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pluginImplement.h
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pluginImplement.h
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#ifndef __PLUGIN_LAYER_H__
#define __PLUGIN_LAYER_H__
#include <cassert>
#include <iostream>
#include <cudnn.h>
#include <cstring>
#include <cuda_runtime.h>
#include <cublas_v2.h>
#include <memory>
#include "NvCaffeParser.h"
#include "NvInferPlugin.h"
void cudaSoftmax(int n, int channels, float* x, float*y);
#define CHECK(status) \
{ \
if (status != 0) \
{ \
std::cout << "Cuda failure: " << cudaGetErrorString(status) \
<< " at line " << __LINE__ \
<< std::endl; \
abort(); \
} \
}
using namespace nvinfer1;
using namespace nvcaffeparser1;
using namespace plugin;
enum FunctionType
{
SELECT=0,
SUMMARY
};
class bboxProfile {
public:
bboxProfile(float4& p, int idx): pos(p), bboxNum(idx) {}
float4 pos;
int bboxNum = -1;
int labelID = -1;
};
class tagProfile {
public:
tagProfile(int b, int l): bboxID(b), label(l) {}
int bboxID;
int label;
};
//SSD Reshape layer : shape{0,-1,21}
template<int OutC>
class Reshape : public IPlugin
{
public:
Reshape() {}
Reshape(const void* buffer, size_t size)
{
assert(size == sizeof(mCopySize));
mCopySize = *reinterpret_cast<const size_t*>(buffer);
}
int getNbOutputs() const override
{
return 1;
}
Dims getOutputDimensions(int index, const Dims* inputs, int nbInputDims) override
{
assert(nbInputDims == 1);
assert(index == 0);
assert(inputs[index].nbDims == 3);
assert((inputs[0].d[0])*(inputs[0].d[1]) % OutC == 0);
return DimsCHW( inputs[0].d[0] * inputs[0].d[1] / OutC,OutC, inputs[0].d[2]);
//return DimsCHW(OutC, inputs[0].d[0] * inputs[0].d[1] / OutC, inputs[0].d[2]);
}
int initialize() override
{
return 0;
}
void terminate() override
{
}
size_t getWorkspaceSize(int) const override
{
return 0;
}
// currently it is not possible for a plugin to execute "in place". Therefore we memcpy the data from the input to the output buffer
int enqueue(int batchSize, const void*const *inputs, void** outputs, void*, cudaStream_t stream) override
{
CHECK(cudaMemcpyAsync(outputs[0], inputs[0], mCopySize * batchSize, cudaMemcpyDeviceToDevice, stream));
return 0;
}
size_t getSerializationSize() override
{
return sizeof(mCopySize);
}
void serialize(void* buffer) override
{
*reinterpret_cast<size_t*>(buffer) = mCopySize;
}
void configure(const Dims*inputs, int nbInputs, const Dims* outputs, int nbOutputs, int) override
{
mCopySize = inputs[0].d[0] * inputs[0].d[1] * inputs[0].d[2] * sizeof(float);
}
protected:
size_t mCopySize;
};
//Softmax layer.TensorRT softmax only support cross channel
class SoftmaxPlugin : public IPlugin
{
//You need to implement it when softmax parameter axis is 2.
public:
int initialize() override { return 0; }
inline void terminate() override {}
SoftmaxPlugin(){}
SoftmaxPlugin( const void* buffer, size_t size)
{
assert(size == sizeof(mCopySize));
mCopySize = *reinterpret_cast<const size_t*>(buffer);
}
inline int getNbOutputs() const override
{
//@TODO: As the number of outputs are only 1, because there is only layer in top.
return 1;
}
Dims getOutputDimensions(int index, const Dims* inputs, int nbInputDims) override
{
assert(nbInputDims == 1);
assert(index == 0);
assert(inputs[index].nbDims == 3);
//确保输入的两个维度的积能被 类别数 整除 assert((inputs[0].d[0])*(inputs[0].d[1]) % OutC == 0);
assert((inputs[0].d[0])*(inputs[0].d[1]) % 5 == 0);
// @TODO: Understood this.
return DimsCHW( inputs[0].d[0] , inputs[0].d[1] , inputs[0].d[2] );
}
size_t getWorkspaceSize(int) const override
{
// @TODO: 1 is the batch size.
