TIR_PROJ/training/smoke_test.py

"""
Quick sanity check before committing to a full 15M-step training run.

Trains 1 sheep for 500k steps (~5 min), then 3 sheep for 500k steps.
If both pass, the obs/reward setup is sound and full training is worth running.
If either fails, abort and fix before wasting 15M steps.

Usage:
    python smoke_test.py              # fresh run
    python smoke_test.py --render     # watch episodes after each stage
"""

import argparse
import os
import sys
import numpy as np
from copy import deepcopy

import matplotlib
matplotlib.use("Agg")
import matplotlib.pyplot as plt
import matplotlib.patches as mpatches
from matplotlib.collections import LineCollection

from stable_baselines3 import PPO
from stable_baselines3.common.vec_env import SubprocVecEnv, DummyVecEnv, VecNormalize

from herding_env import HerdingEnv


COMPACT_RADIUS = 5.0
PASS_THRESHOLD = 0.60   # success rate required to pass each stage


def make_env(n_sheep, seed, max_steps=2000):
    def _init():
        env = HerdingEnv(n_sheep=n_sheep, max_steps=max_steps)
        env.reset(seed=seed)
        return env
    return _init


def classify_failure(ep_radius, ep_com_dist, n_penned, n_sheep, success):
    if success:
        return "SUCCESS"
    if min(ep_radius) > COMPACT_RADIUS:
        return "NEVER_COMPACT"
    first_compact = next(i for i, r in enumerate(ep_radius) if r <= COMPACT_RADIUS)
    if min(ep_com_dist[first_compact:]) > 3.0:
        return "COMPACT_CANT_DRIVE"
    if n_penned == 0:
        return "DROVE_NO_SHEEP"
    return f"PARTIAL_{n_penned}of{n_sheep}"


def run_episodes(model, eval_env, n_episodes=30, max_steps=2000, render=False):
    """Run N deterministic episodes; return failure mode counts and success rate."""
    failure_counts = {}
    successes = 0

    for ep in range(n_episodes):
        obs = eval_env.reset()
        done = False
        ep_radius, ep_com_dist = [], []
        n_penned = 0
        n_sheep = 1

        while not done:
            action, _ = model.predict(obs, deterministic=True)
            obs, _, dones, infos = eval_env.step(action)
            done = dones[0]

            inner = eval_env.envs[0]
            com, radius, _ = inner._flock_stats()
            com_dist = float(np.linalg.norm(com - inner.PEN_CENTER))
            ep_radius.append(radius)
            ep_com_dist.append(com_dist)

            if render and ep == 0:
                inner.render()

        info    = infos[0]
        n_penned = info.get("n_penned", 0)
        n_sheep  = info.get("n_sheep",  1)
        success  = n_penned == n_sheep
        successes += int(success)
        mode = classify_failure(ep_radius, ep_com_dist, n_penned, n_sheep, success)
        failure_counts[mode] = failure_counts.get(mode, 0) + 1

    success_rate = successes / n_episodes
    return success_rate, failure_counts


def train_stage(n_sheep, steps, n_envs=4, prev_model=None, prev_vecnorm=None):
    """Train one stage; return (model, vecnorm)."""
    train_env = SubprocVecEnv([make_env(n_sheep, i) for i in range(n_envs)])

    if prev_vecnorm is not None:
        vn = deepcopy(prev_vecnorm)
        vn.set_venv(train_env)
        vn.training    = True
        vn.norm_reward = True
    else:
        vn = VecNormalize(train_env, norm_obs=True, norm_reward=True, clip_obs=10.0)

    if prev_model is not None:
        model = prev_model
        model.set_env(vn)
    else:
        model = PPO(
            "MlpPolicy", vn,
            learning_rate=3e-4, n_steps=2048, batch_size=256, n_epochs=10,
            gamma=0.995, gae_lambda=0.95, clip_range=0.2, ent_coef=0.02,
            vf_coef=0.5, max_grad_norm=0.5,
            policy_kwargs=dict(net_arch=[256, 256]),
            verbose=1,
        )

    model.learn(total_timesteps=steps, reset_num_timesteps=(prev_model is None),
                tb_log_name="ppo_smoke")
    return model, vn


def make_eval_env(model, vecnorm, n_sheep, max_steps=2000):
    raw = DummyVecEnv([make_env(n_sheep, seed=9999, max_steps=max_steps)])
    vn  = VecNormalize(raw, norm_obs=True, norm_reward=False, training=False)
    vn.obs_rms = deepcopy(vecnorm.obs_rms)
    vn.ret_rms = deepcopy(vecnorm.ret_rms)
    return vn


