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cavis/libnd4j/include/loops/cuda/broadcasting_int.cu
raver119 320924278d
Legacy API changes (#441) 
* initial commit

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* another initial commit

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* another initial commit

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* one more initial commit

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* next step

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* next step

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* next step

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* next step

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* Refactored buffer() and shapeInfo() methods usage with NDArray class.

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* Adopt Graph class methods to use const shapes.

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* Adopt choose op to use constant shapes.

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* Adopt where op shape method to use constant shapes.

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* Adopt lstsq op to use constant empty shapes.

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* Adopt matrix_diag_part op shape routine to use constant shapes.

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* Adopt determinant ops to use constant shapes.

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* Adopt mean_pairwssqerr_loss ops to use constant shapes.

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* Adopt ops shape methods.

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* Adopt shape methods for loss ops.

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* Adopt log_loss op shape method.

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* Adopt shape methods for ops.

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* Adopt dilation2d ops shape methods.

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* Adopted deconv2d ops shape methods.

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* Adopted dynamicRNN op shape method.

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* Adopted shape methods for ops.

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* Adopted shape methods for lstm layer ops.

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* few updates

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* first cuda tweak

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* Adopt constant shapes for sconv2d ops.

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* Adopt constant shapes for gru ops.

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* Adopt constant shapes with shape methods for segment ops and so on.

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* Adopted constant shapes with unsorted_segment_* ops.

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* Adopted constant shapes with gamma op shape method.

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* Adopted shape methods of reduce_stddev ops.

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* Adopted shape methods for reduce_* ops.

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* Adopt shape method for squeeze op.

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* Adopt strided_slice shape method.

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* Refactored concat op shape method to adopt constant shapes.

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* Adopted shape method for mirror_pad op.

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* Adopted split op shape method.

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* Adopted tile ops shape methods.

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* Added const cast for mkldnn routines handles.

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* Refactored logSoftMaxForVector_ routine to conform with proper data and shape pointer casts.

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* Cosmetic changes to proper usage of constant pointers.

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* Refactored a couple shape comparators for strides and addBias helpers to proper use data pointers with inplace option.

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* Refactored depthToSpace helpers.

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* Refactored histogram helpers.

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* Refactored im2col helpers.

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* Refactored gather and gatherND helpers.

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* Fixed buffer usage on percentile helper.

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* Fixed gather shape with helpers and range buffer usage.

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* Fixed buffer usage with space to depth helpers.

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* Fixed buffer usage and constant shapes.

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* Fixed buffer usage with LUP decomposition>

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* Refactored onehot_ helper.

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* Refactored pad and prefix to use constant shapes.

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* Refactoed softmax helpers.

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* Fixed space to batch helpers to use buffers properly.

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* Fixed stack and split helpers.

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* Fixed buffer usage with sparse to dense helpers.

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* Fixed buffer usage with mindistance_ helpers.

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* Fixed buffer usage with tile helper.

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* Fixed constant shape usage.

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* Fixed constant shape usage with legacy pairwise bool ops.

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* Refactored a couple of methods to adopt constant shape usage.

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* Fixed broadcasting with constant shape."

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* Fixed const usage with inplace reverse and constant shapes with legacy reduction.

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* Refactored legacy ops with const shapes.

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* Refactored sort to adopt constant shapes.

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* Corrected sort for constant shape usage.

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* Fixed constant shape usage with special methods.

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* Refactored Context to conform with constant shape usage.

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* CUDA broadcasting headers

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* pairwise/indexreduce/random headers

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* Refactored native ops to adopt constant shapes.

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* legacy reduce3/scalar headers

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* Corrected pullRow signature and tests.

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* Corrected routines to proper use of constant shapes.

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* Refactored tests to use constant shapes properly.

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* Refactored legacy ops tests to use constant shapes properly.

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* Refactored buffer usage with NDArray tests.

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* Fixed native ops tests.

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* Fixed special concat routine.

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* Fixed buffer usage with test.

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* Fixed buffer usage with a test.

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* Refactored TAD.h and tests.

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* Refactored calcStrides* routines to use constant shapes.

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* Fixed miscelaneous errors with constant shapes.

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* NativeOps const changes

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* Corrected definitions for declared functions.

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* NativeOps const changes

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* few more const changes

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* Fixed const shapes with shape routines.

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* few more const changes

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* Fixed shape method for broadcastable case.

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* few more const changes

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* xw_plus_b BP shape fn restored

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* Fixed signatures with broadcasting.

