python/FunASR-XL.git

			@@ -33,9 +33,9 @@
			return mm;
			}

			_FUNASRAPI FUNASR_HANDLE FunOfflineInit(std::map<std::string, std::string>& model_path, int thread_num)
			_FUNASRAPI FUNASR_HANDLE FunOfflineInit(std::map<std::string, std::string>& model_path, int thread_num, bool use_gpu, int batch_size)
			{
			funasr::OfflineStream* mm = funasr::CreateOfflineStream(model_path, thread_num);
			funasr::OfflineStream* mm = funasr::CreateOfflineStream(model_path, thread_num, use_gpu, batch_size);
			return mm;
			}

			@@ -74,16 +74,11 @@
			if(p_result->snippet_time == 0){
			return p_result;
			}
			int n_step = 0;
			int n_total = audio.GetQueueSize();

			while (audio.Fetch(buff, len, flag) > 0) {
			string msg = recog_obj->Forward(buff, len, input_finished);
			p_result->msg += msg;
			n_step++;
			if (fn_callback)
			fn_callback(n_step, n_total);
			}

			return p_result;
			}

			@@ -109,8 +104,6 @@
			float* buff;
			int len;
			int flag = 0;
			int n_step = 0;
			int n_total = audio.GetQueueSize();
			funasr::FUNASR_RECOG_RESULT* p_result = new funasr::FUNASR_RECOG_RESULT;
			p_result->snippet_time = audio.GetTimeLen();
			if(p_result->snippet_time == 0){
			@@ -119,11 +112,7 @@
			while (audio.Fetch(buff, len, flag) > 0) {
			string msg = recog_obj->Forward(buff, len, true);
			p_result->msg += msg;
			n_step++;
			if (fn_callback)
			fn_callback(n_step, n_total);
			}

			return p_result;
			}

			@@ -146,6 +135,7 @@
			funasr::FUNASR_VAD_RESULT* p_result = new funasr::FUNASR_VAD_RESULT;
			p_result->snippet_time = audio.GetTimeLen();
			if(p_result->snippet_time == 0){
			p_result->segments = new vector<std::vector<int>>();
			return p_result;
			}

			@@ -178,6 +168,7 @@
			funasr::FUNASR_VAD_RESULT* p_result = new funasr::FUNASR_VAD_RESULT;
			p_result->snippet_time = audio.GetTimeLen();
			if(p_result->snippet_time == 0){
			p_result->segments = new vector<std::vector<int>>();
			return p_result;
			}

			@@ -242,26 +233,53 @@
			if(p_result->snippet_time == 0){
			return p_result;
			}
			std::vector<int> index_vector={0};
			int msg_idx = 0;
			if(offline_stream->UseVad()){
			audio.Split(offline_stream);
			audio.CutSplit(offline_stream, index_vector);
			}
			std::vector<string> msgs(index_vector.size());
			std::vector<float> msg_stimes(index_vector.size());

			float* buff;
			int len;
			int flag = 0;
			float** buff;
			int* len;
			int* flag;
			float* start_time;
			int batch_size = offline_stream->asr_handle->GetBatchSize();
			int batch_in = 0;

			int n_step = 0;
			int n_total = audio.GetQueueSize();
			float start_time = 0.0;
			std::string cur_stamp = "[";
			std::string lang = (offline_stream->asr_handle)->GetLang();
			while (audio.Fetch(buff, len, flag, start_time) > 0) {
			while (audio.Fetch(buff, len, flag, start_time, batch_size, batch_in) > 0) {
			// dec reset
			funasr::WfstDecoder* wfst_decoder = (funasr::WfstDecoder*)dec_handle;
			if (wfst_decoder){
			wfst_decoder->StartUtterance();
			}
			string msg = (offline_stream->asr_handle)->Forward(buff, len, true, hw_emb, dec_handle);
			vector<string> msg_batch = (offline_stream->asr_handle)->Forward(buff, len, true, hw_emb, dec_handle, batch_in);
			for(int idx=0; idx<batch_in; idx++){
			string msg = msg_batch[idx];
			if(msg_idx < index_vector.size()){
			msgs[index_vector[msg_idx]] = msg;
			msg_stimes[index_vector[msg_idx]] = start_time[idx];
			msg_idx++;
			}else{
			LOG(ERROR) << "msg_idx: " << msg_idx <<" is out of range " << index_vector.size();
			}
			}

