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@ -57,55 +57,91 @@ TEST(Function, BufferArgs) {
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Function<DEVICE_TYPE_GPU>(gpuArgments);
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}
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TEST(BufferArgs, asArgument) {
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/**
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* Some tests case are used to check the consistency between the BufferArg type
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* argument received by Function and the original type argument.
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*
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* Use Case:
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* TEST() {
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* Matrix matrix(...);
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* CheckBufferArg lambda = [=](const BufferArg& arg) {
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* // check matrix and arg are equivalent
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* EXPECT_EQ(matrix, arg);
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* }
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*
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* BufferArgs argments{matrix...};
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* std::vector<CheckBufferArg> checkFunc{lambda...};
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* testBufferArgs(argments, checkFunc);
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* }
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*/
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typedef std::function<void(const BufferArg&)> CheckBufferArg;
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void testBufferArgs(const BufferArgs& inputs,
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const std::vector<CheckBufferArg>& check) {
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EXPECT_EQ(inputs.size(), check.size());
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for (size_t i = 0; i < inputs.size(); i++) {
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check[i](inputs[i]);
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}
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}
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TEST(Arguments, Matrix) {
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MatrixPtr matrix = Matrix::create(100, 200);
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VectorPtr vector = Vector::create(100, false);
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CpuSparseMatrix sparse(200, 300, 50);
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CheckBufferArg check = [=](const BufferArg& arg) {
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EXPECT_EQ(arg.shape().ndims(), 2);
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EXPECT_EQ(arg.shape()[0], 100);
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EXPECT_EQ(arg.shape()[1], 200);
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EXPECT_EQ(arg.data(), matrix->getData());
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EXPECT_EQ(arg.matrix<DEVICE_TYPE_CPU>().getHeight(), matrix->getHeight());
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EXPECT_EQ(arg.matrix<DEVICE_TYPE_CPU>().getWidth(), matrix->getWidth());
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EXPECT_EQ(arg.matrix<DEVICE_TYPE_CPU>().getData(), matrix->getData());
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};
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// prepare arguments
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BufferArgs argments;
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argments.addArg(*matrix);
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argments.addArg(*vector);
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argments.addArg(sparse);
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std::vector<CheckBufferArg> checkFunc;
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checkFunc.push_back(check);
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testBufferArgs(argments, checkFunc);
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}
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TEST(Arguments, Vector) {
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VectorPtr vector = Vector::create(100, false);
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CheckBufferArg check = [=](const BufferArg& arg) {
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EXPECT_EQ(arg.shape().ndims(), 1);
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EXPECT_EQ(arg.shape()[0], 100);
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EXPECT_EQ(arg.data(), vector->getData());
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// function
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auto function = [=](const BufferArgs& inputs) {
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EXPECT_EQ(inputs.size(), 3);
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// check inputs[0]
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EXPECT_EQ(inputs[0].shape().ndims(), 2);
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EXPECT_EQ(inputs[0].shape()[0], 100);
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EXPECT_EQ(inputs[0].shape()[1], 200);
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EXPECT_EQ(inputs[0].data(), matrix->getData());
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EXPECT_EQ(inputs[0].matrix<DEVICE_TYPE_CPU>().getHeight(),
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matrix->getHeight());
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EXPECT_EQ(inputs[0].matrix<DEVICE_TYPE_CPU>().getWidth(),
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matrix->getWidth());
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EXPECT_EQ(inputs[0].matrix<DEVICE_TYPE_CPU>().getData(), matrix->getData());
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// check inputs[1]
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EXPECT_EQ(inputs[1].shape().ndims(), 1);
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EXPECT_EQ(inputs[1].shape()[0], 100);
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EXPECT_EQ(inputs[1].data(), vector->getData());
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CpuVector inVector = inputs[1].vector<real, DEVICE_TYPE_CPU>();
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CpuVector inVector = arg.vector<real, DEVICE_TYPE_CPU>();
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EXPECT_EQ(inVector.getSize(), vector->getSize());
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EXPECT_EQ(inVector.getData(), vector->getData());
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};
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// check inputs[2]
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EXPECT_EQ(inputs[2].shape().ndims(), 2);
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EXPECT_EQ(inputs[2].shape()[0], 200);
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EXPECT_EQ(inputs[2].shape()[1], 300);
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EXPECT_EQ(inputs[2].data(), sparse.getData());
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// CHECK_EQ(inputs[2].sparse().nnz(), 50);
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// CHECK_EQ(inputs[2].sparse().dataFormat(), SPARSE_CSR_FORMAT);
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// CHECK_EQ(inputs[2].sparse().dataType(), SPARSE_FLOAT_VALUE);
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EXPECT_EQ(inputs[2].sparse().getRowBuf(), sparse.getRows());
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EXPECT_EQ(inputs[2].sparse().getColBuf(), sparse.getCols());
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BufferArgs argments;
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argments.addArg(*vector);
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std::vector<CheckBufferArg> checkFunc;
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checkFunc.push_back(check);
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testBufferArgs(argments, checkFunc);
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}
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TEST(Arguments, CpuSparseMatrix) {
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CpuSparseMatrix sparse(200, 300, 50);
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CheckBufferArg check = [=](const BufferArg& arg) {
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EXPECT_EQ(arg.shape().ndims(), 2);
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EXPECT_EQ(arg.shape()[0], 200);
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EXPECT_EQ(arg.shape()[1], 300);
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EXPECT_EQ(arg.data(), sparse.getData());
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// CHECK_EQ(arg.sparse().nnz(), 50);
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// CHECK_EQ(arg.sparse().dataFormat(), SPARSE_CSR_FORMAT);
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// CHECK_EQ(arg.sparse().dataType(), SPARSE_FLOAT_VALUE);
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EXPECT_EQ(arg.sparse().getRowBuf(), sparse.getRows());
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EXPECT_EQ(arg.sparse().getColBuf(), sparse.getCols());
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};
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// call function
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function(argments);
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BufferArgs argments;
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argments.addArg(sparse);
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std::vector<CheckBufferArg> checkFunc;
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checkFunc.push_back(check);
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testBufferArgs(argments, checkFunc);
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}
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} // namespace paddle
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hedaoyuan
8 years ago