178 lines
9.0 KiB
C++
178 lines
9.0 KiB
C++
/* ******************************************************************************
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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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// Created by raver119 on 16.10.2017.
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//
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#include <ops/declarable/LegacyReduceBoolOp.h>
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#include <helpers/TAD.h>
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#include <helpers/ShapeUtils.h>
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#include <graph/Status.h>
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#include <helpers/ConstantTadHelper.h>
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#include <array/DataTypeUtils.h>
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namespace sd {
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namespace ops {
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LegacyReduceBoolOp::LegacyReduceBoolOp() : LegacyOp::LegacyOp(1) {
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//
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}
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LegacyReduceBoolOp::LegacyReduceBoolOp(int opNum) : LegacyOp::LegacyOp(1, opNum) {
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//this->_opNum = opNum;
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}
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LegacyOp* LegacyReduceBoolOp::clone() {
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return new LegacyReduceBoolOp(this->_opNum);
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}
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Nd4jStatus LegacyReduceBoolOp::validateAndExecute(Context &block) {
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auto x = INPUT_VARIABLE(0);
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auto z = OUTPUT_VARIABLE(0);
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NDArray::prepareSpecialUse({z}, {x});
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int opNum = block.opNum() < 0 ? this->_opNum : block.opNum();
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nd4j_debug("Executing LegacyReduceFloatOp: [%i]\n", opNum);
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auto axis = *block.getAxis();
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bool allAxes = false;
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ExtraArguments extras(*block.getTArguments());
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PointersManager manager(block.launchContext(),"LegacyReduceBoolOp");
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if (block.width() == 1) {
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if (axis.size() == x->rankOf())
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allAxes = true;
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if ((axis.empty()) ||
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(axis.size() == 1 && axis[0] == sd::DataTypeUtils::max<int>()) || allAxes) {
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// scalar
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NativeOpExecutioner::execReduceBoolScalar(block.launchContext(), opNum, x->buffer(), x->shapeInfo(), x->specialBuffer(), x->specialShapeInfo(),
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extras.argumentsAsT(x->dataType()), z->buffer(), z->shapeInfo(), z->specialBuffer(), z->specialShapeInfo());
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} else {
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// TAD
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std::vector<int> dims(axis);
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for (int e = 0; e < dims.size(); e++)
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if (dims[e] < 0)
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dims[e] += x->rankOf();
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REQUIRE_TRUE(dims.size() > 0, 0, "Some dimensions required for reduction!");
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const Nd4jLong* zShapeInfoH = z->shapeInfo();
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const Nd4jLong* zShapeInfoD = z->specialShapeInfo();
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if(x->rankOf() - dims.size() != z->rankOf()) {
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auto zPack = ConstantShapeHelper::getInstance().createShapeInfoWithNoUnitiesForReduce(z->shapeInfo(), dims, z->getContext()->getWorkspace());
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zShapeInfoH = reinterpret_cast<Nd4jLong const*>(zPack.primary());
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zShapeInfoD = reinterpret_cast<Nd4jLong const*>(zPack.special());
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}
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std::vector<int> dims2 = ShapeUtils::evalDimsForReduceOp(x->rankOf(), dims);
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NativeOpExecutioner::execReduceBool(block.launchContext(), opNum, x->buffer(), x->shapeInfo(), x->specialBuffer(), x->specialShapeInfo(), nullptr, z->buffer(), zShapeInfoH, z->specialBuffer(), zShapeInfoD, dims2.data(), dims2.size());
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// auto packX = sd::ConstantTadHelper::getInstance().tadForDimensions(x->shapeInfo(), dims);
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// auto pTadShape = Environment::getInstance().isCPU() ? packX.primaryShapeInfo() : packX.specialShapeInfo(); //manager.replicatePointer(tad.tadOnlyShapeInfo, shape::shapeInfoByteLength(tad.tadOnlyShapeInfo));
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// auto pTadOffsets = Environment::getInstance().isCPU() ? packX.primaryOffsets() : packX.specialOffsets(); //manager.replicatePointer(tad.tadOffsets, tad.numTads * sizeof(Nd4jLong));
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// NativeOpExecutioner::execReduceBool(block.launchContext(), opNum, x->buffer(), x->shapeInfo(), x->specialBuffer(), x->specialShapeInfo(),
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// extras.argumentsAsT(x->dataType()),
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// z->buffer(), z->shapeInfo(), z->specialBuffer(), z->specialShapeInfo(),
