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cavis/libnd4j/tests_cpu/layers_tests/RNGTests.cpp
raver119 3c4e959e21 [WIP] More of CUDA (#95) 
* initial commit

Signed-off-by: raver119 <raver119@gmail.com>

* Implementation of hashcode cuda helper. Working edition.

* Fixed parallel test input arangements.

* Fixed tests for hashcode op.

* Fixed shape calculation for image:crop_and_resize op and test.

* NativeOps tests. Initial test suite.

* Added tests for indexReduce methods.

* Added test on execBroadcast with NDArray as dimensions.

* Added test on execBroadcastBool with NDArray as dimensions.

* Added tests on execPairwiseTransform and execPairwiseTransofrmBool.

* Added tests for execReduce with scalar results.

* Added reduce tests for non-empty dims array.

* Added tests for reduce3.

* Added tests for execScalar.

* Added tests for execSummaryStats.

* - provide cpu/cuda code for batch_to_space
- testing it

Signed-off-by: Yurii <yurii@skymind.io>

* - remove old test for batch_to_space (had wrong format and numbers were not checked)

Signed-off-by: Yurii <yurii@skymind.io>

* Fixed complilation errors with test.

* Added test for execTransformFloat.

* Added test for execTransformSame.

* Added test for execTransformBool.

* Added test for execTransformStrict.

* Added tests for execScalar/execScalarBool with TADs.

* Added test for flatten.

* - provide cpu/cuda code for space_to_Batch operaion

Signed-off-by: Yurii <yurii@skymind.io>

* Added test for concat.

* comment unnecessary stuff in s_t_b

Signed-off-by: Yurii <yurii@skymind.io>

* Added test for specialConcat.

* Added tests for memcpy/set routines.

* Fixed pullRow cuda test.

* Added pullRow test.

* Added average test.

* - correct typo in NDArray::applyPairwiseTransform(nd4j::pairwise::BoolOps op...)

Signed-off-by: Yurii <yurii@skymind.io>

* - debugging and fixing cuda tests in JavaInteropTests file

Signed-off-by: Yurii <yurii@skymind.io>

* - correct some tests

Signed-off-by: Yurii <yurii@skymind.io>

* Added test for shuffle.

* Fixed ops declarations.

* Restored omp and added shuffle test.

* Added convertTypes test.

* Added tests for execRandom. Eliminated usage of RandomBuffer with NativeOps.

* Added sort tests.

* Added tests for execCustomOp.

* - further debuging and fixing tests terminated with crash

Signed-off-by: Yurii <yurii@skymind.io>

* Added tests for calculateOutputShapes.

* Addded Benchmarks test.

* Commented benchmark tests.

* change assertion

Signed-off-by: raver119 <raver119@gmail.com>

* Added tests for apply_sgd op. Added cpu helper for that op.

* Implement cuda helper for aplly_sgd op. Fixed tests for NativeOps.

* Added test for assign broadcastable.

* Added tests for assign_bp op.

* Added tests for axpy op.

* - assign/execScalar/execTransformAny signature change
- minor test fix

Signed-off-by: raver119 <raver119@gmail.com>

* Fixed axpy op.

* meh

Signed-off-by: raver119 <raver119@gmail.com>

* - fix tests for nativeOps::concat

Signed-off-by: Yurii <yurii@skymind.io>

* sequential transform/scalar

Signed-off-by: raver119 <raver119@gmail.com>

* allow nested parallelism

Signed-off-by: raver119 <raver119@gmail.com>

* assign_bp leak fix

Signed-off-by: raver119 <raver119@gmail.com>

* block setRNG fix

Signed-off-by: raver119 <raver119@gmail.com>

* enable parallelism by default

Signed-off-by: raver119 <raver119@gmail.com>

* enable nested parallelism by default

Signed-off-by: raver119 <raver119@gmail.com>

* Added cuda implementation for row_count helper.

* Added implementation for tnse gains op helper.

* - take into account possible situations when input arrays are empty in reduce_ cuda stuff

Signed-off-by: Yurii <yurii@skymind.io>

* Implemented tsne/edge_forces op cuda-based helper. Parallelized cpu-based helper for edge_forces.

* Added kernel for tsne/symmetrized op heleper.

* Implementation of tsne/symmetrized op cuda helper. Working edition.

* Eliminated waste printfs.

* Added test for broadcastgradientargs op.

* host-only fallback for empty reduce float

Signed-off-by: raver119 <raver119@gmail.com>

* - some tests fixes

Signed-off-by: Yurii <yurii@skymind.io>

* - correct the rest of reduce_ stuff

Signed-off-by: Yurii <yurii@skymind.io>

* - further correction of reduce_ stuff

Signed-off-by: Yurii <yurii@skymind.io>

* Added test for Cbow op. Also added cuda implementation for cbow helpers.

* - improve code of stack operation for scalar case

Signed-off-by: Yurii <yurii@skymind.io>

* - provide cuda kernel for gatherND operation

Signed-off-by: Yurii <yurii@skymind.io>

* Implementation of cbow helpers with cuda kernels.

* minor tests tweaks

Signed-off-by: raver119 <raver119@gmail.com>

* minor tests tweaks

Signed-off-by: raver119 <raver119@gmail.com>

* - further correction of cuda stuff

Signed-off-by: Yurii <yurii@skymind.io>

* Implementatation of cbow op helper with cuda kernels. Working edition.

* Skip random testing for cudablas case.

* lstmBlockCell context fix

Signed-off-by: raver119 <raver119@gmail.com>

* Added tests for ELU and ELU_BP ops.

* Added tests for eq_scalar, gt_scalar, gte_scalar and lte_scalar ops.

* Added tests for neq_scalar.

* Added test for noop.

