"""
1. jd_vocab_tokens的中文：



2. 中文标点


3. 全中文（单字） unicode


4. 全中文（）
中文汉字数：54230, 中文标点数: 549
"""

from collections import Counter
from transformers import AutoTokenizer
from data_sample.oov_base import jd_vocab_tokens
from utils.text_util import is_zh_char, has_zh
from zhon.hanzi import punctuation as zh_punc


vocab = open("vocab.txt", "r", encoding="utf-8").readlines()

def zh_iterator():
    for idx in range(ord(u'\u4e00'), ord(u'\u9fa5')):
        yield (chr(idx))


def test_coding_length(vocab, filter=None):
    all_length = []
    for word in vocab:
        if len(word) > 1:
            continue
        if filter is not None and filter(word):
            continue
        tokens = tokenizer.encode(word)
        all_length.append(len(tokens))
        # if len(tokens.ids) > 1:
        if len(tokens.ids) == 1:
            print(word, tokens.ids)

    print("编码长度统计：", Counter(all_length))
    print("平均编码长度：", sum(all_length)/len(all_length))


def has_zh_char(text):
    return any(ch in zh_punc for ch in text)


def iter_vocab():

    f_out = open("vocab.zh.txt", "w", encoding="utf-8")
    zh_token_count = 0
    zh_symbol_count = 0
    for idx, word in enumerate(vocab):

        if has_zh(decode_str):
            zh_token_count += 1
            f_out.write("%d\t%s\t中文汉字\n" % (idx, decode_str))
        elif has_zh_char(decode_str):
            zh_symbol_count += 1
            f_out.write("%d\t%s\t中文标点\n" % (idx, decode_str))

    print("中文汉字数：%d, 中文标点数: %d" % (zh_token_count, zh_symbol_count))


if __name__ == "__main__":

    # test_coding_length(jd_vocab_tokens, filter=lambda k: not is_chinese(k))
    # test_coding_length(zh_punc)
    # test_coding_length(zh_iterator())
    iter_vocab()