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// dims.data(), (int) dims.size(), reinterpret_cast<Nd4jLong const*>(pTadShape), reinterpret_cast<Nd4jLong const*>(pTadOffsets));
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}
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STORE_RESULT(*z);
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} else {
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auto indices = INPUT_VARIABLE(1);
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if (indices->lengthOf() == x->rankOf())
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allAxes = true;
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//indices->printIndexedBuffer("indices");
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std::vector<int> dims(indices->lengthOf());
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for (Nd4jLong e = 0; e < indices->lengthOf(); e++) {
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// lol otherwise we segfault on macOS
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int f = indices->e<int>(e);
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dims[e] = f >= 0 ? f : f += x->rankOf();
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}
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if ((block.getIArguments()->size() == 1 && INT_ARG(0) == sd::DataTypeUtils::max<int>()) || allAxes) {
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// scalar
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NativeOpExecutioner::execReduceBoolScalar(block.launchContext(), opNum, x->buffer(), x->shapeInfo(), x->specialBuffer(), x->specialShapeInfo(), extras.argumentsAsT(x->dataType()), z->buffer(), z->shapeInfo(), z->specialBuffer(), z->specialShapeInfo());
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} else {
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// TAD
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if (indices->lengthOf() > 1)
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std::sort(dims.begin(), dims.end());
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REQUIRE_TRUE(dims.size() > 0, 0, "Some dimensions required for reduction!");
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const Nd4jLong* zShapeInfoH = z->shapeInfo();
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const Nd4jLong* zShapeInfoD = z->specialShapeInfo();
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if(x->rankOf() - dims.size() != z->rankOf()) {
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auto zPack = ConstantShapeHelper::getInstance().createShapeInfoWithNoUnitiesForReduce(z->shapeInfo(), dims, z->getContext()->getWorkspace());
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zShapeInfoH = reinterpret_cast<Nd4jLong const*>(zPack.primary());
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zShapeInfoD = reinterpret_cast<Nd4jLong const*>(zPack.special());
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}
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std::vector<int> dims2 = ShapeUtils::evalDimsForReduceOp(x->rankOf(), dims);
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NativeOpExecutioner::execReduceBool(block.launchContext(), opNum, x->buffer(), x->shapeInfo(), x->specialBuffer(), x->specialShapeInfo(), nullptr, z->buffer(), zShapeInfoH, z->specialBuffer(), zShapeInfoD, dims2.data(), dims2.size());
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// auto packX = sd::ConstantTadHelper::getInstance().tadForDimensions(x->shapeInfo(), dims);
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// auto pTadShape = Environment::getInstance().isCPU() ? packX.primaryShapeInfo() : packX.specialShapeInfo(); //(Nd4jLong *) manager.replicatePointer(tad.tadOnlyShapeInfo, shape::shapeInfoByteLength(tad.tadOnlyShapeInfo));
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// auto pTadOffsets = Environment::getInstance().isCPU() ? packX.primaryOffsets() : packX.specialOffsets(); //(Nd4jLong *) manager.replicatePointer(tad.tadOffsets, tad.numTads * sizeof(Nd4jLong));
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// NativeOpExecutioner::execReduceBool(block.launchContext(), opNum, x->buffer(), x->shapeInfo(), x->specialBuffer(), x->specialShapeInfo(), extras.argumentsAsT(x->dataType()),
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// z->buffer(), z->shapeInfo(), z->specialBuffer(), z->specialShapeInfo(), dims.data(), (int) dims.size(), pTadShape, pTadOffsets);
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}
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}
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manager.synchronize();
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return Status::OK();
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}
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/**
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* For all reductions rules are simple: either you return scalar, or you return reduced NDArray.
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* It solely depends on input shape, and requested dimensions
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*/
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ShapeList *LegacyReduceBoolOp::calculateOutputShape(ShapeList *inputShape, sd::graph::Context &block) {
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auto inShape = inputShape->at(0);
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Nd4jLong *newShape;
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bool allAxes = false;
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auto keepDims = block.numB() > 0 ? B_ARG(0) : false;
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auto newFormat = block.numB() > 1 ? B_ARG(1) : true;
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auto axis = block.width() > 1 ? INPUT_VARIABLE(1)->asVectorT<int>() : *block.getAxis();
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if (axis.size() == shape::rank(inShape))
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allAxes = true;
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// in this case we're building proper shape for reduction
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return SHAPELIST(ShapeUtils::evalReduceShapeInfo(shape::order(inShape), axis, inShape, DataType::BOOL, keepDims, !newFormat, block.workspace()));
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}
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}
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} |