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提交 91e8aada 编写于 作者: D dzhwinter 提交者: GitHub
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Merge branch 'develop' into type_alias

上级 aa5090de e31a469e
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.travis.yml
浏览文件 @ 91e8aada
......@@ -38,7 +38,7 @@ before_install:
# Paddle is using protobuf 3.1 currently. Protobuf 3.2 breaks the compatibility. So we specify the python
# protobuf version.
- pip install numpy wheel 'protobuf==3.1' sphinx==1.5.6 recommonmark sphinx-rtd-theme==0.1.9 virtualenv pre-commit requests==2.9.2 LinkChecker
- pip install rarfile
- pip install rarfile nltk==3.2.2 scipy==0.19.0 recordio matplotlib Pillow
- curl https://glide.sh/get | bash
- eval "$(GIMME_GO_VERSION=1.8.3 gimme)"
- go get -u github.com/alecthomas/gometalinter
......
doc/api/v2/config/layer.rst
浏览文件 @ 91e8aada
......@@ -257,6 +257,16 @@ seq_concat
.. autoclass:: paddle.v2.layer.seq_concat
:noindex:
kmax_sequence_score
-------------------
.. autoclass:: paddle.v2.layer.kmax_sequence_score
:noindex:
sub_nested_seq
--------------
.. autoclass:: paddle.v2.layer.sub_nested_seq
:noindex:
Reshaping Layers
================
......
doc/templates/conf.py.cn.in
浏览文件 @ 91e8aada
......@@ -13,15 +13,11 @@
# serve to show the default.
import sys
import os, subprocess
sys.path.insert(0, os.path.abspath('@PROJ_ROOT@/python'))
import shlex
from recommonmark import parser, transform
try:
import py_paddle
import paddle
import paddle.v2
except ImportError:
print("Must install paddle python package before generating documentation")
sys.exit(1)
import paddle
import paddle.v2
MarkdownParser = parser.CommonMarkParser
AutoStructify = transform.AutoStructify
......
doc/templates/conf.py.en.in
浏览文件 @ 91e8aada
......@@ -13,15 +13,11 @@
# serve to show the default.
import sys
import os, subprocess
sys.path.insert(0, os.path.abspath('@PROJ_ROOT@/python'))
import shlex
from recommonmark import parser, transform
try:
import py_paddle
import paddle
import paddle.v2
except ImportError:
print("Must install paddle python package before generating documentation")
sys.exit(1)
import paddle
import paddle.v2
MarkdownParser = parser.CommonMarkParser
......
paddle/framework/CMakeLists.txt
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......@@ -40,11 +40,12 @@ if(WITH_PYTHON)
cc_library(paddle_pybind SHARED
SRCS pybind.cc
DEPS pybind python backward
fc_op
sgd_op
add_op
mean_op
cross_entropy_op
fill_zeros_like_op
recurrent_op)
fc_op
sgd_op
add_op
mean_op
cross_entropy_op
recurrent_op
uniform_random_op
fill_zeros_like_op)
endif(WITH_PYTHON)
paddle/framework/op_registry.h
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......@@ -260,12 +260,6 @@ class OpRegistry {
return CreateOp(op_desc.type(), inputs, outputs, attrs);
}
static bool SupportGPU(const std::string& op_type) {
OperatorWithKernel::OpKernelKey key;
key.place_ = platform::GPUPlace();
return OperatorWithKernel::AllOpKernels().at(op_type).count(key) != 0;
}
static std::shared_ptr<OperatorBase> CreateGradOp(const OperatorBase& op) {
PADDLE_ENFORCE(!op.IsNetOp(),
"Use framework::Backward to get backward ops");
......
paddle/framework/operator.h
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......@@ -88,6 +88,8 @@ class OperatorBase {
virtual bool IsNetOp() const { return false; }
virtual bool SupportGPU() const { return false; }
/// rename inputs outputs name
void Rename(const std::string& old_name, const std::string& new_name);
......@@ -308,7 +310,7 @@ class OperatorWithKernel : public OperatorBase {
using OpKernelMap =
std::unordered_map<OpKernelKey, std::unique_ptr<OpKernel>, OpKernelHash>;
void InferShape(const Scope& scope) const {
void InferShape(const Scope& scope) const override {
InferShape(InferShapeContext(this, scope));
}
......@@ -324,6 +326,12 @@ class OperatorWithKernel : public OperatorBase {
return g_all_op_kernels;
}
bool SupportGPU() const override {
OperatorWithKernel::OpKernelKey key;
key.place_ = platform::GPUPlace();
return OperatorWithKernel::AllOpKernels().at(type_).count(key) != 0;
}
protected:
virtual void InferShape(const InferShapeContext& ctx) const = 0;
};
......
paddle/framework/pybind.cc
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......@@ -39,6 +39,7 @@ USE_OP(softmax);
USE_OP(rowwise_add);
USE_OP(fill_zeros_like);
USE_OP_WITHOUT_KERNEL(recurrent_op);
USE_OP(uniform_random);
namespace paddle {
namespace framework {
......@@ -56,6 +57,26 @@ void ExposeOperator(ClassType &m) {
[](const typename ClassType::type &op) -> std::vector<std::string> {
return op.outputs_;
})
.def("inputs",
[](const typename ClassType::type &op) -> std::vector<std::string> {
return op.inputs_;
})
.def("support_gpu", &ClassType::type::SupportGPU)
.def("temp_outputs",
[](const typename ClassType::type &op) -> std::vector<std::string> {
auto iter = op.attrs_.find("temporary_index");
std::vector<std::string> ret;
if (iter == op.attrs_.end()) {
return ret;
} else {
auto tmp_idx = boost::get<std::vector<int>>(iter->second);
ret.reserve(tmp_idx.size());
for (auto &index : tmp_idx) {
ret.push_back(op.outputs_.at(index));
}
return ret;
}
})
.def("__str__", &ClassType::type::DebugString);
}
......@@ -201,8 +222,6 @@ All parameter, weight, gradient are variables in Paddle.
return OpRegistry::CreateOp(desc);
});
operator_base.def_static("support_gpu", &OpRegistry::SupportGPU);
operator_base.def("backward",
[](const OperatorBase &forwardOp,
const std::unordered_set<std::string> &no_grad_vars) {
......
