281 lines
13 KiB
Plaintext
281 lines
13 KiB
Plaintext
/* ******************************************************************************
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*
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*
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* This program and the accompanying materials are made available under the
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* terms of the Apache License, Version 2.0 which is available at
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* https://www.apache.org/licenses/LICENSE-2.0.
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*
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* See the NOTICE file distributed with this work for additional
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* information regarding copyright ownership.
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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* License for the specific language governing permissions and limitations
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* under the License.
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*
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* SPDX-License-Identifier: Apache-2.0
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******************************************************************************/
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//
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// @author Yurii Shyrma (iuriish@yahoo.com)
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//
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#include <ops/declarable/helpers/top_k.h>
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#include <helpers/PointersManager.h>
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#include <helpers/ConstantTadHelper.h>
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namespace sd {
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namespace ops {
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namespace helpers {
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//////////////////////////////////////////////////////////////////////////
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template<typename X, typename Y>
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__global__ static void inTopKCuda(const void* vx, const Nd4jLong* xShapeInfo,
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const void* vy, const Nd4jLong* yShapeInfo,
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void* vz, const Nd4jLong* zShapeInfo,
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const Nd4jLong* xTadShapeInfo, const Nd4jLong* xTadOffsets,
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const uint k) {
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const auto y = reinterpret_cast<const Y*>(vy);
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auto z = reinterpret_cast<bool*>(vz);
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__shared__ uint sharedMem[CUDA_BLOCK_SIZE];
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__shared__ X elemToCompare;
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__shared__ const X* xTad;
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__shared__ Nd4jLong idx, xTadLen;
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if (threadIdx.x == 0) {
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xTadLen = shape::length(xTadShapeInfo);
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xTad = reinterpret_cast<const X*>(vx) + xTadOffsets[blockIdx.x];
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idx = y[shape::getIndexOffset(blockIdx.x, yShapeInfo)]; // shape::length(yShapeInfo) == numTads
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elemToCompare = xTad[shape::getIndexOffset(idx, xTadShapeInfo)];
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}
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__syncthreads();
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sharedMem[threadIdx.x] = 0;
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for (Nd4jLong i = threadIdx.x; i < xTadLen; i += blockDim.x)
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if(elemToCompare < xTad[shape::getIndexOffset(i, xTadShapeInfo)])
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++sharedMem[threadIdx.x];
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__syncthreads();
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// aggregate sum
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for (uint activeThreads = blockDim.x / 2; activeThreads > 0; activeThreads /= 2) {
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if (threadIdx.x < activeThreads)
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sharedMem[threadIdx.x] += sharedMem[threadIdx.x + activeThreads];
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__syncthreads();
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}
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if (threadIdx.x == 0)
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z[shape::getIndexOffset(blockIdx.x, zShapeInfo)] = *sharedMem < k;
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}
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///////////////////////////////////////////////////////////////////
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template<typename X, typename Y>
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static void inTopKCudaLauncher(const int blocksPerGrid, const int threadsPerBlock, const int sharedMem, const cudaStream_t *stream,
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const void *vx, const Nd4jLong *xShapeInfo,
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const void *vy, const Nd4jLong *yShapeInfo,
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void *vz, const Nd4jLong *zShapeInfo,
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const Nd4jLong* xTadShapeInfo, const Nd4jLong* xTadOffsets,
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const uint k) {
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inTopKCuda<X,Y><<<blocksPerGrid, threadsPerBlock, sharedMem, *stream>>>(vx, xShapeInfo, vy, yShapeInfo, vz, zShapeInfo, xTadShapeInfo, xTadOffsets, k);
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}
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///////////////////////////////////////////////////////////////////
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int inTopKFunctor(sd::LaunchContext * context, const NDArray* predictions, const NDArray* targets, NDArray* output, const uint k) {
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PointersManager manager(context, "in_top_k");
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const auto packX = sd::ConstantTadHelper::getInstance().tadForDimensions(predictions->shapeInfo(), {1});
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const int threadsPerBlock = CUDA_BLOCK_SIZE;
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const int blocksPerGrid = static_cast<int>(packX.numberOfTads());