* - further work on clipbynorm_bp

Signed-off-by: Yurii <yurii@skymind.io>

* - get rid of concat op call, use instead direct concat helper call

Signed-off-by: Yurii <yurii@skymind.io>

* lstmBlockCell context fix

Signed-off-by: raver119 <raver119@gmail.com>

* Added tests for lrelu and lrelu_bp.

* Added tests for selu and selu_bp.

* Fixed lrelu derivative helpers.

* - some corrections in lstm

Signed-off-by: Yurii <yurii@skymind.io>

* operator * result shape fix

Signed-off-by: raver119 <raver119@gmail.com>

* - correct typo in lstmCell

Signed-off-by: Yurii <yurii@skymind.io>

* few tests fixed

Signed-off-by: raver119 <raver119@gmail.com>

* CUDA inverse broadcast bool fix

Signed-off-by: raver119 <raver119@gmail.com>

* disable MMAP test for CUDA

Signed-off-by: raver119 <raver119@gmail.com>

* BooleanOp syncToDevice

Signed-off-by: raver119 <raver119@gmail.com>

* meh

Signed-off-by: raver119 <raver119@gmail.com>

* additional data types for im2col/col2im

Signed-off-by: raver119 <raver119@gmail.com>

* Added test for firas_sparse op.

* one more RandomBuffer test excluded

Signed-off-by: raver119 <raver119@gmail.com>

* Added tests for flatten op.

* Added test for Floor op.

* bunch of tests fixed

Signed-off-by: raver119 <raver119@gmail.com>

* mmulDot tests fixed

Signed-off-by: raver119 <raver119@gmail.com>

* more tests fixed

Signed-off-by: raver119 <raver119@gmail.com>

* Implemented floordiv_bp op and tests.

* Fixed scalar case with cuda implementation for bds.

* - work on cuda kernel for clip_by_norm backprop op is completed

Signed-off-by: Yurii <yurii@skymind.io>

* Eliminate cbow crach.

* more tests fixed

Signed-off-by: raver119 <raver119@gmail.com>

* more tests fixed

Signed-off-by: raver119 <raver119@gmail.com>

* Eliminated abortion with batched nlp test.

* more tests fixed

Signed-off-by: raver119 <raver119@gmail.com>

* Fixed shared flag initializing.

* disabled bunch of cpu workspaces tests

Signed-off-by: raver119 <raver119@gmail.com>

* scalar operators fix: missing registerSpecialUse call

Signed-off-by: raver119 <raver119@gmail.com>

* Fixed logdet for cuda and tests.

* - correct clipBynorm_bp

Signed-off-by: Yurii <yurii@skymind.io>

* Fixed crop_and_resize shape datatype.

