python/FunASR-XL.git

			@@ -10,12 +10,21 @@
			from funasr.export.models import get_model
			import numpy as np
			import random

			from funasr.utils.types import str2bool
			# torch_version = float(".".join(torch.__version__.split(".")[:2]))
			# assert torch_version > 1.9

			class ASRModelExportParaformer:
			def __init__(self, cache_dir: Union[Path, str] = None, onnx: bool = True):
			class ModelExport:
			def __init__(
			self,
			cache_dir: Union[Path, str] = None,
			onnx: bool = True,
			device: str = "cpu",
			quant: bool = True,
			fallback_num: int = 0,
			audio_in: str = None,
			calib_num: int = 200,
			):
			assert check_argument_types()
			self.set_all_random_seed(0)
			if cache_dir is None:
			@@ -28,6 +37,12 @@
			)
			print("output dir: {}".format(self.cache_dir))
			self.onnx = onnx
			self.device = device
			self.quant = quant
			self.fallback_num = fallback_num
			self.frontend = None
			self.audio_in = audio_in
			self.calib_num = calib_num


			def _export(
			@@ -56,46 +71,153 @@
			print("output dir: {}".format(export_dir))


			def _torch_quantize(self, model):
			def _run_calibration_data(m):
			# using dummy inputs for a example
			if self.audio_in is not None:
			feats, feats_len = self.load_feats(self.audio_in)
			for i, (feat, len) in enumerate(zip(feats, feats_len)):
			with torch.no_grad():
			m(feat, len)
			else:
			dummy_input = model.get_dummy_inputs()
			m(*dummy_input)


			from torch_quant.module import ModuleFilter
			from torch_quant.quantizer import Backend, Quantizer
			from funasr.export.models.modules.decoder_layer import DecoderLayerSANM
			from funasr.export.models.modules.encoder_layer import EncoderLayerSANM
			module_filter = ModuleFilter(include_classes=[EncoderLayerSANM, DecoderLayerSANM])
			module_filter.exclude_op_types = [torch.nn.Conv1d]
			quantizer = Quantizer(
			module_filter=module_filter,
			backend=Backend.FBGEMM,
			)
			model.eval()
			calib_model = quantizer.calib(model)
			_run_calibration_data(calib_model)
			if self.fallback_num > 0:
			# perform automatic mixed precision quantization
			amp_model = quantizer.amp(model)
			_run_calibration_data(amp_model)
			quantizer.fallback(amp_model, num=self.fallback_num)
			print('Fallback layers:')
			print('\n'.join(quantizer.module_filter.exclude_names))
			quant_model = quantizer.quantize(model)
			return quant_model


			def _export_torchscripts(self, model, verbose, path, enc_size=None):
			if enc_size:
			dummy_input = model.get_dummy_inputs(enc_size)
			else:
			dummy_input = model.get_dummy_inputs()

			if self.device == 'cuda':
			model = model.cuda()
			dummy_input = tuple([i.cuda() for i in dummy_input])

			# model_script = torch.jit.script(model)
			model_script = torch.jit.trace(model, dummy_input)
			model_script.save(os.path.join(path, f'{model.model_name}.torchscripts'))

			if self.quant:
			quant_model = self._torch_quantize(model)
			model_script = torch.jit.trace(quant_model, dummy_input)
			model_script.save(os.path.join(path, f'{model.model_name}_quant.torchscripts'))


			def set_all_random_seed(self, seed: int):
			random.seed(seed)
			np.random.seed(seed)
			torch.random.manual_seed(seed)

			def parse_audio_in(self, audio_in):

			wav_list, name_list = [], []
			if audio_in.endswith(".scp"):
			f = open(audio_in, 'r')
			lines = f.readlines()[:self.calib_num]
			for line in lines:
			name, path = line.strip().split()
			name_list.append(name)
			wav_list.append(path)
			else:
			wav_list = [audio_in,]
			name_list = ["test",]
			return wav_list, name_list

			def load_feats(self, audio_in: str = None):
			import torchaudio

			wav_list, name_list = self.parse_audio_in(audio_in)
			feats = []
			feats_len = []
			for line in wav_list:
			path = line.strip()
			waveform, sampling_rate = torchaudio.load(path)
			if sampling_rate != self.frontend.fs:
			waveform = torchaudio.transforms.Resample(orig_freq=sampling_rate,
			new_freq=self.frontend.fs)(waveform)
			fbank, fbank_len = self.frontend(waveform, [waveform.size(1)])
			feats.append(fbank)
			feats_len.append(fbank_len)
			return feats, feats_len

			def export(self,
			tag_name: str = 'damo/speech_paraformer-large_asr_nat-zh-cn-16k-common-vocab8404-pytorch',
			mode: str = 'paraformer',
			mode: str = None,
			):

			model_dir = tag_name
			if model_dir.startswith('damo/'):
			if model_dir.startswith('damo'):
			from modelscope.hub.snapshot_download import snapshot_download
			model_dir = snapshot_download(model_dir, cache_dir=self.cache_dir)
			asr_train_config = os.path.join(model_dir, 'config.yaml')
			asr_model_file = os.path.join(model_dir, 'model.pb')
			cmvn_file = os.path.join(model_dir, 'am.mvn')
			json_file = os.path.join(model_dir, 'configuration.json')

