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提交 706c5724 编写于 作者: X xutianbing
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Matrix API refactor, when passing parameters, convert shared_ptr (MatrixPtr) to 

reference or raw matrix (Matrix & or Matrix *)
contextProjectionForward
contextProjectionBackward
contextProjectionBackwardData
contextProjectionBackwardWeight
classificationError
The mul functions would be updated later.
上级 80b45ad1
隐藏空白更改
内联 并排
Showing with 103 addition and 136 deletion
paddle/gserver/evaluators/Evaluator.cpp
浏览文件 @ 706c5724
......@@ -78,7 +78,7 @@ public:
useGpu(arguments[0].deviceId));
errorMat->zeroMem();
if (label != nullptr) {
errorMat->classificationError(output, label);
errorMat->classificationError(*output, *label);
} else if (dynamic_cast<CpuSparseMatrix*>(multiBinaryLabel.get()) ||
dynamic_cast<GpuSparseMatrix*>(multiBinaryLabel.get())) {
errorMat->classificationErrorMulti(
......
paddle/gserver/layers/ContextProjection.cpp
浏览文件 @ 706c5724
......@@ -90,8 +90,8 @@ void ContextProjection::forward() {
REGISTER_TIMER_INFO("ContextProjectionForward", getName().c_str());
bool isPadding = config_.trainable_padding();
out_->value->contextProjectionForward(
in_->value,
state_ ? state_ : isPadding ? weight_->getW() : nullptr,
*(in_->value),
state_ ? state_.get() : isPadding ? weight_->getW().get() : nullptr,
*startPositions,
config_.context_length(),
config_.context_start(),
......@@ -128,8 +128,8 @@ void ContextProjection::backward(const UpdateCallback& callback) {
bool isPadding = config_.trainable_padding();
if (!out_->grad->useGpu()) {
out_->grad->contextProjectionBackward(
in_->grad,
isPadding ? weight_->getWGrad() : nullptr,
in_->grad.get(),
isPadding ? weight_->getWGrad().get() : nullptr,
*startPositions,
config_.context_length(),
config_.context_start(),
......@@ -137,7 +137,7 @@ void ContextProjection::backward(const UpdateCallback& callback) {
isPadding);
} else {
if (in_->grad) {
out_->grad->contextProjectionBackwardData(in_->grad,
out_->grad->contextProjectionBackwardData(*(in_->grad),
*startPositions,
config_.context_length(),
config_.context_start());
......@@ -145,7 +145,7 @@ void ContextProjection::backward(const UpdateCallback& callback) {
if (isPadding && weight_->getWGrad()) {
out_->grad->contextProjectionBackwardWeight(
weight_->getWGrad(),
*(weight_->getWGrad()),
*startPositions,
config_.context_length(),
config_.context_start(),
......
paddle/math/Matrix.cpp
浏览文件 @ 706c5724
......@@ -766,20 +766,19 @@ void GpuMatrix::maxoutBackward(Matrix& a,
}
/*calulate the error of classification */
void GpuMatrix::classificationError(MatrixPtr output, IVectorPtr label) {
GpuMatrixPtr output_ptr = std::dynamic_pointer_cast<GpuMatrix>(output);
GpuIVectorPtr label_ptr = std::dynamic_pointer_cast<GpuIVector>(label);
void GpuMatrix::classificationError(Matrix& output, IVector& label) {
auto output_ptr = dynamic_cast<const GpuMatrix*>(&output);
auto label_ptr = dynamic_cast<const GpuIVector*>(&label);
CHECK(output_ptr && label_ptr) << "Invalid argument pointer";
CHECK(height_ == output_ptr->height_ && width_ == 1)
<< "Matrix dimensions are not equal";
real* output_d = output_ptr->data_;
real* recResult_d = data_;
