2020-01-04 11:27:50 +01:00
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/*******************************************************************************
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* Copyright (c) 2015-2019 Skymind, Inc.
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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 raver119@gmail.com
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//
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#include "testlayers.h"
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#include <ops/declarable/CustomOperations.h>
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2020-03-02 10:49:41 +01:00
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#include <array/NDArray.h>
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2020-01-04 11:27:50 +01:00
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#include <ops/ops.h>
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2020-03-02 10:49:41 +01:00
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#include <helpers/GradCheck.h>
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2020-01-04 11:27:50 +01:00
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#include <array>
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2020-05-08 19:59:39 +02:00
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#include <helpers/RandomLauncher.h>
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2020-01-04 11:27:50 +01:00
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2020-03-02 10:49:41 +01:00
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using namespace sd;
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2020-01-04 11:27:50 +01:00
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class DeclarableOpsTests19 : public testing::Test {
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public:
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DeclarableOpsTests19() {
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printf("\n");
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fflush(stdout);
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}
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2020-02-02 21:14:00 +01:00
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};
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2020-05-14 12:41:55 +02:00
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TEST_F(DeclarableOpsTests19, test_argmax_maxint_vector_1) {
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auto x = NDArrayFactory::create<float>('c', {3}, {0.1f, 0.5f, 0.7f});
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auto z = NDArrayFactory::create<Nd4jLong>(0);
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auto e = NDArrayFactory::create<Nd4jLong>(2);
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sd::ops::argmax op;
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auto status = op.execute({&x}, {&z}, {DataTypeUtils::max<int>()});
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ASSERT_EQ(Status::OK(), status);
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ASSERT_EQ(e, z);
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}
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2020-05-08 19:59:39 +02:00
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TEST_F(DeclarableOpsTests19, test_threshold_encode_1) {
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auto x = NDArrayFactory::create<double>('c', {3}, {1.5, 2.5, -3.5});
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auto exp_encoded = NDArrayFactory::create<int>('c', {7}, {3, 3, 1056964608, 0, 1, 2, -3});
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auto exp_gradients = NDArrayFactory::create<double>('c', {3}, {1.0, 2.0, -3.0});
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sd::ops::encode_threshold op;
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auto result = op.evaluate({&x}, {0.5});
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auto gradients = result.at(0);
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auto encoded = result.at(1);
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//encoded->printIndexedBuffer("ENC");
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ASSERT_EQ(exp_encoded, *encoded);
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ASSERT_EQ(exp_gradients, x);
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// FIXME: we need to add a way to declare individual inplace outputs
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//ASSERT_EQ(exp_gradients, *gradients);
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}
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TEST_F(DeclarableOpsTests19, test_threshold_encode_2) {
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for (int length = 5; length < 35; length++) {
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auto x = NDArrayFactory::create<double>('c', {10000});
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auto exp_gradients = NDArrayFactory::create<double>('c', {10000});
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for (int e = 0; e < length; e++) {
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x.p(e, 2e-3);
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exp_gradients.p(e, 1e-3);
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}
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sd::ops::encode_threshold op;
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auto result = op.evaluate({&x}, {1e-3});
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auto encoded = result.at(1);
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ASSERT_EQ(length + 4, encoded->lengthOf());
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ASSERT_EQ(exp_gradients, x);
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}
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}
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TEST_F(DeclarableOpsTests19, test_threshold_encode_boundary_1) {
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auto x = NDArrayFactory::create<float>('c', {6});
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x = 1.0f;
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sd::ops::encode_threshold op;
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auto result = op.evaluate({&x}, {1.0}, {3});
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auto gradients = result.at(0);
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auto encoded = result.at(1);
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ASSERT_EQ(7, encoded->lengthOf());
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ASSERT_EQ(3, x.sumNumber().e<int>(0));
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}
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TEST_F(DeclarableOpsTests19, test_threshold_encode_boundary_2) {
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auto x = NDArrayFactory::create<float>('c', {1000});
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x = 1.0f;
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sd::ops::encode_threshold op;