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const int sharedMem = 1024;
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const auto xType = predictions->dataType();
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const auto yType = targets->dataType();
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NDArray::prepareSpecialUse({output}, {predictions, targets});
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BUILD_DOUBLE_SELECTOR(xType, yType, inTopKCudaLauncher, (blocksPerGrid, threadsPerBlock, sharedMem, context->getCudaStream(), predictions->specialBuffer(), predictions->specialShapeInfo(), targets->specialBuffer(), targets->specialShapeInfo(), output->specialBuffer(), output->specialShapeInfo(), packX.specialShapeInfo(), packX.specialOffsets(), k), FLOAT_TYPES, INDEXING_TYPES);
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NDArray::registerSpecialUse({output}, {predictions, targets});
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manager.synchronize();
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return Status::OK();
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}
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template <typename X, typename Y>
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static _CUDA_G void topValuesMover(void const* vx, Nd4jLong const* xTadShapeInfo, Nd4jLong const* xTadOffsets, void const* vi, Nd4jLong const* iTadShapeInfo, Nd4jLong const* iTadOffsets, void *vz, Nd4jLong const* zTadShapeInfo, Nd4jLong const* zTadOffsets, Nd4jLong tadLength, int numTads, int k) {
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for (int t = blockIdx.x; t < numTads; t += gridDim.x) {
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auto x = reinterpret_cast<X const*>(vx) + xTadOffsets[t];
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auto i = reinterpret_cast<Y const*>(vi) + iTadOffsets[t];
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auto z = reinterpret_cast<X*>(vz) + zTadOffsets[t];
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for (int e = threadIdx.x; e < k; e += blockDim.x) {
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auto idx = i[shape::getIndexOffset(e, iTadShapeInfo)];
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z[shape::getIndexOffset(e, zTadShapeInfo)] = x[shape::getIndexOffset(idx, xTadShapeInfo)];
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}
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}
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}
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template <typename X, typename Y>
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static _CUDA_G void indicesAlongDimension(void const* vx, Nd4jLong const* xTadShapeInfo, Nd4jLong const* xTadOffsets, void* vi, Nd4jLong const* iTadShapeInfo, Nd4jLong const* iTadOffsets, void *vz, Nd4jLong const* zTadShapeInfo, Nd4jLong const* zTadOffsets, Nd4jLong tadLength, int numTads, int k, int scanWidth, bool needSort) {
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extern __shared__ char _shmem[];
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X* tempValues = reinterpret_cast<X*>(_shmem) + threadIdx.x * scanWidth;
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Y* tempIndices = reinterpret_cast<Y*>(reinterpret_cast<X*>(_shmem) + blockDim.x * scanWidth) + threadIdx.x * scanWidth;
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__shared__ X localMaximum;
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if (threadIdx.x == 0)
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localMaximum = -DataTypeUtils::max<X>();
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__syncthreads();
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for (int t = blockIdx.x; t < numTads; t += gridDim.x) {
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auto x = reinterpret_cast<X const*>(vx) + xTadOffsets[t];
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auto i = reinterpret_cast<Y*>(vi) + iTadOffsets[t];
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auto z = reinterpret_cast<X *>(vz) + zTadOffsets[t];
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// we'll do multiple reads here
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for (int p = 0; p < k; p += scanWidth) {
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// resetting temporary storage
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for (int p = 0; p < scanWidth; p++) {
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tempValues[p] = -DataTypeUtils::max<X>();
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tempIndices[p] = DataTypeUtils::max<Y>();
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}
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// local max values/indices
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for (int e = threadIdx.x; e < tadLength; e++) {
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auto value = x[shape::getIndexOffset(e, xTadShapeInfo)];
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// we'll compare this value to current stored ones
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for (int f = 0; f < scanWidth; f++) {
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if (value > tempValues[f] && (p == 0 || value < localMaximum)) {
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tempValues[f] = value;
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tempIndices[f] = e;
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}
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}
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}
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__syncthreads();
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// at this point we have local part ready for merge and define global maximum for this iteration, and local maximum for next iteration
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for (uint activeThreads = blockDim.x / 2; activeThreads > 0; activeThreads /= 2) {
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if (threadIdx.x < activeThreads) {
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if (tempValues[0] < tempValues[0 + activeThreads * scanWidth]) {
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tempValues[0] = tempValues[0 + activeThreads * scanWidth];
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tempIndices[0] = tempIndices[0 + activeThreads * scanWidth];
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}
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}
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__syncthreads();
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}
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__syncthreads();
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// at this point we know local minimum for next iteration
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if (threadIdx.x == 0) {
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localMaximum = tempValues[scanWidth - 1];
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z[shape::getIndexOffset(p, zTadShapeInfo)] = tempValues[scanWidth - 1];