			// release
			delete[] buff;
			buff = nullptr;
			delete[] len;
			len = nullptr;
			delete[] flag;
			flag = nullptr;
			delete[] start_time;
			start_time = nullptr;
			}
			for(int idx=0; idx<msgs.size(); idx++){
			string msg = msgs[idx];
			std::vector<std::string> msg_vec = funasr::split(msg, '\|');
			if(msg_vec.size()==0){
			continue;
			@@ -274,14 +292,11 @@
			if(msg_vec.size() > 1){
			std::vector<std::string> msg_stamp = funasr::split(msg_vec[1], ',');
			for(int i=0; i<msg_stamp.size()-1; i+=2){
			float begin = std::stof(msg_stamp[i])+start_time;
			float end = std::stof(msg_stamp[i+1])+start_time;
			float begin = std::stof(msg_stamp[i])+msg_stimes[idx];
			float end = std::stof(msg_stamp[i+1])+msg_stimes[idx];
			cur_stamp += "["+std::to_string((int)(1000begin))+","+std::to_string((int)(1000end))+"],";
			}
			}
			n_step++;
			if (fn_callback)
			fn_callback(n_step, n_total);
			}
			if(cur_stamp != "["){
			cur_stamp.erase(cur_stamp.length() - 1);
			@@ -303,7 +318,9 @@
			p_result->msg = msg_itn;
			}
			#endif

			if (!(p_result->stamp).empty()){
			p_result->stamp_sents = funasr::TimestampSentence(p_result->msg, p_result->stamp);
			}
			return p_result;
			}

			@@ -338,25 +355,54 @@
			if(p_result->snippet_time == 0){
			return p_result;
			}
			std::vector<int> index_vector={0};
			int msg_idx = 0;
			if(offline_stream->UseVad()){
			audio.Split(offline_stream);
			audio.CutSplit(offline_stream, index_vector);
			}
			std::vector<string> msgs(index_vector.size());
			std::vector<float> msg_stimes(index_vector.size());

			float* buff;
			int len;
			int flag = 0;
			int n_step = 0;
			int n_total = audio.GetQueueSize();
			float start_time = 0.0;
			float** buff;
			int* len;
			int* flag;
			float* start_time;
			int batch_size = offline_stream->asr_handle->GetBatchSize();
			int batch_in = 0;

			std::string cur_stamp = "[";
			std::string lang = (offline_stream->asr_handle)->GetLang();
			while (audio.Fetch(buff, len, flag, start_time) > 0) {
			while (audio.Fetch(buff, len, flag, start_time, batch_size, batch_in) > 0) {
			// dec reset
			funasr::WfstDecoder* wfst_decoder = (funasr::WfstDecoder*)dec_handle;
			if (wfst_decoder){
			wfst_decoder->StartUtterance();
			}
			string msg = (offline_stream->asr_handle)->Forward(buff, len, true, hw_emb, dec_handle);
			vector<string> msgs = (offline_stream->asr_handle)->Forward(buff, len, true, hw_emb, dec_handle, batch_in);
			vector<string> msg_batch = (offline_stream->asr_handle)->Forward(buff, len, true, hw_emb, dec_handle, batch_in);
			for(int idx=0; idx<batch_in; idx++){
			string msg = msg_batch[idx];
			if(msg_idx < index_vector.size()){
			msgs[index_vector[msg_idx]] = msg;
			msg_stimes[index_vector[msg_idx]] = start_time[idx];
			msg_idx++;
			}else{
			LOG(ERROR) << "msg_idx: " << msg_idx <<" is out of range " << index_vector.size();
			}
			}