* - correct some mmul tests

Signed-off-by: Yurii <yurii@skymind.io>
2019-08-05 11:27:05 +10:00

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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 "testlayers.h"
#include <chrono>
#include <NDArray.h>
#include <helpers/RandomLauncher.h>
#include <ops/declarable/LegacyRandomOp.h>
#include <ops/declarable/CustomOperations.h>
using namespace nd4j;
class RNGTests : public testing::Test {
private:
//Nd4jLong *_bufferA;
//Nd4jLong *_bufferB;
public:
long _seed = 119L;
//nd4j::random::RandomBuffer *_rngA;
//nd4j::random::RandomBuffer *_rngB;
nd4j::graph::RandomGenerator _rngA;
nd4j::graph::RandomGenerator _rngB;
NDArray* nexp0 = NDArrayFactory::create_<float>('c', {10, 10});
NDArray* nexp1 = NDArrayFactory::create_<float>('c', {10, 10});
NDArray* nexp2 = NDArrayFactory::create_<float>('c', {10, 10});
RNGTests() {
//_bufferA = new Nd4jLong[100000];
//_bufferB = new Nd4jLong[100000];
//_rngA = (nd4j::random::RandomBuffer *) initRandom(nullptr, _seed, 100000, (Nd4jPointer) _bufferA);
//_rngB = (nd4j::random::RandomBuffer *) initRandom(nullptr, _seed, 100000, (Nd4jPointer) _bufferB);
_rngA.setStates(_seed, _seed);
_rngB.setStates(_seed, _seed);
nexp0->assign(-1.0f);
nexp1->assign(-2.0f);
nexp2->assign(-3.0f);
}
~RNGTests() {
//destroyRandom(_rngA);
//destroyRandom(_rngB);
//delete[] _bufferA;
//delete[] _bufferB;
delete nexp0;
delete nexp1;
delete nexp2;
}
};
TEST_F(RNGTests, TestSeeds_1) {
RandomGenerator generator(123L, 456L);
ASSERT_EQ(123, generator.rootState());
ASSERT_EQ(456, generator.nodeState());
Nd4jPointer ptr = malloc(sizeof(RandomGenerator));
memcpy(ptr, &generator, sizeof(RandomGenerator));
auto cast = reinterpret_cast<RandomGenerator*>(ptr);
ASSERT_EQ(123, cast->rootState());
ASSERT_EQ(456, cast->nodeState());
free(ptr);
}
TEST_F(RNGTests, TestSeeds_2) {
RandomGenerator generator(12, 13);
generator.setStates(123L, 456L);
ASSERT_EQ(123, generator.rootState());
ASSERT_EQ(456, generator.nodeState());
}
TEST_F(RNGTests, Test_Dropout_1) {
auto x0 = NDArrayFactory::create<float>('c', {10, 10});
auto x1 = NDArrayFactory::create<float>('c', {10, 10});
x0.linspace(1);
x1.linspace(1);
float prob[] = {0.5f};
//x0.applyRandom(random::DropOut, _rngA, nullptr, &x0, prob);
//x1.applyRandom(random::DropOut, _rngB, nullptr, &x1, prob);
RandomLauncher::applyDropOut(LaunchContext::defaultContext(), _rngA, &x0, 0.5);
RandomLauncher::applyDropOut(LaunchContext::defaultContext(), _rngB, &x1, 0.5);
ASSERT_TRUE(x0.equalsTo(&x1));
//x0.printIndexedBuffer("Dropout");
// this check is required to ensure we're calling wrong signature
ASSERT_FALSE(x0.equalsTo(nexp0));
ASSERT_FALSE(x0.equalsTo(nexp1));
ASSERT_FALSE(x0.equalsTo(nexp2));
}
TEST_F(RNGTests, Test_DropoutInverted_1) {
auto x0 = NDArrayFactory::create<float>('c', {10, 10});
auto x1 = NDArrayFactory::create<float>('c', {10, 10});
x0.linspace(1);
x1.linspace(1);
float prob[] = {0.5f};
//x0.template applyRandom<randomOps::DropOutInverted<float>>(_rngA, nullptr, &x0, prob);
//x1.template applyRandom<randomOps::DropOutInverted<float>>(_rngB, nullptr, &x1, prob);
RandomLauncher::applyInvertedDropOut(LaunchContext::defaultContext(), _rngA, &x0, 0.5);
RandomLauncher::applyInvertedDropOut(LaunchContext::defaultContext(), _rngB, &x1, 0.5);
ASSERT_TRUE(x0.equalsTo(&x1));
//x0.printIndexedBuffer("DropoutInverted");
// this check is required to ensure we're calling wrong signature
ASSERT_FALSE(x0.equalsTo(nexp0));
ASSERT_FALSE(x0.equalsTo(nexp1));
ASSERT_FALSE(x0.equalsTo(nexp2));
}
TEST_F(RNGTests, Test_Launcher_1) {
auto x0 = NDArrayFactory::create<float>('c', {10, 10});
auto x1 = NDArrayFactory::create<float>('c', {10, 10});
RandomLauncher::applyDropOut(LaunchContext::defaultContext(), _rngA, &x0, 0.5f);
RandomLauncher::applyDropOut(LaunchContext::defaultContext(), _rngB, &x1, 0.5f);
ASSERT_TRUE(x0.equalsTo(&x1));
ASSERT_FALSE(x0.equalsTo(nexp0));
ASSERT_FALSE(x0.equalsTo(nexp1));
ASSERT_FALSE(x0.equalsTo(nexp2));
}
TEST_F(RNGTests, Test_Launcher_2) {
auto x0 = NDArrayFactory::create<float>('c', {10, 10});
auto x1 = NDArrayFactory::create<float>('c', {10, 10});
RandomLauncher::applyInvertedDropOut(LaunchContext::defaultContext(), _rngA, &x0, 0.5f);
RandomLauncher::applyInvertedDropOut(LaunchContext::defaultContext(), _rngB, &x1, 0.5f);
ASSERT_TRUE(x0.equalsTo(&x1));
ASSERT_FALSE(x0.equalsTo(nexp0));
ASSERT_FALSE(x0.equalsTo(nexp1));
ASSERT_FALSE(x0.equalsTo(nexp2));
}
TEST_F(RNGTests, Test_Launcher_3) {
