/* ****************************************************************************** * * * 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. * * See the NOTICE file distributed with this work for additional * information regarding copyright ownership. * 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 ******************************************************************************/ #include "testlayers.h" #include #include #include #include using namespace sd; using namespace sd::graph; class GraphRandomGeneratorTests : public testing::Test { public: }; TEST_F(GraphRandomGeneratorTests, Reproducibility_Test_1) { sd::graph::RandomGenerator g0(119); sd::graph::RandomGenerator g1(119); auto i0 = g0.relativeT(15, 0, DataTypeUtils::max()); auto i1 = g1.relativeT(15, 0, DataTypeUtils::max()); ASSERT_EQ(i0, i1); } TEST_F(GraphRandomGeneratorTests, Reproducibility_Test_2) { sd::graph::RandomGenerator g0(119); sd::graph::RandomGenerator g1(117); auto i0 = g0.relativeT(15, 0, DataTypeUtils::max()); auto i1 = g1.relativeT(15, 0, DataTypeUtils::max()); ASSERT_NE(i0, i1); } TEST_F(GraphRandomGeneratorTests, Reproducibility_Test_3) { sd::graph::RandomGenerator g0(119, 5); sd::graph::RandomGenerator g1(119, 10); auto i0 = g0.relativeT(15, 0, DataTypeUtils::max()); auto i1 = g1.relativeT(15, 0, DataTypeUtils::max()); ASSERT_NE(i0, i1); } TEST_F(GraphRandomGeneratorTests, Reproducibility_Test_4) { sd::graph::RandomGenerator g0(119, 5); sd::graph::RandomGenerator g1(117, 5); auto i0 = g0.relativeT(15, 0, DataTypeUtils::max()); auto i1 = g1.relativeT(15, 0, DataTypeUtils::max()); ASSERT_NE(i0, i1); } TEST_F(GraphRandomGeneratorTests, Sequential_Test_1) { sd::graph::RandomGenerator g0(119, 5); sd::graph::RandomGenerator g1(119, 5); auto v0 = g0.relativeT(15, 0, DataTypeUtils::max()); auto v1 = g1.relativeT(15, 0, DataTypeUtils::max()); g0.rewindH(200); auto r0 = g0.relativeT(15, 0, DataTypeUtils::max()); auto r1 = g1.relativeT(15, 0, DataTypeUtils::max()); // values after rewind aren't equal ASSERT_NE(r0, v0); // two generators must give the same output ASSERT_EQ(v0, v1); // but not after one of them was rewinded ASSERT_NE(r1, r0); } TEST_F(GraphRandomGeneratorTests, Sequential_Test_2) { sd::graph::RandomGenerator g0(119, 5); sd::graph::RandomGenerator g1(119, 5); auto v0 = g0.relativeT(15, 0, DataTypeUtils::max()); auto v1 = g1.relativeT(15, 0, DataTypeUtils::max()); g0.rewindH(200); g1.rewindH(199); auto r0 = g0.relativeT(15, 0, DataTypeUtils::max()); auto r1 = g1.relativeT(15, 0, DataTypeUtils::max()); // values after rewind aren't equal ASSERT_NE(r0, v0); // two generators must give the same output ASSERT_EQ(v0, v1); // but not after they was rewinded with different number of elements ASSERT_NE(r1, r0); } TEST_F(GraphRandomGeneratorTests, Sequential_Test_3) { sd::graph::RandomGenerator g0(119, 5); sd::graph::RandomGenerator g1(119, 5); auto v0 = g0.relativeT(15, 0, DataTypeUtils::max()); auto v1 = g1.relativeT(15, 0, DataTypeUtils::max()); g0.rewindH(200); g1.rewindH(200); auto r0 = g0.relativeT(15, 0, DataTypeUtils::max()); auto r1 = g1.relativeT(15, 0, DataTypeUtils::max()); // values after rewind aren't equal ASSERT_NE(r0, v0); // two generators must give the same output ASSERT_EQ(v0, v1); // and here output must be equal as well ASSERT_EQ(r1, r0); } TEST_F(GraphRandomGeneratorTests, Sequential_Test_4) { sd::graph::RandomGenerator g0(119, 5); sd::graph::RandomGenerator g1(119, 5); auto v0 = g0.relativeT(15, 0, DataTypeUtils::max()); auto v1 = g1.relativeT(15, 0, DataTypeUtils::max()); g0.rewindH(200); g1.rewindH(200); auto r0 = g0.relativeT(15, 0, DataTypeUtils::max()); auto r1 = g1.relativeT(15, 0, DataTypeUtils::max()); g0.rewindH(200); g1.rewindH(200); auto z0 = g0.relativeT(15, 0, DataTypeUtils::max()); auto z1 = g1.relativeT(15, 0, DataTypeUtils::max()); g0.rewindH(201); g1.rewindH(199); auto y0 = g0.relativeT(15, 0, DataTypeUtils::max()); auto y1 = g1.relativeT(15, 0, DataTypeUtils::max()); // values after rewind aren't equal ASSERT_NE(r0, v0); // two generators must give the same output ASSERT_EQ(v0, v1); // and here output must be equal as well ASSERT_EQ(r0, r1); ASSERT_EQ(z0, z1); ASSERT_NE(r0, z0); ASSERT_NE(r1, z1); ASSERT_NE(y0, z0); ASSERT_NE(y1, z1); } //#ifndef __clang__ TEST_F(GraphRandomGeneratorTests, Long_Test_1) { sd::graph::RandomGenerator g0(119, 5); sd::graph::RandomGenerator g1(119, 5); std::array z0, z1, z2, z3; for (int e = 0; e < z0.size(); e++) { z0[e] = g0.relativeT(e); z1[e] = g1.relativeT(e); } g0.rewindH(z0.size()); g1.rewindH(z0.size()); for (int e = 0; e < z0.size(); e++) { z2[e] = g0.relativeT(e); z3[e] = g1.relativeT(e); } // these sequences should be equal ASSERT_EQ(z0, z1); ASSERT_EQ(z2, z3); // these sequences should be different due to rewind ASSERT_NE(z0, z3); // we'll be counting values > MAX_INT here int maxes = 0; for (int e = 0; e < z0.size(); e++) { auto v = z0[e]; // we don't want any negatives here ASSERT_TRUE(v > 0); if (v > DataTypeUtils::max()) maxes++; } // and now we're ensuring there ARE values above MAX_INT ASSERT_NE(0, maxes); } TEST_F(GraphRandomGeneratorTests, FloatingPoint_Test_1) { sd::graph::RandomGenerator g0(119, 5); sd::graph::RandomGenerator g1(119, 5); std::array z0, z1, z2, z3; for (int e = 0; e < z0.size(); e++) { z0[e] = g0.relativeT(e, -1.0, 1.0); z1[e] = g1.relativeT(e, -1.0, 1.0); } g0.rewindH(z0.size()); g1.rewindH(z0.size()); for (int e = 0; e < z0.size(); e++) { z2[e] = g0.relativeT(e, -1.0, 1.0); z3[e] = g1.relativeT(e, -1.0, 1.0); } // these sequences should be equal ASSERT_EQ(z0, z1); ASSERT_EQ(z2, z3); // these sequences should be different due to rewind ASSERT_NE(z0, z3); // we'll count negatives as well int negs = 0; // make sure every value stays within distribution borders for (int e = 0; e < z0.size(); e++) { auto v = z0[e]; if (!(v >= -1.0 && v <= 1.0)) { nd4j_printf("Failed at idx [%i]: %f\n", e, (float) v); ASSERT_TRUE(v >= -1.0 && v <= 1.0); } if (v < 0.0) negs++; } // there should be negatives ASSERT_TRUE(negs > 0); // and positives ASSERT_NE(z0.size(), negs); }