增加MNN模型支持
This commit is contained in:
100
cxx/ort/node.cc
100
cxx/ort/node.cc
@ -2,6 +2,7 @@
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#include <vector>
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#include <onnxruntime_cxx_api.h>
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#include "node.h"
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#include "common/tensor.h"
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#ifdef WIN32
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#include <locale>
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@ -13,51 +14,31 @@ using namespace Napi;
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#define SESSION_INSTANCE_METHOD(method) InstanceMethod<&OrtSession::method>(#method, static_cast<napi_property_attributes>(napi_writable | napi_configurable))
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static ONNXTensorElementDataType getDataTypeFromString(const std::string &name)
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{
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static const std::map<std::string, ONNXTensorElementDataType> dataTypeNameMap = {
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{"float32", ONNX_TENSOR_ELEMENT_DATA_TYPE_FLOAT},
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{"float", ONNX_TENSOR_ELEMENT_DATA_TYPE_FLOAT},
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{"float64", ONNX_TENSOR_ELEMENT_DATA_TYPE_DOUBLE},
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{"double", ONNX_TENSOR_ELEMENT_DATA_TYPE_DOUBLE},
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{"int8", ONNX_TENSOR_ELEMENT_DATA_TYPE_INT8},
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{"uint8", ONNX_TENSOR_ELEMENT_DATA_TYPE_UINT8},
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{"int16", ONNX_TENSOR_ELEMENT_DATA_TYPE_INT16},
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{"uint16", ONNX_TENSOR_ELEMENT_DATA_TYPE_UINT16},
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{"int32", ONNX_TENSOR_ELEMENT_DATA_TYPE_INT32},
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{"uint32", ONNX_TENSOR_ELEMENT_DATA_TYPE_UINT32},
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{"int64", ONNX_TENSOR_ELEMENT_DATA_TYPE_INT64},
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{"uint64", ONNX_TENSOR_ELEMENT_DATA_TYPE_UINT64},
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};
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auto it = dataTypeNameMap.find(name);
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return (it == dataTypeNameMap.end()) ? ONNX_TENSOR_ELEMENT_DATA_TYPE_UNDEFINED : it->second;
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}
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static const std::map<TensorDataType, ONNXTensorElementDataType> DATA_TYPE_MAP = {
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{TensorDataType::Float32, ONNX_TENSOR_ELEMENT_DATA_TYPE_FLOAT},
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{TensorDataType::Float64, ONNX_TENSOR_ELEMENT_DATA_TYPE_DOUBLE},
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{TensorDataType::Int32, ONNX_TENSOR_ELEMENT_DATA_TYPE_INT32},
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{TensorDataType::Uint32, ONNX_TENSOR_ELEMENT_DATA_TYPE_UINT32},
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{TensorDataType::Int16, ONNX_TENSOR_ELEMENT_DATA_TYPE_INT16},
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{TensorDataType::Uint16, ONNX_TENSOR_ELEMENT_DATA_TYPE_UINT16},
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{TensorDataType::Int8, ONNX_TENSOR_ELEMENT_DATA_TYPE_INT8},
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{TensorDataType::Uint8, ONNX_TENSOR_ELEMENT_DATA_TYPE_UINT8},
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{TensorDataType::Int64, ONNX_TENSOR_ELEMENT_DATA_TYPE_INT64},
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{TensorDataType::Uint64, ONNX_TENSOR_ELEMENT_DATA_TYPE_UINT64},
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};
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static size_t getDataTypeSize(ONNXTensorElementDataType type)
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{
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static const std::map<ONNXTensorElementDataType, size_t> dataTypeSizeMap = {
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{ONNX_TENSOR_ELEMENT_DATA_TYPE_FLOAT, 4},
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{ONNX_TENSOR_ELEMENT_DATA_TYPE_DOUBLE, 8},
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{ONNX_TENSOR_ELEMENT_DATA_TYPE_INT8, 1},
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{ONNX_TENSOR_ELEMENT_DATA_TYPE_UINT8, 1},
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{ONNX_TENSOR_ELEMENT_DATA_TYPE_INT16, 2},
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{ONNX_TENSOR_ELEMENT_DATA_TYPE_UINT16, 2},
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{ONNX_TENSOR_ELEMENT_DATA_TYPE_INT32, 4},
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{ONNX_TENSOR_ELEMENT_DATA_TYPE_UINT32, 4},
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{ONNX_TENSOR_ELEMENT_DATA_TYPE_INT64, 8},
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{ONNX_TENSOR_ELEMENT_DATA_TYPE_UINT64, 8},
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};
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auto it = dataTypeSizeMap.find(type);
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return (it == dataTypeSizeMap.end()) ? 0 : it->second;
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}
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static void *dataFromTypedArray(const Napi::Value &val, size_t &bytes)
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{
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auto arr = val.As<TypedArray>();
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auto data = static_cast<uint8_t *>(arr.ArrayBuffer().Data());
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bytes = arr.ByteLength();
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return static_cast<void *>(data + arr.ByteOffset());
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}
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static const std::map<ONNXTensorElementDataType, size_t> DATA_TYPE_SIZE_MAP = {
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{ONNX_TENSOR_ELEMENT_DATA_TYPE_FLOAT, 4},
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{ONNX_TENSOR_ELEMENT_DATA_TYPE_DOUBLE, 8},
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{ONNX_TENSOR_ELEMENT_DATA_TYPE_INT8, 1},
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{ONNX_TENSOR_ELEMENT_DATA_TYPE_UINT8, 1},
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{ONNX_TENSOR_ELEMENT_DATA_TYPE_INT16, 2},
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{ONNX_TENSOR_ELEMENT_DATA_TYPE_UINT16, 2},