int* label_d = label_ptr->getData();
hl_matrix_classification_error(
output_d, label_d, recResult_d, height_, output_ptr->width_);
hl_matrix_classification_error((real*)output_ptr->data_,
(int*)label_ptr->getData(),
data_,
height_,
output_ptr->width_);
}
/* copy -log(output[i * width + label]) to this->data[i] */
......@@ -1370,86 +1369,62 @@ void GpuMatrix::maxSequenceBackward(Matrix& outputGrad,
hl_max_sequence_backward(outGrad, maxIndex, inputGrad, numSequences, dim);
}
void GpuMatrix::contextProjectionForward(MatrixPtr input,
MatrixPtr weight,
void GpuMatrix::contextProjectionForward(Matrix& input,
Matrix* weight,
const IVector& sequence,
int contextLength,
int contextStart,
size_t beginPad,
bool isPadding) {
CHECK(dynamic_cast<GpuMatrix*>(input.get()));
CHECK(dynamic_cast<GpuMatrix*>(&input));
CHECK(dynamic_cast<const GpuIVector*>(&sequence));
if (weight) CHECK(dynamic_cast<GpuMatrix*>(weight.get()));
size_t numSequences = sequence.getSize() - 1;
int64_t inputDim = input->getWidth();
int64_t dim = getWidth();
CHECK_EQ(dim, inputDim * contextLength);
real* outData = getData();
real* inputData = input->getData();
const int* starts = sequence.getData();
if (weight) CHECK(dynamic_cast<GpuMatrix*>(weight));
CHECK_EQ(getWidth(), input.getWidth() * contextLength);
hl_context_projection_forward(inputData,
starts,
hl_context_projection_forward(input.getData(),
sequence.getData(),
isPadding ? weight->getData() : NULL,
outData,
numSequences,
inputDim,
getData(),
sequence.getSize() - 1,
input.getWidth(),
contextLength,
contextStart,
beginPad,
isPadding);
}
void GpuMatrix::contextProjectionBackwardData(MatrixPtr inputGrad,
void GpuMatrix::contextProjectionBackwardData(Matrix& inputGrad,
const IVector& sequence,
int contextLength,
int contextStart) {
CHECK(dynamic_cast<GpuMatrix*>(inputGrad.get()));
CHECK(dynamic_cast<GpuMatrix*>(&inputGrad));
CHECK(dynamic_cast<const GpuIVector*>(&sequence));
CHECK_EQ(getWidth(), inputGrad.getWidth() * contextLength);
size_t numSequences = sequence.getSize() - 1;
int64_t inputDim = inputGrad->getWidth();
int64_t dim = getWidth();
CHECK_EQ(dim, inputDim * contextLength);
real* outGrad = getData();
real* inGrad = inputGrad->getData();
const int* starts = sequence.getData();
hl_context_projection_backward_data(outGrad,
starts,
inGrad,
numSequences,
inputDim,
hl_context_projection_backward_data(getData(),
sequence.getData(),
inputGrad.getData(),
sequence.getSize() - 1,
inputGrad.getWidth(),
contextLength,
contextStart);
}
void GpuMatrix::contextProjectionBackwardWeight(MatrixPtr weightGrad,
void GpuMatrix::contextProjectionBackwardWeight(Matrix& weightGrad,
const IVector& sequence,
int contextLength,
int contextStart,
int totalPad,
size_t beginPad) {
CHECK(dynamic_cast<GpuMatrix*>(weightGrad.get()));
CHECK(dynamic_cast<GpuMatrix*>(&weightGrad));
CHECK(dynamic_cast<const GpuIVector*>(&sequence));
CHECK_EQ(getWidth(), weightGrad.getWidth() * contextLength);
size_t numSequences = sequence.getSize() - 1;
int64_t weightDim = weightGrad->getWidth();
int64_t dim = getWidth();
CHECK_EQ(dim, weightDim * contextLength);
real* outGrad = getData();
real* wtGrad = weightGrad->getData();
const int* starts = sequence.getData();
