) y += 22 state_text = "|| PAUSED" if paused else "> PLAYING" state_color = (0, 140, 255) if paused else (0, 220, 80) cv2.putText(panel, state_text, (10, h - 32), cv2.FONT_HERSHEY_SIMPLEX, 0.55, state_color, 2, cv2.LINE_AA) cv2.putText(panel, f"speed: {speed}x ep {ep_idx + 1}/{n_eps}", (10, h - 12), cv2.FONT_HERSHEY_SIMPLEX, 0.42, (180, 180, 180), 1, cv2.LINE_AA) return panel def _rs_thumb(img, label=None): out = cv2.resize(img, (RS_THUMB_W, RS_THUMB_H)) if label: cv2.putText(out, label, (6, 16), cv2.FONT_HERSHEY_SIMPLEX, 0.45, (220, 220, 220), 1, cv2.LINE_AA) return out def _gs_thumb(img, label=None): out = cv2.resize(img, (GS_THUMB_W, GS_THUMB_H)) if label: cv2.putText(out, label, (6, 16), cv2.FONT_HERSHEY_SIMPLEX, 0.42, (220, 220, 220), 1, cv2.LINE_AA) return out def _gs_diff_thumb(frame_bgr, ref_bgr, label=None): diff = np.clip(frame_bgr.astype(np.int16) - ref_bgr.astype(np.int16) + 128, 0, 255).astype(np.uint8) out = cv2.resize(diff, (GS_THUMB_W, GS_THUMB_H)) if label: cv2.putText(out, label, (6, 16), cv2.FONT_HERSHEY_SIMPLEX, 0.42, (220, 220, 220), 1, cv2.LINE_AA) return out def build_panel(ep: LoadedEpisode, frame_idx: int, gs_ref_L, gs_ref_R, paused: bool, speed: int, ep_idx: int, n_eps: int): h5_frame = ep.h5_frame_for(frame_idx) t_sec = float(ep.data["timestamps"][frame_idx] - ep.data["timestamps"][0]) # Row 1: 3 RealSense cams (left, middle, right) + OptiTrack cam_thumbs = [] cam_labels = ["left cam", "middle cam", "right cam"] for slot, label in zip(DISPLAY_ORDER, cam_labels): img = ep.h5.cam(slot, h5_frame) if h5_frame is not None else None if img is None: cam_thumbs.append(_missing_cell(RS_THUMB_W, RS_THUMB_H, f"{label}: no H5")) else: cam_thumbs.append(_rs_thumb(img, label)) ot_poses = ep.h5.ot_at(h5_frame) if h5_frame is not None else {} ot_panel = _make_ot_panel(ot_poses, frame_idx, t_sec, RS_THUMB_W, RS_THUMB_H) row1 = np.hstack(cam_thumbs + [ot_panel]) # Row 2: GelSight raw + diff (L, R) + Controls gs_L = ep.h5.gelsight("left", h5_frame) if h5_frame is not None else None gs_R = ep.h5.gelsight("right", h5_frame) if h5_frame is not None else None if gs_L is None: gs_L_raw = _missing_cell(GS_THUMB_W, GS_THUMB_H, "tac_L: no H5") gs_L_dif = _missing_cell(GS_THUMB_W, GS_THUMB_H, "tac_L diff: no H5") else: gs_L_raw = _gs_thumb(gs_L, "tactile_left") ref_L = gs_ref_L if gs_ref_L is not None else gs_L gs_L_dif = _gs_diff_thumb(gs_L, ref_L, "tac_L diff") if gs_R is None: gs_R_raw = _missing_cell(GS_THUMB_W, GS_THUMB_H, "tac_R: no H5") gs_R_dif = _missing_cell(GS_THUMB_W, GS_THUMB_H, "tac_R diff: no H5") else: gs_R_raw = _gs_thumb(gs_R, "tactile_right") ref_R = gs_ref_R if gs_ref_R is not None else gs_R gs_R_dif = _gs_diff_thumb(gs_R, ref_R, "tac_R diff") controls = _make_controls_panel(CONTROLS_W, CONTROLS_H, paused, speed, ep_idx, n_eps) row2 = np.hstack([gs_L_raw, gs_L_dif, gs_R_raw, gs_R_dif, controls]) panel = np.vstack([row1, row2]) # Top status bar (visualize.py style: thicker cyan text) cv2.rectangle(panel, (0, 0), (PANEL_W, 22), (30, 30, 30), -1) state = "PAUSED" if paused else "PLAYING" seg = ep.segment_at(frame_idx) h5r = seg["source_h5_range"] seg_label = f"seg {seg['seg_idx']:02d}" if h5r: seg_label += f" H5[{h5r[0]}..