293 lines
11 KiB
C++
293 lines
11 KiB
C++
// sherpa-onnx/csrc/online-lstm-transducer-model.cc
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//
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// Copyright (c) 2023 Xiaomi Corporation
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#include "sherpa-onnx/csrc/online-lstm-transducer-model.h"
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#include <algorithm>
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#include <memory>
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#include <sstream>
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#include <string>
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#include <utility>
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#include <vector>
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#include "onnxruntime_cxx_api.h" // NOLINT
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#include "sherpa-onnx/csrc/online-transducer-decoder.h"
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#include "sherpa-onnx/csrc/onnx-utils.h"
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#define SHERPA_ONNX_READ_META_DATA(dst, src_key) \
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do { \
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auto value = \
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meta_data.LookupCustomMetadataMapAllocated(src_key, allocator); \
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if (!value) { \
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fprintf(stderr, "%s does not exist in the metadata\n", src_key); \
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exit(-1); \
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} \
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dst = atoi(value.get()); \
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if (dst <= 0) { \
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fprintf(stderr, "Invalud value %d for %s\n", dst, src_key); \
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exit(-1); \
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} \
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} while (0)
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namespace sherpa_onnx {
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OnlineLstmTransducerModel::OnlineLstmTransducerModel(
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const OnlineTransducerModelConfig &config)
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: env_(ORT_LOGGING_LEVEL_WARNING),
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config_(config),
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sess_opts_{},
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allocator_{} {
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sess_opts_.SetIntraOpNumThreads(config.num_threads);
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sess_opts_.SetInterOpNumThreads(config.num_threads);
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InitEncoder(config.encoder_filename);
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InitDecoder(config.decoder_filename);
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InitJoiner(config.joiner_filename);
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}
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void OnlineLstmTransducerModel::InitEncoder(const std::string &filename) {
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encoder_sess_ = std::make_unique<Ort::Session>(
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env_, SHERPA_MAYBE_WIDE(filename).c_str(), sess_opts_);
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GetInputNames(encoder_sess_.get(), &encoder_input_names_,
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&encoder_input_names_ptr_);
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GetOutputNames(encoder_sess_.get(), &encoder_output_names_,
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&encoder_output_names_ptr_);
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// get meta data
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Ort::ModelMetadata meta_data = encoder_sess_->GetModelMetadata();
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if (config_.debug) {
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std::ostringstream os;
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os << "---encoder---\n";
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PrintModelMetadata(os, meta_data);
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fprintf(stderr, "%s\n", os.str().c_str());
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}
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Ort::AllocatorWithDefaultOptions allocator;
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SHERPA_ONNX_READ_META_DATA(num_encoder_layers_, "num_encoder_layers");
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SHERPA_ONNX_READ_META_DATA(T_, "T");
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SHERPA_ONNX_READ_META_DATA(decode_chunk_len_, "decode_chunk_len");
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SHERPA_ONNX_READ_META_DATA(rnn_hidden_size_, "rnn_hidden_size");
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SHERPA_ONNX_READ_META_DATA(d_model_, "d_model");
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}
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void OnlineLstmTransducerModel::InitDecoder(const std::string &filename) {
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decoder_sess_ = std::make_unique<Ort::Session>(
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env_, SHERPA_MAYBE_WIDE(filename).c_str(), sess_opts_);
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GetInputNames(decoder_sess_.get(), &decoder_input_names_,
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&decoder_input_names_ptr_);
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GetOutputNames(decoder_sess_.get(), &decoder_output_names_,
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&decoder_output_names_ptr_);
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// get meta data
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Ort::ModelMetadata meta_data = decoder_sess_->GetModelMetadata();
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if (config_.debug) {
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std::ostringstream os;
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os << "---decoder---\n";
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PrintModelMetadata(os, meta_data);
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fprintf(stderr, "%s\n", os.str().c_str());
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}
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Ort::AllocatorWithDefaultOptions allocator;
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SHERPA_ONNX_READ_META_DATA(vocab_size_, "vocab_size");
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SHERPA_ONNX_READ_META_DATA(context_size_, "context_size");