auto x0 = NDArrayFactory::create<float>('c', {10, 10});
auto x1 = NDArrayFactory::create<float>('c', {10, 10});
RandomLauncher::applyAlphaDropOut(LaunchContext::defaultContext(), _rngA, &x0, 0.5f, 0.2f, 0.1f, 0.3f);
RandomLauncher::applyAlphaDropOut(LaunchContext::defaultContext(), _rngB, &x1, 0.5f, 0.2f, 0.1f, 0.3f);
//x1.printIndexedBuffer("x1");
ASSERT_TRUE(x0.equalsTo(&x1));
ASSERT_FALSE(x0.equalsTo(nexp0));
ASSERT_FALSE(x0.equalsTo(nexp1));
ASSERT_FALSE(x0.equalsTo(nexp2));
}
TEST_F(RNGTests, Test_Uniform_1) {
auto x0 = NDArrayFactory::create<float>('c', {10, 10});
auto x1 = NDArrayFactory::create<float>('c', {10, 10});
RandomLauncher::fillUniform(LaunchContext::defaultContext(), _rngA, &x0, 1.0f, 2.0f);
RandomLauncher::fillUniform(LaunchContext::defaultContext(), _rngB, &x1, 1.0f, 2.0f);
ASSERT_TRUE(x0.equalsTo(&x1));
ASSERT_FALSE(x0.equalsTo(nexp0));
ASSERT_FALSE(x0.equalsTo(nexp1));
ASSERT_FALSE(x0.equalsTo(nexp2));
for (int e = 0; e < x0.lengthOf(); e++) {
float v = x0.e<float>(e);
ASSERT_TRUE(v >= 1.0f && v <= 2.0f);
}
}
TEST_F(RNGTests, Test_Uniform_3) {
auto x0 = NDArrayFactory::create<double>('c', {1000000});
RandomLauncher::fillUniform(LaunchContext::defaultContext(), _rngA, &x0, 1.0f, 2.0f);
for (int e = 0; e < x0.lengthOf(); e++) {
auto v = x0.t<double>(e);
ASSERT_TRUE(v >= 1.0 && v <= 2.0);
}
}
TEST_F(RNGTests, Test_Bernoulli_1) {
auto x0 = NDArrayFactory::create<float>('c', {10, 10});
auto x1 = NDArrayFactory::create<float>('c', {10, 10});
RandomLauncher::fillBernoulli(LaunchContext::defaultContext(), _rngA, &x0, 1.0f);
RandomLauncher::fillBernoulli(LaunchContext::defaultContext(), _rngB, &x1, 1.0f);
ASSERT_TRUE(x0.equalsTo(&x1));
ASSERT_FALSE(x0.equalsTo(nexp0));
ASSERT_FALSE(x0.equalsTo(nexp1));
ASSERT_FALSE(x0.equalsTo(nexp2));
}
TEST_F(RNGTests, Test_Gaussian_1) {
auto x0 = NDArrayFactory::create<float>('c', {10, 10});
auto x1 = NDArrayFactory::create<float>('c', {10, 10});
RandomLauncher::fillGaussian(LaunchContext::defaultContext(), _rngA, &x0, 1.0f, 2.0f);
RandomLauncher::fillGaussian(LaunchContext::defaultContext(), _rngB, &x1, 1.0f, 2.0f);
//x0.printIndexedBuffer("x0");
//x1.printIndexedBuffer("x1");
ASSERT_TRUE(x0.equalsTo(&x1));
ASSERT_FALSE(x0.equalsTo(nexp0));
ASSERT_FALSE(x0.equalsTo(nexp1));
ASSERT_FALSE(x0.equalsTo(nexp2));
}
TEST_F(RNGTests, Test_Gaussian_21) {
auto x0 = NDArrayFactory::create<float>('c', {10, 10});
auto x1 = NDArrayFactory::create<float>('c', {10, 10});
RandomLauncher::fillGaussian(LaunchContext::defaultContext(), _rngA, &x0, 0.0f, 1.0f);
RandomLauncher::fillGaussian(LaunchContext::defaultContext(), _rngB, &x1, 0.0f, 1.0f);
//x0.printIndexedBuffer("x0");
//x1.printIndexedBuffer("x1");
ASSERT_TRUE(x0.equalsTo(&x1));
ASSERT_FALSE(x0.equalsTo(nexp0));
ASSERT_FALSE(x0.equalsTo(nexp1));
ASSERT_FALSE(x0.equalsTo(nexp2));
nd4j::ops::moments op;
auto result = op.execute({&x0}, {}, {});
//x0.printIndexedBuffer("X0 Normal");
//x1.printIndexedBuffer("X1 Normal");
ASSERT_TRUE(result->status() == Status::OK());
auto mean = result->at(0);
auto variance = result->at(1);
// mean->printIndexedBuffer("Mean");
// variance->printIndexedBuffer("Variance");
ASSERT_NEAR(nd4j::math::nd4j_abs(mean->e<float>(0)), 0.f, 0.2f);
ASSERT_NEAR(variance->e<float>(0), 1.0f, 0.2f);
delete result;
}
#ifndef DEBUG_BUILD
TEST_F(RNGTests, Test_Gaussian_22) {
auto x0 = NDArrayFactory::create<float>('c', {10000, 1000});
auto x1 = NDArrayFactory::create<float>('c', {10000, 1000});
RandomLauncher::fillGaussian(nd4j::LaunchContext::defaultContext(), _rngA, &x0, 0.0f, 1.0f);
RandomLauncher::fillGaussian(LaunchContext::defaultContext(), _rngB, &x1, 0.0f, 1.0f);
//x0.printIndexedBuffer("x0");
//x1.printIndexedBuffer("x1");
ASSERT_TRUE(x0.equalsTo(&x1));
ASSERT_FALSE(x0.equalsTo(nexp0));
ASSERT_FALSE(x0.equalsTo(nexp1));
ASSERT_FALSE(x0.equalsTo(nexp2));
nd4j::ops::moments op;
auto result = op.execute({&x0}, {}, {});
//x0.printIndexedBuffer("X0 Normal");
//x1.printIndexedBuffer("X1 Normal");
ASSERT_TRUE(result->status() == Status::OK());
auto mean0 = result->at(0);
auto variance0 = result->at(1);
//mean0->printIndexedBuffer("Mean");
//variance0->printIndexedBuffer("Variance");
ASSERT_NEAR(nd4j::math::nd4j_abs(mean0->e<float>(0)), 0.f, 1.0e-3f);
ASSERT_NEAR(variance0->e<float>(0), 1.0f, 1.e-3f);
delete result;
}
TEST_F(RNGTests, Test_Gaussian_3) {
auto x0 = NDArrayFactory::create<double>('c', {10000000});
RandomLauncher::fillGaussian(LaunchContext::defaultContext(), _rngA, &x0, 0.0, 1.0);