{h5r[1]}]" if h5_frame is not None: seg_label += f" @{h5_frame}" status = (f"[{state}] ep {ep_idx + 1}/{n_eps} {ep.key} | " f"frame {frame_idx + 1}/{ep.n_frames} | t={t_sec:.2f}s | " f"{seg_label} | {speed}x") cv2.putText(panel, status, (10, 16), cv2.FONT_HERSHEY_SIMPLEX, 0.5, (0, 200, 255), 1, cv2.LINE_AA) # Segment-cut flash: red border for the first 2 frames of a non-first segment if ep.is_segment_start(frame_idx): cv2.rectangle(panel, (0, 22), (PANEL_W - 1, PANEL_H - 1), (0, 0, 220), 3) return panel # ────────────────────────────────────────────────────────────────────────────── # Main # ────────────────────────────────────────────────────────────────────────────── def main(): ap = argparse.ArgumentParser(description="Interactive React .pt player (visualize.py-style layout).") ap.add_argument("path", help="A single .pt file OR a directory of episodes/segments.") ap.add_argument("--save_video", default=None, help="When `path` is a single .pt: write that one episode as MP4 here.") ap.add_argument("--save_video_dir", default=None, help="When `path` is a directory: write one MP4 per episode into this dir.") ap.add_argument("--fps", type=float, default=30.0) ap.add_argument("--h5_root", default=None, help="Root directory of source H5 files (e.g. /data/). " "If omitted, inferred by replacing `processed/` with `data` in `path`.") args = ap.parse_args() in_path = Path(args.path) # Path-stem expansion: if the user typed an incomplete path like # `.../2026-05-11/episode_005` (no .pt suffix, possibly no .segment_NN), # treat it as an episode-stem filter. We load the parent date folder so # N/P navigation still works, then start playback at the matching episode. start_episode_key: Optional[str] = None if not in_path.exists(): parent = in_path.parent stem = in_path.name if parent.is_dir() and stem: matches = sorted(parent.glob(f"{stem}*.pt")) # Require either an exact-name match or segment_NN siblings matches = [p for p in matches if PLAIN_EPISODE_RE.match(p.name) and p.stem == stem or (SEGMENT_FNAME_RE.match(p.name) and SEGMENT_FNAME_RE.match(p.name).group(1) == stem)] if matches: start_episode_key = f"{parent.name}/{stem}" in_path = parent # discover the whole date folder print(f"[player] interpreting '{args.path}' as episode-stem; " f"will start at {start_episode_key}") if not in_path.exists(): print(f"Not found: {args.path}", file=sys.stderr); sys.exit(1) if in_path.is_file(): parent_root = in_path.parent.parent episodes = discover_episodes(parent_root) target_path = in_path.resolve() start_idx = 0 for i, ep_meta in enumerate(episodes): if any(p.resolve() == target_path for _, p in ep_meta["segs"]): start_idx = i; break else: episodes = discover_episodes(in_path) start_idx = 0 if start_episode_key is not None: for i, ep_meta in enumerate(episodes): if ep_meta["key"] == start_episode_key: start_idx = i; break else: print(f"[player] WARN: stem '{start_episode_key}' not found in discovered " f"episodes; starting at the first one") print(f"[player] discovered {len(episodes)} episode(s) under {in_path}") # Resolve H5 root h5_root: Optional[Path] = None if args.h5_root: h5_root = Path(args.h5_root) else: h5_root = infer_h5_root(in_path) if h5_root: ok = "ok" if h5_root.exists() else "missing" print(f"[player] H5 source root: {h5_root} ({ok})") else: print("[player] H5 