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i[shape::getIndexOffset(p, iTadShapeInfo)] = tempIndices[scanWidth - 1];
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}
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__syncthreads();
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}
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__syncthreads();
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if (!needSort) {
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// if we don't need sort, we need to return values based on their indices (ascending)
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for (int m = 0; m < k; m++) {
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if (m % 2 == 0) {
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for (int tid = threadIdx.x; tid < k; tid += blockDim.x) {
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auto top = 2 * tid + 1;
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if (top < k) {
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auto t0 = shape::getIndexOffset(top - 1, iTadShapeInfo);
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auto t1 = shape::getIndexOffset(top, iTadShapeInfo);
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if (i[t0] > i[t1]) {
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// swap indices first
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Y di0 = i[t0];
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i[t0] = i[t1];
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i[t1] = di0;
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//swap values next
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X dz0 = z[t0];
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z[t0] = z[t1];
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z[t1] = dz0;
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}
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}
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}
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} else {
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for (int tid = threadIdx.x; tid < k; tid += blockDim.x) {
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auto top = 2 * tid + 2;
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if (top < k) {
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auto t0 = shape::getIndexOffset(top - 1, iTadShapeInfo);
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auto t1 = shape::getIndexOffset(top, iTadShapeInfo);
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if (i[t0] > i[t1]) {
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// swap indices first
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Y di0 = i[t0];
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i[t0] = i[t1];
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i[t1] = di0;
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//swap values next
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X dz0 = z[t0];
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z[t0] = z[t1];
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z[t1] = dz0;
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}
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}
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}
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}
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__syncthreads();
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}
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}
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}
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}
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template <typename X, typename Y>
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static int topKFunctor_(sd::LaunchContext * context, const NDArray* input, NDArray* values, NDArray* indices, const uint k, bool needSort) {
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auto packX = ConstantTadHelper::getInstance().tadForDimensions(input->shapeInfo(), {input->rankOf() - 1});
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auto packI = ConstantTadHelper::getInstance().tadForDimensions(indices->shapeInfo(), {input->rankOf() - 1});
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auto packZ = ConstantTadHelper::getInstance().tadForDimensions(values->shapeInfo(), {input->rankOf() - 1});
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auto tadLength = shape::length(packX.primaryShapeInfo());
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// we get top K values first
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if (k == 1) {
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input->applyIndexReduce(indexreduce::IndexMax, *indices, {input->rankOf() - 1});
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// copy values on specified indices
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topValuesMover<X,Y><<<256, 256, 1024, *context->getCudaStream()>>>(input->specialBuffer(), packX.platformShapeInfo(), packX.platformOffsets(), indices->specialBuffer(), packI.platformShapeInfo(), packI.platformOffsets(), values->specialBuffer(), packZ.platformShapeInfo(), packZ.platformOffsets(), tadLength, packX.numberOfTads(), k);
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} else {
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int scanWidth = 1;
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int numTreads = 256;
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int shMemSize = (numTreads * sizeof(X) * scanWidth) + (numTreads * sizeof(Y) * scanWidth) + 512;
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indicesAlongDimension<X,Y><<<256, numTreads, shMemSize, *context->getCudaStream()>>>(input->specialBuffer(), packX.platformShapeInfo(), packX.platformOffsets(), indices->specialBuffer(), packI.platformShapeInfo(), packI.platformOffsets(), values->specialBuffer(), packZ.platformShapeInfo(), packZ.platformOffsets(), tadLength, packX.numberOfTads(), k, scanWidth, needSort);
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}
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return Status::OK();
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}
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int topKFunctor(sd::LaunchContext * context, const NDArray* input, NDArray* values, NDArray* indices, const uint k, bool needSort) {
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input->syncToDevice();
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BUILD_DOUBLE_SELECTOR(input->dataType(), indices->dataType(), topKFunctor_, (context, input, values, indices, k, needSort), LIBND4J_TYPES, INDEXING_TYPES);
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values->tickWriteDevice();
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indices->tickWriteDevice();
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return Status::OK();
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}
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}
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}
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} |