paddle/gserver/layers/KmaxSeqScoreLayer.cpp 0 → 100644
浏览文件 @ 91e8aada
/* Copyright (c) 2016 PaddlePaddle Authors. All Rights Reserve.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License. */
#include "Layer.h"
namespace paddle {
class KmaxSeqScoreLayer : public Layer {
private:
MatrixPtr scores_;
size_t beamSize_;
void kmaxScorePerSeq(const real* score,
real* sortedRes,
const ICpuGpuVectorPtr seqStartPos);
public:
explicit KmaxSeqScoreLayer(const LayerConfig& config) : Layer(config) {}
bool init(const LayerMap& layerMap,
const ParameterMap& parameterMap) override;
void forward(PassType passType) override;
void backward(const UpdateCallback& callback = nullptr) override;
};
REGISTER_LAYER(kmax_seq_score, KmaxSeqScoreLayer);
bool KmaxSeqScoreLayer::init(const LayerMap& layerMap,
const ParameterMap& parameterMap) {
bool ret = Layer::init(layerMap, parameterMap);
CHECK_EQ(1U, inputLayers_.size());
beamSize_ = config_.beam_size();
CHECK_GE(beamSize_, 1U);
setNeedSequenceInfo(false);
setNeedGradient(false);
return ret;
}
void KmaxSeqScoreLayer::kmaxScorePerSeq(const real* scores,
real* sortedIds,
const ICpuGpuVectorPtr seqStartPos) {
int* starts = seqStartPos->getMutableData(false);
std::vector<real> indices;
for (size_t i = 0; i < seqStartPos->getSize() - 1; ++i) {
int seqLen = starts[i + 1] - starts[i];
int k = std::min(static_cast<int>(beamSize_), seqLen);
indices.resize(seqLen, 0);
std::iota(begin(indices), end(indices), 0.);
std::vector<real> tmpScore(scores + starts[i], scores + starts[i + 1]);
std::partial_sort(
begin(indices),
begin(indices) + k,
end(indices),
[&](size_t a, size_t b) { return tmpScore[a] > tmpScore[b]; });
memcpy(sortedIds + (i * beamSize_), indices.data(), k * sizeof(real));
}
}
void KmaxSeqScoreLayer::forward(PassType passType) {
Layer::forward(passType);
const Argument& input = getInput(0);
const MatrixPtr inputScore = getInputValue(0);
CHECK(input.hasSeq() || input.hasSubseq())
<< "input of " << getName()
<< " must be a sequence or a nested sequence.";
CHECK_EQ(input.value->getWidth(), 1UL)
<< "input of " << getName()
<< " is score over a sequence or a nested sequence, so its width "
<< " must be 1.";
if (useGpu_) {
// this Layer runs only in CPU, if the model is runing on GPU,
// then copy the input to this layer from GPU to CPU.
Matrix::resizeOrCreate(scores_,
inputScore->getHeight(),
1,
false /* trans */,
false /* useGpu */);
scores_->copyFrom(*inputScore);
} else {
scores_ = inputScore;
}
Matrix::resizeOrCreate(
output_.value,
input.hasSubseq() ? input.getNumSubSequences() : input.getNumSequences(),
beamSize_,
false,
false);
output_.value->one();
output_.value->mulScalar(-1.);
kmaxScorePerSeq(scores_->getData(),
output_.value->getData(),
input.hasSubseq() ? input.subSequenceStartPositions
: input.sequenceStartPositions);
}
void KmaxSeqScoreLayer::backward(const UpdateCallback& callback) {}
} // namespace paddle
paddle/gserver/layers/SubNestedSequenceLayer.cpp 0 → 100644
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/* Copyright (c) 2016 PaddlePaddle Authors. All Rights Reserve.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License. */
#include "Layer.h"
#include "paddle/math/Matrix.h"
#include "paddle/math/Vector.h"
#include "paddle/utils/Logging.h"
#include "paddle/utils/Stat.h"
namespace paddle {
class SubNestedSequenceLayer : public Layer {
public:
explicit SubNestedSequenceLayer(const LayerConfig& config) : Layer(config) {}
bool init(const LayerMap& layerMap,
const ParameterMap& parameterMap) override;
void forward(PassType passType) override;
void backward(const UpdateCallback& callback = nullptr) override;
private:
/*
* This functions generates the indices of rows in a batch according to the
* indices of selected sub-sequence in each sequence.
*
* Examples:
* selectedIndices:
* [
* [0, 1, -1],
* [0, 1, 2],
* [0, -1, -1],
* [0, 2, 3],
* ]
* inputSeqInfo:
* [
* [0,3,4],
* [4,5,7,10,15],
* [15,20],
* [20,22,23,25,28]
* ]
*
* ths output is saved to private member rowIndice_;
* [0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,
* 16,17,18,19,20,21,22,23,24,25,26,27]
*/
void calSelectedCols(const MatrixPtr selectedIndices,
const std::vector<std::vector<int>>& inputSeqInfo);
// if the second input of this layer is on GPU memory, copy it to CPU memory.
MatrixPtr selIdsCpu_;
// reorganized sequenceStartPositions and subSequenceStartPositions
// into a 2d vector to facilitate the sequence selection process.
std::vector<std::vector<int>> inputSeqInfoVec_;
// the final selected row indices in a batch,
// rowIdx_ and selectedRows_ actually share a same memory.
IVectorPtr rowIndice_;
std::vector<int> selectedRows_;
};
REGISTER_LAYER(sub_nested_seq, SubNestedSequenceLayer);
bool SubNestedSequenceLayer::init(const LayerMap& layerMap,
const ParameterMap& parameterMap) {
/* Initialize the basic parent class */
Layer::init(layerMap, parameterMap);
CHECK_EQ(2U, inputLayers_.size());
setNeedSequenceInfo(false);
return true;
}
void SubNestedSequenceLayer::calSelectedCols(
const MatrixPtr selectedIndices,
const std::vector<std::vector<int>>& inputSeqInfo) {
selectedRows_.clear();
std::vector<int> outSeqStartInfo(1, 0);
std::vector<int> outSubSeqStartInfo(1, 0);
size_t seqNum = selectedIndices->getHeight();
size_t beamSize = selectedIndices->getWidth();
for (size_t i = 0; i < seqNum; ++i) {
for (size_t j = 0; j < beamSize; ++j) {
if (selectedIndices->getElement(i, j) == -1.) break;
int selSubSeqIdx = selectedIndices->getElement(i, j);
CHECK_GT(inputSeqInfoVec_[i].size() - 1, selSubSeqIdx);
size_t subSeqLen = inputSeqInfoVec_[i][selSubSeqIdx + 1] -
inputSeqInfoVec_[i][selSubSeqIdx];
for (size_t k = 0; k < subSeqLen; ++k)
selectedRows_.push_back(inputSeqInfoVec_[i][selSubSeqIdx] + k);
outSubSeqStartInfo.push_back(outSubSeqStartInfo.back() + subSeqLen);
}
outSeqStartInfo.push_back(outSubSeqStartInfo.back());
}
if (useGpu_) {
rowIndice_ = IVector::create(selectedRows_.size(), useGpu_);
rowIndice_->copyFrom(selectedRows_.data(), selectedRows_.size());
} else {
rowIndice_ =
IVector::create(selectedRows_.data(), selectedRows_.size(), useGpu_);
}
// create the sequence information for the output.
ICpuGpuVector::resizeOrCreate(
output_.sequenceStartPositions, outSeqStartInfo.size(), false);
output_.sequenceStartPositions->copyFrom(
outSeqStartInfo.data(), outSeqStartInfo.size(), false);
ICpuGpuVector::resizeOrCreate(
output_.subSequenceStartPositions, outSubSeqStartInfo.size(), false);
output_.subSequenceStartPositions->copyFrom(
outSubSeqStartInfo.data(), outSubSeqStartInfo.size(), false);
}
void SubNestedSequenceLayer::forward(PassType passType) {
Layer::forward(passType);
const Argument& inputSeq = getInput(0);
CHECK(inputSeq.hasSubseq()) << "The first input of SubNestSequence layer "
<< "must be a nested sequence.";
const MatrixPtr selectedIndices = getInputValue(1);
CHECK_EQ(inputSeq.getNumSequences(), selectedIndices->getHeight());
if (dynamic_cast<GpuMatrix*>(selectedIndices.get())) {
/*
* Currently, the second input for this layer is generated by
* kmax_sequence_score_layer whose output is always stored on CPU,
* or a data_layer which canbe on GPU.