return mCopySize*1;
}
int enqueue(int batchSize, const void*const *inputs, void** outputs, void* workspace, cudaStream_t stream) override
{
//std::cout<<"flatten enqueue:"<<batchSize<<";"<< mCopySize<<std::endl;
// CHECK(cudaMemcpyAsync(outputs[0],inputs[0],batchSize*mCopySize*sizeof(float),cudaMemcpyDeviceToDevice,stream));
//cudaSoftmax( 8732*21, 21, (float *) *inputs, static_cast<float *>(*outputs));
cudaSoftmax( 1917*5, 5, (float *) *inputs, static_cast<float *>(*outputs));
return 0;
}
size_t getSerializationSize() override
{
return sizeof(mCopySize);
}
void serialize(void* buffer) override
{
*reinterpret_cast<size_t*>(buffer) = mCopySize;
}
void configure(const Dims*inputs, int nbInputs, const Dims* outputs, int nbOutputs, int) override
{
mCopySize = inputs[0].d[0] * inputs[0].d[1] * inputs[0].d[2] * sizeof(float);
}
protected:
size_t mCopySize;
};
//SSD Flatten layer
class FlattenLayer : public IPlugin
{
public:
FlattenLayer(){}
FlattenLayer(const void* buffer, size_t size)
{
assert(size == 3 * sizeof(int));
const int* d = reinterpret_cast<const int*>(buffer);
_size = d[0] * d[1] * d[2];
dimBottom = DimsCHW{d[0], d[1], d[2]};
}
inline int getNbOutputs() const override { return 1; };
Dims getOutputDimensions(int index, const Dims* inputs, int nbInputDims) override
{
assert(1 == nbInputDims);
assert(0 == index);
assert(3 == inputs[index].nbDims);
_size = inputs[0].d[0] * inputs[0].d[1] * inputs[0].d[2];
return DimsCHW(_size, 1, 1);
}
int initialize() override
{
return 0;
}
inline void terminate() override {}
inline size_t getWorkspaceSize(int) const override { return 0; }
int enqueue(int batchSize, const void*const *inputs, void** outputs, void*, cudaStream_t stream) override
{
//std::cout<<"flatten enqueue:"<<batchSize<<";"<<_size<<std::endl;
CHECK(cudaMemcpyAsync(outputs[0],inputs[0],batchSize*_size*sizeof(float),cudaMemcpyDeviceToDevice,stream));
return 0;
}
size_t getSerializationSize() override
{
return 3 * sizeof(int);
}
void serialize(void* buffer) override
{
int* d = reinterpret_cast<int*>(buffer);
d[0] = dimBottom.c(); d[1] = dimBottom.h(); d[2] = dimBottom.w();
}
void configure(const Dims*inputs, int nbInputs, const Dims* outputs, int nbOutputs, int) override
{
dimBottom = DimsCHW(inputs[0].d[0], inputs[0].d[1], inputs[0].d[2]);
}
protected:
DimsCHW dimBottom;
int _size;
};
//Concat layer . TensorRT Concat only support cross channel
class ConcatPlugin : public IPlugin
{
public:
ConcatPlugin(int axis){ _axis = axis; };
ConcatPlugin(int axis, const void* buffer, size_t size);
inline int getNbOutputs() const override {return 1;};
Dims getOutputDimensions(int index, const Dims* inputs, int nbInputDims) override ;
int initialize() override;
inline void terminate() override;
inline size_t getWorkspaceSize(int) const override { return 0; };
int enqueue(int batchSize, const void*const *inputs, void** outputs, void*, cudaStream_t stream) override;
size_t getSerializationSize() override;
void serialize(void* buffer) override;
void configure(const Dims*inputs, int nbInputs, const Dims* outputs, int nbOutputs, int) override;
protected:
DimsCHW dimsConv4_3, dimsFc7, dimsConv6, dimsConv7, dimsConv8, dimsConv9;
int inputs_size;
int top_concat_axis;//top 层 concat后的维度
int* bottom_concat_axis = new int[9];//记录每个bottom层concat维度的shape
int* concat_input_size_ = new int[9];
int* num_concats_ = new int[9];
int _axis;
};
class PluginFactory : public nvinfer1::IPluginFactory, public nvcaffeparser1::IPluginFactory
{
public:
virtual nvinfer1::IPlugin* createPlugin(const char* layerName, const nvinfer1::Weights* weights, int nbWeights) override;
IPlugin* createPlugin(const char* layerName, const void* serialData, size_t serialLength) override;
void(*nvPluginDeleter)(INvPlugin*) { [](INvPlugin* ptr) {ptr->destroy(); } };
bool isPlugin(const char* name) override;
