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yololayer.cu
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yololayer.cu
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#include "yololayer.h"
#include "utils.h"
#include <assert.h>
using namespace Yolo;
namespace nvinfer1
{
YoloLayerPlugin::YoloLayerPlugin()
{
mClassCount = CLASS_NUM;
mYoloKernel.clear();
mYoloKernel.push_back(yolo1);
mYoloKernel.push_back(yolo2);
mYoloKernel.push_back(yolo3);
mKernelCount = mYoloKernel.size();
}
YoloLayerPlugin::~YoloLayerPlugin()
{
}
// create the plugin at runtime from a byte stream
YoloLayerPlugin::YoloLayerPlugin(const void* data, size_t length)
{
using namespace Tn;
const char *d = reinterpret_cast<const char *>(data), *a = d;
read(d, mClassCount);
read(d, mThreadCount);
read(d, mKernelCount);
mYoloKernel.resize(mKernelCount);
auto kernelSize = mKernelCount*sizeof(YoloKernel);
memcpy(mYoloKernel.data(),d,kernelSize);
d += kernelSize;
assert(d == a + length);
}
void YoloLayerPlugin::serialize(void* buffer) const TRT_NOEXCEPT
{
using namespace Tn;
char* d = static_cast<char*>(buffer), *a = d;
write(d, mClassCount);
write(d, mThreadCount);
write(d, mKernelCount);
auto kernelSize = mKernelCount*sizeof(YoloKernel);
memcpy(d,mYoloKernel.data(),kernelSize);
d += kernelSize;
assert(d == a + getSerializationSize());
}
size_t YoloLayerPlugin::getSerializationSize() const TRT_NOEXCEPT
{
return sizeof(mClassCount) + sizeof(mThreadCount) + sizeof(mKernelCount) + sizeof(Yolo::YoloKernel) * mYoloKernel.size();
}
int YoloLayerPlugin::initialize() TRT_NOEXCEPT
{
return 0;
}
Dims YoloLayerPlugin::getOutputDimensions(int index, const Dims* inputs, int nbInputDims) TRT_NOEXCEPT
{
//output the result to channel
int totalsize = MAX_OUTPUT_BBOX_COUNT * sizeof(Detection) / sizeof(float);
return Dims3(totalsize + 1, 1, 1);
}
// Set plugin namespace
void YoloLayerPlugin::setPluginNamespace(const char* pluginNamespace) TRT_NOEXCEPT
{
mPluginNamespace = pluginNamespace;
}
const char* YoloLayerPlugin::getPluginNamespace() const TRT_NOEXCEPT
{
return mPluginNamespace;
}
// Return the DataType of the plugin output at the requested index
DataType YoloLayerPlugin::getOutputDataType(int index, const nvinfer1::DataType* inputTypes, int nbInputs) const TRT_NOEXCEPT
{
return DataType::kFLOAT;
}
// Return true if output tensor is broadcast across a batch.
bool YoloLayerPlugin::isOutputBroadcastAcrossBatch(int outputIndex, const bool* inputIsBroadcasted, int nbInputs) const TRT_NOEXCEPT
{
return false;
}
// Return true if plugin can use input that is broadcast across batch without replication.
bool YoloLayerPlugin::canBroadcastInputAcrossBatch(int inputIndex) const TRT_NOEXCEPT
{
return false;
}
void YoloLayerPlugin::configurePlugin(const PluginTensorDesc* in, int nbInput, const PluginTensorDesc* out, int nbOutput) TRT_NOEXCEPT
{
}
// Attach the plugin object to an execution context and grant the plugin the access to some context resource.
void YoloLayerPlugin::attachToContext(cudnnContext* cudnnContext, cublasContext* cublasContext, IGpuAllocator* gpuAllocator) TRT_NOEXCEPT
{
}
// Detach the plugin object from its execution context.
