Source code for capreolus.extractor.berttext

import os
import pickle
from collections import defaultdict

import numpy as np
import tensorflow as tf
from tqdm import tqdm

from capreolus import ConfigOption, Dependency, get_logger
from capreolus.utils.common import padlist
from capreolus.utils.exceptions import MissingDocError

from . import Extractor

[docs]logger = get_logger(__name__)
[docs]@Extractor.register class BertText(Extractor):
[docs] module_name = "berttext"
[docs] dependencies = [ Dependency( key="index", module="index", name="anserini", default_config_overrides={"indexstops": True, "stemmer": "none"} ), Dependency(key="tokenizer", module="tokenizer", name="berttokenizer"),
]
[docs] config_spec = [ConfigOption("maxqlen", 4), ConfigOption("maxdoclen", 800), ConfigOption("usecache", False)]
[docs] pad = 0
[docs] pad_tok = "<pad>"
[docs] def load_state(self, qids, docids): with open(self.get_state_cache_file_path(qids, docids), "rb") as f: state_dict = pickle.load(f) self.qid2toks = state_dict["qid2toks"] self.docid2toks = state_dict["docid2toks"] self.clsidx = state_dict["clsidx"] self.sepidx = state_dict["sepidx"]
[docs] def cache_state(self, qids, docids): os.makedirs(self.get_cache_path(), exist_ok=True) with open(self.get_state_cache_file_path(qids, docids), "wb") as f: state_dict = {"qid2toks": self.qid2toks, "docid2toks": self.docid2toks, "clsidx": self.clsidx, "sepidx": self.sepidx} pickle.dump(state_dict, f, protocol=-1)
[docs] def get_tf_feature_description(self): feature_description = { "query": tf.io.FixedLenFeature([self.config["maxqlen"]], tf.int64), "query_mask": tf.io.FixedLenFeature([self.config["maxqlen"]], tf.int64), "posdoc": tf.io.FixedLenFeature([self.config["maxdoclen"]], tf.int64), "posdoc_mask": tf.io.FixedLenFeature([self.config["maxdoclen"]], tf.int64), "negdoc": tf.io.FixedLenFeature([self.config["maxdoclen"]], tf.int64), "negdoc_mask": tf.io.FixedLenFeature([self.config["maxdoclen"]], tf.int64), "label": tf.io.FixedLenFeature([2], tf.float32, default_value=tf.convert_to_tensor([1, 0], dtype=tf.float32)), } return feature_description
[docs] def create_tf_feature(self, sample): """ sample - output from self.id2vec() return - a tensorflow feature """ query, posdoc, negdoc, negdoc_id = sample["query"], sample["posdoc"], sample["negdoc"], sample["negdocid"] query_mask, posdoc_mask, negdoc_mask = sample["query_mask"], sample["posdoc_mask"], sample["negdoc_mask"] feature = { "query": tf.train.Feature(int64_list=tf.train.Int64List(value=query)), "query_mask": tf.train.Feature(int64_list=tf.train.Int64List(value=query_mask)), "posdoc": tf.train.Feature(int64_list=tf.train.Int64List(value=posdoc)), "posdoc_mask": tf.train.Feature(int64_list=tf.train.Int64List(value=posdoc_mask)), "negdoc": tf.train.Feature(int64_list=tf.train.Int64List(value=negdoc)), "negdoc_mask": tf.train.Feature(int64_list=tf.train.Int64List(value=negdoc_mask)), } return feature
[docs] def parse_tf_example(self, example_proto): feature_description = self.get_tf_feature_description() parsed_example = tf.io.parse_example(example_proto, feature_description) posdoc = parsed_example["posdoc"] posdoc_mask = parsed_example["posdoc_mask"] negdoc = parsed_example["negdoc"] negdoc_mask = parsed_example["negdoc_mask"] query = parsed_example["query"] query_mask = parsed_example["query_mask"] label = parsed_example["label"] return (posdoc, posdoc_mask, negdoc, negdoc_mask, query, query_mask), label
def _build_vocab(self, qids, docids, topics): if self.is_state_cached(qids, docids) and self.config["usecache"]: self.load_state(qids, docids) logger.info("Vocabulary loaded from cache") else: logger.info("Building bertext vocabulary") tokenize = self.tokenizer.tokenize self.qid2toks = {qid: tokenize(topics[qid]) for qid in tqdm(qids, desc="querytoks")} self.docid2toks = {docid: tokenize(self.index.get_doc(docid)) for docid in tqdm(docids, desc="doctoks")} self.clsidx, self.sepidx = self.tokenizer.convert_tokens_to_ids(["CLS", "SEP"]) self.cache_state(qids, docids)
[docs] def exist(self): return hasattr(self, "docid2toks") and len(self.docid2toks)
[docs] def preprocess(self, qids, docids, topics): if self.exist(): return self.index.create_index() self.qid2toks = defaultdict(list) self.docid2toks = defaultdict(list) self.clsidx = None self.sepidx = None self._build_vocab(qids, docids, topics)
[docs] def id2vec(self, qid, posid, negid=None): tokenizer = self.tokenizer qlen, doclen = self.config["maxqlen"], self.config["maxdoclen"] query_toks = tokenizer.convert_tokens_to_ids(self.qid2toks[qid]) query_mask = self.get_mask(query_toks, qlen) query = padlist(query_toks, qlen) posdoc_toks = tokenizer.convert_tokens_to_ids(self.docid2toks[posid]) posdoc_mask = self.get_mask(posdoc_toks, doclen) posdoc = padlist(posdoc_toks, doclen) data = { "qid": qid, "posdocid": posid, "idfs": np.zeros(qlen, dtype=np.float32), "query": np.array(query, dtype=np.long), "query_mask": np.array(query_mask, dtype=np.long), "posdoc": np.array(posdoc, dtype=np.long), "posdoc_mask": np.array(posdoc_mask, dtype=np.long), "query_idf": np.array(query, dtype=np.float32), "negdocid": "", "negdoc": np.zeros(doclen, dtype=np.long), "negdoc_mask": np.zeros(doclen, dtype=np.long), } if negid: negdoc_toks = tokenizer.convert_tokens_to_ids(self.docid2toks.get(negid, None)) negdoc_mask = self.get_mask(negdoc_toks, doclen) negdoc = padlist(negdoc_toks, doclen) if not negdoc: raise MissingDocError(qid, negid) data["negdocid"] = negid data["negdoc"] = np.array(negdoc, dtype=np.long) data["negdoc_mask"] = np.array(negdoc_mask, dtype=np.long) return data
[docs] def get_mask(self, doc, to_len): """ Returns a mask where it is 1 for actual toks and 0 for pad toks """ s = doc[:to_len] padlen = to_len - len(s) mask = [1 for _ in s] + [0 for _ in range(padlen)] return mask