hl_context_projection_backward_weight(outGrad,
starts,
wtGrad,
numSequences,
weightDim,
hl_context_projection_backward_weight(getData(),
sequence.getData(),
weightGrad.getData(),
sequence.getSize() - 1,
weightGrad.getWidth(),
totalPad,
contextLength,
contextStart,
......@@ -2371,23 +2346,21 @@ void CpuMatrix::maxSequenceBackward(Matrix& outputGrad,
}
}
void CpuMatrix::contextProjectionForward(MatrixPtr input,
MatrixPtr weight,
void CpuMatrix::contextProjectionForward(Matrix& input,
Matrix* weight,
const IVector& sequence,
int contextLength,
int contextStart,
size_t beginPad,
bool isPadding) {
CHECK(dynamic_cast<CpuMatrix*>(input.get()));
CHECK(dynamic_cast<const CpuIVector*>(&sequence));
if (weight) CHECK(dynamic_cast<CpuMatrix*>(weight.get()));
size_t numSequences = sequence.getSize() - 1;
int64_t inputDim = input->getWidth();
int64_t dim = getWidth();
CHECK_EQ(dim, inputDim * contextLength);
const int* starts = sequence.getData();
auto input_ptr = dynamic_cast<CpuMatrix*>(&input);
auto seq_ptr = dynamic_cast<const CpuIVector*>(&sequence);
CHECK(input_ptr && seq_ptr);
if (weight) CHECK(dynamic_cast<CpuMatrix*>(weight));
CHECK_EQ(getWidth(), input_ptr->getWidth() * contextLength);
const int* starts = seq_ptr->getData();
size_t numSequences = seq_ptr->getSize() - 1;
for (size_t i = 0; i < numSequences; ++i) {
for (int j = 0; j < contextLength; ++j) {
int begin = starts[i] + contextStart + j;
......@@ -2400,7 +2373,7 @@ void CpuMatrix::contextProjectionForward(MatrixPtr input,
MatrixPtr mat = this->subMatrix(starts[i], padSize);
if (isPadding) {
MatrixPtr sub = weight->subMatrix(j, padSize);
mat->addAtOffset(*sub, j * inputDim);
mat->addAtOffset(*sub, j * input_ptr->getWidth());
}
dstBegin = starts[i] + padSize;
begin = starts[i];
......@@ -2412,41 +2385,36 @@ void CpuMatrix::contextProjectionForward(MatrixPtr input,
if (isPadding) {
MatrixPtr sub =
weight->subMatrix(beginPad + contextStart + j - padSize, padSize);
mat->addAtOffset(*sub, j * inputDim);
mat->addAtOffset(*sub, j * input_ptr->getWidth());
}
dstEnd = starts[i + 1] - padSize;
end = starts[i + 1];
}
if (end <= begin) continue;
MatrixPtr src = input->subMatrix(begin, end - begin);
MatrixPtr src = input_ptr->subMatrix(begin, end - begin);
MatrixPtr dst = this->subMatrix(dstBegin, dstEnd - dstBegin);
dst->addAtOffset(*src, j * inputDim);
dst->addAtOffset(*src, j * input_ptr->getWidth());
}
}
}
void CpuMatrix::contextProjectionBackward(MatrixPtr inputGrad,
MatrixPtr weightGrad,
void CpuMatrix::contextProjectionBackward(Matrix* inputGrad,
Matrix* weightGrad,
const IVector& sequence,
int contextLength,
int contextStart,
size_t beginPad,
bool isPadding) {
if (inputGrad) CHECK(dynamic_cast<CpuMatrix*>(inputGrad.get()));
if (weightGrad) CHECK(dynamic_cast<CpuMatrix*>(weightGrad.get()));
if (inputGrad) CHECK(dynamic_cast<CpuMatrix*>(inputGrad));
if (weightGrad) CHECK(dynamic_cast<CpuMatrix*>(weightGrad));
CHECK(dynamic_cast<const CpuIVector*>(&sequence));
int64_t inputDim = 0;
int64_t dim = getWidth();
size_t numSequences = sequence.getSize() - 1;
const int* starts = sequence.getData();
if (inputGrad) {
inputDim = inputGrad->getWidth();
} else {
inputDim = weightGrad->getWidth();
}
CHECK_EQ(dim, inputDim * contextLength);
