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tensor_factory.cpp
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#include "tensor_factory.h"
#include "function_object_factory.h"
#include "m_algorithms_concepts.h"
namespace NeuralNetwork {
namespace Computation {
namespace Graph {
std::shared_ptr<Tensor> TensorConstructor::create(
Matrix::Rows _l, Matrix::Columns _w,
IsTrackable _t,
IsLeaf _f,
IsRecordable _r) {
auto tensor = std::make_shared<Tensor>(
_l, _w, _t, _f, _r);
FunctionObjectFactory::create(tensor);
return tensor;
}
template <Matrix::Operations::MatrixOperatable Operator>
std::shared_ptr<Tensor> TensorConstructor::create(
Operator _operator,
const Matrix::Representation& _m,
TensorID _op,
TensorID _op2,
IsTrackable _t,
IsLeaf _f,
IsRecordable _r) {
auto tensor = std::make_shared<Tensor>(
_m, _t, _f, _r);
if constexpr (Matrix::Operations::UnaryMatrixOperatable<Operator>) {
FunctionObjectFactory::create(
_operator, tensor, _op);
}
else if constexpr (Matrix::Operations::BinaryMatrixOperatable<Operator>) {
FunctionObjectFactory::create(
_operator, tensor, _op, _op2);
}
return tensor;
}
template std::shared_ptr<Tensor> TensorConstructor::create<Matrix::Operations::Unary::ReLU>(
Matrix::Operations::Unary::ReLU _operator,
const Matrix::Representation& _m,
TensorID _op,
TensorID _op2,
IsTrackable _t,
IsLeaf _f,
IsRecordable _r);
template std::shared_ptr<Tensor> TensorConstructor::create<Matrix::Operations::Unary::SoftMax>(
Matrix::Operations::Unary::SoftMax _operator,
const Matrix::Representation& _m,
TensorID _op,
TensorID _op2,
IsTrackable _t,
IsLeaf _f,
IsRecordable _r);
template std::shared_ptr<Tensor> TensorConstructor::create<Matrix::Operations::Binary::HadamardProduct::Std>(
Matrix::Operations::Binary::HadamardProduct::Std _operator,
const Matrix::Representation& _m,
TensorID _op,
TensorID _op2,
IsTrackable _t,
IsLeaf _f,
IsRecordable _r);
template std::shared_ptr<Tensor> TensorConstructor::create<Matrix::Operations::Binary::Multiplication::ParallelDNC>(
Matrix::Operations::Binary::Multiplication::ParallelDNC _operator,
const Matrix::Representation& _m,
TensorID _op,
TensorID _op2,
IsTrackable _t,
IsLeaf _f,
IsRecordable _r);
template std::shared_ptr<Tensor> TensorConstructor::create<Matrix::Operations::Binary::Multiplication::Naive>(
Matrix::Operations::Binary::Multiplication::Naive _operator,
const Matrix::Representation& _m,
TensorID _op,
TensorID _op2,
IsTrackable _t,
IsLeaf _f,
IsRecordable _r);
template std::shared_ptr<Tensor> TensorConstructor::create<Matrix::Operations::Binary::Multiplication::Square>(
Matrix::Operations::Binary::Multiplication::Square _operator,
const Matrix::Representation& _m,
TensorID _op,
TensorID _op2,
IsTrackable _t,
IsLeaf _f,
IsRecordable _r);
template std::shared_ptr<Tensor> TensorConstructor::create<Matrix::Operations::Binary::Addition::Std>(
Matrix::Operations::Binary::Addition::Std _operator,
const Matrix::Representation& _m,
TensorID _op,
TensorID _op2,
IsTrackable _t,
IsLeaf _f,
IsRecordable _r);
template std::shared_ptr<Tensor> TensorConstructor::create<Matrix::Operations::Binary::OuterProduct::Naive>(
Matrix::Operations::Binary::OuterProduct::Naive _operator,
const Matrix::Representation& _m,
TensorID _op,
TensorID _op2,
IsTrackable _t,
IsLeaf _f,
IsRecordable _r);
template std::shared_ptr<Tensor> TensorConstructor::create<Matrix::Operations::Metric::CrossEntropy>(
Matrix::Operations::Metric::CrossEntropy _operator,
const Matrix::Representation& _m,
TensorID _op,
TensorID _op2,
IsTrackable _t,
IsLeaf _f,
IsRecordable _r);
}
}
}