def report(n_sheep, success_rate, failure_counts, n_episodes, threshold=PASS_THRESHOLD):
    print(f"\n{'='*52}")
    print(f"  Stage n_sheep={n_sheep}  |  success={success_rate*100:.0f}%  ({int(success_rate*n_episodes)}/{n_episodes})")
    print(f"  {'─'*48}")
    for mode, cnt in sorted(failure_counts.items(), key=lambda x: -x[1]):
        bar = "█" * cnt
        print(f"  {mode:<26} {cnt:>3}/{n_episodes}  {bar}")
    print(f"{'='*52}")

    passed = success_rate >= threshold
    if passed:
        print(f"  ✓ PASS  (threshold {threshold*100:.0f}%)")
    else:
        dominant = max(failure_counts, key=failure_counts.get)
        print(f"  ✗ FAIL  — dominant: {dominant}")
        if dominant == "NEVER_COMPACT":
            print("    Dog can't compact flock. Check W_COLLECT, obs contains straggler positions?")
        elif dominant == "COMPACT_CANT_DRIVE":
            print("    Flock compacts but dog doesn't drive to pen. Check alignment reward / W_DRIVE.")
        elif dominant.startswith("PARTIAL"):
            print("    Flock splits near pen. Dog loses stragglers at the end.")
    print()
    return passed


SHEEP_COLORS = ["#e41a1c","#377eb8","#4daf4a","#984ea3","#ff7f00",
                "#a65628","#f781bf","#999999","#66c2a5","#fc8d62"]

def _save_smoke_vis(model, vn, n_sheep, save_dir, seed=42, max_steps=2000):
    """Run one episode and save trajectory + timeseries PNGs."""
    from copy import deepcopy
    raw  = DummyVecEnv([make_env(n_sheep, max_steps, seed)])
    env  = VecNormalize(raw, norm_obs=True, norm_reward=False, training=False)
    env.obs_rms = deepcopy(vn.obs_rms)
    env.ret_rms = deepcopy(vn.ret_rms)

    obs = env.reset()
    inner = env.envs[0]
    dog_xs, dog_ys = [], []
    sheep_xs = [[] for _ in range(n_sheep)]
    sheep_ys = [[] for _ in range(n_sheep)]
    radii, action_mags, rewards = [], [], []
    pen_dists = [[] for _ in range(n_sheep)]
    done = False

    while not done:
        action, _ = model.predict(obs, deterministic=True)
        obs, reward, dones, _ = env.step(action)
        done = dones[0]
        dog_xs.append(float(inner.dog_pos[0])); dog_ys.append(float(inner.dog_pos[1]))
        com, radius, _ = inner._flock_stats()
        radii.append(radius)
        rewards.append(float(reward[0]))
        action_mags.append(float(np.linalg.norm(action[0])))
        for i in range(n_sheep):
            sheep_xs[i].append(float(inner.sheep_pos[i][0]))
            sheep_ys[i].append(float(inner.sheep_pos[i][1]))
            pen_dists[i].append(float(np.linalg.norm(inner.sheep_pos[i] - inner.PEN_CENTER)))
    env.close()

    steps = len(dog_xs)
    # Trajectory
    fig, ax = plt.subplots(figsize=(6,6))
    ax.set_xlim(-16,16); ax.set_ylim(-16,16); ax.set_aspect("equal")
    ax.set_facecolor("#dcedc8")
    ax.add_patch(mpatches.Rectangle((-15,-15),30,30,fill=False,edgecolor="#795548",lw=2))
    ax.add_patch(mpatches.Rectangle((10,-15),3,7,facecolor="#ffe082",edgecolor="#795548",lw=2))
    ax.text(11.5,-11.5,"pen",ha="center",va="center",fontsize=8,color="#795548")
    for i in range(n_sheep):
        c = SHEEP_COLORS[i % len(SHEEP_COLORS)]
        ax.plot(sheep_xs[i], sheep_ys[i], color=c, lw=1, alpha=0.6, label=f"sheep {i+1}")
        ax.plot(sheep_xs[i][0], sheep_ys[i][0], "o", color=c, ms=7)
        ax.plot(sheep_xs[i][-1], sheep_ys[i][-1], "*", color=c, ms=10)
    ax.plot(dog_xs, dog_ys, color="#4e342e", lw=1.5, label="dog", alpha=0.8)
    ax.plot(dog_xs[0], dog_ys[0], "s", color="#4e342e", ms=9)
    ax.plot(dog_xs[-1], dog_ys[-1], "D", color="#4e342e", ms=9)
    ax.set_title(f"n_sheep={n_sheep}  {steps} steps  min_r={min(radii):.1f}m")
    ax.legend(fontsize=7, loc="upper left")
    plt.tight_layout()
    fig.savefig(os.path.join(save_dir, "trajectory.png"), dpi=100)
    plt.close(fig)