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* Repaired backprops shape methods for a set of operations.

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* Refactored broadcast bool for cuda.

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* Refactored methods for 3 args with const qualifier.

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* Fixed a couple of kernel signatures for broadcasting.

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* Fixed kernels signatures for const buffers and shapes.

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* Refactored pairwise methods to persistent buffers and shapes usage.

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* Adopt const to buffers and shapes with kernels.

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* Adopt const to buffers and shapes with scalar kernels.

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* Refactored indexreduce kernels signatures to use const buffers and shapes.

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* Refactored pairwise kernels to adopt cons shapes and buffers.

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* Refactored pairwise bool kernels to adopt cons shapes and buffers.

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* Refactored random special ops to conform with const shapes and buffers.

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* Refactored native ops to conform with const shapes and buffers under cuda platform.

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* Cosmetical changes only.

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* Fixed const shapes and buffers error.

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* Corrected start pos routine.

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* Refactored methods to conform with const shapes and buffers.

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* Refactored helpers to use proper methods instead.

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* bunch of changes

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* next bunch of changes

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* next bunch of changes

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* Fixed execScalar declaration.

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* Fixed execScalar declaration.

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* Corrected const shape cases with sort and so on.

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* Fixed const shapes for sort.

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* Refactored kernel declarations to adopt const shapes.

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* Fixed kernels declarations to adopt const shapes.

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* Corrected kernel declarations to adopt const shapes and buffers.

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* Fixed kernels declarations to adopt const shapes.

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* Fixed segment helpers kernels declarations and so on to adopt const shapes.

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* Fixed const shape usage with segment and solve helpers.

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* Fixed kernel declaration with adjustWeight helper.

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* Fixed cuda implementations for constant shape helpers.

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* Adopted const shape usage with kernels.

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* Adopted top_k kernels to use const shapes and buffers.

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* Corrected kernels declarations to adopt const shapes with helpers.

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* Refactored NDArray definitions to adopt const shapes and buffers.

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* Fixed const shapes with image suppression helpers.

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* Slight improvement with buffers.

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* Refactored buffer usage.

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* Refactored buffer usage with tests.

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* Fixed const shape usage with definitions.

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* minor updates on cpu side

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* Refactored const shape usage with ConstantDescritor and native ops with cuda platform.

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* Refactored tear and tile kernels to adopt with const shapes.

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* softmax_loop fix

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* update missing signature

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* softmax again

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* few more missing consts

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* new methods updated

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Co-authored-by: shugeo <sgazeos@gmail.com>
2020-05-09 08:06:14 +03:00