source root not specified and could not be inferred -- " "RealSense + GelSight cells will be blank") headless_dir = Path(args.save_video_dir) if args.save_video_dir else None headless_single = args.save_video if headless_single and len(episodes) > 1 and in_path.is_dir(): print("--save_video accepts a single output path; for a directory pass --save_video_dir instead.", file=sys.stderr) sys.exit(1) headless = headless_single is not None or headless_dir is not None if headless: if headless_dir: headless_dir.mkdir(parents=True, exist_ok=True) for ep_idx in range(start_idx, len(episodes)): ep = LoadedEpisode(episodes[ep_idx], h5_root=h5_root) try: out_path = (Path(headless_single) if headless_single else (headless_dir / f"{ep.date}_{ep.ep_stem}.mp4")) fourcc = cv2.VideoWriter_fourcc(*"mp4v") writer = cv2.VideoWriter(str(out_path), fourcc, args.fps, (PANEL_W, PANEL_H)) print(f" -> {out_path}") for f in range(ep.n_frames): panel = build_panel(ep, f, ep.gs_ref_L, ep.gs_ref_R, paused=False, speed=1, ep_idx=ep_idx, n_eps=len(episodes)) writer.write(panel) writer.release() finally: ep.close() if headless_single: break return # Interactive paused, speed = False, 1 SPEEDS = {ord('1'): 1, ord('2'): 2, ord('3'): 5, ord('4'): 10, ord('5'): 25, ord('6'): 50} ep_idx = start_idx while 0 <= ep_idx < len(episodes): ep = LoadedEpisode(episodes[ep_idx], h5_root=h5_root) action = "stay" try: WIN = "React .pt player" cv2.namedWindow(WIN, cv2.WINDOW_AUTOSIZE) cv2.createTrackbar("Frame", WIN, 0, max(1, ep.n_frames - 1), lambda v: None) gs_ref_L, gs_ref_R = ep.gs_ref_L, ep.gs_ref_R frame_idx = 0 last_drawn = -1 while True: frame_idx = max(0, min(frame_idx, ep.n_frames - 1)) pos = cv2.getTrackbarPos("Frame", WIN) if pos != frame_idx and pos != last_drawn: frame_idx = pos; paused = True panel = build_panel(ep, frame_idx, gs_ref_L, gs_ref_R, paused=paused, speed=speed, ep_idx=ep_idx, n_eps=len(episodes)) cv2.imshow(WIN, panel) if cv2.getTrackbarPos("Frame", WIN) != frame_idx: cv2.setTrackbarPos("Frame", WIN, frame_idx) last_drawn = frame_idx key = cv2.waitKey(1) & 0xFF if key == ord('q'): action = "quit"; break elif key == ord(' '): paused = not paused elif key in (81, ord('a')): paused = True; frame_idx -= 1 elif key in (83, ord('d')): paused = True; frame_idx += 1 elif key in SPEEDS: speed = SPEEDS[key] elif key == ord('r'): h5_frame = ep.h5_frame_for(frame_idx) if h5_frame is not None and ep.h5.ok: gs_ref_L = ep.h5.gelsight("left", h5_frame) gs_ref_R = ep.h5.gelsight("right", h5_frame) print(f" gel-diff ref reset to concat frame {frame_idx} (H5 frame {h5_frame})") elif key == ord('n'): action = "next"; break elif key == ord('p'): action = "prev"; break if not paused: frame_idx += speed if frame_idx >= ep.n_frames: print(f"End of episode {ep.key}.") paused = True frame_idx = ep.n_frames - 1 time.sleep(max(0.0, 1.0 / (args.fps * speed) - 0.001)) cv2.destroyAllWindows() finally: ep.close() if action == "quit": return if action == "next": new_idx = min(ep_idx + 1, len(episodes) - 1) if new_idx == ep_idx: print("Already at last episode.") ep_idx = new_idx elif action == "prev": new_idx = max(ep_idx - 1, 0) if new_idx == ep_idx: print("Already at first episode.") ep_idx = new_idx else: paused = True if __name__ == "__main__": main()