#!/usr/bin/env python3 # -*- coding: utf-8 -*- """随机 baseline v2 — 真实的 null: 从模型自己的 token 池随机抽, 而非 curated 词典. 旧版从 77k WordNet 真实词抽 -> 偏高. 正常 null 应接近 0 (大量功能词/碎片被 is_word/in_wordnet 滤掉). 两个池 (per-model, 各模型 tokenizer 不同): A (alpaca): 模型在 400 句 self_gen 上实际产生的 token, *按出现频率加权* 抽 K 个不同的 -> 高频功能词/碎片(the/of/ing/##s)主导, 与真实 channel top-K 的组成一致, 这些非真实词被 in_wordnet 剔出分母 -> 稀释聚合, 给出真正的 null. (旧版 bug: 去重成 SET 后均匀抽 -> 每次 50 个干净实词, 无碎片稀释 -> 虚高 35%) B (vocab) : 模型完整 tokenizer 词表的 distinct token, 均匀抽 K 个 (词表无天然频率) 伪channel = 从池里抽 K 个 *不同的* token; 走与真实 channel 完全相同的 clean->is_word->in_wordnet / super / encoder 流程, 取均值. 两口径(全部/只有组). 用法: random_baseline_v2.py --tokenizer --model --sentences \ --thesaurus_table expanded_thesaurus.json --super_table super_thesaurus.json \ --ks 3,5,10,20,30,50 --n 2000 --seed 0 --encoder --out random_v2_.json """ import argparse, json, random, time from pathlib import Path import thesaurus_grouping as tg ENC_THRESHS = (0.4, 0.45, 0.5) def _agg(fm, avg, maxg, nmulti): n = len(nmulti); nwith = sum(1 for x in nmulti if x >= 1) s_fm, s_avg, s_nm = sum(fm), sum(avg), sum(nmulti) return { "frac_merged_mean": round(s_fm / n, 4) if n else 0.0, "avg_multi_size_mean": round(s_avg / n, 4) if n else 0.0, "n_multi_groups_mean": round(s_nm / n, 4) if n else 0.0, "frac_merged_grouponly": round(s_fm / nwith, 4) if nwith else 0.0, "avg_multi_size_grouponly": round(s_avg / nwith, 4) if nwith else 0.0, "n_multi_groups_grouponly": round(s_nm / nwith, 4) if nwith else 0.0, "n_with_group": nwith, "n_total": n, "max_group_size_int": int(max(maxg)) if maxg else 0, "max_n_multi_groups": int(max(nmulti)) if nmulti else 0, } def build_pools(tok_path, sent_path): from transformers import AutoTokenizer from collections import Counter tk = AutoTokenizer.from_pretrained(tok_path) # B: 完整 vocab — decode 每个 id, clean, 去重 (保留所有, 不预过滤, 让流程自己滤) vocab_pool = set() vid = tk.get_vocab() for tid in vid.values(): try: c = tg.clean(tk.decode([tid])).lower() except Exception: continue if c: vocab_pool.add(c) # A: alpaca — 400 句的 token *计频* (按模型分词, decode 单 token), 保留频率用于加权抽样 sents = json.loads(Path(sent_path).read_text(encoding="utf-8"))["sentences"] cnt = Counter() for s in sents: for tid in tk.encode(s, add_special_tokens=False): c = tg.clean(tk.decode([tid])).lower() if c: cnt[c] += 1 alpaca_tokens = sorted(cnt) alpaca_weights = [cnt[t] for t in alpaca_tokens] return alpaca_tokens, alpaca_weights, sorted(vocab_pool) def run_pool(pool, ks, n, sample_fn, do_encoder): """sample_fn(K) -> K 个不同 token 的 list (alpaca 频率加权 / vocab 均匀).""" methods = ["wordnet", "super"] + ([f"enc{t}" for t in ENC_THRESHS] if do_encoder else []) out = {m: {} for m in methods} for K in ks: if len(pool) < K: continue acc = {m: {"fm": [], "avg": [], "maxg": [], "nmulti": []} for m in methods} for _ in range(n): toks = sample_fn(K) mw = tg.wordnet_group_metrics(toks); ms = tg.super_group_metrics(toks) for mth, m in (("wordnet", mw), ("super", ms)): a = acc[mth]; a["fm"].append(m["frac_merged"]); a["avg"].append(m["avg_multi_size"]) a["maxg"].append(m["max_multi_size"]); a["nmulti"].append(m["n_multi_groups"]) if do_encoder: mm = tg.encoder_group_metrics_multi(toks, None, threshs=ENC_THRESHS) for t in ENC_THRESHS: em = mm[round(t, 2)]; a = acc[f"enc{t}"] a["fm"].append(em["frac_merged"]); a["avg"].append(em["avg_multi_size"]) a["maxg"].append(em["max_multi_size"]); a["nmulti"].append(em["n_multi_groups"]) for mth in methods: a = acc[mth]; out[mth][str(K)] = _agg(a["fm"], a["avg"], a["maxg"], a["nmulti"]) return out def main(tok_path, model, sent_path, table, super_table, ks, n, seed, out, do_encoder): import numpy as np rng = random.Random(seed) tg.load_thesaurus_table(table); tg.load_super_table(super_table) alpaca_tokens, alpaca_weights, vocab_pool = build_pools(tok_path, sent_path) print(f"[{model}] alpaca_pool={len(alpaca_tokens)} vocab_pool={len(vocab_pool)}", flush=True) if do_encoder: from group_metric_sweep import HFEncoder enc = HFEncoder() tg.prewarm_encoder_cache(sorted(set(alpaca_tokens) | set(vocab_pool)), enc, batch_size=8192) print(f"[{model}] enc cache={len(tg._EMB_CACHE)}", flush=True) # alpaca: 频率加权抽 K 个不同; vocab: 均匀抽 K 个不同 rs = np.random.RandomState(seed) a_arr = np.array(alpaca_tokens, dtype=object) a_p = np.asarray(alpaca_weights, dtype=np.float64); a_p = a_p / a_p.sum() def alpaca_sample(K): return list(a_arr[rs.choice(len(a_arr), size=K, replace=False, p=a_p)]) def vocab_sample(K): return rng.sample(vocab_pool, K) t0 = time.time() res = {"model": model, "ks": ks, "n_per_k": n, "seed": seed, "alpaca_sampling": "frequency_weighted", "vocab_sampling": "uniform", "alpaca_pool_size": len(alpaca_tokens), "vocab_pool_size": len(vocab_pool), "alpaca": run_pool(alpaca_tokens, ks, n, alpaca_sample, do_encoder), "vocab": run_pool(vocab_pool, ks, n, vocab_sample, do_encoder)} Path(out).write_text(json.dumps(res, ensure_ascii=False, indent=1), encoding="utf-8") for pool in ("alpaca", "vocab"): w = res[pool]["wordnet"].get("50", {}) print(f"[{model}] {pool} K50 wordnet: all_fm={w.get('frac_merged_mean')} " f"grouponly={w.get('frac_merged_grouponly')} nwith={w.get('n_with_group')}/{w.get('n_total')}", flush=True) print(f"[{model}] -> {out} ({time.time()-t0:.0f}s)", flush=True) if __name__ == "__main__": ap = argparse.ArgumentParser() ap.add_argument("--tokenizer", required=True) ap.add_argument("--model", required=True) ap.add_argument("--sentences", required=True) ap.add_argument("--thesaurus_table", required=True) ap.add_argument("--super_table", required=True) ap.add_argument("--ks", default="3,5,10,20,30,50") ap.add_argument("--n", type=int, default=2000) ap.add_argument("--seed", type=int, default=0) ap.add_argument("--encoder", action="store_true") ap.add_argument("--out", required=True) a = ap.parse_args() main(a.tokenizer, a.model, a.sentences, a.thesaurus_table, a.super_table, [int(x) for x in a.ks.split(",")], a.n, a.seed, a.out, a.encoder)