			if mode is None:
			import json
			json_file = os.path.join(model_dir, 'configuration.json')
			with open(json_file, 'r') as f:
			config_data = json.load(f)
			mode = config_data['model']['model_config']['mode']
			if config_data['task'] == "punctuation":
			mode = config_data['model']['punc_model_config']['mode']
			else:
			mode = config_data['model']['model_config']['mode']
			if mode.startswith('paraformer'):
			from funasr.tasks.asr import ASRTaskParaformer as ASRTask
			elif mode.startswith('uniasr'):
			from funasr.tasks.asr import ASRTaskUniASR as ASRTask
			config = os.path.join(model_dir, 'config.yaml')
			model_file = os.path.join(model_dir, 'model.pb')
			cmvn_file = os.path.join(model_dir, 'am.mvn')
			model, asr_train_args = ASRTask.build_model_from_file(
			config, model_file, cmvn_file, 'cpu'
			)
			self.frontend = model.frontend
			elif mode.startswith('offline'):
			from funasr.tasks.vad import VADTask
			config = os.path.join(model_dir, 'vad.yaml')
			model_file = os.path.join(model_dir, 'vad.pb')
			cmvn_file = os.path.join(model_dir, 'vad.mvn')

			model, asr_train_args = ASRTask.build_model_from_file(
			asr_train_config, asr_model_file, cmvn_file, 'cpu'
			)
			model, vad_infer_args = VADTask.build_model_from_file(
			config, model_file, cmvn_file=cmvn_file, device='cpu'
			)
			self.export_config["feats_dim"] = 400
			self.frontend = model.frontend
			elif mode.startswith('punc'):
			from funasr.tasks.punctuation import PunctuationTask as PUNCTask
			punc_train_config = os.path.join(model_dir, 'config.yaml')
			punc_model_file = os.path.join(model_dir, 'punc.pb')
			model, punc_train_args = PUNCTask.build_model_from_file(
			punc_train_config, punc_model_file, 'cpu'
			)
			elif mode.startswith('punc_VadRealtime'):
			from funasr.tasks.punctuation import PunctuationTask as PUNCTask
			punc_train_config = os.path.join(model_dir, 'config.yaml')
			punc_model_file = os.path.join(model_dir, 'punc.pb')
			model, punc_train_args = PUNCTask.build_model_from_file(
			punc_train_config, punc_model_file, 'cpu'
			)
			self._export(model, tag_name)


			@@ -107,11 +229,12 @@

			# model_script = torch.jit.script(model)
			model_script = model #torch.jit.trace(model)
			model_path = os.path.join(path, f'{model.model_name}.onnx')

			torch.onnx.export(
			model_script,
			dummy_input,
			os.path.join(path, f'{model.model_name}.onnx'),
			model_path,
			verbose=verbose,
			opset_version=14,
			input_names=model.get_input_names(),
			@@ -119,17 +242,44 @@
			dynamic_axes=model.get_dynamic_axes()
			)

			if self.quant:
			from onnxruntime.quantization import QuantType, quantize_dynamic
			import onnx
			quant_model_path = os.path.join(path, f'{model.model_name}_quant.onnx')
			onnx_model = onnx.load(model_path)
			nodes = [n.name for n in onnx_model.graph.node]
			nodes_to_exclude = [m for m in nodes if 'output' in m]
			quantize_dynamic(
			model_input=model_path,
			model_output=quant_model_path,
			op_types_to_quantize=['MatMul'],
			per_channel=True,
			reduce_range=False,
			weight_type=QuantType.QUInt8,
			nodes_to_exclude=nodes_to_exclude,
			)


			if __name__ == '__main__':
			import sys

			model_path = sys.argv[1]
			output_dir = sys.argv[2]
			onnx = sys.argv[3]
			onnx = onnx.lower()
			onnx = onnx == 'true'
			# model_path = 'damo/speech_paraformer-large_asr_nat-zh-cn-16k-common-vocab8404-pytorch'
			# output_dir = "../export"
			export_model = ASRModelExportParaformer(cache_dir=output_dir, onnx=onnx)
			export_model.export(model_path)
			# export_model.export('/root/cache/export/damo/speech_paraformer-large_asr_nat-zh-cn-16k-common-vocab8404-pytorch')
			import argparse
			parser = argparse.ArgumentParser()
			parser.add_argument('--model-name', type=str, required=True)
			parser.add_argument('--export-dir', type=str, required=True)
			parser.add_argument('--type', type=str, default='onnx', help='["onnx", "torch"]')
			parser.add_argument('--device', type=str, default='cpu', help='["cpu", "cuda"]')
			parser.add_argument('--quantize', type=str2bool, default=False, help='export quantized model')
			parser.add_argument('--fallback-num', type=int, default=0, help='amp fallback number')
			parser.add_argument('--audio_in', type=str, default=None, help='["wav", "wav.scp"]')
			parser.add_argument('--calib_num', type=int, default=200, help='calib max num')
			args = parser.parse_args()

			export_model = ModelExport(
			cache_dir=args.export_dir,
			onnx=args.type == 'onnx',
			device=args.device,
			quant=args.quantize,
			fallback_num=args.fallback_num,
			audio_in=args.audio_in,
			calib_num=args.calib_num,
			)
			export_model.export(args.model_name)