void YoloLayerPlugin::detachFromContext() TRT_NOEXCEPT {}
const char* YoloLayerPlugin::getPluginType() const TRT_NOEXCEPT
{
return "YoloLayer_TRT";
}
const char* YoloLayerPlugin::getPluginVersion() const TRT_NOEXCEPT
{
return "1";
}
void YoloLayerPlugin::destroy() TRT_NOEXCEPT
{
delete this;
}
// Clone the plugin
IPluginV2IOExt* YoloLayerPlugin::clone() const TRT_NOEXCEPT
{
YoloLayerPlugin *p = new YoloLayerPlugin();
p->setPluginNamespace(mPluginNamespace);
return p;
}
__device__ float Logist(float data){ return 1.0f / (1.0f + expf(-data)); };
__global__ void CalDetection(const float *input, float *output,int noElements,
int yoloWidth,int yoloHeight,const float anchors[CHECK_COUNT*2],int classes,int outputElem) {
int idx = threadIdx.x + blockDim.x * blockIdx.x;
if (idx >= noElements) return;
int total_grid = yoloWidth * yoloHeight;
int bnIdx = idx / total_grid;
idx = idx - total_grid*bnIdx;
int info_len_i = 5 + classes;
const float* curInput = input + bnIdx * (info_len_i * total_grid * CHECK_COUNT);
for (int k = 0; k < 3; ++k) {
int class_id = 0;
float max_cls_prob = 0.0;
for (int i = 5; i < info_len_i; ++i) {
float p = Logist(curInput[idx + k * info_len_i * total_grid + i * total_grid]);
if (p > max_cls_prob) {
max_cls_prob = p;
class_id = i - 5;
}
}
float box_prob = Logist(curInput[idx + k * info_len_i * total_grid + 4 * total_grid]);
if (max_cls_prob < IGNORE_THRESH || box_prob < IGNORE_THRESH) continue;
float *res_count = output + bnIdx*outputElem;
int count = (int)atomicAdd(res_count, 1);
if (count >= MAX_OUTPUT_BBOX_COUNT) return;
char* data = (char * )res_count + sizeof(float) + count*sizeof(Detection);
Detection* det = (Detection*)(data);
int row = idx / yoloWidth;
int col = idx % yoloWidth;
//Location
det->bbox[0] = (col + Logist(curInput[idx + k * info_len_i * total_grid + 0 * total_grid])) * INPUT_W / yoloWidth;
det->bbox[1] = (row + Logist(curInput[idx + k * info_len_i * total_grid + 1 * total_grid])) * INPUT_H / yoloHeight;
det->bbox[2] = expf(curInput[idx + k * info_len_i * total_grid + 2 * total_grid]) * anchors[2*k];
det->bbox[3] = expf(curInput[idx + k * info_len_i * total_grid + 3 * total_grid]) * anchors[2*k + 1];
det->det_confidence = box_prob;
det->class_id = class_id;
det->class_confidence = max_cls_prob;
}
}
void YoloLayerPlugin::forwardGpu(const float *const * inputs, float* output, cudaStream_t stream, int batchSize) {
void* devAnchor;
size_t AnchorLen = sizeof(float)* CHECK_COUNT*2;
CUDA_CHECK(cudaMalloc(&devAnchor,AnchorLen));
int outputElem = 1 + MAX_OUTPUT_BBOX_COUNT * sizeof(Detection) / sizeof(float);
for(int idx = 0 ; idx < batchSize; ++idx) {
CUDA_CHECK(cudaMemset(output + idx*outputElem, 0, sizeof(float)));
}
int numElem = 0;
for (unsigned int i = 0;i< mYoloKernel.size();++i)
{
const auto& yolo = mYoloKernel[i];
numElem = yolo.width*yolo.height*batchSize;
if (numElem < mThreadCount)
mThreadCount = numElem;
CUDA_CHECK(cudaMemcpy(devAnchor, yolo.anchors, AnchorLen, cudaMemcpyHostToDevice));
CalDetection<<< (yolo.width*yolo.height*batchSize + mThreadCount - 1) / mThreadCount, mThreadCount>>>
(inputs[i],output, numElem, yolo.width, yolo.height, (float *)devAnchor, mClassCount ,outputElem);
}
CUDA_CHECK(cudaFree(devAnchor));
}
int YoloLayerPlugin::enqueue(int batchSize, const void*const * inputs, void* TRT_CONST_ENQUEUE* outputs, void* workspace, cudaStream_t stream) TRT_NOEXCEPT
{
//assert(batchSize == 1);
//GPU
//CUDA_CHECK(cudaStreamSynchronize(stream));
forwardGpu((const float *const *)inputs, (float*)outputs[0], stream, batchSize);
return 0;
}
PluginFieldCollection YoloPluginCreator::mFC{};
std::vector<PluginField> YoloPluginCreator::mPluginAttributes;
YoloPluginCreator::YoloPluginCreator()
{
mPluginAttributes.clear();
mFC.nbFields = mPluginAttributes.size();
mFC.fields = mPluginAttributes.data();
}
const char* YoloPluginCreator::getPluginName() const TRT_NOEXCEPT
{
return "YoloLayer_TRT";
}
const char* YoloPluginCreator::getPluginVersion() const TRT_NOEXCEPT
{
return "1";
}
const PluginFieldCollection* YoloPluginCreator::getFieldNames() TRT_NOEXCEPT
{
return &mFC;
}
IPluginV2IOExt* YoloPluginCreator::createPlugin(const char* name, const PluginFieldCollection* fc) TRT_NOEXCEPT
{
YoloLayerPlugin* obj = new YoloLayerPlugin();
obj->setPluginNamespace(mNamespace.c_str());
return obj;
}
IPluginV2IOExt* YoloPluginCreator::deserializePlugin(const char* name, const void* serialData, size_t serialLength) TRT_NOEXCEPT
{
// This object will be deleted when the network is destroyed, which will
// call MishPlugin::destroy()
YoloLayerPlugin* obj = new YoloLayerPlugin(serialData, serialLength);
obj->setPluginNamespace(mNamespace.c_str());
return obj;
}
}