    # Timeseries
    t = np.arange(steps)
    fig, axes = plt.subplots(4,1,figsize=(10,8),sharex=True)
    axes[0].plot(t, radii, color="steelblue"); axes[0].axhline(5,color="orange",ls="--",lw=1)
    axes[0].set_ylabel("radius (m)"); axes[0].set_title("Flock radius (orange=5m threshold)")
    for i in range(n_sheep):
        axes[1].plot(t, pen_dists[i], color=SHEEP_COLORS[i%len(SHEEP_COLORS)], lw=1, label=f"sheep {i+1}")
    axes[1].set_ylabel("pen dist (m)"); axes[1].set_title("Per-sheep distance to pen"); axes[1].legend(fontsize=7)
    axes[2].plot(t, action_mags, color="tomato", lw=1, alpha=0.8)
    axes[2].axhline(1.0,color="gray",ls="--",lw=1); axes[2].set_ylim(0,1.5)
    axes[2].set_ylabel("action mag"); axes[2].set_title("Dog action magnitude (0=stopped)")
    axes[3].plot(t, rewards, color="purple", lw=1, alpha=0.7); axes[3].axhline(0,color="black",lw=0.5)
    axes[3].set_ylabel("reward"); axes[3].set_xlabel("step"); axes[3].set_title("Reward per step")
    fig.suptitle(f"Smoke stage n_sheep={n_sheep}", fontsize=12)
    plt.tight_layout()
    fig.savefig(os.path.join(save_dir, "timeseries.png"), dpi=100)
    plt.close(fig)
    print(f"  Viz saved to {save_dir}/trajectory.png + timeseries.png")


def main():
    p = argparse.ArgumentParser()
    p.add_argument("--steps",   type=int, default=500_000,
                   help="Steps per smoke-test stage (default 500k)")
    p.add_argument("--n-envs",  type=int, default=4)
    p.add_argument("--episodes", type=int, default=30,
                   help="Validation episodes per stage")
    p.add_argument("--render",  action="store_true")
    args = p.parse_args()

    # 1 sheep (500k): sanity check — obs/reward structurally correct?
    # 2 sheep (1M):   first multi-agent step — gradual transfer
    # 3 sheep (1.5M): real multi-sheep test at curriculum pace
    stages = [(1, args.steps, 0.60), (2, args.steps * 2, 0.40), (3, args.steps * 3, 0.35)]

    model, vn = None, None
    all_passed = True

    for n_sheep, steps, threshold in stages:
        print(f"\n{'#'*52}")
        print(f"#  Smoke-test stage: n_sheep={n_sheep}, {steps:,} steps")
        print(f"{'#'*52}")

        model, vn = train_stage(n_sheep, steps, args.n_envs, model, vn)

        eval_env = make_eval_env(model, vn, n_sheep)
        success_rate, failure_counts = run_episodes(
            model, eval_env, args.episodes, render=args.render
        )
        eval_env.close()

        save_dir = f"runs/smoke_stage{n_sheep}"
        os.makedirs(save_dir, exist_ok=True)
        model.save(os.path.join(save_dir, "model"))
        vn.save(os.path.join(save_dir, "vecnorm.pkl"))
        print(f"  Model saved to {save_dir}/")
        _save_smoke_vis(model, vn, n_sheep, save_dir)

        passed = report(n_sheep, success_rate, failure_counts, args.episodes, threshold)
        if not passed:
            all_passed = False
            print("  Aborting smoke test — fix the issue above before full training.")
            sys.exit(1)

    if all_passed:
        print("\n  All smoke-test stages passed.")
        print("  Ready for full curriculum training:")
        print()
        print("    python train.py --curriculum --steps-per-stage 1500000 \\")
        print("      --total-steps 15000000 --n-sheep 1 --max-sheep 10 \\")
        print("      --n-envs 8 --run-dir runs/ppo_v2")
        print()


if __name__ == "__main__":
    main()