2020-01-22 08:48:03 +01:00
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/*******************************************************************************
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* Copyright (c) 2020 Konduit, K.K.
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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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* 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 GS <sgazeos@gmail.com>
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//
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#include <op_boilerplate.h>
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#include <NDArray.h>
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#include <execution/Threads.h>
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#include "../triangular_solve.h"
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namespace nd4j {
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namespace ops {
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namespace helpers {
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/*
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* lower triangular process for system of linear equations
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* x_1 = b_1/a_1,1
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* x_2 = (b_2 - a_2,1 * x_1) / a_2,2
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* x_3 = (b_3 - a_3,1 * x_1 - a_3,2 * x_2) / a_3,3
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* ...
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* x_M = (b_M - a_M,1 * x_1 - ... a_M,M-1 * x_M-1)/ a_M,M
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*
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* output == x
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* a == leftInput
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* b == rightInput
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*
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* */
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template <typename T>
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static void lowerTriangularSolve(nd4j::LaunchContext * context, NDArray* leftInput, NDArray* rightInput, bool adjoint, NDArray* output) {
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auto rows = leftInput->rows();
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2020-02-04 06:59:11 +01:00
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auto cols = rightInput->columns();
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2020-01-22 08:48:03 +01:00
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//output->t<T>(0,0) = rightInput->t<T>(0,0) / leftInput->t<T>(0,0);
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2020-02-26 19:12:19 +01:00
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for (Nd4jLong r = 0; r < rows; r++) {
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for (Nd4jLong j = 0; j < cols; j++) {
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2020-02-04 06:59:11 +01:00
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auto sum = rightInput->t<T>(r, j);
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2020-02-26 19:12:19 +01:00
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for (Nd4jLong c = 0; c < r; c++) {
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2020-02-04 06:59:11 +01:00
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sum -= leftInput->t<T>(r, c) * output->t<T>(c, j);
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}
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output->t<T>(r, j) = sum / leftInput->t<T>(r, r);
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2020-01-22 08:48:03 +01:00
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}
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}
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}
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/*
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* upper triangular process for system of linear equations
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* x_M = b_M/a_M,M
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* x_M-1 = (b_M-1 - a_M-1,M-2 * x_M) / a_M-1,M-1
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* x_M-2 = (b_M-2 - a_M-2,M-3 * x_M-2 - a_M-2,M-1 * x_M) / a_3,3
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* ...
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* x_1 = (b_1 - a_1,2 * x_2 - ... a_1,M * x_M)/ a_1,1
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*
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* output == x
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* a == leftInput
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* b == rightInput
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*
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* */
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template <typename T>
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static void upperTriangularSolve(nd4j::LaunchContext * context, NDArray* leftInput, NDArray* rightInput, bool adjoint, NDArray* output) {
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auto rows = leftInput->rows();
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2020-02-04 06:59:11 +01:00
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auto cols = rightInput->columns();
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2020-02-26 19:12:19 +01:00
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for (Nd4jLong r = rows; r > 0; r--) {
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for (Nd4jLong j = 0; j < cols; j++) {
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2020-02-04 06:59:11 +01:00
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auto sum = rightInput->t<T>(r - 1, j);
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2020-02-26 19:12:19 +01:00
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for (Nd4jLong c = r; c < rows; c++) {
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2020-02-04 06:59:11 +01:00
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sum -= leftInput->t<T>(r - 1, c) * output->t<T>(c, j);
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}
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output->t<T>(r - 1, j) = sum / leftInput->t<T>(r - 1, r - 1);
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2020-01-22 08:48:03 +01:00
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}
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}
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}
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template <typename T>
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static int triangularSolveFunctor_(nd4j::LaunchContext * context, NDArray* leftInput, NDArray* rightInput, bool lower, bool adjoint, NDArray* output) {
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auto leftPart = leftInput->allTensorsAlongDimension({-2, -1});
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auto rightPart = rightInput->allTensorsAlongDimension({-2, -1});
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auto outputPart = output->allTensorsAlongDimension({-2, -1});
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auto batchLoop = PRAGMA_THREADS_FOR {
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2020-02-20 09:43:26 +01:00
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for (auto i = start; i < stop; i++) {
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2020-01-22 08:48:03 +01:00
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if (lower) {
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lowerTriangularSolve<T>(context, leftPart[i], rightPart[i], adjoint, outputPart[i]);
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} else {
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upperTriangularSolve<T>(context, leftPart[i], rightPart[i], adjoint, outputPart[i]);
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}
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}
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};
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samediff::Threads::parallel_tad(batchLoop, 0, leftPart.size(), 1);
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return Status::OK();
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}
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template <typename T>
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static void adjointTriangularMatrix_(nd4j::LaunchContext* context, NDArray const* input, bool const lower, NDArray* output) {
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auto inputPart = input->allTensorsAlongDimension({-2, -1});
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auto outputPart = output->allTensorsAlongDimension({-2, -1});
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2020-02-06 19:06:50 +01:00
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auto cols = input->sizeAt(-1);
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auto rows = input->sizeAt(-2);
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2020-01-22 08:48:03 +01:00
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auto batchLoop = PRAGMA_THREADS_FOR {
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2020-02-20 09:43:26 +01:00
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for (auto batch = start; batch < stop; batch++) {
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2020-01-22 08:48:03 +01:00
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if (!lower) {
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2020-02-26 19:12:19 +01:00
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for (Nd4jLong r = 0; r < rows; r++) {
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for (Nd4jLong c = 0; c <= r; c++) {
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2020-01-22 08:48:03 +01:00
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outputPart[batch]->t<T>(r, c) = inputPart[batch]->t<T>(c, r);
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}
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}
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} else {
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2020-02-26 19:12:19 +01:00
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for (Nd4jLong r = 0; r < rows; r++) {
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for (Nd4jLong c = r; c < cols; c++) {
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2020-01-22 08:48:03 +01:00
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outputPart[batch]->t<T>(r, c) = inputPart[batch]->t<T>(c, r);
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}
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}
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}
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}
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};
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samediff::Threads::parallel_tad(batchLoop, 0, inputPart.size(), 1);
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}
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int triangularSolveFunctor(nd4j::LaunchContext * context, NDArray* leftInput, NDArray* rightInput, bool lower, bool adjoint, NDArray* output) {
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BUILD_SINGLE_SELECTOR(leftInput->dataType(), return triangularSolveFunctor_, (context, leftInput, rightInput, lower, adjoint, output), FLOAT_NATIVE);
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}
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void adjointMatrix(nd4j::LaunchContext* context, NDArray const* input, bool const lower, NDArray* output) {
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BUILD_SINGLE_SELECTOR(input->dataType(), adjointTriangularMatrix_, (context, input, lower, output), FLOAT_NATIVE);
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}
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}
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}
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}
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