auto mean = x0.meanNumber().e<double>(0);
auto stdev = x0.varianceNumber(nd4j::variance::SummaryStatsStandardDeviation, false).e<double>(0);
ASSERT_NEAR(0.0, mean, 1e-3);
ASSERT_NEAR(1.0, stdev, 1e-3);
}
TEST_F(RNGTests, Test_LogNormal_1) {
auto x0 = NDArrayFactory::create<float>('c', {10, 10});
auto x1 = NDArrayFactory::create<float>('c', {10, 10});
RandomLauncher::fillLogNormal(LaunchContext::defaultContext(), _rngA, &x0, 1.0f, 2.0f);
RandomLauncher::fillLogNormal(LaunchContext::defaultContext(), _rngB, &x1, 1.0f, 2.0f);
ASSERT_TRUE(x0.equalsTo(&x1));
ASSERT_FALSE(x0.equalsTo(nexp0));
ASSERT_FALSE(x0.equalsTo(nexp1));
ASSERT_FALSE(x0.equalsTo(nexp2));
}
TEST_F(RNGTests, Test_Truncated_1) {
auto x0 = NDArrayFactory::create<float>('c', {10, 10});
auto x1 = NDArrayFactory::create<float>('c', {10, 10});
RandomLauncher::fillTruncatedNormal(LaunchContext::defaultContext(), _rngA, &x0, 1.0f, 2.0f);
RandomLauncher::fillTruncatedNormal(LaunchContext::defaultContext(), _rngB, &x1, 1.0f, 2.0f);
ASSERT_TRUE(x0.equalsTo(&x1));
ASSERT_FALSE(x0.equalsTo(nexp0));
ASSERT_FALSE(x0.equalsTo(nexp1));
ASSERT_FALSE(x0.equalsTo(nexp2));
/* Check up distribution */
auto mean = x1.reduceNumber(reduce::Mean);
// mean.printIndexedBuffer("Mean 1.0");
auto sumA = x1 - mean; //.reduceNumber(reduce::Sum);
auto deviation = x1.varianceNumber(variance::SummaryStatsStandardDeviation, false);
//deviation /= (double)x1.lengthOf();
// deviation.printIndexedBuffer("Deviation should be 2.0");
// x1.printIndexedBuffer("Distribution TN");
}
TEST_F(RNGTests, Test_Truncated_2) {
auto x0 = NDArrayFactory::create<float>('c', {1000, 1000});
auto x1 = NDArrayFactory::create<float>('c', {1000, 1000});
RandomLauncher::fillTruncatedNormal(LaunchContext::defaultContext(), _rngA, &x0, 1.0f, 2.0f);
RandomLauncher::fillTruncatedNormal(LaunchContext::defaultContext(), _rngB, &x1, 1.0f, 2.0f);
ASSERT_TRUE(x0.equalsTo(&x1));
//ASSERT_FALSE(x0.equalsTo(nexp0));
//ASSERT_FALSE(x0.equalsTo(nexp1));
//ASSERT_FALSE(x0.equalsTo(nexp2));
/* Check up distribution */
auto mean = x1.reduceNumber(reduce::Mean);
// mean.printIndexedBuffer("Mean 1.0");
//auto sumA = x1 - mean; //.reduceNumber(reduce::Sum);
auto deviation = x1.varianceNumber(variance::SummaryStatsStandardDeviation, false);
//deviation /= (double)x1.lengthOf();
// deviation.printIndexedBuffer("Deviation should be 2.0");
//x1.printIndexedBuffer("Distribution TN");
ASSERT_NEAR(mean.e<float>(0), 1.f, 0.5);
ASSERT_NEAR(deviation.e<float>(0), 2.f, 0.5);
}
TEST_F(RNGTests, Test_Truncated_21) {
auto x0 = NDArrayFactory::create<float>('c', {1000, 1000});
auto x1 = NDArrayFactory::create<float>('c', {1000, 1000});
RandomLauncher::fillTruncatedNormal(LaunchContext::defaultContext(), _rngA, &x0, 1.0f, 2.0f);
RandomLauncher::fillTruncatedNormal(LaunchContext::defaultContext(), _rngB, &x1, 1.0f, 2.0f);
ASSERT_TRUE(x0.equalsTo(&x1));
auto mean0 = x0.reduceNumber(reduce::Mean);
// mean0.printIndexedBuffer("0Mean 1.0");
//auto sumA = x1 - mean; //.reduceNumber(reduce::Sum);
auto deviation0 = x0.varianceNumber(variance::SummaryStatsStandardDeviation, false);
// deviation0.printIndexedBuffer("0Deviation should be 2.0");
//ASSERT_FALSE(x0.equalsTo(nexp0));
//ASSERT_FALSE(x0.equalsTo(nexp1));
//ASSERT_FALSE(x0.equalsTo(nexp2));
/* Check up distribution */
auto mean = x1.reduceNumber(reduce::Mean);
// mean.printIndexedBuffer("Mean 1.0");
//auto sumA = x1 - mean; //.reduceNumber(reduce::Sum);
auto deviation = x1.varianceNumber(variance::SummaryStatsStandardDeviation, false);
//deviation /= (double)x1.lengthOf();
// deviation.printIndexedBuffer("Deviation should be 2.0");
//x1.printIndexedBuffer("Distribution TN");
ASSERT_NEAR(mean.e<float>(0), 1.f, 0.002);
ASSERT_NEAR(deviation.e<float>(0), 2.f, 0.5);
nd4j::ops::moments op;
auto result = op.execute({&x0}, {}, {}, {}, false, nd4j::DataType::FLOAT32);
// result->at(0)->printBuffer("MEAN");
// result->at(1)->printBuffer("VARIANCE");
delete result;
nd4j::ops::reduce_min minOp;
nd4j::ops::reduce_max maxOp;
auto minRes = minOp.execute({&x1}, {}, {}, {});
auto maxRes = maxOp.execute({&x0}, {}, {}, {});
// minRes->at(0)->printBuffer("MIN for Truncated");
// maxRes->at(0)->printBuffer("MAX for Truncated");
delete minRes;
delete maxRes;
}
TEST_F(RNGTests, Test_Truncated_22) {
auto x0 = NDArrayFactory::create<float>('c', {1000, 1000});
auto x1 = NDArrayFactory::create<float>('c', {1000, 1000});
RandomLauncher::fillTruncatedNormal(LaunchContext::defaultContext(), _rngA, &x0, 2.0f, 4.0f);
