"""Server-end for the ASR demo.""" import os import time import random import argparse import functools from time import gmtime, strftime import SocketServer import struct import wave import paddle.v2 as paddle import _init_paths from data_utils.data import DataGenerator from model_utils.model import DeepSpeech2Model from data_utils.utility import read_manifest from utils.utility import add_arguments, print_arguments parser = argparse.ArgumentParser(description=__doc__) add_arg = functools.partial(add_arguments, argparser=parser) # yapf: disable add_arg('host_port', int, 8086, "Server's IP port.") add_arg('beam_size', int, 500, "Beam search width.") add_arg('num_conv_layers', int, 2, "# of convolution layers.") add_arg('num_rnn_layers', int, 3, "# of recurrent layers.") add_arg('rnn_layer_size', int, 2048, "# of recurrent cells per layer.") add_arg('alpha', float, 2.5, "Coef of LM for beam search.") add_arg('beta', float, 0.3, "Coef of WC for beam search.") add_arg('cutoff_prob', float, 1.0, "Cutoff probability for pruning.") add_arg('cutoff_top_n', int, 40, "Cutoff number for pruning.") add_arg('use_gru', bool, False, "Use GRUs instead of simple RNNs.") add_arg('use_gpu', bool, True, "Use GPU or not.") add_arg('share_rnn_weights',bool, True, "Share input-hidden weights across " "bi-directional RNNs. Not for GRU.") add_arg('host_ip', str, 'localhost', "Server's IP address.") add_arg('speech_save_dir', str, 'demo_cache', "Directory to save demo audios.") add_arg('warmup_manifest', str, 'data/librispeech/manifest.test-clean', "Filepath of manifest to warm up.") add_arg('mean_std_path', str, 'data/librispeech/mean_std.npz', "Filepath of normalizer's mean & std.") add_arg('vocab_path', str, 'data/librispeech/eng_vocab.txt', "Filepath of vocabulary.") add_arg('model_path', str, './checkpoints/libri/params.latest.tar.gz', "If None, the training starts from scratch, " "otherwise, it resumes from the pre-trained model.") add_arg('lang_model_path', str, 'lm/data/common_crawl_00.prune01111.trie.klm', "Filepath for language model.") add_arg('decoding_method', str, 'ctc_beam_search', "Decoding method. Options: ctc_beam_search, ctc_greedy", choices = ['ctc_beam_search', 'ctc_greedy']) add_arg('specgram_type', str, 'linear', "Audio feature type. Options: linear, mfcc.", choices=['linear', 'mfcc']) # yapf: disable args = parser.parse_args() class AsrTCPServer(SocketServer.TCPServer): """The ASR TCP Server.""" def __init__(self, server_address, RequestHandlerClass, speech_save_dir, audio_process_handler, bind_and_activate=True): self.speech_save_dir = speech_save_dir self.audio_process_handler = audio_process_handler SocketServer.TCPServer.__init__( self, server_address, RequestHandlerClass, bind_and_activate=True) class AsrRequestHandler(SocketServer.BaseRequestHandler): """The ASR request handler.""" def handle(self): # receive data through TCP socket chunk = self.request.recv(1024) target_len = struct.unpack('>i', chunk[:4])[0] data = chunk[4:] while len(data) < target_len: chunk = self.request.recv(1024) data += chunk # write to file filename = self._write_to_file(data) print("Received utterance[length=%d] from %s, saved to %s." % (len(data), self.client_address[0], filename)) start_time = time.time() transcript = self.server.audio_process_handler(filename) finish_time = time.time() print("Response Time: %f, Transcript: %s" % (finish_time - start_time, transcript)) self.request.sendall(transcript.encode('utf-8')) def _write_to_file(self, data): # prepare save dir and filename if not os.path.exists(self.server.speech_save_dir): os.mkdir(self.server.speech_save_dir) timestamp = strftime("%Y%m%d%H%M%S", gmtime()) out_filename = os.path.join( self.server.speech_save_dir, timestamp + "_" + self.client_address[0] + ".wav") # write to wav file file = wave.open(out_filename, 'wb') file.setnchannels(1) file.setsampwidth(4) file.setframerate(16000) file.writeframes(data) file.close() return out_filename def warm_up_test(audio_process_handler, manifest_path, num_test_cases, random_seed=0): """Warming-up test.""" manifest = read_manifest(manifest_path) rng = random.Random(random_seed) samples = rng.sample(manifest, num_test_cases) for idx, sample in enumerate(samples): print("Warm-up Test Case %d: %s", idx, sample['audio_filepath']) start_time = time.time() transcript = audio_process_handler(sample['audio_filepath']) finish_time = time.time() print("Response Time: %f, Transcript: %s" % (finish_time - start_time, transcript)) def start_server(): """Start the ASR server""" # prepare data generator data_generator = DataGenerator( vocab_filepath=args.vocab_path, mean_std_filepath=args.mean_std_path, augmentation_config='{}', specgram_type=args.specgram_type, num_threads=1, keep_transcription_text=True) # prepare ASR model ds2_model = DeepSpeech2Model( vocab_size=data_generator.vocab_size, num_conv_layers=args.num_conv_layers, num_rnn_layers=args.num_rnn_layers, rnn_layer_size=args.rnn_layer_size, use_gru=args.use_gru, pretrained_model_path=args.model_path, share_rnn_weights=args.share_rnn_weights) vocab_list = [chars.encode("utf-8") for chars in data_generator.vocab_list] # prepare ASR inference handler def file_to_transcript(filename): feature = data_generator.process_utterance(filename, "") result_transcript = ds2_model.infer_batch( infer_data=[feature], decoding_method=args.decoding_method, beam_alpha=args.alpha, beam_beta=args.beta, beam_size=args.beam_size, cutoff_prob=args.cutoff_prob, cutoff_top_n=args.cutoff_top_n, vocab_list=vocab_list, language_model_path=args.lang_model_path, num_processes=1, feeding_dict=data_generator.feeding) return result_transcript[0] # warming up with utterrances sampled from Librispeech print('-----------------------------------------------------------') print('Warming up ...') warm_up_test( audio_process_handler=file_to_transcript, manifest_path=args.warmup_manifest, num_test_cases=3) print('-----------------------------------------------------------') # start the server server = AsrTCPServer( server_address=(args.host_ip, args.host_port), RequestHandlerClass=AsrRequestHandler, speech_save_dir=args.speech_save_dir, audio_process_handler=file_to_transcript) print("ASR Server Started.") server.serve_forever() def main(): print_arguments(args) paddle.init(use_gpu=args.use_gpu, trainer_count=1) start_server() if __name__ == "__main__": main()