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}
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void OnlineLstmTransducerModel::InitJoiner(const std::string &filename) {
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joiner_sess_ = std::make_unique<Ort::Session>(
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env_, SHERPA_MAYBE_WIDE(filename).c_str(), sess_opts_);
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GetInputNames(joiner_sess_.get(), &joiner_input_names_,
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&joiner_input_names_ptr_);
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GetOutputNames(joiner_sess_.get(), &joiner_output_names_,
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&joiner_output_names_ptr_);
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// get meta data
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Ort::ModelMetadata meta_data = joiner_sess_->GetModelMetadata();
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if (config_.debug) {
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std::ostringstream os;
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os << "---joiner---\n";
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PrintModelMetadata(os, meta_data);
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fprintf(stderr, "%s\n", os.str().c_str());
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}
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}
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std::vector<Ort::Value> OnlineLstmTransducerModel::StackStates(
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const std::vector<std::vector<Ort::Value>> &states) const {
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int32_t batch_size = static_cast<int32_t>(states.size());
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std::array<int64_t, 3> h_shape{num_encoder_layers_, batch_size, d_model_};
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Ort::Value h = Ort::Value::CreateTensor<float>(allocator_, h_shape.data(),
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h_shape.size());
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std::array<int64_t, 3> c_shape{num_encoder_layers_, batch_size,
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rnn_hidden_size_};
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Ort::Value c = Ort::Value::CreateTensor<float>(allocator_, c_shape.data(),
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c_shape.size());
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float *dst_h = h.GetTensorMutableData<float>();
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float *dst_c = c.GetTensorMutableData<float>();
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for (int32_t layer = 0; layer != num_encoder_layers_; ++layer) {
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for (int32_t i = 0; i != batch_size; ++i) {
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const float *src_h =
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states[i][0].GetTensorData<float>() + layer * d_model_;
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const float *src_c =
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states[i][1].GetTensorData<float>() + layer * rnn_hidden_size_;
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std::copy(src_h, src_h + d_model_, dst_h);
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std::copy(src_c, src_c + rnn_hidden_size_, dst_c);
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dst_h += d_model_;
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dst_c += rnn_hidden_size_;
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}
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}
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std::vector<Ort::Value> ans;
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ans.reserve(2);
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ans.push_back(std::move(h));
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ans.push_back(std::move(c));
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return ans;
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}
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std::vector<std::vector<Ort::Value>> OnlineLstmTransducerModel::UnStackStates(
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const std::vector<Ort::Value> &states) const {
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int32_t batch_size = states[0].GetTensorTypeAndShapeInfo().GetShape()[1];
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std::vector<std::vector<Ort::Value>> ans(batch_size);
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// allocate space
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std::array<int64_t, 3> h_shape{num_encoder_layers_, 1, d_model_};
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std::array<int64_t, 3> c_shape{num_encoder_layers_, 1, rnn_hidden_size_};
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for (int32_t i = 0; i != batch_size; ++i) {
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Ort::Value h = Ort::Value::CreateTensor<float>(allocator_, h_shape.data(),
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h_shape.size());
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Ort::Value c = Ort::Value::CreateTensor<float>(allocator_, c_shape.data(),
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c_shape.size());
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ans[i].push_back(std::move(h));
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ans[i].push_back(std::move(c));
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}
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for (int32_t layer = 0; layer != num_encoder_layers_; ++layer) {
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for (int32_t i = 0; i != batch_size; ++i) {
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const float *src_h = states[0].GetTensorData<float>() +
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layer * batch_size * d_model_ + i * d_model_;
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const float *src_c = states[1].GetTensorData<float>() +
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layer * batch_size * rnn_hidden_size_ +
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i * rnn_hidden_size_;
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float *dst_h = ans[i][0].GetTensorMutableData<float>() + layer * d_model_;
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float *dst_c =
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ans[i][1].GetTensorMutableData<float>() + layer * rnn_hidden_size_;
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std::copy(src_h, src_h + d_model_, dst_h);
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std::copy(src_c, src_c + rnn_hidden_size_, dst_c);
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}
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}
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return ans;
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}