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auto result = op.evaluate({&x}, {1.0}, {100});
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auto gradients = result.at(0);
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auto encoded = result.at(1);
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ASSERT_EQ(104, encoded->lengthOf());
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ASSERT_EQ(900, x.sumNumber().e<int>(0));
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}
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TEST_F(DeclarableOpsTests19, test_threshold_decode_1) {
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auto x = NDArrayFactory::create<double>('c', {3}, {1.0, 2.0, -3.0});
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auto y = NDArrayFactory::create<int>('c', {7}, {3, 3, 1056964608, 0, 1, 2, -3});
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auto exp_gradients = NDArrayFactory::create<double>('c', {3}, {1.5, 2.5, -3.5});
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sd::ops::decode_threshold op;
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auto status = op.execute({&x, &y}, {&x});
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ASSERT_EQ(Status::OK(), status);
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ASSERT_EQ(exp_gradients, x);
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}
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TEST_F(DeclarableOpsTests19, test_bitmap_encode_1) {
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auto initial = NDArrayFactory::create<float>('c', {6}, {0.0f, 0.0f, 1e-3f, -1e-3f, 0.0f, 0.0f});
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auto exp_0 = initial.like();
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auto exp_1 = initial.dup();
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auto exp_c = NDArrayFactory::create<int>(2L);
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sd::ops::encode_bitmap enc;
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auto enc_result = enc.evaluate({&initial}, {1e-3f});
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ASSERT_EQ(Status::OK(), enc_result.status());
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//initial.printIndexedBuffer("initial");
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ASSERT_EQ(exp_0, initial);
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auto encoded = enc_result.at(1);
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auto counter = enc_result.at(2);
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//encoded->printIndexedBuffer("encoded");
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ASSERT_EQ(exp_c, *counter);
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sd::ops::decode_bitmap dec;
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auto status = dec.execute({&initial, encoded}, {&initial});
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ASSERT_EQ(Status::OK(), status);
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//initial.printIndexedBuffer();
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ASSERT_EQ(exp_1, initial);
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}
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TEST_F(DeclarableOpsTests19, test_bitmap_encode_decode) {
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auto initial = NDArrayFactory::create<float>('c', {256000});
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initial = 1.0f;
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auto exp = initial.dup();
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auto neg = initial.like();
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neg = 0.5f;
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sd::ops::encode_bitmap enc;
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auto enc_result = enc.evaluate({&initial}, {0.5f});
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auto encoded = enc_result.at(1);
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// checking equality of all encoded bits
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for (int e = 5; e < encoded->lengthOf() - 1; e++) {
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if (encoded->e<int>(e) != encoded->e<int>(e - 1))
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nd4j_printf("Non equal encoded values at E[%i]: %i;\n", e, encoded->e<int>(e));
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}
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ASSERT_NE(exp, initial);
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ASSERT_EQ(neg, initial);
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sd::ops::decode_bitmap dec;
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auto status = dec.execute({&initial, encoded}, {&initial});
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ASSERT_EQ(Status::OK(), status);
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// checking equality of all dedoded bits
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for (int e = 0; e < initial.lengthOf(); e++) {
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auto f = initial.e<float>(e);
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if (f != 1.0f)
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nd4j_printf("initial[%i] = %f\n", e, f);
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}
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ASSERT_EQ(exp, initial);
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}
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TEST_F(DeclarableOpsTests19, test_threshold_encode_decode) {
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auto initial = NDArrayFactory::create<float>('c', {256000});
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initial = 1.0f;
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auto exp = initial.dup();
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auto neg = initial.like();
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neg = 0.5f;
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sd::ops::encode_threshold enc;
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auto enc_result = enc.evaluate({&initial}, {0.5f});
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auto encoded = enc_result.at(1);
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ASSERT_EQ(256000 + 4, encoded->lengthOf());
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ASSERT_NE(exp, initial);
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for (int e = 0; e < initial.lengthOf(); e++) {
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auto f = initial.e<float>(e);
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if (f != 0.5f) {
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nd4j_printf("initial[%i] = %f\n", e, f);
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throw std::runtime_error("");
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}
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}
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ASSERT_EQ(neg, initial);