RandomLauncher::fillTruncatedNormal(LaunchContext::defaultContext(), _rngB, &x1, 2.0f, 4.0f);
ASSERT_TRUE(x0.equalsTo(&x1));
auto mean0 = x0.reduceNumber(reduce::Mean);
// mean0.printIndexedBuffer("0Mean 2.0");
//auto sumA = x1 - mean; //.reduceNumber(reduce::Sum);
auto deviation0 = x0.varianceNumber(variance::SummaryStatsStandardDeviation, false);
// deviation0.printIndexedBuffer("0Deviation should be 4.0");
//ASSERT_FALSE(x0.equalsTo(nexp0));
//ASSERT_FALSE(x0.equalsTo(nexp1));
//ASSERT_FALSE(x0.equalsTo(nexp2));
/* Check up distribution */
auto mean = x1.reduceNumber(reduce::Mean);
// mean.printIndexedBuffer("Mean 2.0");
//auto sumA = x1 - mean; //.reduceNumber(reduce::Sum);
auto deviation = x1.varianceNumber(variance::SummaryStatsStandardDeviation, false);
//deviation /= (double)x1.lengthOf();
// deviation.printIndexedBuffer("Deviation should be 4.0");
//x1.printIndexedBuffer("Distribution TN");
ASSERT_NEAR(mean.e<float>(0), 2.f, 0.01);
ASSERT_NEAR(deviation.e<float>(0), 4.f, 0.5);
nd4j::ops::moments op;
auto result = op.execute({&x0}, {}, {}, {}, false, nd4j::DataType::FLOAT32);
// result->at(0)->printBuffer("MEAN");
// result->at(1)->printBuffer("VARIANCE");
delete result;
nd4j::ops::reduce_min minOp;
nd4j::ops::reduce_max maxOp;
auto minRes = minOp.execute({&x1}, {}, {}, {});
auto maxRes = maxOp.execute({&x0}, {}, {}, {});
// minRes->at(0)->printBuffer("MIN for Truncated2");
// maxRes->at(0)->printBuffer("MAX for Truncated2");
delete minRes;
delete maxRes;
}
TEST_F(RNGTests, Test_Truncated_23) {
auto x0 = NDArrayFactory::create<float>('c', {1000, 1000});
auto x1 = NDArrayFactory::create<float>('c', {1000, 1000});
RandomLauncher::fillTruncatedNormal(LaunchContext::defaultContext(), _rngA, &x0, 0.0f, 1.0f);
RandomLauncher::fillTruncatedNormal(LaunchContext::defaultContext(), _rngB, &x1, 0.0f, 1.0f);
ASSERT_TRUE(x0.equalsTo(&x1));
auto mean0 = x0.reduceNumber(reduce::Mean);
// mean0.printIndexedBuffer("0Mean 2.0");
//auto sumA = x1 - mean; //.reduceNumber(reduce::Sum);
auto deviation0 = x0.varianceNumber(variance::SummaryStatsStandardDeviation, false);
// deviation0.printIndexedBuffer("0Deviation should be 4.0");
//ASSERT_FALSE(x0.equalsTo(nexp0));
//ASSERT_FALSE(x0.equalsTo(nexp1));
//ASSERT_FALSE(x0.equalsTo(nexp2));
/* Check up distribution */
auto mean = x1.reduceNumber(reduce::Mean);
// mean.printIndexedBuffer("Mean 2.0");
//auto sumA = x1 - mean; //.reduceNumber(reduce::Sum);
auto deviation = x1.varianceNumber(variance::SummaryStatsStandardDeviation, false);
//deviation /= (double)x1.lengthOf();
// deviation.printIndexedBuffer("Deviation should be 4.0");
//x1.printIndexedBuffer("Distribution TN");
ASSERT_NEAR(mean.e<float>(0), 0.f, 0.01);
ASSERT_NEAR(deviation.e<float>(0), 1.f, 0.5);
nd4j::ops::moments op;
auto result = op.execute({&x0}, {}, {}, {}, false, nd4j::DataType::FLOAT32);
// result->at(0)->printBuffer("MEAN");
// result->at(1)->printBuffer("VARIANCE");
delete result;
nd4j::ops::reduce_min minOp;
nd4j::ops::reduce_max maxOp;
auto minRes = minOp.execute({&x1}, {}, {}, {});
auto maxRes = maxOp.execute({&x0}, {}, {}, {});
// minRes->at(0)->printBuffer("MIN for Truncated3");
// maxRes->at(0)->printBuffer("MAX for Truncated3");
delete minRes;
delete maxRes;
}
TEST_F(RNGTests, Test_Truncated_3) {
auto x0 = NDArrayFactory::create<float>('c', {10000, 1000});
auto x1 = NDArrayFactory::create<float>('c', {10000, 1000});
RandomLauncher::fillTruncatedNormal(LaunchContext::defaultContext(), _rngA, &x0, 1.0f, 2.0f);
RandomLauncher::fillTruncatedNormal(LaunchContext::defaultContext(), _rngB, &x1, 1.0f, 2.0f);
ASSERT_TRUE(x0.equalsTo(&x1));
//ASSERT_FALSE(x0.equalsTo(nexp0));
//ASSERT_FALSE(x0.equalsTo(nexp1));
//ASSERT_FALSE(x0.equalsTo(nexp2));
// Check up distribution
auto mean = x1.reduceNumber(reduce::Mean);
// mean.printIndexedBuffer("Mean 1.0");
//auto sumA = x1 - mean; //.reduceNumber(reduce::Sum);
auto deviation = x1.varianceNumber(variance::SummaryStatsStandardDeviation, false);
//deviation /= (double)x1.lengthOf();
// deviation.printIndexedBuffer("Deviation should be 2.0");
//x1.printIndexedBuffer("Distribution TN");
ASSERT_NEAR(mean.e<float>(0), 1.f, 0.001);
ASSERT_NEAR(deviation.e<float>(0), 2.f, 0.3);
}
#endif
TEST_F(RNGTests, Test_Binomial_1) {
auto x0 = NDArrayFactory::create<float>('c', {10, 10});
auto x1 = NDArrayFactory::create<float>('c', {10, 10});
RandomLauncher::fillBinomial(LaunchContext::defaultContext(), _rngA, &x0, 3, 2.0f);