int64_t inputDim = inputGrad ? inputGrad->getWidth()
: weightGrad ? weightGrad->getWidth() : 0;
CHECK_EQ(getWidth(), inputDim * contextLength);
const int* starts = sequence.getData();
size_t numSequences = sequence.getSize() - 1;
for (size_t i = 0; i < numSequences; ++i) {
for (int j = 0; j < contextLength; ++j) {
int begin = starts[i] + contextStart + j;
......@@ -3544,21 +3512,20 @@ void CpuMatrix::rowNormalizeL1(Matrix& out) {
}
/* calulate classification error */
void CpuMatrix::classificationError(MatrixPtr output, IVectorPtr label) {
CHECK(dynamic_cast<CpuMatrix*>(output.get()));
CHECK(dynamic_cast<CpuIVector*>(label.get()));
void CpuMatrix::classificationError(Matrix& output, IVector& label) {
CHECK(dynamic_cast<const CpuMatrix*>(&output));
CHECK(dynamic_cast<const CpuIVector*>(&label));
size_t numSamples = getHeight();
size_t dim = output->getWidth();
CHECK_EQ(label->getSize(), numSamples);
CHECK_EQ(output->getHeight(), numSamples);
CHECK_EQ(getWidth(), (size_t)1);
size_t numSamples = getHeight();
CHECK_EQ(label.getSize(), numSamples);
CHECK_EQ(output.getHeight(), numSamples);
real* out = output->getData();
real* result = getData();
int* lbl = label->getData();
real maxData;
int maxIndex;
size_t dim = output.getWidth();
real* out = output.getData();
int* lbl = label.getData();
real maxData = 0.0;
int maxIndex = -1;
for (size_t i = 0; i < numSamples; ++i) {
CHECK_GE(lbl[i], 0);
CHECK_LT((size_t)lbl[i], dim);
......@@ -3570,7 +3537,7 @@ void CpuMatrix::classificationError(MatrixPtr output, IVectorPtr label) {
maxData = out[i * dim + j];
}
}
result[i] = (maxIndex != lbl[i]);
getData()[i] = (maxIndex != lbl[i]);
}
}
......
paddle/math/Matrix.h
浏览文件 @ 706c5724
......@@ -835,7 +835,7 @@ public:
*
* output[i] = 0 if row i is correct.
*/
virtual void classificationError(MatrixPtr output, IVectorPtr label) {
virtual void classificationError(Matrix& output, IVector& label) {
LOG(FATAL) << "Not implemented";
}
......@@ -997,8 +997,8 @@ public:
LOG(FATAL) << "Not implemeted";
}
virtual void contextProjectionForward(MatrixPtr input,
MatrixPtr weight,
virtual void contextProjectionForward(Matrix& input,
Matrix* weight,
const IVector& sequence,
int contextLength,
int contextStart,
......@@ -1007,8 +1007,8 @@ public:
LOG(FATAL) << "Not implemeted";
}
virtual void contextProjectionBackward(MatrixPtr inputGrad,
MatrixPtr weightGrad,
virtual void contextProjectionBackward(Matrix* inputGrad,
Matrix* weightGrad,
const IVector& sequence,
int contextLength,
int contextStart,
......@@ -1017,14 +1017,14 @@ public:
LOG(FATAL) << "Not implemeted";
}
virtual void contextProjectionBackwardData(MatrixPtr inputGrad,
virtual void contextProjectionBackwardData(Matrix& inputGrad,
const IVector& sequence,
int contextLength,
int contextStart) {
LOG(FATAL) << "Not implemeted";
}
virtual void contextProjectionBackwardWeight(MatrixPtr weightGrad,
virtual void contextProjectionBackwardWeight(Matrix& weightGrad,
const IVector& sequence,
int contextLength,
int contextStart,
......@@ -1373,7 +1373,7 @@ public:
void check(std::ostream& os, Matrix& refMat, bool printDiff = true);
void randomizeUniform();
void classificationError(MatrixPtr output, IVectorPtr label);