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// checking equality of all encoded bits
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//for (int e = 5; e < encoded->lengthOf() - 1; e++) {
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//if (encoded->e<int>(e) != encoded->e<int>(e - 1) + 1)
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//nd4j_printf("Non equal encoded values at E[%i]: %i;\n", e, encoded->e<int>(e));
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//}
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sd::ops::decode_threshold dec;
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auto status = dec.execute({&initial, encoded}, {&initial});
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ASSERT_EQ(Status::OK(), status);
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// checking equality of all dedoded bits
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for (int e = 0; e < initial.lengthOf(); e++) {
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auto f = initial.e<float>(e);
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if (f != 1.0f)
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nd4j_printf("initial[%i] = %f\n", e, f);
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}
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ASSERT_EQ(exp, initial);
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}
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2020-05-14 17:06:13 +02:00
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#ifdef _RELEASE
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2020-05-13 07:12:07 +02:00
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TEST_F(DeclarableOpsTests19, test_threshold_encode_decode_2) {
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// [2,1,135079944,1,1,8192,1,99]
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auto initial = NDArrayFactory::create<float>('c', {1, 135079944});
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initial = 1.0f;
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auto exp = initial.dup();
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auto neg = initial.like();
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neg = 0.5f;
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sd::ops::encode_threshold enc;
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auto enc_result = enc.evaluate({&initial}, {0.5f});
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auto encoded = enc_result.at(1);
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ASSERT_EQ(135079944 + 4, encoded->lengthOf());
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ASSERT_NE(exp, initial);
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/*
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for (int e = 0; e < initial.lengthOf(); e++) {
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auto f = initial.e<float>(e);
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if (f != 0.5f) {
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nd4j_printf("initial[%i] = %f\n", e, f);
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throw std::runtime_error("");
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}
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}
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*/
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ASSERT_EQ(neg, initial);
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// checking equality of all encoded bits
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//for (int e = 5; e < encoded->lengthOf() - 1; e++) {
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//if (encoded->e<int>(e) != encoded->e<int>(e - 1) + 1)
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//nd4j_printf("Non equal encoded values at E[%i]: %i;\n", e, encoded->e<int>(e));
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//}
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sd::ops::decode_threshold dec;
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auto status = dec.execute({&initial, encoded}, {&initial});
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ASSERT_EQ(Status::OK(), status);
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// checking equality of all dedoded bits
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/*
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for (int e = 0; e < initial.lengthOf(); e++) {
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auto f = initial.e<float>(e);
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if (f != 1.0f)
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nd4j_printf("initial[%i] = %f\n", e, f);
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}
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*/
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ASSERT_EQ(exp, initial);
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}
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2020-05-14 17:06:13 +02:00
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#endif
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2020-05-13 07:12:07 +02:00
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2020-05-08 19:59:39 +02:00
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2020-05-14 12:41:55 +02:00
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2020-04-10 16:57:02 +02:00
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TEST_F(DeclarableOpsTests19, test_matmul_ccc) {
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auto x = NDArrayFactory::create<float>('c', {10, 10});
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auto y = NDArrayFactory::create<float>('c', {10, 10});
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auto e = NDArrayFactory::create<float>('c', {10, 10});
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auto z = NDArrayFactory::create<float>('c', {10, 10});
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z.assign(100.f);
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e.assign(110.f);
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x.assign(1.0f);
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y.assign(1.0f);
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sd::ops::matmul op;
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auto status = op.execute({&x, &y}, {&z}, {1.0, 1.0});
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ASSERT_EQ(Status::OK(), status);
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ASSERT_EQ(e, z);
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}
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TEST_F(DeclarableOpsTests19, test_matmul_fcf) {
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auto x = NDArrayFactory::create<float>('f', {10, 10});
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auto y = NDArrayFactory::create<float>('c', {10, 10});
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auto e = NDArrayFactory::create<float>('f', {10, 10});
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auto z = NDArrayFactory::create<float>('f', {10, 10});