RandomLauncher::fillBinomial(LaunchContext::defaultContext(), _rngB, &x1, 3, 2.0f);
ASSERT_TRUE(x0.equalsTo(&x1));
//nexp2->printIndexedBuffer("nexp2");
//x0.printIndexedBuffer("x0");
ASSERT_FALSE(x0.equalsTo(nexp0));
ASSERT_FALSE(x0.equalsTo(nexp1));
ASSERT_FALSE(x0.equalsTo(nexp2));
}
TEST_F(RNGTests, Test_Uniform_2) {
auto input = NDArrayFactory::create<Nd4jLong>('c', {1, 2}, {10, 10});
auto x1 = NDArrayFactory::create<float>('c', {10, 10});
RandomLauncher::fillUniform(LaunchContext::defaultContext(), _rngB, &x1, 1.0f, 2.0f);
auto op = new nd4j::ops::LegacyRandomOp(0);
auto result = op->execute(_rngA, {&input}, {1.0f, 2.0f}, {});
ASSERT_EQ(Status::OK(), result->status());
auto z = result->at(0);
ASSERT_TRUE(x1.isSameShape(z));
ASSERT_TRUE(x1.equalsTo(z));
delete op;
delete result;
}
TEST_F(RNGTests, Test_Gaussian_2) {
auto input = NDArrayFactory::create<Nd4jLong>('c', {1, 2}, {10, 10});
auto x1 = NDArrayFactory::create<float>('c', {10, 10});
RandomLauncher::fillGaussian(LaunchContext::defaultContext(), _rngB, &x1, 1.0f, 2.0f);
auto op = new nd4j::ops::LegacyRandomOp(random::GaussianDistribution);
auto result = op->execute(_rngA, {&input}, {1.0f, 2.0f}, {});
ASSERT_EQ(Status::OK(), result->status());
auto z = result->at(0);
ASSERT_TRUE(x1.isSameShape(z));
ASSERT_TRUE(x1.equalsTo(z));
delete op;
delete result;
}
TEST_F(RNGTests, Test_LogNorm_2) {
auto input = NDArrayFactory::create<Nd4jLong>('c', {1, 2}, {10, 10});
auto x1 = NDArrayFactory::create<float>('c', {10, 10});
RandomLauncher::fillLogNormal(LaunchContext::defaultContext(), _rngB, &x1, 1.0f, 2.0f);
auto op = new nd4j::ops::LegacyRandomOp(random::LogNormalDistribution);
auto result = op->execute(_rngA, {&input}, {1.0f, 2.0f}, {});
ASSERT_EQ(Status::OK(), result->status());
auto z = result->at(0);
ASSERT_TRUE(x1.isSameShape(z));
ASSERT_TRUE(x1.equalsTo(z));
delete op;
delete result;
}
TEST_F(RNGTests, Test_TruncatedNorm_2) {
auto input = NDArrayFactory::create<Nd4jLong>('c', {1, 2}, {10, 10});
auto x1 = NDArrayFactory::create<float>('c', {10, 10});
RandomLauncher::fillTruncatedNormal(LaunchContext::defaultContext(), _rngB, &x1, 1.0f, 2.0f);
auto op = new nd4j::ops::LegacyRandomOp(random::TruncatedNormalDistribution);
auto result = op->execute(_rngA, {&input}, {1.0f, 2.0f}, {});
ASSERT_EQ(Status::OK(), result->status());
auto z = result->at(0);
ASSERT_TRUE(x1.isSameShape(z));
ASSERT_TRUE(x1.equalsTo(z));
delete op;
delete result;
}
TEST_F(RNGTests, Test_Binomial_2) {
auto input = NDArrayFactory::create<Nd4jLong>('c', {1, 2}, {10, 10});
auto x1 = NDArrayFactory::create<float>('c', {10, 10});
RandomLauncher::fillBinomial(LaunchContext::defaultContext(), _rngB, &x1, 3, 0.5f);
auto op = new nd4j::ops::LegacyRandomOp(random::BinomialDistributionEx);
auto result = op->execute(_rngA, {&input}, {0.5f}, {3});
ASSERT_EQ(Status::OK(), result->status());
auto z = result->at(0);
ASSERT_TRUE(x1.isSameShape(z));
ASSERT_TRUE(x1.equalsTo(z));
delete op;
delete result;
}
TEST_F(RNGTests, Test_Bernoulli_2) {
auto input = NDArrayFactory::create<Nd4jLong>('c', {1, 2}, {10, 10});
auto x1 = NDArrayFactory::create<float>('c', {10, 10});
RandomLauncher::fillBernoulli(LaunchContext::defaultContext(), _rngB, &x1, 0.5f);
auto op = new nd4j::ops::LegacyRandomOp(random::BernoulliDistribution);
auto result = op->execute(_rngA, {&input}, {0.5f}, {});
ASSERT_EQ(Status::OK(), result->status());
auto z = result->at(0);
ASSERT_TRUE(x1.isSameShape(z));
ASSERT_TRUE(x1.equalsTo(z));
delete op;
delete result;
}
TEST_F(RNGTests, Test_GaussianDistribution_1) {
auto x = NDArrayFactory::create<Nd4jLong>('c', {2}, {10, 10});
auto exp0 = NDArrayFactory::create<float>('c', {10, 10});
nd4j::ops::random_normal op;
auto result = op.execute({&x}, {0.0, 1.0f}, {});
ASSERT_EQ(Status::OK(), result->status());
auto z = result->at(0);
ASSERT_TRUE(exp0.isSameShape(z));
ASSERT_FALSE(exp0.equalsTo(z));
ASSERT_FALSE(nexp0->equalsTo(z));
ASSERT_FALSE(nexp1->equalsTo(z));
ASSERT_FALSE(nexp2->equalsTo(z));
delete result;
}
TEST_F(RNGTests, Test_BernoulliDistribution_1) {
auto x = NDArrayFactory::create<Nd4jLong>('c', {2}, {10, 10});
auto exp0 = NDArrayFactory::create<float>('c', {10, 10});
nd4j::ops::random_bernoulli op;
auto result = op.execute({&x}, {0.5f}, {});
ASSERT_EQ(Status::OK(), result->status());
auto z = result->at(0);
ASSERT_FALSE(exp0.equalsTo(z));
ASSERT_FALSE(nexp0->equalsTo(z));
ASSERT_FALSE(nexp1->equalsTo(z));
ASSERT_FALSE(nexp2->equalsTo(z));
