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tinyforge-zero/experiments/bcb_hard_eval.py
Rana Usman 826f934d2e Ship every paper-referenced experiment script 
Reorganizes the repo so every section of the paper has a corresponding
script. Previously only the core recipe + control + evals were here.

New subdirs:
- tts/             — test-time sampling (§2.2, §3.3): scaling sweep, HE, MATH-500,
                     AIME, 14B-recipe + TTS, 8B-raw-TTS control.
- experiments/     — every §3 finding as a runnable script:
                     · self_consistency (§3.4)
                     · recipe_x_tts_synergy (§3.5, novel)
                     · mbpp_seeded_cross_arch (§3.9)
                     · cross_domain_code_to_math (§3.10)
                     · self_correction_math_{naive,fixed} (§3.10, the
                       catastrophic-then-recovered case)
                     · math500_seeded_mining (§3.10 distribution mismatch)
                     · bcb_hard_eval (§3.10 distribution mismatch)
                     · recursive_bootstrap (§3.10 plateau)
                     · diversity_cued_mining (§3.10 low yield)
                     · aime_scaling (TTS curve)
                     · star_baseline_gsm8k (related-work baseline)
- evals/           — moved out of recipe/ (eval_raw, eval_plus, confirm)

Also adds: bootstrap_14b_4bit_harvest, curriculum_code, math_bootstrap to
recipe/ for completeness.

REPRODUCE.md now maps each paper section / table / figure to its exact
script and expected output.
2026-05-13 21:09:54 +05:00