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std::vector<Ort::Value> OnlineLstmTransducerModel::GetEncoderInitStates() {
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// Please see
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// https://github.com/k2-fsa/icefall/blob/master/egs/librispeech/ASR/lstm_transducer_stateless2/export-onnx.py#L185
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// for details
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constexpr int32_t kBatchSize = 1;
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std::array<int64_t, 3> h_shape{num_encoder_layers_, kBatchSize, d_model_};
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Ort::Value h = Ort::Value::CreateTensor<float>(allocator_, h_shape.data(),
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h_shape.size());
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std::fill(h.GetTensorMutableData<float>(),
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h.GetTensorMutableData<float>() +
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num_encoder_layers_ * kBatchSize * d_model_,
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0);
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std::array<int64_t, 3> c_shape{num_encoder_layers_, kBatchSize,
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rnn_hidden_size_};
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Ort::Value c = Ort::Value::CreateTensor<float>(allocator_, c_shape.data(),
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c_shape.size());
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std::fill(c.GetTensorMutableData<float>(),
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c.GetTensorMutableData<float>() +
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num_encoder_layers_ * kBatchSize * rnn_hidden_size_,
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0);
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std::vector<Ort::Value> states;
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states.reserve(2);
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states.push_back(std::move(h));
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states.push_back(std::move(c));
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return states;
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}
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std::pair<Ort::Value, std::vector<Ort::Value>>
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OnlineLstmTransducerModel::RunEncoder(Ort::Value features,
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std::vector<Ort::Value> states) {
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auto memory_info =
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Ort::MemoryInfo::CreateCpu(OrtDeviceAllocator, OrtMemTypeDefault);
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std::array<Ort::Value, 3> encoder_inputs = {
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std::move(features), std::move(states[0]), std::move(states[1])};
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auto encoder_out = encoder_sess_->Run(
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{}, encoder_input_names_ptr_.data(), encoder_inputs.data(),
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encoder_inputs.size(), encoder_output_names_ptr_.data(),
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encoder_output_names_ptr_.size());
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std::vector<Ort::Value> next_states;
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next_states.reserve(2);
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next_states.push_back(std::move(encoder_out[1]));
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next_states.push_back(std::move(encoder_out[2]));
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return {std::move(encoder_out[0]), std::move(next_states)};
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}
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Ort::Value OnlineLstmTransducerModel::BuildDecoderInput(
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const std::vector<OnlineTransducerDecoderResult> &results) {
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int32_t batch_size = static_cast<int32_t>(results.size());
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std::array<int64_t, 2> shape{batch_size, context_size_};
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Ort::Value decoder_input =
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Ort::Value::CreateTensor<int64_t>(allocator_, shape.data(), shape.size());
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int64_t *p = decoder_input.GetTensorMutableData<int64_t>();
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for (const auto &r : results) {
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const int64_t *begin = r.tokens.data() + r.tokens.size() - context_size_;
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const int64_t *end = r.tokens.data() + r.tokens.size();
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std::copy(begin, end, p);
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p += context_size_;
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}
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return decoder_input;
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}
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Ort::Value OnlineLstmTransducerModel::RunDecoder(Ort::Value decoder_input) {
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auto decoder_out = decoder_sess_->Run(
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{}, decoder_input_names_ptr_.data(), &decoder_input, 1,
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decoder_output_names_ptr_.data(), decoder_output_names_ptr_.size());
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return std::move(decoder_out[0]);
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}
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Ort::Value OnlineLstmTransducerModel::RunJoiner(Ort::Value encoder_out,
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Ort::Value decoder_out) {
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std::array<Ort::Value, 2> joiner_input = {std::move(encoder_out),
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std::move(decoder_out)};
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auto logit =
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joiner_sess_->Run({}, joiner_input_names_ptr_.data(), joiner_input.data(),
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joiner_input.size(), joiner_output_names_ptr_.data(),
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joiner_output_names_ptr_.size());
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return std::move(logit[0]);
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}
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} // namespace sherpa_onnx
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