2019-11-04 14:42:28 +01:00
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/*******************************************************************************
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2019-11-06 11:49:27 +01:00
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* Copyright (c) 2019 Konduit K.K.
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2019-11-04 14:42:28 +01:00
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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 sgazeos@gmail.com
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//
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#include <ops/declarable/helpers/random.h>
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//#include <vector>
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#include <memory>
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//#include <graph/Context.h>
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#include <ShapeUtils.h>
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2019-11-06 11:49:27 +01:00
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#include <helpers/RandomLauncher.h>
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2019-11-04 14:42:28 +01:00
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namespace nd4j {
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namespace ops {
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namespace helpers {
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template <typename T>
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void fillRandomGamma_(LaunchContext* context, graph::RandomGenerator& rng, NDArray* alpha, NDArray* beta, NDArray* output) {
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Nd4jLong* broadcasted = nullptr;
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if (beta != nullptr)
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ShapeUtils::evalBroadcastShapeInfo(*alpha, *beta, true, broadcasted, context->getWorkspace());
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else
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broadcasted = alpha->shapeInfo();
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auto step = shape::length(broadcasted);
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auto shift = output->lengthOf() / step;
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auto copyAlpha = alpha;
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auto copyBeta = beta;
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if (beta != nullptr) {
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NDArray alphaBroadcasted(broadcasted, alpha->dataType(), false, context);
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NDArray betaBroadcasted(broadcasted, beta->dataType(), false, context);
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copyAlpha = (alphaBroadcasted.applyTrueBroadcast(BroadcastOpsTuple::Assign(), alpha));
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copyBeta = (betaBroadcasted.applyTrueBroadcast(BroadcastOpsTuple::Assign(), beta));
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}
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// bool directAlpha = alpha->ews() == 1 && alpha->ordering() == 'c';
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bool directOutput = output->ews() == 1 && output->ordering() == 'c';
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T* outputBuf = output->dataBuffer()->primaryAsT<T>();
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PRAGMA_OMP_PARALLEL_FOR
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for (auto k = 0; k < shift; k++) {
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auto pos = k * step;
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auto u = rng.relativeT<T>(k, 0., 1.);
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for (auto e = 0; e < step; e++)
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if (directOutput) {
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outputBuf[pos + e] = math::nd4j_igamma<T, T, T>(copyAlpha->t<T>(e),
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beta != nullptr ? copyBeta->t<T>(e) * u : u);
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}
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else {
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output->t<T>(pos + e) = math::nd4j_igamma<T, T, T>(copyAlpha->t<T>(e),
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beta != nullptr ? copyBeta->t<T>(e) * u : u);
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}
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}
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if (beta != nullptr) {
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delete copyAlpha;
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delete copyBeta;
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//delete broadcasted;
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}
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}
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void fillRandomGamma(LaunchContext* context, graph::RandomGenerator& rng, NDArray* alpha, NDArray* beta, NDArray* output) {
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BUILD_SINGLE_SELECTOR(output->dataType(), fillRandomGamma_, (context, rng, alpha, beta, output), FLOAT_NATIVE);
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}
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BUILD_SINGLE_TEMPLATE(template void fillRandomGamma_, (LaunchContext* context,
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graph::RandomGenerator& rng, NDArray* alpha, NDArray* beta, NDArray* output), FLOAT_NATIVE);
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/*
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* algorithm Poisson generator based upon the inversion by sequential search:[48]:505
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init:
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Let x ← 0, p ← e−λ, s ← p.
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Generate uniform random number u in [0,1].
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while u > s do:
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x ← x + 1.
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p ← p * λ / x.
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s ← s + p.
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return x.
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* */
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template <typename T>
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void fillRandomPoisson_(LaunchContext* context, graph::RandomGenerator& rng, NDArray* lambda, NDArray* output) {
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auto shift = output->lengthOf() / lambda->lengthOf();
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auto step = lambda->lengthOf();
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T* lambdaBuf = lambda->dataBuffer()->primaryAsT<T>();
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T* outputBuf = output->dataBuffer()->primaryAsT<T>();
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bool directLa = lambda->ews() == 1 && lambda->ordering() == 'c';
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bool directOut = output->ews() == 1 && output->ordering() == 'c';
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PRAGMA_OMP_PARALLEL_FOR
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for (auto k = 0; k < shift; k++) {
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auto pos = k * step;
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auto u = rng.relativeT<T>(k, 0., 1.);
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for (auto e = 0; e < step; e++) {
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auto p = math::nd4j_exp<T, T>(-lambda->t<T>(e));
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auto s = p;
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auto x = T(0.f);
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while (u > s) {
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x += 1.f;
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p *= directLa?lambdaBuf[e]/x:lambda->t<T>(e) / x;
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s += p;
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}
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if (directOut)
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outputBuf[pos + e] = x;
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else
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output->t<T>(pos + e) = x;
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}
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}
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}
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void fillRandomPoisson(LaunchContext* context, graph::RandomGenerator& rng, NDArray* lambda, NDArray* output) {
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BUILD_SINGLE_SELECTOR(output->dataType(), fillRandomPoisson_, (context, rng, lambda, output), FLOAT_NATIVE);
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}
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BUILD_SINGLE_TEMPLATE(template void fillRandomPoisson_, (LaunchContext* context,
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graph::RandomGenerator& rng, NDArray* lambda, NDArray* output), FLOAT_TYPES);
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2019-11-06 11:49:27 +01:00
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template <typename T>
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void fillRandomUniform_(LaunchContext* context, graph::RandomGenerator& rng, NDArray* min, NDArray* max, NDArray* output) {
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2019-11-07 15:09:47 +01:00
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T minVal = T(0);
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2019-11-08 06:49:41 +01:00
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T maxVal = DataTypeUtils::max<T>();
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2019-11-07 15:09:47 +01:00
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if (min)
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minVal = min->t<T>(0);
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if (max)
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maxVal = max->t<T>(0);
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2019-11-06 11:49:27 +01:00
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if (output->isR())
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RandomLauncher::fillUniform(context, rng, output, minVal, maxVal);
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else {
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PRAGMA_OMP_PARALLEL_FOR
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for (auto i = 0; i < output->lengthOf(); i++) {
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output->t<T>(i) = rng.relativeT<T>(i, minVal, maxVal);
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}
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}
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}
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void fillRandomUniform(LaunchContext* context, graph::RandomGenerator& rng, NDArray* min, NDArray* max, NDArray* output) {
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BUILD_SINGLE_SELECTOR(output->dataType(), fillRandomUniform_, (context, rng, min, max, output), NUMERIC_TYPES);
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}
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2019-11-04 14:42:28 +01:00
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}
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}
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}
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