// sherpa-onnx/csrc/offline-paraformer-model.cc // // Copyright (c) 2022-2023 Xiaomi Corporation #include "sherpa-onnx/csrc/offline-paraformer-model.h" #include #include #include #include "sherpa-onnx/csrc/macros.h" #include "sherpa-onnx/csrc/onnx-utils.h" #include "sherpa-onnx/csrc/session.h" #include "sherpa-onnx/csrc/text-utils.h" namespace sherpa_onnx { class OfflineParaformerModel::Impl { public: explicit Impl(const OfflineModelConfig &config) : config_(config), env_(ORT_LOGGING_LEVEL_ERROR), sess_opts_(GetSessionOptions(config)), allocator_{} { auto buf = ReadFile(config_.paraformer.model); Init(buf.data(), buf.size()); } #if __ANDROID_API__ >= 9 Impl(AAssetManager *mgr, const OfflineModelConfig &config) : config_(config), env_(ORT_LOGGING_LEVEL_ERROR), sess_opts_(GetSessionOptions(config)), allocator_{} { auto buf = ReadFile(mgr, config_.paraformer.model); Init(buf.data(), buf.size()); } #endif std::vector Forward(Ort::Value features, Ort::Value features_length) { std::array inputs = {std::move(features), std::move(features_length)}; return sess_->Run({}, input_names_ptr_.data(), inputs.data(), inputs.size(), output_names_ptr_.data(), output_names_ptr_.size()); } int32_t VocabSize() const { return vocab_size_; } int32_t LfrWindowSize() const { return lfr_window_size_; } int32_t LfrWindowShift() const { return lfr_window_shift_; } const std::vector &NegativeMean() const { return neg_mean_; } const std::vector &InverseStdDev() const { return inv_stddev_; } OrtAllocator *Allocator() const { return allocator_; } private: void Init(void *model_data, size_t model_data_length) { sess_ = std::make_unique(env_, model_data, model_data_length, sess_opts_); GetInputNames(sess_.get(), &input_names_, &input_names_ptr_); GetOutputNames(sess_.get(), &output_names_, &output_names_ptr_); // get meta data Ort::ModelMetadata meta_data = sess_->GetModelMetadata(); if (config_.debug) { std::ostringstream os; PrintModelMetadata(os, meta_data); SHERPA_ONNX_LOGE("%s\n", os.str().c_str()); } Ort::AllocatorWithDefaultOptions allocator; // used in the macro below SHERPA_ONNX_READ_META_DATA(vocab_size_, "vocab_size"); SHERPA_ONNX_READ_META_DATA(lfr_window_size_, "lfr_window_size"); SHERPA_ONNX_READ_META_DATA(lfr_window_shift_, "lfr_window_shift"); SHERPA_ONNX_READ_META_DATA_VEC_FLOAT(neg_mean_, "neg_mean"); SHERPA_ONNX_READ_META_DATA_VEC_FLOAT(inv_stddev_, "inv_stddev"); } private: OfflineModelConfig config_; Ort::Env env_; Ort::SessionOptions sess_opts_; Ort::AllocatorWithDefaultOptions allocator_; std::unique_ptr sess_; std::vector input_names_; std::vector input_names_ptr_; std::vector output_names_; std::vector output_names_ptr_; std::vector neg_mean_; std::vector inv_stddev_; int32_t vocab_size_ = 0; // initialized in Init int32_t lfr_window_size_ = 0; int32_t lfr_window_shift_ = 0; }; OfflineParaformerModel::OfflineParaformerModel(const OfflineModelConfig &config) : impl_(std::make_unique(config)) {} #if __ANDROID_API__ >= 9 OfflineParaformerModel::OfflineParaformerModel(AAssetManager *mgr, const OfflineModelConfig &config) : impl_(std::make_unique(mgr, config)) {} #endif OfflineParaformerModel::~OfflineParaformerModel() = default; std::vector OfflineParaformerModel::Forward( Ort::Value features, Ort::Value features_length) { return impl_->Forward(std::move(features), std::move(features_length)); } int32_t OfflineParaformerModel::VocabSize() const { return impl_->VocabSize(); } int32_t OfflineParaformerModel::LfrWindowSize() const { return impl_->LfrWindowSize(); } int32_t OfflineParaformerModel::LfrWindowShift() const { return impl_->LfrWindowShift(); } const std::vector &OfflineParaformerModel::NegativeMean() const { return impl_->NegativeMean(); } const std::vector &OfflineParaformerModel::InverseStdDev() const { return impl_->InverseStdDev(); } OrtAllocator *OfflineParaformerModel::Allocator() const { return impl_->Allocator(); } } // namespace sherpa_onnx