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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 <system/op_boilerplate.h>
#include <loops/broadcasting_int.h>
#include <loops/legacy_ops.h>
#include <types/types.h>
#include <system/Environment.h>
#include <cuda.h>
#include <cuda_runtime.h>
#include <string>
#include <stdexcept>
#include <helpers/StringUtils.h>
using namespace simdOps;
//////////////////////////////////////////////////////////////////////////
template<typename X, typename OpClass>
static __global__ void broadcastIntSimple(
void const* x,
Nd4jLong const* xShapeInfo,
void const* y,
Nd4jLong const* yShapeInfo,
void *z,
Nd4jLong const* zShapeInfo,
int *dimension,
int dimensionLength, Nd4jLong const* tadOnlyShapeInfo, Nd4jLong const* tadOffsets, Nd4jLong const* tadOnlyShapeInfoZ, Nd4jLong const* tadOffsetsZ) {
functions::broadcast::BroadcastInt<X>::template transformCuda<OpClass>(x,xShapeInfo,y,yShapeInfo,z,zShapeInfo,dimension,dimensionLength,tadOnlyShapeInfo,tadOffsets,tadOnlyShapeInfoZ,tadOffsetsZ);
}
//////////////////////////////////////////////////////////////////////////
template<typename X, typename OpClass>
static __global__ void broadcastIntSimple(const void *x, const Nd4jLong const* xShapeInfo,
const void *y, const Nd4jLong const* yShapeInfo,
void *z, const Nd4jLong const* zShapeInfo) {
functions::broadcast::BroadcastInt<X>::template transformCuda<OpClass>(x, xShapeInfo, y, yShapeInfo, z, zShapeInfo);
}
//////////////////////////////////////////////////////////////////////////
template<typename X, typename OpClass>
static __global__ void broadcastBoolInverseSimple(
void const* x,
Nd4jLong const* xShapeInfo,
void const* y,
Nd4jLong const* yShapeInfo,
void *z,
Nd4jLong const* zShapeInfo,
int *dimension,
int dimensionLength, Nd4jLong const* tadOnlyShapeInfo, Nd4jLong const* tadOffsets, Nd4jLong const* tadOnlyShapeInfoZ, Nd4jLong const* tadOffsetsZ) {
functions::broadcast::BroadcastInt<X>::template transformInverseCuda<OpClass>(x,xShapeInfo,y,yShapeInfo,z,zShapeInfo,dimension,dimensionLength,tadOnlyShapeInfo,tadOffsets,tadOnlyShapeInfoZ,tadOffsetsZ);
}
namespace functions {
namespace broadcast {
//////////////////////////////////////////////////////////////////////////
template<typename X>
template <typename OpClass>
__host__ void BroadcastInt<X>::intermediateBroadcast(dim3 launchDims, cudaStream_t *stream, void const* x, Nd4jLong const* xShapeInfo, void const* y, Nd4jLong const* yShapeInfo, void *z, Nd4jLong const* zShapeInfo, int *dimension, int dimensionLength, Nd4jLong const* tadOnlyShapeInfo, Nd4jLong const* tadOffsets, Nd4jLong const* tadOnlyShapeInfoZ, Nd4jLong const* tadOffsetsZ) {
broadcastIntSimple<X, OpClass><<<launchDims.x, launchDims.y, launchDims.z, *stream>>>(x, xShapeInfo, y, yShapeInfo, z, zShapeInfo, dimension, dimensionLength, tadOnlyShapeInfo, tadOffsets, tadOnlyShapeInfoZ, tadOffsetsZ);
}
//////////////////////////////////////////////////////////////////////////
template<typename X>
template <typename OpClass>
__host__ void BroadcastInt<X>::intermediateBroadcast(dim3 launchDims, cudaStream_t *stream,
const void *x, const Nd4jLong *xShapeInfo,
const void *y, const Nd4jLong *yShapeInfo,
void *z, const Nd4jLong *zShapeInfo) {
broadcastIntSimple<X, OpClass><<<launchDims.x, launchDims.y, launchDims.z, *stream>>>(x, xShapeInfo, y, yShapeInfo, z, zShapeInfo);
}
//////////////////////////////////////////////////////////////////////////
template<typename X>
__host__ void BroadcastInt<X>::execBroadcast(dim3 launchDims, cudaStream_t *stream, int opNum, void const* x, Nd4jLong const* xShapeInfo, void const* y, Nd4jLong const* yShapeInfo, void *z, Nd4jLong const* zShapeInfo, int *dimension, int dimensionLength, Nd4jLong const* tadOnlyShapeInfo, Nd4jLong const* tadOffsets, Nd4jLong const* tadOnlyShapeInfoZ, Nd4jLong const* tadOffsetsZ) {
DISPATCH_BY_OPNUM_T(intermediateBroadcast, PARAMS(launchDims, stream, x, xShapeInfo, y, yShapeInfo, z, zShapeInfo, dimension, dimensionLength, tadOnlyShapeInfo, tadOffsets, tadOnlyShapeInfoZ, tadOffsetsZ), OPS_A(BROADCAST_INT_OPS))