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{ONNX_TENSOR_ELEMENT_DATA_TYPE_INT32, 4},
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{ONNX_TENSOR_ELEMENT_DATA_TYPE_UINT32, 4},
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{ONNX_TENSOR_ELEMENT_DATA_TYPE_INT64, 8},
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{ONNX_TENSOR_ELEMENT_DATA_TYPE_UINT64, 8},
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};
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class OrtSessionNodeInfo {
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public:
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@ -67,7 +48,22 @@ class OrtSessionNodeInfo {
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inline const std::string &GetName() const { return name_; }
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inline const std::vector<int64_t> &GetShape() const { return shape_; }
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inline ONNXTensorElementDataType GetType() const { return type_; }
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inline size_t GetElementSize() const { return getDataTypeSize(type_); }
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inline size_t GetElementSize() const
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{
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auto it = DATA_TYPE_SIZE_MAP.find(type_);
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return (it == DATA_TYPE_SIZE_MAP.end()) ? 0 : it->second;
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}
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TensorDataType GetDataType() const
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{
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auto datatype = TensorDataType::Unknown;
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for (auto it : DATA_TYPE_MAP) {
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if (it.second == type_) {
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datatype = it.first;
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break;
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}
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}
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return datatype;
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}
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size_t GetElementCount() const
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{
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if (!shape_.size()) return 0;
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@ -115,7 +111,8 @@ class OrtSessionRunWorker : public AsyncWorker {
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for (int i = 0; i < outputNames_.size(); ++i) {
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size_t bytes = outputElementBytes_[i];
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Ort::Value &value = outputValues_[i];
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auto buffer = ArrayBuffer::New(Env(), value.GetTensorMutableRawData(), bytes);
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auto buffer = ArrayBuffer::New(Env(), bytes);
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memcpy(buffer.Data(), value.GetTensorMutableRawData(), bytes);
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result.Set(String::New(Env(), outputNames_[i]), buffer);
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}
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Callback().Call({Env().Undefined(), result});
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@ -236,7 +233,12 @@ class OrtSession : public ObjectWrap<OrtSession> {
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auto inputOption = static_cast<Napi::Value>((*it).second).As<Object>();
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if (!inputOption.Has("data") || !inputOption.Get("data").IsTypedArray()) worker->SetError((std::string("data is required in inputs #" + name)));
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else {
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auto type = inputOption.Has("type") ? getDataTypeFromString(inputOption.Get("type").As<String>().Utf8Value()) : input->GetType();
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auto type = input->GetType();
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if (inputOption.Has("type")) {
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auto t = static_cast<TensorDataType>(inputOption.Get("type").As<Number>().Int32Value());
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auto it = DATA_TYPE_MAP.find(t);
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if (it != DATA_TYPE_MAP.end()) type = it->second;
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}
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size_t dataByteLen;
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void *data = dataFromTypedArray(inputOption.Get("data"), dataByteLen);
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auto shape = inputOption.Has("shape") ? GetShapeFromJavascript(inputOption.Get("shape").As<Array>()) : input->GetShape();
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@ -279,7 +281,7 @@ class OrtSession : public ObjectWrap<OrtSession> {
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auto &node = *it.second;
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auto item = Object::New(env);
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item.Set(String::New(env, "name"), String::New(env, node.GetName()));
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item.Set(String::New(env, "type"), Number::New(env, node.GetType()));
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item.Set(String::New(env, "type"), Number::New(env, static_cast<int>(node.GetDataType())));
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auto &shapeVec = node.GetShape();
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auto shape = Array::New(env, shapeVec.size());
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for (int i = 0; i < shapeVec.size(); ++i) shape.Set(i, Number::New(env, shapeVec[i]));
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@ -303,7 +305,7 @@ void InstallOrtAPI(Napi::Env env, Napi::Object exports)
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OrtSession::Init(env, exports);
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}
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#ifdef USE_ONNXRUNTIME
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#if defined(USE_ONNXRUNTIME) && not defined(BUILD_MAIN_WORD)
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static Object Init(Env env, Object exports)
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{
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InstallOrtAPI(env, exports);
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