evil_MoE/scripts/attic/rescore_deploy.py

"""Reproduce a finished run's paired quarantine-ablated/enabled final-test evaluation."""
from __future__ import annotations

import json
from pathlib import Path

import torch
import tyro
from tyro.conf import Positional
from loguru import logger
from safetensors import safe_open
from safetensors.torch import load_file
from transformers import AutoModelForCausalLM, AutoTokenizer, GenerationConfig

from vgrout.antipasto import wrap_model_with_antipasto
from vgrout.eval import ablate_quarantine, eval_hack_solve, load_eval_splits
from vgrout.train import CACHE_ROOT, EVAL_GEN_SEED
from vgrout.run_artifacts import RUN_SCHEMA


def main(run_dir: Positional[Path]) -> None:
    ckpt = run_dir / "train.safetensors"
    with safe_open(str(ckpt), framework="pt") as f:
        meta = f.metadata()
    cfg = json.loads(meta["cfg"])
    model_name = meta["model"]
    device = torch.device("cuda" if torch.cuda.is_available() else "cpu")
    logger.info(f"re-score {run_dir.name}: model={model_name} step={meta.get('step')}")

    tok = AutoTokenizer.from_pretrained(model_name)
    if tok.pad_token_id is None:
        tok.pad_token = tok.eos_token
    model = AutoModelForCausalLM.from_pretrained(
        model_name, dtype=torch.bfloat16, attn_implementation="flash_attention_2",
    ).to(device)
    model.config.use_cache = False
    wrappers = wrap_model_with_antipasto(model, model_name, CACHE_ROOT, device, grad_probe=False)

    delta = load_file(str(ckpt))
    delta_hack = load_file(str(run_dir / "train_hack.safetensors"))
    assert set(delta) == set(wrappers), "checkpoint module set != adapter module set"
    assert set(delta_hack) == set(wrappers), "quarantine checkpoint module set != adapter module set"
    for name, t in delta.items():
        wrappers[name]["delta_S"].data.copy_(t.to(device, torch.bfloat16))
        wrappers[name]["delta_S_hack"].data.copy_(delta_hack[name].to(device, torch.bfloat16))

    prior_eval = json.loads((run_dir / "deploy_test.json").read_text())
    # Reproduce the original evaluation environment exactly.
    eval_modes = sorted(prior_eval["by_mode"].keys())
    _, problems = load_eval_splits(eval_modes, cfg["eval_n_prompts"])
    gen_cfg_eval = GenerationConfig(
        max_new_tokens=cfg["max_new"], do_sample=True,
        temperature=0.7, top_p=1.0, top_k=20, min_p=0.0, repetition_penalty=1.0,
        num_return_sequences=1, pad_token_id=tok.pad_token_id,
    )
    eval_idxs = list(range(len(problems)))
    torch.manual_seed(EVAL_GEN_SEED)
    with ablate_quarantine(wrappers):   # quarantine ablated = deployed model
        ev = eval_hack_solve(
            model, tok, problems, eval_idxs, gen_cfg_eval, device, cfg["max_new"], cfg["eval_batch_size"])
    torch.manual_seed(EVAL_GEN_SEED)
    ev_on = eval_hack_solve(
        model, tok, problems, eval_idxs, gen_cfg_eval, device, cfg["max_new"], cfg["eval_batch_size"])

    out = {
        "schema": RUN_SCHEMA,
        "run_dir": run_dir.name, "model": model_name, "step": meta.get("step"),
        "eval_set": "test", "eval_modes": eval_modes,
        "n": ev["n"], "hack_deployed": ev["hack"], "vhack_deployed": ev["vhack"], "solve_deployed": ev["solve"],
        "hack_as_trained": ev_on["hack"], "vhack_as_trained": ev_on["vhack"],
        "solve_as_trained": ev_on["solve"],
        "by_mode": {m: {"hack": h / max(1, c), "vhack": v / max(1, c), "solve": s / max(1, c), "n": c}
                    for m, (h, v, s, c) in ev["by_mode"].items()},
    }
    (run_dir / "deploy_test.json").write_text(json.dumps(out, indent=2))
    logger.info(f"FINAL paired test n={ev['n']}: quarantine-ablated hack={ev['hack']:.3f} "
                f"solve={ev['solve']:.3f}; quarantine-enabled hack={ev_on['hack']:.3f} "
                f"solve={ev_on['solve']:.3f}")
    for m, d in out["by_mode"].items():
        logger.info(f"  {m:14s} hack={d['hack']:.3f} vhack={d['vhack']:.3f} solve={d['solve']:.3f} n={d['n']}")


if __name__ == "__main__":
    tyro.cli(main)