			// release
			delete[] buff;
			buff = nullptr;
			delete[] len;
			len = nullptr;
			delete[] flag;
			flag = nullptr;
			delete[] start_time;
			start_time = nullptr;
			}
			for(int idx=0; idx<msgs.size(); idx++){
			string msg = msgs[idx];
			std::vector<std::string> msg_vec = funasr::split(msg, '\|');
			if(msg_vec.size()==0){
			continue;
			@@ -369,15 +415,11 @@
			if(msg_vec.size() > 1){
			std::vector<std::string> msg_stamp = funasr::split(msg_vec[1], ',');
			for(int i=0; i<msg_stamp.size()-1; i+=2){
			float begin = std::stof(msg_stamp[i])+start_time;
			float end = std::stof(msg_stamp[i+1])+start_time;
			float begin = std::stof(msg_stamp[i])+msg_stimes[idx];
			float end = std::stof(msg_stamp[i+1])+msg_stimes[idx];
			cur_stamp += "["+std::to_string((int)(1000begin))+","+std::to_string((int)(1000end))+"],";
			}
			}

			n_step++;
			if (fn_callback)
			fn_callback(n_step, n_total);
			}
			if(cur_stamp != "["){
			cur_stamp.erase(cur_stamp.length() - 1);
			@@ -399,6 +441,9 @@
			p_result->msg = msg_itn;
			}
			#endif
			if (!(p_result->stamp).empty()){
			p_result->stamp_sents = funasr::TimestampSentence(p_result->msg, p_result->stamp);
			}
			return p_result;
			}

			@@ -432,7 +477,7 @@
			_FUNASRAPI FUNASR_RESULT FunTpassInferBuffer(FUNASR_HANDLE handle, FUNASR_HANDLE online_handle, const char* sz_buf,
			int n_len, std::vector<std::vector<std::string>> &punc_cache, bool input_finished,
			int sampling_rate, std::string wav_format, ASR_TYPE mode,
			const std::vector<std::vector<float>> &hw_emb, bool itn)
			const std::vector<std::vector<float>> &hw_emb, bool itn, FUNASR_DEC_HANDLE dec_handle)
			{
			funasr::TpassStream* tpass_stream = (funasr::TpassStream*)handle;
			funasr::TpassOnlineStream* tpass_online_stream = (funasr::TpassOnlineStream*)online_handle;
			@@ -473,7 +518,7 @@

			audio->Split(vad_online_handle, chunk_len, input_finished, mode);

			funasr::AudioFrame* frame = NULL;
			funasr::AudioFrame* frame = nullptr;
			while(audio->FetchChunck(frame) > 0){
			string msg = ((funasr::ParaformerOnline*)asr_online_handle)->Forward(frame->data, frame->len, frame->is_final);
			if(mode == ASR_ONLINE){
			@@ -497,17 +542,28 @@
			}else if(mode == ASR_TWO_PASS){
			p_result->msg += msg;
			}
			if(frame != NULL){
			if(frame != nullptr){
			delete frame;
			frame = NULL;
			frame = nullptr;
			}
			}

			// timestamp
			std::string cur_stamp = "[";
			while(audio->FetchTpass(frame) > 0){
			string msg = ((funasr::Paraformer*)asr_handle)->Forward(frame->data, frame->len, frame->is_final, hw_emb);