}
//////////////////////////////////////////////////////////////////////////
template<typename X>
__host__ void BroadcastInt<X>::execBroadcast(dim3 launchDims, cudaStream_t *stream, const int opNum,
const void *x, const Nd4jLong const* xShapeInfo,
const void *y, const Nd4jLong const* yShapeInfo,
void *z, const Nd4jLong const* zShapeInfo) {
DISPATCH_BY_OPNUM_T(intermediateBroadcast, PARAMS(launchDims, stream, x, xShapeInfo, y, yShapeInfo, z, zShapeInfo), OPS_A(BROADCAST_INT_OPS))
}
//////////////////////////////////////////////////////////////////////////
template<typename X>
template <typename OpClass>
__host__ void BroadcastInt<X>::intermediateInverseBroadcast(dim3 launchDims, cudaStream_t *stream, void const* x, Nd4jLong const* xShapeInfo, void const* y, Nd4jLong const* yShapeInfo, void *z, Nd4jLong const* zShapeInfo, int *dimension, int dimensionLength, Nd4jLong const* tadOnlyShapeInfo, Nd4jLong const* tadOffsets, Nd4jLong const* tadOnlyShapeInfoZ, Nd4jLong const* tadOffsetsZ) {
broadcastBoolInverseSimple<X, OpClass><<<launchDims.x, launchDims.y, launchDims.z, *stream>>>(x, xShapeInfo, y, yShapeInfo, z, zShapeInfo, dimension, dimensionLength, tadOnlyShapeInfo, tadOffsets, tadOnlyShapeInfoZ, tadOffsetsZ);
}
//////////////////////////////////////////////////////////////////////////
template<typename X>
__host__ void BroadcastInt<X>::execInverseBroadcast(dim3 launchDims, cudaStream_t *stream, int opNum, void const* x, Nd4jLong const* xShapeInfo, void const* y, Nd4jLong const* yShapeInfo, void *z, Nd4jLong const* zShapeInfo, int *dimension, int dimensionLength, Nd4jLong const* tadOnlyShapeInfo, Nd4jLong const* tadOffsets, Nd4jLong const* tadOnlyShapeInfoZ, Nd4jLong const* tadOffsetsZ) {
DISPATCH_BY_OPNUM_T(intermediateInverseBroadcast, PARAMS(launchDims, stream, x, xShapeInfo, y, yShapeInfo, z, zShapeInfo, dimension, dimensionLength, tadOnlyShapeInfo, tadOffsets, tadOnlyShapeInfoZ, tadOffsetsZ), OPS_A(BROADCAST_INT_OPS))
}
//////////////////////////////////////////////////////////////////////////
template<typename X>
template <typename OpType>
__device__ void BroadcastInt<X>::transformInverseCuda(
void const* vx, Nd4jLong const* xShapeInfo,
void const* vy, Nd4jLong const* yShapeInfo,
void *vz, Nd4jLong const* zShapeInfo,
int *dimension, int dimensionLength,
Nd4jLong const* tadOnlyShapeInfo, Nd4jLong const* tadOffsets, Nd4jLong const* tadOnlyShapeInfoZ, Nd4jLong const* tadOffsetsZ) {
if (tadOnlyShapeInfoZ == nullptr) {
tadOnlyShapeInfoZ = tadOnlyShapeInfo;
tadOffsetsZ = tadOffsets;
}
auto x = reinterpret_cast<X const*>(vx);
auto y = reinterpret_cast<X const*>(vy);
auto z = reinterpret_cast<X*>(vz);
//decompose in to several sub tads after
//moving all dimensions (in sorted order)
//to the back.
//permuted version of the x shape info for setting up the tad problem
__shared__ Nd4jLong tadLength;
__shared__ Nd4jLong tadEWS;
__shared__ int numTads;
__shared__ Nd4jLong xEWS;
__shared__ Nd4jLong zEWS;
if (threadIdx.x == 0) {
tadLength = shape::length(tadOnlyShapeInfo);//shape::tadLength(xShapeInfo, dimension, dimensionLength);
tadEWS = shape::elementWiseStride(tadOnlyShapeInfo);
numTads = shape::length(yShapeInfo) / tadLength;
xEWS = shape::elementWiseStride(xShapeInfo);
zEWS = shape::elementWiseStride(tadOnlyShapeInfoZ);
}
__syncthreads();
for (int r = blockIdx.x; r < numTads; r += gridDim.x) {
auto rZ = z + tadOffsetsZ[r];
auto rY = y + tadOffsets[r];
if(tadEWS > 0 && zEWS > 0 && xEWS > 0 && dimensionLength == 1) {
for (int i = threadIdx.x; i < tadLength; i+= blockDim.x)
rZ[i * zEWS] = OpType::op(x[i * xEWS], rY[i * tadEWS]);
}
else {
// it is expected that x and z tads and y array all have the same length
for (Nd4jLong i = threadIdx.x; i < tadLength; i+= blockDim.x) {