void classificationError(Matrix& output, IVector& label);
void convExpand(Matrix& feature,
int feaImgHeight,
......@@ -1487,20 +1487,20 @@ public:
const IVector& sequence,
IVector& index);
void contextProjectionForward(MatrixPtr input,
MatrixPtr weight,
void contextProjectionForward(Matrix& input,
Matrix* weight,
const IVector& sequence,
int contextLength,
int contextStart,
size_t beginPad,
bool isPadding);
void contextProjectionBackwardData(MatrixPtr inputGrad,
void contextProjectionBackwardData(Matrix& inputGrad,
const IVector& sequence,
int contextLength,
int contextStart);
void contextProjectionBackwardWeight(MatrixPtr weightGrad,
void contextProjectionBackwardWeight(Matrix& weightGrad,
const IVector& sequence,
int contextLength,
int contextStart,
......@@ -1713,16 +1713,16 @@ public:
const IVector& sequence,
IVector& index);
void contextProjectionForward(MatrixPtr input,
MatrixPtr weight,
void contextProjectionForward(Matrix& input,
Matrix* weight,
const IVector& sequence,
int contextLength,
int contextStart,
size_t beginPad,
bool isPadding);
void contextProjectionBackward(MatrixPtr inputGrad,
MatrixPtr weightGrad,
void contextProjectionBackward(Matrix* inputGrad,
Matrix* weightGrad,
const IVector& sequence,
int contextLength,
int contextStart,
......@@ -1881,7 +1881,7 @@ public:
void randomizeUniform();
void classificationError(MatrixPtr output, IVectorPtr label);
void classificationError(Matrix& output, IVector& label);
void addByBitCode(size_t numClasses, const IVector& codes, const Matrix& vec);
......
paddle/math/tests/test_matrixCompare.cpp
浏览文件 @ 706c5724
......@@ -65,16 +65,16 @@ void testMatrixProjectionForward(int contextStart,
// calculate
int beginPad = std::max(0, -contextStart);
cpuOutput->contextProjectionForward(cpuInput,
cpuWeight,
cpuOutput->contextProjectionForward(*cpuInput,
cpuWeight.get(),
*cpuSequence,
contextLength,
contextStart,
beginPad,
padding);
gpuOutput->contextProjectionForward(gpuInput,
gpuWeight,
gpuOutput->contextProjectionForward(*gpuInput,
gpuWeight.get(),
*gpuSequence,
contextLength,
contextStart,
......@@ -120,17 +120,17 @@ void testMatrixProjectionBackward(int contextStart,
// calculate
int beginPad = std::max(0, -contextStart);
cpuOutputGrad->contextProjectionBackward(cpuInputGrad,
cpuWeightGrad,
cpuOutputGrad->contextProjectionBackward(cpuInputGrad.get(),
cpuWeightGrad.get(),
*cpuSequence,
contextLength,
contextStart,
beginPad,
padding);
gpuOutputGrad->contextProjectionBackwardData(
gpuInputGrad, *gpuSequence, contextLength, contextStart);
*gpuInputGrad, *gpuSequence, contextLength, contextStart);
if (padding) {
gpuOutputGrad->contextProjectionBackwardWeight(gpuWeightGrad,
gpuOutputGrad->contextProjectionBackwardWeight(*gpuWeightGrad,
*gpuSequence,
contextLength,
contextStart,
......@@ -939,8 +939,8 @@ void testClassificationError(int numSamples, int dim) {
gpuOutput->copyFrom(*cpuOutput);
gpuLabel->copyFrom(*cpuLabel);
cpuError->classificationError(cpuOutput, cpuLabel);
gpuError->classificationError(gpuOutput, gpuLabel);
cpuError->classificationError(*cpuOutput, *cpuLabel);
gpuError->classificationError(*gpuOutput, *gpuLabel);
TensorCheckEqual(*cpuError, *gpuError);
}
......
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