*
* If the second input is on GPU, copy it to CPU memory, because this
* input always uses very few memory, and operations related to it are
* all logic control, not computations.
*/
Matrix::resizeOrCreate(selIdsCpu_,
selectedIndices->getHeight(),
selectedIndices->getWidth(),
false /* trans */,
false /* useGpu */);
selIdsCpu_->copyFrom(*selectedIndices);
} else {
selIdsCpu_ = selectedIndices;
}
Argument::reorganizeSeqInfo(inputSeq.sequenceStartPositions,
inputSeq.subSequenceStartPositions,
inputSeqInfoVec_);
calSelectedCols(selIdsCpu_, inputSeqInfoVec_);
resetOutput(selectedRows_.size(), getSize());
getOutputValue()->selectRows(*getInputValue(0), *rowIndice_);
}
void SubNestedSequenceLayer::backward(const UpdateCallback& callback) {
MatrixPtr inputSeqGrad = getInputGrad(0);
MatrixPtr outputGrad = getOutputGrad();
if (inputSeqGrad) outputGrad->addToRows(*inputSeqGrad, *rowIndice_);
}
} // namespace paddle
paddle/gserver/tests/CMakeLists.txt
浏览文件 @ 91e8aada
......@@ -66,6 +66,16 @@ add_unittest_without_exec(test_BatchNorm
add_test(NAME test_BatchNorm
COMMAND test_BatchNorm)
################# test_KmaxSeqScore #######################
add_unittest_without_exec(test_KmaxSeqScore
test_KmaxSeqScore.cpp
LayerGradUtil.cpp)
add_test(NAME test_KmaxSeqScore
COMMAND test_KmaxSeqScore)
################## test_Evaluator #######################
add_unittest(test_Evaluator
test_Evaluator.cpp)
......
paddle/gserver/tests/test_KmaxSeqScore.cpp 0 → 100644
浏览文件 @ 91e8aada
/* Copyright (c) 2016 PaddlePaddle Authors. All Rights Reserve.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License. */
#include <gtest/gtest.h>
#include <algorithm>
#include <string>
#include <vector>
#include "ModelConfig.pb.h"
#include "paddle/gserver/layers/DataLayer.h"
#include "paddle/trainer/Trainer.h"
#include "paddle/utils/GlobalConstants.h"
#include "LayerGradUtil.h"
#include "paddle/testing/TestUtil.h"
using namespace paddle; // NOLINT
using namespace std; // NOLINT
DECLARE_bool(use_gpu);
DECLARE_int32(gpu_id);
DECLARE_bool(thread_local_rand_use_global_seed);
vector<int> randSampling(int range, int n) {
CHECK_GE(range, n);
vector<int> num(range);
iota(begin(num), end(num), 0);
if (range == n) return num;
random_shuffle(begin(num), end(num));
num.resize(n);
return num;
}
void genRandomSeqInfo(vector<int>& seqStartPosition,
vector<int>& subSeqStartPosition) {
const int maxSeqNum = 100;
// generate random start position information
int seqNum = 1 + (rand() % maxSeqNum);
seqStartPosition.resize(seqNum + 1, 0);
subSeqStartPosition.resize(1, 0);
for (int i = 0; i < seqNum; ++i) {
int subSeqLen = 1 + (rand() % maxSeqNum);
for (int j = 0; j < subSeqLen; ++j)
subSeqStartPosition.push_back(subSeqStartPosition.back() + subSeqLen);
seqStartPosition[i + 1] = subSeqStartPosition.back();
}
}
void genRandomGroundTruth(real* values,
vector<vector<int>>& groundTruth,
vector<int>& startPos,
size_t beamSize) {
groundTruth.resize(startPos.size() - 1, vector<int>(beamSize, -1));
for (size_t i = 0; i < startPos.size() - 1; ++i) {
int seqLen = startPos[i + 1] - startPos[i];
vector<int> pos =
randSampling(seqLen, min(static_cast<int>(beamSize), seqLen));
for (size_t j = 0; j < pos.size(); ++j) {
groundTruth[i][j] = pos[j];
values[startPos[i] + pos[j]] = 1.;
}
}
}
void checkLayerOut(vector<vector<int>> groundTruth,
real* layerOut,
size_t beamSize) {
for (size_t i = 0; i < groundTruth.size(); ++i) {
int begPos = i * beamSize;
vector<real> tmp(layerOut + begPos, layerOut + begPos + beamSize);
sort(begin(tmp), end(tmp));
sort(begin(groundTruth[i]), end(groundTruth[i]));
for (size_t j = 0; j < beamSize; ++j) CHECK_EQ(tmp[j], groundTruth[i][j]);
}
}
TEST(Layer, kmaxSeqScoreLayer) {
const size_t maxBeamSize = 100;
int beamSize = 1 + (rand() % maxBeamSize);
vector<int> seqStartPosition;
vector<int> subSeqStartPosition;
genRandomSeqInfo(seqStartPosition, subSeqStartPosition);
MatrixPtr inValue =
Matrix::create(subSeqStartPosition.back(), 1, false, false);
for (auto hasSubseq : {false, true}) {
vector<vector<int>> groundTruth;
inValue->randomizeUniform();
genRandomGroundTruth(inValue->getData(),
groundTruth,
hasSubseq ? subSeqStartPosition : seqStartPosition,
beamSize);
for (auto useGpu : {false, true}) {
TestConfig config;
config.layerConfig.set_type("kmax_seq_score");
config.layerConfig.set_beam_size(beamSize);
if (hasSubseq) {
config.inputDefs.push_back({INPUT_SELF_DEFINE_DATA,
"scores",
inValue,
seqStartPosition,
subSeqStartPosition});
} else {
config.inputDefs.push_back(
{INPUT_SELF_DEFINE_DATA, "scores", inValue, seqStartPosition});
}
config.layerConfig.add_inputs();
// data layer initialize
std::vector<DataLayerPtr> dataLayers;
LayerMap layerMap;
vector<Argument> datas;
initDataLayer(
config,
&dataLayers,
&datas,
&layerMap,
"kmax_seq_score",
100 /* actually this parameter is unused in self-defined input*/,
false,
useGpu);
// test layer initialize
std::vector<ParameterPtr> parameters;
LayerPtr kmaxSeqScoreLayer;
FLAGS_use_gpu = useGpu;
initTestLayer(config, &layerMap, &parameters, &kmaxSeqScoreLayer);
kmaxSeqScoreLayer->forward(PASS_TRAIN);
const MatrixPtr outValue = kmaxSeqScoreLayer->getOutputValue();
CHECK_EQ(outValue->getHeight(),
hasSubseq ? subSeqStartPosition.size() - 1
: seqStartPosition.size() - 1);
CHECK_EQ(outValue->getWidth(), beamSize);
checkLayerOut(groundTruth, outValue->getData(), beamSize);
}
}
}
int main(int argc, char** argv) {
testing::InitGoogleTest(&argc, argv);
initMain(argc, argv);
FLAGS_thread_local_rand_use_global_seed = true;
srand((size_t)(time(NULL)));
return RUN_ALL_TESTS();
}
paddle/gserver/tests/test_LayerGrad.cpp