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z.assign(100.f);
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e.assign(110.f);
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x.assign(1.0f);
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y.assign(1.0f);
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sd::ops::matmul op;
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auto status = op.execute({&x, &y}, {&z}, {1.0, 1.0});
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ASSERT_EQ(Status::OK(), status);
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ASSERT_EQ(e, z);
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}
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TEST_F(DeclarableOpsTests19, test_matmul_cff) {
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auto x = NDArrayFactory::create<float>('c', {10, 10});
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auto y = NDArrayFactory::create<float>('f', {10, 10});
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auto e = NDArrayFactory::create<float>('f', {10, 10});
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auto z = NDArrayFactory::create<float>('f', {10, 10});
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z.assign(100.f);
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e.assign(110.f);
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x.assign(1.0f);
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y.assign(1.0f);
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sd::ops::matmul op;
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auto status = op.execute({&x, &y}, {&z}, {1.0, 1.0});
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ASSERT_EQ(Status::OK(), status);
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ASSERT_EQ(e, z);
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}
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TEST_F(DeclarableOpsTests19, test_matmul_ccf) {
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auto x = NDArrayFactory::create<float>('c', {10, 10});
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auto y = NDArrayFactory::create<float>('c', {10, 10});
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auto e = NDArrayFactory::create<float>('f', {10, 10});
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auto z = NDArrayFactory::create<float>('f', {10, 10});
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z.assign(100.f);
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e.assign(110.f);
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x.assign(1.0f);
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y.assign(1.0f);
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sd::ops::matmul op;
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auto status = op.execute({&x, &y}, {&z}, {1.0, 1.0});
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ASSERT_EQ(Status::OK(), status);
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ASSERT_EQ(e, z);
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}
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TEST_F(DeclarableOpsTests19, test_matmul_fff) {
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auto x = NDArrayFactory::create<float>('f', {10, 10});
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auto y = NDArrayFactory::create<float>('f', {10, 10});
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auto e = NDArrayFactory::create<float>('f', {10, 10});
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auto z = NDArrayFactory::create<float>('f', {10, 10});
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z.assign(100.f);
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e.assign(110.f);
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x.assign(1.0f);
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y.assign(1.0f);
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sd::ops::matmul op;
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auto status = op.execute({&x, &y}, {&z}, {1.0, 1.0});
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ASSERT_EQ(Status::OK(), status);
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ASSERT_EQ(e, z);
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}
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2020-02-02 21:14:00 +01:00
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TEST_F(DeclarableOpsTests19, test_conv1d_bp_1) {
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/*
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DynamicCustomOp op = DynamicCustomOp.builder("conv1d_bp")
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.addInputs(
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Nd4j.create(DataType.FLOAT, 2,2,12),
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Nd4j.create(DataType.FLOAT, 3,2,3),
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Nd4j.create(DataType.FLOAT, 2,3,6)
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)
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.addOutputs(
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Nd4j.create(DataType.FLOAT, 2,2,12),
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Nd4j.create(DataType.FLOAT, 3,2,3))
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.addIntegerArguments(3,2,0,1,2,0)
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.build();
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Nd4j.exec(op);
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*/
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auto t = NDArrayFactory::create<float>('c', {2, 2, 12});
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auto u = NDArrayFactory::create<float>('c', {3, 2, 3});
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auto v = NDArrayFactory::create<float>('c', {2, 3, 6});
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|
2020-03-02 10:49:41 +01:00
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sd::ops::conv1d_bp op;
|
2020-02-02 21:14:00 +01:00
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auto result = op.evaluate({&t, &u, &v}, {3, 2, 0, 1, 2,0});
|
2020-03-10 05:42:50 +01:00
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ASSERT_EQ(Status::OK(), result.status());
|
2020-02-02 21:14:00 +01:00
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|
2020-02-14 14:20:31 +01:00
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}
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TEST_F(DeclarableOpsTests19, test_squeeze_1) {
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|
auto x = NDArrayFactory::create<double>('c', {3, 4, 1});
|
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|
auto e = NDArrayFactory::create<double>('c', {3, 4});
|
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|
|
int axis = 2;
|
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|
|
|
2020-03-02 10:49:41 +01:00
|
|
|
sd::ops::squeeze op;
|
2020-02-14 14:20:31 +01:00
|
|
|
auto status = op.execute({&x}, {&e}, {axis});
|
|
|
|
ASSERT_EQ(Status::OK(), status);
|
2020-04-10 16:57:02 +02:00
|
|
|
}
|
2020-06-11 19:15:13 +02:00
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