delete result;
}
TEST_F(RNGTests, Test_ExponentialDistribution_1) {
auto x = NDArrayFactory::create<Nd4jLong>('c', {2}, {10, 10});
auto exp0 = NDArrayFactory::create<float>('c', {10, 10});
nd4j::ops::random_exponential op;
auto result = op.execute({&x}, {0.25f}, {0});
ASSERT_EQ(Status::OK(), result->status());
auto z = result->at(0);
ASSERT_TRUE(exp0.isSameShape(z));
ASSERT_FALSE(exp0.equalsTo(z));
ASSERT_FALSE(nexp0->equalsTo(z));
ASSERT_FALSE(nexp1->equalsTo(z));
ASSERT_FALSE(nexp2->equalsTo(z));
delete result;
}
TEST_F(RNGTests, Test_ExponentialDistribution_2) {
auto x = NDArrayFactory::create<Nd4jLong>('c', {2}, {10, 10});
auto y = NDArrayFactory::create<float>('c', {10, 10});
auto exp0 = NDArrayFactory::create<float>('c', {10, 10});
y.assign(1.0);
nd4j::ops::random_exponential op;
auto result = op.execute({&x, &y}, {0.25f}, {0});
ASSERT_EQ(Status::OK(), result->status());
auto z = result->at(0);
ASSERT_TRUE(exp0.isSameShape(z));
ASSERT_FALSE(exp0.equalsTo(z));
ASSERT_FALSE(nexp0->equalsTo(z));
ASSERT_FALSE(nexp1->equalsTo(z));
ASSERT_FALSE(nexp2->equalsTo(z));
delete result;
}
namespace nd4j {
namespace tests {
static void fillList(Nd4jLong seed, int numberOfArrays, std::vector<Nd4jLong> &shape, std::vector<NDArray*> &list, nd4j::graph::RandomGenerator *rng) {
rng->setSeed((int) seed);
for (int i = 0; i < numberOfArrays; i++) {
auto array = NDArrayFactory::create_<double>('c', shape);
nd4j::ops::randomuniform op;
op.execute(*rng, {array}, {array}, {0.0, 1.0}, {}, {}, true);
list.emplace_back(array);
}
};
}
}
TEST_F(RNGTests, Test_Reproducibility_1) {
Nd4jLong seed = 123;
std::vector<Nd4jLong> shape = {32, 3, 28, 28};
nd4j::graph::RandomGenerator rng;
std::vector<NDArray*> expList;
nd4j::tests::fillList(seed, 10, shape, expList, &rng);
for (int e = 0; e < 2; e++) {
std::vector<NDArray *> trialList;
nd4j::tests::fillList(seed, 10, shape, trialList, &rng);
for (int a = 0; a < expList.size(); a++) {
auto arrayE = expList[a];
auto arrayT = trialList[a];
bool t = arrayE->equalsTo(arrayT);
if (!t) {
// nd4j_printf("Failed at iteration [%i] for array [%i]\n", e, a);
ASSERT_TRUE(false);
}
delete arrayT;
}
}
for (auto v: expList)
delete v;
}
#ifndef DEBUG_BUILD
TEST_F(RNGTests, Test_Reproducibility_2) {
Nd4jLong seed = 123;
std::vector<Nd4jLong> shape = {32, 3, 64, 64};
nd4j::graph::RandomGenerator rng;
std::vector<NDArray*> expList;
nd4j::tests::fillList(seed, 10, shape, expList, &rng);
for (int e = 0; e < 2; e++) {
std::vector<NDArray*> trialList;
nd4j::tests::fillList(seed, 10, shape, trialList, &rng);
for (int a = 0; a < expList.size(); a++) {
auto arrayE = expList[a];
auto arrayT = trialList[a];
bool t = arrayE->equalsTo(arrayT);
if (!t) {
// nd4j_printf("Failed at iteration [%i] for array [%i]\n", e, a);
for (Nd4jLong f = 0; f < arrayE->lengthOf(); f++) {
double x = arrayE->e<double>(f);
double y = arrayT->e<double>(f);
if (nd4j::math::nd4j_re(x, y) > 0.1) {
// nd4j_printf("E[%lld] %f != T[%lld] %f\n", (long long) f, (float) x, (long long) f, (float) y);
throw std::runtime_error("boom");
}
}
// just breaker, since test failed
ASSERT_TRUE(false);
}
delete arrayT;
}
}
for (auto v: expList)
delete v;
}
TEST_F(RNGTests, Test_Uniform_4) {
auto x1 = NDArrayFactory::create<double>('c', {1000000});
RandomLauncher::fillUniform(LaunchContext::defaultContext(), _rngB, &x1, 1.0, 2.0);
/* Check up distribution */
auto mean = x1.reduceNumber(reduce::Mean);
// mean.printIndexedBuffer("Mean should be 1.5");
auto sumA = x1 - mean; //.reduceNumber(reduce::Sum);
auto deviation = x1.varianceNumber(variance::SummaryStatsVariance, false);
//deviation /= (double)x1.lengthOf();
// deviation.printIndexedBuffer("Deviation should be 1/12 (0.083333)");
ASSERT_NEAR(mean.e<double>(0), 1.5, 1e-3);
ASSERT_NEAR(1/12., deviation.e<double>(0), 1e-3);
}
#endif
TEST_F(RNGTests, test_choice_1) {
auto x = NDArrayFactory::linspace<double>(0, 10, 11);
auto prob = NDArrayFactory::valueOf<double>({11}, 1.0/11, 'c');
auto z = NDArrayFactory::create<double>('c', {1000});
RandomGenerator rng(119, 256);
NativeOpExecutioner::execRandom(nd4j::LaunchContext ::defaultContext(), random::Choice, &rng, x->buffer(), x->shapeInfo(), x->specialBuffer(), x->specialShapeInfo(), prob->buffer(), prob->shapeInfo(), prob->specialBuffer(), prob->specialShapeInfo(), z.buffer(), z.shapeInfo(), z.specialBuffer(), z.specialShapeInfo(), nullptr);
// z.printIndexedBuffer("z");
delete x;
delete prob;
}
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