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- import argparse
- import functools
- import time
-
- from data_utils.audio_process import AudioInferProcess
- from utils.predict import Predictor
- from utils.audio_vad import crop_audio_vad
- from utils.utility import add_arguments, print_arguments
-
- parser = argparse.ArgumentParser(description=__doc__)
- add_arg = functools.partial(add_arguments, argparser=parser)
- add_arg('wav_path', str, './dataset/test.wav', "预测音频的路径")
- add_arg('is_long_audio', bool, False, "是否为长语音")
- add_arg('use_gpu', bool, True, "是否使用GPU预测")
- add_arg('enable_mkldnn', bool, False, "是否使用mkldnn加速")
- add_arg('to_an', bool, True, "是否转为阿拉伯数字")
- add_arg('beam_size', int, 300, "集束搜索解码相关参数,搜索的大小,范围:[5, 500]")
- add_arg('alpha', float, 1.2, "集束搜索解码相关参数,LM系数")
- add_arg('beta', float, 0.35, "集束搜索解码相关参数,WC系数")
- add_arg('cutoff_prob', float, 0.99, "集束搜索解码相关参数,剪枝的概率")
- add_arg('cutoff_top_n', int, 40, "集束搜索解码相关参数,剪枝的最大值")
- add_arg('mean_std_path', str, './dataset/mean_std.npz', "数据集的均值和标准值的npy文件路径")
- add_arg('vocab_path', str, './dataset/zh_vocab.txt', "数据集的词汇表文件路径")
- add_arg('model_dir', str, './models/infer/', "导出的预测模型文件夹路径")
- add_arg('lang_model_path', str, './lm/zh_giga.no_cna_cmn.prune01244.klm', "集束搜索解码相关参数,语言模型文件路径")
- add_arg('decoding_method', str, 'ctc_greedy', "结果解码方法,有集束搜索(ctc_beam_search)、贪婪策略(ctc_greedy)", choices=['ctc_beam_search', 'ctc_greedy'])
- args = parser.parse_args()
- print_arguments(args)
-
-
- # 获取数据生成器,处理数据和获取字典需要
- audio_process = AudioInferProcess(vocab_filepath=args.vocab_path, mean_std_filepath=args.mean_std_path)
-
- predictor = Predictor(model_dir=args.model_dir, audio_process=audio_process, decoding_method=args.decoding_method,
- alpha=args.alpha, beta=args.beta, lang_model_path=args.lang_model_path, beam_size=args.beam_size,
- cutoff_prob=args.cutoff_prob, cutoff_top_n=args.cutoff_top_n, use_gpu=args.use_gpu,
- enable_mkldnn=args.enable_mkldnn)
-
-
- def predict_long_audio():
- start = time.time()
- # 分割长音频
- audios_path = crop_audio_vad(args.wav_path)
- texts = ''
- scores = []
- # 执行识别
- for i, audio_path in enumerate(audios_path):
- score, text = predictor.predict(audio_path=audio_path, to_an=args.to_an)
- texts = texts + ',' + text
- scores.append(score)
- print("第%d个分割音频, 得分: %d, 识别结果: %s" % (i, score, text))
- print("最终结果,消耗时间:%d, 得分: %d, 识别结果: %s" % (round((time.time() - start) * 1000), sum(scores) / len(scores), texts))
-
-
- def predict_audio():
- start = time.time()
- score, text = predictor.predict(audio_path=args.wav_path, to_an=args.to_an)
- print("消耗时间:%dms, 识别结果: %s, 得分: %d" % (round((time.time() - start) * 1000), text, score))
-
-
- if __name__ == "__main__":
- if args.is_long_audio:
- predict_long_audio()
- else:
- predict_audio()
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