浏览文件 @ 91e8aada
......@@ -1899,6 +1899,84 @@ TEST(Layer, CropLayer) {
}
}
vector<real> randSampling(real range, int n) {
CHECK_GE(range, n);
vector<real> num(range);
iota(begin(num), end(num), 0.);
if (range == n) return num;
random_shuffle(begin(num), end(num));
num.resize(n);
sort(begin(num), end(num));
return num;
}
TEST(Layer, SubNestedSequenceLayer) {
// layer size is not crutial for this layer,
// so use a small layer size in unittest
const int layerSize = 4;
const int maxSeqNum = 50;
const int maxSeqLen = 50;
const int maxBeamSize = 32;
srand((size_t)(time(NULL)));
int beamSize = 1 + (rand() % maxBeamSize);
TestConfig config;
config.layerConfig.set_type("sub_nested_seq");
config.layerConfig.set_name("sub_nested_seq_layer");
config.layerConfig.set_size(layerSize);
int seqNum = 1 + (rand() % maxSeqNum);
// sequence information for the first input, it is a nested sequence
vector<int> seqStartPos(seqNum + 1, 0);
vector<int> subSeqStartPos(1, 0);
// selected indices
MatrixPtr selectedIndices = Matrix::create(seqNum, beamSize, false, false);
selectedIndices->one();
selectedIndices->mulScalar(-1.);
real* indicesData = selectedIndices->getData();
for (int i = 0; i < seqNum; ++i) {
int subSeqNum = 1 + (rand() % maxSeqNum);
for (int j = 0; j < subSeqNum; ++j) {
subSeqStartPos.push_back(subSeqStartPos.back() +
(1 + (rand() % maxSeqLen)));
}
vector<real> selSeqs =
randSampling(static_cast<real>(subSeqNum), min(beamSize, subSeqNum));
memcpy(indicesData + (i * beamSize),
selSeqs.data(),
selSeqs.size() * sizeof(real));
seqStartPos[i + 1] = subSeqStartPos.back();
}
MatrixPtr seqInputPtr =
Matrix::create(seqStartPos.back(), layerSize, false, false);
seqInputPtr->randomizeUniform();
config.inputDefs.push_back({INPUT_SELF_DEFINE_DATA,
"nested_seq_input",
seqInputPtr,
seqStartPos,
subSeqStartPos});
config.layerConfig.add_inputs();
config.inputDefs.push_back(
{INPUT_SELF_DEFINE_DATA, "selected_indices", selectedIndices});
config.layerConfig.add_inputs();
for (auto useGpu : {false, true}) {
testLayerGrad(config,
"sub_nested_seq",
/* batchSize */ seqNum,
/* trans */ false,
/* useGpu*/ useGpu,
/* useWeight */ false);
}
}
TEST(Layer, ClipLayer) {
const size_t batchSize = 128;
const size_t size = 512;
......
paddle/operators/CMakeLists.txt
浏览文件 @ 91e8aada
......@@ -67,3 +67,5 @@ op_library(fc_op
op_library(recurrent_op SRCS recurrent_op.cc rnn/recurrent_op_utils.cc
DEPS op_desc tensor op_registry operator net_op)
cc_test(recurrent_op_test SRCS recurrent_op_test.cc DEPS recurrent_op gtest mul_op add_op)
op_library(uniform_random_op
SRCS uniform_random_op.cc uniform_random_op.cu)
paddle/operators/cross_entropy_op.cc
浏览文件 @ 91e8aada
......@@ -70,9 +70,10 @@ OnehotCrossEntropy Operator.
namespace ops = paddle::operators;
REGISTER_OP(onehot_cross_entropy, ops::OnehotCrossEntropyOp,
ops::OnehotCrossEntropyOpMaker);
REGISTER_OP_CPU_KERNEL(
onehot_cross_entropy,
ops::OnehotCrossEntropyOpKernel<paddle::platform::CPUPlace, float>);
REGISTER_OP_CPU_KERNEL(onehot_cross_entropy,
ops::OnehotCrossEntropyOpKernel<paddle::platform::CPUPlace, float>);
REGISTER_GRADIENT_OP(onehot_cross_entropy, onehot_cross_entropy_grad,
ops::OnehotCrossEntropyGradientOp);
REGISTER_OP_CPU_KERNEL(
onehot_cross_entropy_grad,
ops::OnehotCrossEntropyGradientOpKernel<paddle::platform::CPUPlace, float>);
paddle/operators/net_op.h
浏览文件 @ 91e8aada
......@@ -59,6 +59,15 @@ class NetOp : public framework::OperatorBase {
}
}
bool SupportGPU() const override {
for (auto& op : ops_) {
if (!op->SupportGPU()) {
return false;
}
}
return true;
}
/**
* @brief Add an operator by ptr
*/
......
paddle/operators/uniform_random_op.cc 0 → 100644
浏览文件 @ 91e8aada
/* Copyright (c) 2016 PaddlePaddle Authors. All Rights Reserve.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License. */
#include <random>
#include <type_traits>
#include "paddle/framework/op_registry.h"
#include "paddle/framework/operator.h"
namespace paddle {
namespace operators {
// It seems that Eigen::Tensor::random in GPU will SEGFAULT.
// Use std::random and thrust::random(thrust is a std library in CUDA) to
// implement uniform random.
template <typename T>
class CPUUniformRandomKernel : public framework::OpKernel {
public:
void Compute(const framework::ExecutionContext& context) const override {
auto* tensor = context.Output<framework::Tensor>(0);
T* data = tensor->mutable_data<T>(context.GetPlace());
unsigned int seed =
static_cast<unsigned int>(context.op_.GetAttr<int>("seed"));
std::minstd_rand engine;
if (seed == 0) {
seed = std::random_device()();
}
engine.seed(seed);
std::uniform_real_distribution<T> dist(
static_cast<T>(context.op_.GetAttr<float>("min")),
static_cast<T>(context.op_.GetAttr<float>("max")));
for (ssize_t i = 0; i < framework::product(tensor->dims()); ++i) {
data[i] = dist(engine);
}
}
};
class UniformRandomOp : public framework::OperatorWithKernel {
protected:
void InferShape(const framework::InferShapeContext& ctx) const override {
PADDLE_ENFORCE(GetAttr<float>("min") < GetAttr<float>("max"),
"uniform_random's min must less then max");
auto* tensor = ctx.Output<framework::Tensor>(0);
auto dims = GetAttr<std::vector<int>>("dims");
tensor->Resize(framework::make_ddim(dims));
}
};
class UniformRandomOpMaker : public framework::OpProtoAndCheckerMaker {
public:
UniformRandomOpMaker(framework::OpProto* proto,
framework::OpAttrChecker* op_checker)
: framework::OpProtoAndCheckerMaker(proto, op_checker) {
AddOutput("Out", "The output tensor of uniform random op");
AddComment(R"DOC(Uniform random operator.
Used to initialize tensor with uniform random generator.