void destroyPlugin();
//normalize layer
//std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mNormalizeLayer{ nullptr, nvPluginDeleter };
//permute layers
std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mConv11_mbox_conf_perm_layer{ nullptr, nvPluginDeleter };
std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mConv11_mbox_loc_perm_layer{ nullptr, nvPluginDeleter };
std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mConv13_mbox_conf_perm_layer{ nullptr, nvPluginDeleter };
std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mConv13_mbox_loc_perm_layer{ nullptr, nvPluginDeleter };
std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mConv14_2_mbox_conf_perm_layer{ nullptr, nvPluginDeleter };
std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mConv14_2_mbox_loc_perm_layer{ nullptr, nvPluginDeleter };
std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mConv15_2_mbox_conf_perm_layer{ nullptr, nvPluginDeleter };
std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mConv15_2_mbox_loc_perm_layer{ nullptr, nvPluginDeleter };
std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mConv16_2_mbox_conf_perm_layer{ nullptr, nvPluginDeleter };
std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mConv16_2_mbox_loc_perm_layer{ nullptr, nvPluginDeleter };
std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mConv17_2_mbox_conf_perm_layer{ nullptr, nvPluginDeleter };
std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mConv17_2_mbox_loc_perm_layer{ nullptr, nvPluginDeleter };
//priorbox layers
std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mConv13_mbox_priorbox_layer{ nullptr, nvPluginDeleter };
std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mConv14_2_mbox_priorbox_layer{ nullptr, nvPluginDeleter };
std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mConv15_2_mbox_priorbox_layer{ nullptr, nvPluginDeleter };
std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mConv16_2_mbox_priorbox_layer{ nullptr, nvPluginDeleter };
std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mConv11_mbox_priorbox_layer{ nullptr, nvPluginDeleter };
std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mConv17_2_mbox_priorbox_layer{ nullptr, nvPluginDeleter };
//detection output layer
std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mDetection_out{ nullptr, nvPluginDeleter };
//concat layers
std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mBox_loc_layer{ nullptr, nvPluginDeleter };
std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mBox_conf_layer{ nullptr, nvPluginDeleter };
std::unique_ptr<INvPlugin, decltype(nvPluginDeleter)> mBox_priorbox_layer{ nullptr, nvPluginDeleter };
//reshape layer
std::unique_ptr<Reshape<5>> mMbox_conf_reshape{ nullptr };
//flatten layers
std::unique_ptr<FlattenLayer> mConv11_mbox_conf_flat_layer{ nullptr };
std::unique_ptr<FlattenLayer> mConv13_mbox_conf_flat_layer{ nullptr };
std::unique_ptr<FlattenLayer> mConv14_2_mbox_conf_flat_layer{ nullptr };
std::unique_ptr<FlattenLayer> mConv15_2_mbox_conf_flat_layer{ nullptr };
std::unique_ptr<FlattenLayer> mConv16_2_mbox_conf_flat_layer{ nullptr };
std::unique_ptr<FlattenLayer> mConv17_2_mbox_conf_flat_layer{ nullptr };
std::unique_ptr<FlattenLayer> mConv11_mbox_loc_flat_layer{ nullptr };
std::unique_ptr<FlattenLayer> mConv13_mbox_loc_flat_layer{ nullptr };
std::unique_ptr<FlattenLayer> mConv14_2_mbox_loc_flat_layer{ nullptr };
std::unique_ptr<FlattenLayer> mConv15_2_mbox_loc_flat_layer{ nullptr };
std::unique_ptr<FlattenLayer> mConv16_2_mbox_loc_flat_layer{ nullptr };
std::unique_ptr<FlattenLayer> mConv17_2_mbox_loc_flat_layer{ nullptr };
//softmax layer
std::unique_ptr<SoftmaxPlugin> mPluginSoftmax{ nullptr };
std::unique_ptr<FlattenLayer> mMbox_conf_flat_layer{ nullptr };
};
#endif