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cavis/libnd4j/include/array/impl/ShapeDescriptor.cpp

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/*******************************************************************************
* Copyright (c) 2015-2018 Skymind, Inc.
*
* This program and the accompanying materials are made available under the
* terms of the Apache License, Version 2.0 which is available at
* https://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.
*
* SPDX-License-Identifier: Apache-2.0
******************************************************************************/
//
// @author raver119@gmail.com
//
#include <array/ShapeDescriptor.h>
#include <helpers/shape.h>
#include <helpers/ShapeBuilders.h>
namespace sd {
//////////////////////////////////////////////////////////////////////////
// equal to operator
bool ShapeDescriptor::operator==(const ShapeDescriptor &other) const {
if (_empty != other._empty)
return false;
if (_rank != other._rank)
return false;
if (_order != other._order)
return false;
if (_dataType != other._dataType)
return false;
if (_ews != other._ews)
return false;
if (_shape != other._shape)
return false;
if (_strides != other._strides)
return false;
return true;
}
//////////////////////////////////////////////////////////////////////////
// less than operator
bool ShapeDescriptor::operator<(const ShapeDescriptor &other) const {
return std::tie(_empty, _rank, _dataType, _ews, _order, _shape, _strides) <
std::tie(other._empty, other._rank, other._dataType, other._ews, other._order, other._shape,
other._strides);
}
Nd4jLong *ShapeDescriptor::toShapeInfo() const {
if (_empty) {
if (_rank == 0)
return ShapeBuilders::emptyShapeInfo(_dataType);
else {
return ShapeBuilders::emptyShapeInfo(_dataType, _order, _shape);
}
}
switch (_rank) {
case 0: {
auto shapeInfo = ShapeBuilders::createScalarShapeInfo(_dataType);
shapeInfo[2] = _ews;
return shapeInfo;
}
case 1: {
auto shapeInfo = ShapeBuilders::createVectorShapeInfo(_dataType, _shape[0]);
shapeInfo[2 + _rank * 2] = _ews;
shapeInfo[2] = _strides[0];
shapeInfo[2 + _rank * 2 + 1] = _order;
return shapeInfo;
}
default: {
auto shapeInfo = ShapeBuilders::createShapeInfo(_dataType, _order, _shape);
for (int e = 0; e < _rank; e++)
shapeInfo[e + 1 + _rank] = _strides[e];
shapeInfo[2 + _rank * 2] = _ews;
return shapeInfo;
}
}
}
ShapeDescriptor::ShapeDescriptor(const DataType type, const char order, const Nd4jLong *shape, const int rank)
: _dataType(type), _order(order), _rank(rank), _ews(1) {
_shape.resize(rank);
_strides.resize(rank);
for (int e = 0; e < rank; e++)
_shape[e] = shape[e];
if (order == 'c')
shape::calcStrides(_shape.data(), _shape.size(), _strides.data());
else
shape::calcStridesFortran(_shape.data(), _shape.size(), _strides.data());
for (auto v:_shape) {
if (v == 0) {
_empty = true;
break;
}
}
}
ShapeDescriptor::ShapeDescriptor(const DataType type, const char order, const Nd4jLong *shape,
const Nd4jLong *strides, const int rank, Nd4jLong ews, const bool empty) {
_shape.resize(rank);
_strides.resize(rank);
_dataType = type;
_order = order;
_rank = rank;
_empty = empty;
_ews = ews;
for (int e = 0; e < rank; e++)
_shape[e] = shape[e];
for (int e = 0; e < rank; e++)
_strides[e] = strides[e];
for (auto v:_shape) {
if (v == 0) {
_empty = true;
break;
}
}
}
//////////////////////////////////////////////////////////////////////////
ShapeDescriptor::ShapeDescriptor(const DataType type, const char order, const std::vector<Nd4jLong> &shape)
: _dataType(type), _order(order), _shape(shape) {
_rank = shape.size();
_ews = 1;
if (_rank > 0) {
_strides.resize(_rank);
for (auto v:_shape) {
if (v == 0) {
_empty = true;
break;
}
}
// no point calculating strides for empty arrays
if (!_empty) {
if (order == 'c')
shape::calcStrides(_shape.data(), shape.size(), _strides.data());
else
shape::calcStridesFortran(_shape.data(), shape.size(), _strides.data());
} else {
// all strides set to 0
memset(_strides.data(), 0, sizeof(Nd4jLong) * shape.size());
}
}
}
//////////////////////////////////////////////////////////////////////////
ShapeDescriptor::ShapeDescriptor(const DataType type, const char order,
const std::initializer_list<Nd4jLong> &shape) : _dataType(type), _order(order),
_shape(shape) {
_rank = shape.size();
_ews = 1;
_strides.resize(shape.size());
if (order == 'c')
shape::calcStrides(_shape.data(), shape.size(), _strides.data());
else
shape::calcStridesFortran(_shape.data(), shape.size(), _strides.data());
for (auto v:_shape) {
if (v == 0) {
_empty = true;
break;
}
}
}
//////////////////////////////////////////////////////////////////////////