auto xOffset = shape::getIndexOffset(i, xShapeInfo);
auto yOffset = shape::getIndexOffset(i, tadOnlyShapeInfo);
auto zOffset = shape::getIndexOffset(i, tadOnlyShapeInfoZ);
rZ[zOffset] = OpType::op(x[xOffset], rY[yOffset]);
}
}
}
}
//////////////////////////////////////////////////////////////////////////
template<typename X>
template <typename OpType>
__device__ void BroadcastInt<X>::transformCuda(
void const* vx, Nd4jLong const* xShapeInfo,
void const* vy, Nd4jLong const* yShapeInfo,
void *vz, Nd4jLong const* zShapeInfo,
int *dimension, int dimensionLength,
Nd4jLong const* tadOnlyShapeInfo, Nd4jLong const* tadOffsets, Nd4jLong const* tadOnlyShapeInfoZ, Nd4jLong const* tadOffsetsZ) {
if (tadOnlyShapeInfoZ == nullptr) {
tadOnlyShapeInfoZ = tadOnlyShapeInfo;
tadOffsetsZ = tadOffsets;
}
auto x = reinterpret_cast<X const*>(vx);
auto y = reinterpret_cast<X const*>(vy);
auto z = reinterpret_cast<X*>(vz);
//decompose in to several sub tads after
//moving all dimensions (in sorted order)
//to the back.
//permuted version of the x shape info for setting up the tad problem
__shared__ Nd4jLong tadLength;
__shared__ Nd4jLong tadEWS;
__shared__ int numTads;
__shared__ Nd4jLong yEWS;
__shared__ Nd4jLong zEWS;
if (threadIdx.x == 0) {
tadLength = shape::length(tadOnlyShapeInfo);//shape::tadLength(xShapeInfo, dimension, dimensionLength);
tadEWS = shape::elementWiseStride(tadOnlyShapeInfo);
numTads = shape::length(xShapeInfo) / tadLength;
yEWS = shape::elementWiseStride(yShapeInfo);
zEWS = shape::elementWiseStride(tadOnlyShapeInfoZ);
}
__syncthreads();
__shared__ X *rZ;
__shared__ X const* rX;
for (int r = blockIdx.x; r < numTads; r += gridDim.x) {
if (threadIdx.x == 0) {
rZ = z + tadOffsetsZ[r];
rX = x + tadOffsets[r];
}
__syncthreads();
if(tadEWS > 0 && zEWS > 0 && yEWS > 0 && dimensionLength == 1) {
for (int i = threadIdx.x; i < tadLength; i+= blockDim.x)
rZ[i * zEWS] = OpType::op(rX[i * tadEWS], y[i * yEWS]);
}
else {
// it is expected that x and z tads and y array all have the same length
for (Nd4jLong i = threadIdx.x; i < tadLength; i+= blockDim.x) {
auto xOffset = shape::getIndexOffset(i, tadOnlyShapeInfo);
auto yOffset = shape::getIndexOffset(i, yShapeInfo);
auto zOffset = shape::getIndexOffset(i, tadOnlyShapeInfoZ);
rZ[zOffset] = OpType::op(rX[xOffset], y[yOffset]);
}
}
}
}
//////////////////////////////////////////////////////////////////////////
template<typename X>
template <typename OpType>
__device__ void BroadcastInt<X>::transformCuda(const void *vx, const Nd4jLong const* xShapeInfo,
const void *vy, const Nd4jLong const* yShapeInfo,
void *vz, const Nd4jLong const* zShapeInfo) {
const X* x = reinterpret_cast<const X*>(vx);
const X* y = reinterpret_cast<const X*>(vy);
X* z = reinterpret_cast<X*>(vz);
__shared__ Nd4jLong zLen;
__shared__ int rank;
__shared__ bool xzSameOffsets, yzSameOffsets;
if (threadIdx.x == 0) {
zLen = shape::length(zShapeInfo);
rank = shape::rank(zShapeInfo);
xzSameOffsets = shape::haveSameShapeAndStrides(xShapeInfo, zShapeInfo);
yzSameOffsets = shape::haveSameShapeAndStrides(yShapeInfo, zShapeInfo);
}
__syncthreads();
const auto tid = blockIdx.x * blockDim.x + threadIdx.x;
int xCoords[MAX_RANK], yCoords[MAX_RANK], zCoords[MAX_RANK];
for (int i = tid; i < zLen; i += blockDim.x * gridDim.x) {
shape::index2coords(i, zShapeInfo, zCoords);
for (uint j = 0; j < rank; ++j) {
xCoords[j] = shape::sizeAt(xShapeInfo, j) == 1 ? 0 : zCoords[j];
yCoords[j] = shape::sizeAt(yShapeInfo, j) == 1 ? 0 : zCoords[j];
}
const auto zOffset = shape::getOffset(zShapeInfo, zCoords);
const auto xOffset = xzSameOffsets ? zOffset : shape::getOffset(xShapeInfo, xCoords);
const auto yOffset = yzSameOffsets ? zOffset : shape::getOffset(yShapeInfo, yCoords);
z[zOffset] = OpType::op(x[xOffset], y[yOffset]);
}
}
BUILD_SINGLE_TEMPLATE(template class ND4J_EXPORT BroadcastInt, , INTEGER_TYPES);
}
}
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