)DOC");
AddAttr<std::vector<int>>("dims", "the dimension of random tensor");
AddAttr<float>("min", "Minimum value of uniform random").SetDefault(-1.0f);
AddAttr<float>("max", "Maximun value of uniform random").SetDefault(1.0f);
AddAttr<int>("seed",
"Random seed of uniform random. "
"0 means generate a seed by system")
.SetDefault(0);
}
};
} // namespace operators
} // namespace paddle
REGISTER_OP(uniform_random, paddle::operators::UniformRandomOp,
paddle::operators::UniformRandomOpMaker);
REGISTER_OP_CPU_KERNEL(uniform_random,
paddle::operators::CPUUniformRandomKernel<float>);
paddle/operators/uniform_random_op.cu 0 → 100644
浏览文件 @ 91e8aada
/* Copyright (c) 2016 PaddlePaddle Authors. All Rights Reserve.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License. */
#include <thrust/device_ptr.h>
#include <thrust/iterator/counting_iterator.h>
#include <thrust/random.h>
#include <thrust/transform.h>
#include "paddle/framework/op_registry.h"
#include "paddle/framework/operator.h"
namespace paddle {
namespace operators {
template <typename T>
struct UniformGenerator {
T min_, max_;
unsigned int seed_;
__host__ __device__ UniformGenerator(T min, T max, int seed)
: min_(min), max_(max), seed_(seed) {}
__host__ __device__ T operator()(const unsigned int n) const {
thrust::minstd_rand rng;
rng.seed(seed_);
thrust::uniform_real_distribution<T> dist(min_, max_);
rng.discard(n);
return dist(rng);
}
};
// It seems that Eigen::Tensor::random in GPU will SEGFAULT.
// Use std::random and thrust::random(thrust is a std library in CUDA) to
// implement uniform random.
template <typename T>
class GPUUniformRandomKernel : public framework::OpKernel {
public:
void Compute(const framework::ExecutionContext& context) const override {
auto* tensor = context.Output<framework::Tensor>(0);
T* data = tensor->mutable_data<T>(context.GetPlace());
unsigned int seed =
static_cast<unsigned int>(context.op_.GetAttr<int>("seed"));
if (seed == 0) {
seed = std::random_device()();
}
T min = static_cast<T>(context.op_.GetAttr<float>("min"));
T max = static_cast<T>(context.op_.GetAttr<float>("max"));
thrust::counting_iterator<unsigned int> index_sequence_begin(0);
ssize_t N = framework::product(tensor->dims());
thrust::transform(index_sequence_begin, index_sequence_begin + N,
thrust::device_ptr<T>(data),
UniformGenerator<T>(min, max, seed));
}
};
} // namespace operators
} // namespace paddle
REGISTER_OP_GPU_KERNEL(uniform_random,
paddle::operators::GPUUniformRandomKernel<float>);
paddle/parameter/Argument.cpp
浏览文件 @ 91e8aada
......@@ -666,4 +666,24 @@ void Argument::subArgFrom(const Argument& input,
}
}
void Argument::reorganizeSeqInfo(
const ICpuGpuVectorPtr seqStartPos,
const ICpuGpuVectorPtr subSeqStartPos,
std::vector<std::vector<int>>& reorganizedSeqInfo) {
int* seqStarts = seqStartPos->getMutableData(false);
int* subSeqStarts = subSeqStartPos->getMutableData(false);
int seqNum = seqStartPos->getSize() - 1;
reorganizedSeqInfo.resize(seqNum, std::vector<int>());
int seqIdx = 0;
for (size_t i = 0; i < subSeqStartPos->getSize(); ++i) {
reorganizedSeqInfo[seqIdx].push_back(subSeqStarts[i]);
if (subSeqStarts[i] == seqStarts[seqIdx + 1]) {
seqIdx++;
if (seqIdx == seqNum) return;
reorganizedSeqInfo[seqIdx].push_back(subSeqStarts[i]);
}
}
}
} // namespace paddle
paddle/parameter/Argument.h
浏览文件 @ 91e8aada
......@@ -317,6 +317,30 @@ struct Argument {
*/
void printValueString(std::ostream& stream,
const std::string& prefix = "") const;
/**
* @brief reorganizeSeqInfo will reorganize sequenceStartPositions and
* subSequenceStartPositions into a 2 dimensional arrary: reorganizedSeqInfo.
*
* @param seqStartPos: sequenceStartPositions of an Argument.
* @param subSeqStartPos: subSequenceStartPositions of an Argument.
* @param the reorganized sequence start position information.
*
* Examples:
* seqStartPos: [0, 4, 15, 20, 28]
* subSeqStartPos: [0, 3, 4, 5, 7, 10, 15, 20, 22, 23, 25, 28]
* reorganizedSeqInfo:
* [
* [0,3,4],
* [4,5,7,10,15],
* [15,20],
* [20,22,23,25,28]
* ]
*/
static void reorganizeSeqInfo(
const ICpuGpuVectorPtr seqStartPos,
const ICpuGpuVectorPtr subSeqStartPos,
std::vector<std::vector<int>>& reorganizedSeqInfo);
};
} // namespace paddle
paddle/scripts/travis/build_doc.sh
浏览文件 @ 91e8aada
......@@ -5,15 +5,9 @@ set -e
mkdir -p $TRAVIS_BUILD_DIR/build
cd $TRAVIS_BUILD_DIR/build
# Compile paddle binaries first
cmake .. -DCMAKE_BUILD_TYPE=Debug -DWITH_GPU=OFF -DWITH_DOC=OFF -DWITH_MKLDNN=OFF -DWITH_MKLML=OFF -DWITH_GOLANG=ON -DWITH_STYLE_CHECK=OFF
mkdir output
make -j `nproc`
find .. -name '*whl' | xargs pip install # install all wheels.
rm -rf *
# Compile Documentation only.
cmake .. -DCMAKE_BUILD_TYPE=Debug -DWITH_GPU=OFF -DWITH_MKLDNN=OFF -DWITH_MKLML=OFF -DWITH_DOC=ON
make -j `nproc` gen_proto_py
make -j `nproc` paddle_docs paddle_docs_cn
# check websites for broken links
......@@ -35,6 +29,7 @@ TARGET_BRANCH="gh-pages"
SOURCE_BRANCH="master"
# Clone the repo to output directory
mkdir output
git clone $REPO output
cd output
......
proto/CMakeLists.txt
浏览文件 @ 91e8aada
......@@ -17,7 +17,7 @@ foreach(filename ${proto_filenames})
COMMAND ${PROTOBUF_PROTOC_EXECUTABLE}
ARGS "--python_out=${PROJ_ROOT}/python/paddle/proto"
"-I" ${CMAKE_CURRENT_SOURCE_DIR} ${ABS_FIL}
DEPENDS ${ABS_FIL} ${external_project_dependencies})
DEPENDS ${ABS_FIL} protoc)
endforeach()
add_custom_target(gen_proto_py ALL DEPENDS ${PROTO_GEN_PY})
python/paddle/trainer/config_parser.py
浏览文件 @ 91e8aada
......@@ -2657,6 +2657,31 @@ class SubSequenceLayer(LayerBase):
self.create_bias_parameter(bias, size)
@config_layer('sub_nested_seq')
class SubNestedSequenceLayer(LayerBase):
def __init__(self, name, inputs, selected_indices, bias=False, **xargs):
if isinstance(inputs, list):
assert len(inputs) == 1, ('the first input of sub_nested_seq '
'layer is a single nested sequence.')