ShapeDescriptor::ShapeDescriptor(const DataType type, const char order, const std::vector<Nd4jLong> &shape,
const std::vector<Nd4jLong> &strides, const Nd4jLong ews) : ShapeDescriptor(type,
order,
shape,
strides) {
_ews = ews;
}
ShapeDescriptor::ShapeDescriptor(const DataType type, const Nd4jLong length) : _dataType(type), _ews(1),
_order('c'), _rank(1),
_empty(false) {
_shape = {length};
_strides = {1};
}
ShapeDescriptor::ShapeDescriptor(const Nd4jLong *shapeInfo, bool inheritDtype) {
_order = shape::order(shapeInfo);
_ews = shape::elementWiseStride(shapeInfo);
_rank = shape::rank(shapeInfo);
if (inheritDtype)
_dataType = ArrayOptions::dataType(shapeInfo);
_empty = shape::isEmpty(shapeInfo);
for (int e = 0; e < _rank; e++) {
_shape.emplace_back(shapeInfo[e + 1]);
if (shapeInfo[e + 1] == 0)
_empty = true;
}
for (int e = 0; e < _rank; e++)
_strides.emplace_back(shapeInfo[e + 1 + _rank]);
}
ShapeDescriptor::ShapeDescriptor(const Nd4jLong *shapeInfo, const sd::DataType dtypeOverride)
: ShapeDescriptor::ShapeDescriptor(shapeInfo, false) {
_dataType = dtypeOverride;
}
ShapeDescriptor::ShapeDescriptor(const Nd4jLong *shapeInfo, const Nd4jLong *dtypeOverride)
: ShapeDescriptor::ShapeDescriptor(shapeInfo, ArrayOptions::dataType(dtypeOverride)) {
//
}
ShapeDescriptor::ShapeDescriptor(const Nd4jLong *shapeInfo, const Nd4jLong *dtypeOverride,
const Nd4jLong *orderOverride) : ShapeDescriptor::ShapeDescriptor(shapeInfo,
ArrayOptions::dataType(
dtypeOverride)) {
_order = shape::order(orderOverride);
}
int ShapeDescriptor::rank() const {
return _rank;
}
Nd4jLong ShapeDescriptor::ews() const {
return _ews;
}
Nd4jLong ShapeDescriptor::arrLength() const {
Nd4jLong len = 1;
for (const auto &dim : const_cast<ShapeDescriptor *>(this)->shape())
len *= dim;
return len;
}
char ShapeDescriptor::order() const {
return _order;
}
DataType ShapeDescriptor::dataType() const {
return _dataType;
}
bool ShapeDescriptor::isEmpty() const {
return _empty;
}
std::vector<Nd4jLong> &ShapeDescriptor::shape() {
return _shape;
}
std::vector<Nd4jLong> &ShapeDescriptor::strides() {
return _strides;
}
ShapeDescriptor::ShapeDescriptor(const ShapeDescriptor &other) {
_rank = other._rank;
_ews = other._ews;
_empty = other._empty;
_dataType = other._dataType;
_order = other._order;
_shape = other._shape;
_strides = other._strides;
}
//////////////////////////////////////////////////////////////////////////
ShapeDescriptor::ShapeDescriptor(const DataType type, const char order, const std::vector<Nd4jLong> &shape,
const std::vector<Nd4jLong> &strides) : _dataType(type), _order(order),
_shape(shape) {
if (strides.empty() && !shape.empty()) {
_strides.resize(shape.size());
if (order == 'c')
shape::calcStrides(_shape.data(), shape.size(), _strides.data());
else
shape::calcStridesFortran(_shape.data(), shape.size(), _strides.data());
} else {
_strides = strides;
}
for (auto v:_shape) {
if (v == 0) {
_empty = true;
break;
}
}
}
ShapeDescriptor ShapeDescriptor::emptyDescriptor(const DataType type) {
ShapeDescriptor descriptor;
descriptor._dataType = type;
descriptor._empty = true;
descriptor._rank = 0;
descriptor._order = 'c';
descriptor._ews = 1;
return descriptor;
}
ShapeDescriptor ShapeDescriptor::scalarDescriptor(const DataType type) {
ShapeDescriptor descriptor;
descriptor._dataType = type;
descriptor._empty = false;
descriptor._rank = 0;
descriptor._order = 'c';
descriptor._ews = 1;
return descriptor;
}
ShapeDescriptor ShapeDescriptor::vectorDescriptor(const Nd4jLong length, const DataType type) {
ShapeDescriptor descriptor;
descriptor._dataType = type;
descriptor._shape.emplace_back(length);
if (length > 0)
descriptor._strides.emplace_back(1);
else {
descriptor._strides.emplace_back(0);
descriptor._empty = true;
}
descriptor._order = 'c';
descriptor._ews = 1;
descriptor._rank = 1;
return descriptor;
}
}
namespace std {
size_t hash<sd::ShapeDescriptor>::operator()(const sd::ShapeDescriptor &k) const {
auto res = std::hash<Nd4jLong>()(k.arrLength());
res ^= std::hash<char>()(k.order()) + 0x9e3779b9 + (res << 6) + (res >> 2);
res ^= k.dataType() + 0x9e3779b9 + (res << 6) + (res >> 2);
res ^= std::hash<int>()(k.rank()) + 0x9e3779b9 + (res << 6) + (res >> 2);
res ^= std::hash<Nd4jLong>()(k.ews()) + 0x9e3779b9 + (res << 6) + (res >> 2);
auto shapes = const_cast<sd::ShapeDescriptor&>(k).shape();
auto strides = const_cast<sd::ShapeDescriptor&>(k).strides();
for (auto s: shapes) {
res ^= std::hash<Nd4jLong>()(s) + 0x9e3779b9 + (res << 6) + (res >> 2);
}
for (auto s: strides) {
res ^= std::hash<Nd4jLong>()(s) + 0x9e3779b9 + (res << 6) + (res >> 2);
}
return res;
}
}
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