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"""Train Qwen3-8B-Base with 40-pair recipe, eval on BigCodeBench-Hard.
BigCodeBench is harder than HumanEval (real-world Python tasks, library use).
Qwen3-8B-Base likely has headroom there (~30-45% baseline). Tests if recipe
generalizes to newer model AND harder benchmark.
"""
import os, json, time, re, subprocess, tempfile, argparse
os.environ.setdefault("HF_HOME", "/workspace/hf")
os.environ.setdefault("HF_HUB_ENABLE_HF_TRANSFER", "1")
os.environ["TRANSFORMERS_VERBOSITY"] = "error"
import torch
from transformers import AutoModelForCausalLM, AutoTokenizer, TrainingArguments, Trainer
from datasets import load_dataset, Dataset as HFDataset
from peft import LoraConfig, get_peft_model
T0 = time.time()
def log(m): print(f"[{time.time()-T0:7.1f}s] {m}", flush=True)
def extract_code(text):
if "```python" in text: text = text.split("```python", 1)[1]
elif "```" in text: text = text.split("```", 1)[1]
if "```" in text: text = text.split("```", 1)[0]
return text.strip()
def verify_bcb(code, test_code):
runner = "\n\nif __name__ == '__main__':\n import unittest; unittest.main(argv=['x'], exit=False, verbosity=0)\n"
body = code + "\n\n" + test_code + runner
with tempfile.NamedTemporaryFile("w", suffix=".py", delete=False) as f:
f.write(body); path = f.name
try:
r = subprocess.run(["python3", path], capture_output=True, timeout=20, text=True, cwd="/tmp")
out = (r.stdout or "") + "\n" + (r.stderr or "")
if "OK" in out and "FAILED" not in out and "Error" not in out and r.returncode == 0:
return True
return False
except subprocess.TimeoutExpired:
return False
finally:
try: os.unlink(path)
except: pass
def gen_batch(model, tok, prompts, max_new=600, temperature=0.0, batch=4):
outs = []
for i in range(0, len(prompts), batch):
chunk = prompts[i:i+batch]
texts = []
for p in chunk:
msgs = [{"role": "system", "content": "You are an expert Python coder. Output one ```python block with the complete solution."},
{"role": "user", "content": p}]
texts.append(tok.apply_chat_template(msgs, tokenize=False, add_generation_prompt=True))
inp = tok(texts, return_tensors="pt", padding=True, truncation=True, max_length=2000).to(model.device)
with torch.no_grad():
out = model.generate(**inp, max_new_tokens=max_new, do_sample=temperature > 0,
temperature=temperature if temperature > 0 else 1.0, top_p=0.95,
pad_token_id=tok.eos_token_id)
for j in range(out.size(0)):
outs.append(tok.decode(out[j][inp.input_ids.shape[1]:], skip_special_tokens=True))
return outs
def eval_bcb_hard(model, tok, label, max_n=148):
bcb = list(load_dataset("bigcode/bigcodebench-hard", split="v0.1.4"))[:max_n]
log(f" BCB-Hard [{label}] ({len(bcb)})")
prompts = [p["instruct_prompt"] for p in bcb]
outs = gen_batch(model, tok, prompts, max_new=700, batch=4)
correct = 0
for i, (p, raw) in enumerate(zip(bcb, outs)):
code = extract_code(raw) if "```" in raw else raw
if verify_bcb(code, p["test"]): correct += 1
if (i+1) % 20 == 0: log(f" {label} BCB {i+1}/{len(bcb)}: {correct}")
return correct, len(bcb)
def eval_humaneval(model, tok, label):
he = list(load_dataset("openai_humaneval", split="test"))
log(f" HumanEval [{label}] ({len(he)})")
prompts = [p["prompt"] + "\n# Complete the function above." for p in he]
outs = gen_batch(model, tok, prompts, max_new=400, batch=4)
correct = 0
for i, (p, raw) in enumerate(zip(he, outs)):
code = extract_code(raw) if "```" in raw else raw
full = p["prompt"] + "\n" + code if "def " not in code else code
test_code = full + "\n\n" + p["test"] + f"\n\ncheck({p['entry_point']})"
with tempfile.NamedTemporaryFile("w", suffix=".py", delete=False) as f:
f.write(test_code); path = f.name
try:
r = subprocess.run(["python3", path], capture_output=True, timeout=10, text=True, cwd="/tmp")
if r.returncode == 0: correct += 1
except subprocess.TimeoutExpired: pass
finally:
try: os.unlink(path)
except: pass
if (i+1) % 40 == 0: log(f" {label} HE {i+1}/{len(he)}: {correct}")
return correct, len(he)
def make_example(r, tok):
user = (f"Implement: {r['signature']}\n\n"
f"Tests:\n{chr(10).join(r['tests'])}\n\n"
f"My attempt:\n```python\n{r['broken']}\n```\n\n"
f"Error:\n{r.get('error','')}\n\n"
f"Fix and output the corrected code only.")
assistant = f"```python\n{r['fixed']}\n```"
msgs_pre = [{"role": "system", "content": "You are an expert Python coder. Output one ```python block with the complete solution."},
{"role": "user", "content": user}]
msgs_full = msgs_pre + [{"role": "assistant", "content": assistant}]
pre = tok.apply_chat_template(msgs_pre, tokenize=False, add_generation_prompt=True)
full = tok.apply_chat_template(msgs_full, tokenize=False)
pre_ids = tok(pre, add_special_tokens=False)["input_ids"]
full_ids = tok(full, add_special_tokens=False)["input_ids"]
MAX = 1024
full_ids = full_ids[:MAX]
labels = list(full_ids)
n_pre = min(len(pre_ids), len(labels))
for i in range(n_pre): labels[i] = -100
pad = MAX - len(full_ids)
return {"input_ids": full_ids + [tok.pad_token_id]*pad,
"attention_mask": [1]*len(full_ids) + [0]*pad,
"labels": labels + [-100]*pad}
def main():
ap = argparse.ArgumentParser()
ap.add_argument("--model", required=True)
ap.add_argument("--pairs", default="/workspace/saved_pairs/pairs_40.jsonl")
ap.add_argument("--n_pairs", type=int, default=40)
ap.add_argument("--tag", required=True)
args = ap.parse_args()
out_dir = f"/workspace/bcb_eval/{args.tag}"
os.makedirs(out_dir, exist_ok=True)
log(f"loading {args.model}")
tok = AutoTokenizer.from_pretrained(args.model)
if tok.pad_token is None: tok.pad_token = tok.eos_token
tok.padding_side = "left"
model = AutoModelForCausalLM.from_pretrained(args.model, torch_dtype=torch.bfloat16, device_map="cuda:0")
log(f" loaded mem={torch.cuda.memory_allocated('cuda:0')/1e9:.1f}GB")
model.eval()
log("=== BASE evals ===")
base_he, _ = eval_humaneval(model, tok, "BASE")
base_bcb, _ = eval_bcb_hard(model, tok, "BASE")
log(f" BASE: HumanEval={base_he}/164 BCB-Hard={base_bcb}/148")
pairs = [json.loads(l) for l in open(args.pairs)][:args.n_pairs]
log(f"=== TRAINING — {len(pairs)} pairs ===")
lora_cfg = LoraConfig(r=16, lora_alpha=32, lora_dropout=0.05, bias="none",
target_modules=["q_proj", "k_proj", "v_proj", "o_proj"], task_type="CAUSAL_LM")
model = get_peft_model(model, lora_cfg)
tok.padding_side = "right"
ds = HFDataset.from_list([make_example(r, tok) for r in pairs])
targs = TrainingArguments(
output_dir=f"{out_dir}/ckpt", num_train_epochs=2,
per_device_train_batch_size=1, gradient_accumulation_steps=4,
learning_rate=1e-4, bf16=True, logging_steps=10,
save_strategy="no", report_to="none", remove_unused_columns=False, warmup_ratio=0.05,
)
Trainer(model=model, args=targs, train_dataset=ds, processing_class=tok).train()
log(" training done")
tok.padding_side = "left"
model.eval()
log("=== TRAINED evals ===")
tr_he, _ = eval_humaneval(model, tok, "TRAINED")
tr_bcb, _ = eval_bcb_hard(model, tok, "TRAINED")
result = {
"model": args.model, "method": "warmup 40 pairs",
"humaneval": {"base": base_he, "trained": tr_he, "delta": tr_he-base_he, "n": 164},
"bcb_hard": {"base": base_bcb, "trained": tr_bcb, "delta": tr_bcb-base_bcb, "n": 148},
"elapsed_s": time.time() - T0,
}
with open(f"{out_dir}/result.json", "w") as fh: json.dump(result, fh, indent=2)
print()
print("=" * 70)
print(f" {args.model}")
print(f" HumanEval: base={base_he}/164 trained={tr_he}/164 Δ={tr_he-base_he:+d}")
print(f" BCB-Hard: base={base_bcb}/148 trained={tr_bcb}/148 Δ={tr_bcb-base_bcb:+d}")
print(f" Time: {time.time()-T0:.0f}s")
print("=" * 70)
if __name__ == "__main__":
main()
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