inputs = inputs[0]
if isinstance(selected_indices, list):
assert len(selected_indices) == 1, (
'the second input of '
'sub_nested_seq layer is a single layer which is a '
'set of selected indices.')
selected_indices = selected_indices[0]
super(SubNestedSequenceLayer, self).__init__(
name,
'sub_nested_seq',
0,
inputs=[inputs, selected_indices],
**xargs)
input_layer0 = self.get_input_layer(0)
size = input_layer0.size
self.set_layer_size(size)
@config_layer('out_prod')
class OuterProdLayer(LayerBase):
def __init__(self, name, inputs, device=None):
......@@ -3223,6 +3248,16 @@ class CTCLayer(LayerBase):
config_assert(len(self.inputs) == 2, 'CTCLayer must have 2 inputs')
@config_layer('kmax_seq_score')
class KmaxSeqScoreLayer(LayerBase):
def __init__(self, name, inputs, beam_size, **xargs):
super(KmaxSeqScoreLayer, self).__init__(
name, 'kmax_seq_score', 0, inputs=inputs, **xargs)
config_assert(
len(self.inputs) == 1, 'KmaxSeqScoreLayer has only one input.')
self.config.beam_size = beam_size
@config_layer('warp_ctc')
class WarpCTCLayer(LayerBase):
def __init__(self,
......
python/paddle/trainer_config_helpers/layers.py
浏览文件 @ 91e8aada
......@@ -129,8 +129,10 @@ __all__ = [
'prelu_layer',
'gated_unit_layer',
'crop_layer',
'sub_nested_seq_layer',
'clip_layer',
'slice_projection',
'kmax_sequence_score_layer',
]
......@@ -224,8 +226,11 @@ class LayerType(object):
PRELU = 'prelu'
CROP_LAYER = 'crop'
SUB_NESTED_SEQ = 'sub_nested_seq'
CLIP_LAYER = 'clip'
KMAX_SEQ_SCORE = 'kmax_seq_score'
@staticmethod
def is_layer_type(type_name):
"""
......@@ -6088,6 +6093,53 @@ def crop_layer(input, offset, axis=2, shape=None, name=None, layer_attr=None):
size=l.config.size)
@wrap_name_default()
@layer_support()
def sub_nested_seq_layer(input, selected_indices, name=None):
"""
The sub_nested_seq_layer accepts two inputs: the first one is a nested
sequence; the second one is a set of selceted indices in the nested sequence.
Then sub_nest_seq_layer trims the first nested sequence input according
to the selected indices to form a new output. This layer is useful in
beam training.
The example usage is:
.. code-block:: python
sub_nest_seq = sub_nested_seq_layer(input=[data, selected_indices])
:param input: A nested sequence.
:type input: LayerOutput
:param selected_indices: a set of sequence indices in the nested sequence.
:type input: LayerOutput
:param name: name of this layer.
:type name: basestring
:return: LayerOutput object.
:rtype: LayerOutput
"""
assert isinstance(input, LayerOutput), (
'The first input of '
'sub_nested_seq_layer must be a Paddle layer.')
assert isinstance(selected_indices, LayerOutput), (
'The second input of '
'sub_nested_seq_layer must be a Paddle layer.')
l = Layer(
inputs=input.name,
selected_indices=selected_indices.name,
name=name,
type=LayerType.SUB_NESTED_SEQ)
return LayerOutput(
name=name,
layer_type=LayerType.SUB_NESTED_SEQ,
parents=input,
size=l.config.size)
@wrap_name_default("clip")
def clip_layer(input, min, max, name=None):
"""
......@@ -6109,7 +6161,8 @@ def clip_layer(input, min, max, name=None):
:type min: double
:param max: The upper threshold for clipping.
:type max: double
:return: LayerOutput
:return: LayerOutput object.
:rtype: LayerOutput
"""
Layer(
name=name,
......@@ -6119,3 +6172,41 @@ def clip_layer(input, min, max, name=None):
max=max)
return LayerOutput(
name, LayerType.CLIP_LAYER, parents=[input], size=input.size)
@wrap_name_default()
@layer_support()
def kmax_sequence_score_layer(input, name=None, beam_size=1):
"""
This layer accepts one input which are scores over a sequence or a nested
sequence, and returns indices of beam_size sequences with highest scores.
.. code-block:: python
kmax_indices = kmax_sequence_score_layer(input=input_layer, beam_size)
:param name: The Layer Name.
:type name: basestring
:param input: The input layer. It stores scores over a sequence or a nested
sequence and its size must be 1.
:type input: LayerOutput.
:param beam_size: squence indices with top beam_size scores are returned.
:type beam_size: double
:return: LayerOutput object.
:rtype: LayerOutput
"""
assert isinstance(input, LayerOutput), ("kmax_sequence_score_layer "
"accepts only one input.")
assert input.size == 1, (
"input of kmax_sequence_score_layer is a score"
"over a sequence or a nested sequence, so its width must be 1.")
Layer(
name=name,
type=LayerType.KMAX_SEQ_SCORE,
inputs=[input.name],
beam_size=beam_size)
return LayerOutput(
name, LayerType.KMAX_SEQ_SCORE, parents=[input], size=input.size)
python/paddle/trainer_config_helpers/tests/configs/file_list.sh
浏览文件 @ 91e8aada
......@@ -7,6 +7,7 @@ test_rnn_group shared_fc shared_lstm shared_gru test_cost_layers_with_weight
test_spp_layer test_bilinear_interp test_maxout test_bi_grumemory math_ops
test_seq_concat_reshape test_pad test_smooth_l1 test_multiplex_layer
test_prelu_layer test_row_conv test_detection_output_layer test_multibox_loss_layer
test_recursive_topology test_gated_unit_layer test_clip_layer test_row_l2_norm_layer)
test_recursive_topology test_gated_unit_layer test_clip_layer test_row_l2_norm_layer
test_kmax_seq_socre_layer test_seq_select_layers)
export whole_configs=(test_split_datasource)
python/paddle/trainer_config_helpers/tests/configs/protostr/test_kmax_seq_socre_layer.protostr 0 → 100644
浏览文件 @ 91e8aada
type: "nn"
layers {
name: "input"
type: "data"
size: 300
active_type: ""
}
layers {
name: "data"
type: "data"
size: 128
active_type: ""
}
layers {
name: "__fc_layer_0__"
type: "fc"
size: 1
active_type: "exponential"
inputs {
input_layer_name: "data"
input_parameter_name: "___fc_layer_0__.w0"
}
bias_parameter_name: "___fc_layer_0__.wbias"
}
layers {
name: "__kmax_sequence_score_layer_0__"
type: "kmax_seq_score"
active_type: ""
inputs {
input_layer_name: "__fc_layer_0__"
}
beam_size: 5
}
parameters {
name: "___fc_layer_0__.w0"
size: 128
initial_mean: 0.0
initial_std: 0.0883883476483
dims: 128
dims: 1
initial_strategy: 0
initial_smart: true
}
parameters {
name: "___fc_layer_0__.wbias"
size: 1
initial_mean: 0.0
initial_std: 0.0
dims: 1
dims: 1
initial_strategy: 0
initial_smart: false
}
input_layer_names: "data"
output_layer_names: "__kmax_sequence_score_layer_0__"
sub_models {
name: "root"
layer_names: "input"
layer_names: "data"
layer_names: "__fc_layer_0__"
layer_names: "__kmax_sequence_score_layer_0__"
input_layer_names: "data"
output_layer_names: "__kmax_sequence_score_layer_0__"
is_recurrent_layer_group: false
}
python/paddle/trainer_config_helpers/tests/configs/protostr/test_seq_select_layers.protostr 0 → 100644