			// dec reset
			funasr::WfstDecoder* wfst_decoder = (funasr::WfstDecoder*)dec_handle;
			if (wfst_decoder){
			wfst_decoder->StartUtterance();
			}
			float** buff;
			int* len;
			buff = new float*[1];
			len = new int[1];
			buff[0] = frame->data;
			len[0] = frame->len;
			vector<string> msgs = ((funasr::Paraformer*)asr_handle)->Forward(buff, len, frame->is_final, hw_emb, dec_handle);
			string msg = msgs.size()>0?msgs[0]:"";
			std::vector<std::string> msg_vec = funasr::split(msg, '\|'); // split with timestamp
			if(msg_vec.size()==0){
			continue;
			@@ -546,10 +602,12 @@
			p_result->tpass_msg = msg_itn;
			}
			#endif

			if(frame != NULL){
			if (!(p_result->stamp).empty()){
			p_result->stamp_sents = funasr::TimestampSentence(p_result->tpass_msg, p_result->stamp);
			}
			if(frame != nullptr){
			delete frame;
			frame = NULL;
			frame = nullptr;
			}
			}

			@@ -601,6 +659,15 @@
			return nullptr;

			return p_result->stamp.c_str();
			}

			_FUNASRAPI const char* FunASRGetStampSents(FUNASR_RESULT result)
			{
			funasr::FUNASR_RECOG_RESULT * p_result = (funasr::FUNASR_RECOG_RESULT*)result;
			if(!p_result)
			return nullptr;

			return p_result->stamp_sents.c_str();
			}

			_FUNASRAPI const char* FunASRGetTpassResult(FUNASR_RESULT result,int n_index)
			@@ -744,10 +811,45 @@
			funasr::WfstDecoder* mm = nullptr;
			if (asr_type == ASR_OFFLINE) {
			funasr::OfflineStream* offline_stream = (funasr::OfflineStream*)handle;
			funasr::Paraformer* paraformer = (funasr::Paraformer*)offline_stream->asr_handle.get();
			if (paraformer->lm_)
			mm = new funasr::WfstDecoder(paraformer->lm_.get(),
			paraformer->GetPhoneSet(), paraformer->GetVocab(), glob_beam, lat_beam, am_scale);
			auto paraformer = dynamic_cast<funasr::Paraformer*>(offline_stream->asr_handle.get());
			if(paraformer !=nullptr){
			if (paraformer->lm_){
			mm = new funasr::WfstDecoder(paraformer->lm_.get(),
			paraformer->GetPhoneSet(), paraformer->GetLmVocab(), glob_beam, lat_beam, am_scale);
			}
			return mm;
			}
			#ifdef USE_GPU
			auto paraformer_torch = dynamic_cast<funasr::ParaformerTorch*>(offline_stream->asr_handle.get());
			if(paraformer_torch !=nullptr){
			if (paraformer_torch->lm_){
			mm = new funasr::WfstDecoder(paraformer_torch->lm_.get(),
			paraformer_torch->GetPhoneSet(), paraformer_torch->GetLmVocab(), glob_beam, lat_beam, am_scale);
			}
			return mm;
			}
			#endif

			} else if (asr_type == ASR_TWO_PASS){
			funasr::TpassStream* tpass_stream = (funasr::TpassStream*)handle;
			auto paraformer = dynamic_cast<funasr::Paraformer*>(tpass_stream->asr_handle.get());
			if(paraformer !=nullptr){
			if (paraformer->lm_){
			mm = new funasr::WfstDecoder(paraformer->lm_.get(),
			paraformer->GetPhoneSet(), paraformer->GetLmVocab(), glob_beam, lat_beam, am_scale);
			}
			return mm;
			}
			#ifdef USE_GPU
			auto paraformer_torch = dynamic_cast<funasr::ParaformerTorch*>(tpass_stream->asr_handle.get());
			if(paraformer_torch !=nullptr){
			if (paraformer_torch->lm_){
			mm = new funasr::WfstDecoder(paraformer_torch->lm_.get(),
			paraformer_torch->GetPhoneSet(), paraformer_torch->GetLmVocab(), glob_beam, lat_beam, am_scale);
			}
			return mm;
			}
			#endif
			}
			return mm;
			}