浏览文件 @ 91e8aada
type: "nn"
layers {
name: "input_seq"
type: "data"
size: 300
active_type: ""
}
layers {
name: "input"
type: "data"
size: 5
active_type: ""
}
layers {
name: "__sub_nested_seq_layer_0__"
type: "sub_nested_seq"
size: 300
active_type: ""
inputs {
input_layer_name: "input_seq"
}
inputs {
input_layer_name: "input"
}
}
input_layer_names: "input_seq"
output_layer_names: "__sub_nested_seq_layer_0__"
sub_models {
name: "root"
layer_names: "input_seq"
layer_names: "input"
layer_names: "__sub_nested_seq_layer_0__"
input_layer_names: "input_seq"
output_layer_names: "__sub_nested_seq_layer_0__"
is_recurrent_layer_group: false
}
python/paddle/trainer_config_helpers/tests/configs/test_kmax_seq_socre_layer.py 0 → 100644
浏览文件 @ 91e8aada
#!/usr/bin/env python
#coding=utf-8
from paddle.trainer_config_helpers import *
data = data_layer(name='input', size=300)
data = data_layer(name="data", size=128)
scores = fc_layer(input=data, size=1, act=ExpActivation())
kmax_seq_id = kmax_sequence_score_layer(input=scores, beam_size=5)
outputs(kmax_seq_id)
python/paddle/trainer_config_helpers/tests/configs/test_seq_select_layers.py 0 → 100644
浏览文件 @ 91e8aada
#!/usr/bin/env python
#coding=utf-8
from paddle.trainer_config_helpers import *
beam_size = 5
data = data_layer(name='input_seq', size=300)
selected_ids = data_layer(name='input', size=beam_size)
sub_nest_seq = sub_nested_seq_layer(input=data, selected_indices=selected_ids)
outputs(sub_nest_seq)
python/paddle/v2/framework/tests/CMakeLists.txt
浏览文件 @ 91e8aada
......@@ -13,6 +13,7 @@ py_test(test_protobuf SRCS test_protobuf.py)
py_test(test_add_two_op SRCS test_add_two_op.py)
py_test(test_sigmoid_op SRCS test_sigmoid_op.py)
py_test(test_softmax_op SRCS test_softmax_op.py)
py_test(test_cross_entropy_op SRCS test_cross_entropy_op.py)
py_test(test_fill_zeros_like_op SRCS test_fill_zeros_like_op.py)
py_test(gradient_checker SRCS gradient_checker.py)
......@@ -21,3 +22,4 @@ py_test(test_rowwise_add_op SRCS test_rowwise_add_op.py)
py_test(test_default_scope_funcs SRCS test_default_scope_funcs.py)
py_test(test_operator SRCS test_operator.py)
py_test(test_uniform_random_op SRCS test_uniform_random_op.py)
python/paddle/v2/framework/tests/gradient_checker.py
浏览文件 @ 91e8aada
import unittest
import numpy
import paddle.v2.framework.core as core
from paddle.v2.framework.op import Operator
import numpy
import unittest
__all__ = ['get_numeric_gradient']
def create_op(op_type):
kwargs = dict()
for in_name in Operator.get_op_input_names(op_type):
kwargs[in_name] = in_name
for out_name in Operator.get_op_output_names(op_type):
kwargs[out_name] = out_name
return Operator(op_type, **kwargs)
def grad_var_name(var_name):
return var_name + "@GRAD"
def get_numeric_gradient(op,
input_values,
output_name,
input_to_check,
delta=1e-2,
delta=0.005,
local_scope=None):
"""
Get Numeric Gradient for an operator's input.
......@@ -76,6 +91,113 @@ def get_numeric_gradient(op,
return gradient_flat.reshape(tensor_to_check.get_dims())
class GradientChecker(unittest.TestCase):
def __is_close(self, numeric_grads, scope, max_relative_error):
for name in numeric_grads:
op_grad = numpy.array(
scope.find_var(grad_var_name(name)).get_tensor())
is_close = numpy.allclose(
numeric_grads[name], op_grad, rtol=max_relative_error, atol=100)
if not is_close:
return False
return True
def check_grad(self,
forward_op,
input_vars,
inputs_to_check,
output_name,
no_grad_set=None,
only_cpu=False,
max_relative_error=0.005):
"""
:param forward_op: used to create backward_op
:param input_vars: numpy value of input variable. The following
computation will use these variables.
:param inputs_to_check: inputs var names that should check gradient.
:param output_name: output name that used to
:param max_relative_error: The relative tolerance parameter.
:param no_grad_set: used when create backward ops
:param only_cpu: only compute and check gradient on cpu kernel.
:return:
"""
if no_grad_set is None:
no_grad_set = set()
tmp_outs = forward_op.temp_outputs()
no_tmp_out = filter(lambda name: name not in tmp_outs,
forward_op.outputs())
if len(no_tmp_out) != 1:
raise ValueError("non temp out_names should be 1")
in_names = forward_op.inputs()
for no_grad in no_grad_set:
if no_grad not in in_names:
raise ValueError("no_grad should be in in_names")
backward_op = core.Operator.backward(forward_op, no_grad_set)
places = [core.CPUPlace()]
if not only_cpu and core.is_compile_gpu() and backward_op.support_gpu():
places.append(core.GPUPlace(0))
numeric_grad = dict()
# get numeric gradient
for check_name in inputs_to_check:
numeric_grad[check_name] = \
get_numeric_gradient(forward_op, input_vars, output_name, check_name)
# get operator gradient according to different device
for place in places:
scope = core.Scope()
ctx = core.DeviceContext.create(place)
# create input var and set value
for name, value in input_vars.iteritems():
if name not in in_names:
raise ValueError(name + " not in op.inputs_")
var = scope.new_var(name).get_tensor()
var.set_dims(value.shape)
var.set(value, place)
# create output var
for out_name in forward_op.outputs():
scope.new_var(out_name).get_tensor()
# infer the shape of output var and compute/set value of output var
forward_op.infer_shape(scope)
forward_op.run(scope, ctx)
# create output grad var
# set shape as the output var
# set value of this grad to ones
for name in forward_op.outputs():
out_tensor = scope.find_var(name).get_tensor()
grad_tensor = scope.new_var(grad_var_name(name)).get_tensor()
grad_tensor.set_dims(out_tensor.shape())
data = 1.0 * numpy.ones(out_tensor.shape())
grad_tensor.set(data, place)
# create input grad var
for name in backward_op.outputs():
scope.new_var(name).get_tensor()
# infer the shape of input gradient var and compute/set it's value
# with backward op
backward_op.infer_shape(scope)
backward_op.run(scope, ctx)
if isinstance(place, core.CPUPlace):
msg = "CPU kernel gradient is not close to numeric gradient"
else:
if isinstance(place, core.GPUPlace):
msg = "GPU kernel gradient is not close to numeric gradient"
else:
raise ValueError("unknown place " + type(place))
self.assertTrue(
self.__is_close(numeric_grad, scope, max_relative_error), msg)
if __name__ == '__main__':
class GetNumericGradientTest(unittest.TestCase):
......@@ -87,4 +209,28 @@ if __name__ == '__main__':
arr = get_numeric_gradient(add_op, {'X': x, "Y": y}, 'Z', 'X')
self.assertAlmostEqual(arr.mean(), 1.0, delta=1e-2)
def test_softmax_op(self):
def stable_softmax(x):
"""Compute the softmax of vector x in a numerically stable way."""
shiftx = x - numpy.max(x)
exps = numpy.exp(shiftx)
return exps / numpy.sum(exps)
def label_softmax_grad(Y, dY):
dX = Y * 0.0
for i in range(Y.shape[0]):
d = numpy.dot(Y[i, :], dY[i, :])
dX[i, :] = Y[i, :] * (dY[i, :] - d)
return dX
softmax_op = Operator("softmax", X="X", Y="Y")
X = numpy.random.random((2, 2)).astype("float32")
Y = numpy.apply_along_axis(stable_softmax, 1, X)
dY = numpy.ones(Y.shape)
dX = label_softmax_grad(Y, dY)
arr = get_numeric_gradient(softmax_op, {"X": X}, 'Y', 'X')
numpy.testing.assert_almost_equal(arr, dX, decimal=1e-2)
unittest.main()
python/paddle/v2/framework/tests/op_test_util.py
浏览文件 @ 91e8aada
import paddle.v2.framework.core as core
import unittest
import numpy
import paddle.v2.framework.core as core
from paddle.v2.framework.op import Operator
......@@ -24,7 +23,7 @@ class OpTestMeta(type):
scope = core.Scope()
kwargs = dict()
places = [core.CPUPlace()]
if core.is_compile_gpu() and core.Operator.support_gpu(self.type):
if core.is_compile_gpu():
places.append(core.GPUPlace(0))
for place in places:
......@@ -53,6 +52,8 @@ class OpTestMeta(type):
kwargs[attr_name] = self.attrs[attr_name]
op = Operator(self.type, **kwargs)
if isinstance(place, core.GPUPlace) and not op.support_gpu():
return
op.infer_shape(scope)
......
python/paddle/v2/framework/tests/test_cross_entropy_op.py
浏览文件 @ 91e8aada
import unittest
import numpy
from op_test_util import OpTestMeta
from gradient_checker import GradientChecker, create_op
class TestSGD(unittest.TestCase):
class TestCrossEntropy(unittest.TestCase):
__metaclass__ = OpTestMeta
def setUp(self):
......@@ -20,7 +21,18 @@ class TestSGD(unittest.TestCase):
self.outputs = {'Y': numpy.array(Y).astype("float32")}
# TODO(superjom) add gradient check
class CrossEntropyGradOpTest(GradientChecker):
def test_softmax_grad(self):
op = create_op("onehot_cross_entropy")
batch_size = 100
class_num = 10
inputs = {
"X": numpy.random.uniform(
0.1, 1.0, [batch_size, class_num]).astype("float32"),
"label": (class_num / 2) * numpy.ones(batch_size).astype("int32")
}
self.check_grad(op, inputs, set("X"), "Y")
if __name__ == "__main__":
unittest.main()
python/paddle/v2/framework/tests/test_softmax_op.py
浏览文件 @ 91e8aada
import unittest
import numpy as np
import paddle.v2.framework.core as core
from paddle.v2.framework.op import Operator
from gradient_checker import GradientChecker, create_op
from op_test_util import OpTestMeta
......@@ -25,62 +24,11 @@ class TestSoftmaxOp(unittest.TestCase):
}
class TestSoftmaxGradOp(unittest.TestCase):
def test_softmax_grad(self):
op = Operator('softmax', X="X", Y="Y")
backward_op = core.Operator.backward(op, set())
self.assertEqual(backward_op.type(), "softmax_grad")
expected = '''Op(softmax_grad), inputs:(X, Y, Y@GRAD), outputs:(X@GRAD).'''
self.assertEqual(expected, str(backward_op))
batch_size = 3
class_num = 5
# Initialize X and add 1e-2 for numerical stability
Y = np.random.rand(batch_size, class_num).astype(np.float32)
Y = Y + 1e-2
dY = np.random.rand(batch_size, class_num).astype(np.float32)
# Reference implementation of cross entropy with soft labels
def label_softmax_grad(Y, dY):
dX = Y * 0.0
for i in range(batch_size):
d = np.dot(Y[i, :], dY[i, :])
dX[i, :] = Y[i, :] * (dY[i, :] - d)
return dX
expected = label_softmax_grad(Y, dY)
scope = core.Scope()
places = []
places.append(core.CPUPlace())
if core.is_compile_gpu():
places.append(core.GPUPlace(0))
for place in places:
y = scope.new_var("Y")
y_tensor = y.get_tensor()
y_tensor.set_dims([batch_size, class_num])
y_tensor.alloc_float(place)
y_tensor.set(Y, place)
dy = scope.new_var("Y@GRAD")
dy_tensor = dy.get_tensor()
dy_tensor.set_dims([batch_size, class_num])
dy_tensor.alloc_float(place)
dy_tensor.set(dY, place)
x = scope.new_var("X")
dx = scope.new_var("X@GRAD")
tensor = scope.find_var("X@GRAD").get_tensor()
backward_op.infer_shape(scope)
self.assertEqual([batch_size, class_num], tensor.shape())
ctx = core.DeviceContext.create(place)
backward_op.run(scope, ctx)
actual = np.array(tensor)
np.testing.assert_almost_equal(actual, expected, decimal=3)
class SoftmaxGradOpTest(GradientChecker):
def test_softmax(self):
op = create_op("softmax")
inputs = {"X": np.random.uniform(0.1, 1, [10, 10]).astype("float32")}
self.check_grad(op, inputs, set("X"), "Y")
if __name__ == '__main__':
......
python/paddle/v2/framework/tests/test_uniform_random_op.py 0 → 100644
浏览文件 @ 91e8aada
import unittest
from paddle.v2.framework.op import Operator
import paddle.v2.framework.core as core
import numpy
class UniformRandomTest(unittest.TestCase):
def test_uniform_random_cpu(self):
self.uniform_random_test(place=core.CPUPlace())
def test_uniform_random_gpu(self):
if core.is_compile_gpu():
self.uniform_random_test(place=core.GPUPlace(0))
def uniform_random_test(self, place):
scope = core.Scope()
scope.new_var("X").get_tensor()
op = Operator(
"uniform_random",
Out="X",
dims=[1000, 784],
min=-5.0,
max=10.0,
seed=10)
op.infer_shape(scope)
ctx = core.DeviceContext.create(place)
op.run(scope, ctx)
tensor = numpy.array(scope.find_var("X").get_tensor())
self.assertAlmostEqual(tensor.mean(), 2.5, delta=0.1)
if __name__ == '__main__':
unittest.main()
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