/******************************************************************************* * 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 #include #include #include #include using namespace nd4j; class NlpTests : public testing::Test { public: NlpTests() { printf("\n"); fflush(stdout); } }; TEST_F(NlpTests, basic_sg_hs_test_1) { auto exp0 = NDArrayFactory::create('c', {1, 10}); auto exp1 = NDArrayFactory::create('c', {1, 10}); exp0.assign(0.01001f); exp1.assign(0.020005f); auto target = NDArrayFactory::create(0); auto ngStarter = NDArrayFactory::empty(); auto indices = NDArrayFactory::create('c', {1}, {1}); auto codes = NDArrayFactory::create('c', {1}); auto syn0 = NDArrayFactory::create('c', {100, 10}); auto syn1 = NDArrayFactory::create('c', {100, 10}); auto syn1Neg = NDArrayFactory::empty(); auto expTable = NDArrayFactory::create('c', {10000}); auto negTable = NDArrayFactory::empty(); auto neu1e = NDArrayFactory::create('c', {10}); syn0.assign(0.01); syn1.assign(0.02); expTable.assign(0.5); auto alpha = NDArrayFactory::create(0.001); auto randomValue = NDArrayFactory::create(1L); auto inferenceVector = NDArrayFactory::empty(); nd4j::ops::skipgram op; auto result = op.execute({&target, &ngStarter, &indices, &codes, &syn0, &syn1, &syn1Neg, &expTable, &negTable, &alpha, &randomValue, &inferenceVector, &neu1e}, {}, {}, {false}, true); ASSERT_EQ(Status::OK(), result->status()); auto row0 = syn0({0,1, 0,0}, true); auto row1 = syn1({1,2, 0,0}, true); ASSERT_EQ(exp0, row0); ASSERT_EQ(exp1, row1); delete result; } TEST_F(NlpTests, basic_sg_hs_test_2) { auto exp0 = NDArrayFactory::create('c', {1, 10}); auto exp1 = NDArrayFactory::create('c', {1, 10}); auto exp2 = NDArrayFactory::create('c', {1, 10}); exp0.assign(0.01f); exp1.assign(0.020005f); exp2.assign(0.019995f); auto target = NDArrayFactory::create(0); auto ngStarter = NDArrayFactory::empty(); auto indices = NDArrayFactory::create('c', {2}, {1, 2}); auto codes = NDArrayFactory::create('c', {2}, {0, 1}); auto syn0 = NDArrayFactory::create('c', {100, 10}); auto syn1 = NDArrayFactory::create('c', {100, 10}); auto syn1Neg = NDArrayFactory::empty(); auto expTable = NDArrayFactory::create('c', {10000}); auto negTable = NDArrayFactory::empty(); auto neu1e = NDArrayFactory::create('c', {10}); syn0.assign(0.01); syn1.assign(0.02); expTable.assign(0.5); auto alpha = NDArrayFactory::create(0.001); auto randomValue = NDArrayFactory::create(1L); auto inferenceVector = NDArrayFactory::empty(); nd4j::ops::skipgram op; auto result = op.execute({&target, &ngStarter, &indices, &codes, &syn0, &syn1, &syn1Neg, &expTable, &negTable, &alpha, &randomValue, &inferenceVector, &neu1e}, {}, {}, {false}, true); ASSERT_EQ(Status::OK(), result->status()); auto row0 = syn0({0,1, 0,0}, true); auto row1 = syn1({1,2, 0,0}, true); auto row2 = syn1({2,3, 0,0}, true); ASSERT_EQ(exp0, row0); ASSERT_EQ(exp1, row1); ASSERT_EQ(exp2, row2); delete result; } TEST_F(NlpTests, basic_sg_hs_test_3) { auto exp0 = NDArrayFactory::create('c', {1, 10}); auto exp1 = NDArrayFactory::create('c', {1, 10}); auto exp2 = NDArrayFactory::create('c', {1, 10}); exp0.assign(0.01f); exp1.assign(0.020005f); exp2.assign(0.019995f); auto target = NDArrayFactory::create(0); auto ngStarter = NDArrayFactory::empty(); auto indices0 = NDArrayFactory::create('c', {3}, {1, 2, 3}); auto indices1 = NDArrayFactory::create('c', {3}, {3, 1, 2}); auto codes00 = NDArrayFactory::create('c', {3}, {0, 1, 1}); auto codes01 = NDArrayFactory::create('c', {3}, {1, 0, 1}); auto syn00 = NDArrayFactory::create('c', {100, 10}); auto syn01 = NDArrayFactory::create('c', {100, 10}); auto syn10 = NDArrayFactory::create('c', {100, 10}); auto syn11 = NDArrayFactory::create('c', {100, 10}); auto syn1Neg = NDArrayFactory::empty(); auto expTable = NDArrayFactory::create('c', {10000}); auto negTable = NDArrayFactory::empty(); auto neu1e = NDArrayFactory::create('c', {10}); RandomGenerator rng(119L, 198L); RandomLauncher::fillUniform(LaunchContext::defaultContext(), rng, &syn00, 0.0, 1.0); RandomLauncher::fillUniform(LaunchContext::defaultContext(), rng, &syn10, 0.0, 1.0); syn01.assign(syn00); syn11.assign(syn10); expTable.assign(0.5); auto alpha = NDArrayFactory::create(0.001); auto randomValue = NDArrayFactory::create(1L); auto inferenceVector = NDArrayFactory::empty(); nd4j::ops::skipgram op; auto result0 = op.execute({&target, &ngStarter, &indices0, &codes00, &syn00, &syn10, &syn1Neg, &expTable, &negTable, &alpha, &randomValue, &inferenceVector, &neu1e}, {}, {}, {false}, true); auto result1 = op.execute({&target, &ngStarter, &indices1, &codes01, &syn01, &syn11, &syn1Neg, &expTable, &negTable, &alpha, &randomValue, &inferenceVector, &neu1e}, {}, {}, {false}, true); ASSERT_EQ(Status::OK(), result0->status()); auto row00 = syn00({0,1, 0,0}, true); auto row01 = syn01({0,1, 0,0}, true); auto row1 = syn10({1,2, 0,0}, true); auto row2 = syn11({1,2, 0,0}, true); ASSERT_EQ(row2, row1); ASSERT_EQ(row00, row01); delete result0; delete result1; } TEST_F(NlpTests, basic_sg_hs_ns_test_1) { auto target = NDArrayFactory::create(0); auto ngStarter = NDArrayFactory::create(1); auto indices = NDArrayFactory::create('c', {5}, {1, 2, 3, 4, 5}); auto codes = NDArrayFactory::create('c', {5}, {1, 1, 0, 1, 1}); auto syn0 = NDArrayFactory::create('c', {100, 150}); auto syn1 = NDArrayFactory::create('c', {100, 150}); auto syn1Neg = NDArrayFactory::create('c', {100, 150}); auto expTable = NDArrayFactory::create('c', {1000}); auto negTable = NDArrayFactory::create('c', {1000}); auto neu1e = NDArrayFactory::create('c', {10}); negTable.linspace(1.0); auto alpha = NDArrayFactory::create(1.25); auto randomValue = NDArrayFactory::create(119L); auto inferenceVector = NDArrayFactory::empty(); nd4j::ops::skipgram op; auto result = op.execute({&target, &ngStarter, &indices, &codes, &syn0, &syn1, &syn1Neg, &expTable, &negTable, &alpha, &randomValue, &inferenceVector, &neu1e}, {}, {3}, {false}, true); ASSERT_EQ(Status::OK(), result->status()); delete result; } TEST_F(NlpTests, basic_sg_ns_test_1) { auto exp0 = NDArrayFactory::create('c', {1, 10}); exp0.assign(0.01); auto target = NDArrayFactory::create(1); auto ngStarter = NDArrayFactory::create(3); auto indices = NDArrayFactory::empty(); auto codes = NDArrayFactory::empty(); auto syn0 = NDArrayFactory::create('c', {10, 10}); auto syn1 = NDArrayFactory::empty(); auto syn1Neg = NDArrayFactory::create('c', {10, 10}); auto expTable = NDArrayFactory::create('c', {1000}); auto negTable = NDArrayFactory::create('c', {1000}); auto neu1e = NDArrayFactory::create('c', {10}); auto syn1Neg2 = NDArrayFactory::create('c', {10, 10}); syn0.assign(0.01); syn1.assign(0.02); syn1Neg.assign(0.03); syn1Neg2.assign(0.03); expTable.assign(0.5); auto alpha = NDArrayFactory::create(0.001); auto randomValue = NDArrayFactory::create(2L); auto inferenceVector = NDArrayFactory::empty(); nd4j::ops::skipgram op; auto result = op.execute({&target, &ngStarter, &indices, &codes, &syn0, &syn1, &syn1Neg, &expTable, &negTable, &alpha, &randomValue, &inferenceVector, &neu1e}, {}, {1, 1}, {false}, true); ASSERT_EQ(Status::OK(), result->status()); auto row0 = syn0({1,2, 0,0}, true); ASSERT_EQ(exp0, row0); ASSERT_FALSE(syn1Neg2.equalsTo(syn1Neg, 1e-6)); delete result; } TEST_F(NlpTests, basic_cb_hs_test_1) { auto exp0 = NDArrayFactory::create('c', {1, 10}); auto exp1 = NDArrayFactory::create('c', {1, 10}); auto exp2 = NDArrayFactory::create('c', {1, 10}); exp0.assign(0.0095f); exp1.assign(0.019875f); exp2.assign(0.02f); auto target = NDArrayFactory::create(0); auto ngStarter = NDArrayFactory::empty(); auto context = NDArrayFactory::create('c', {3}, {0, 1, 2}); auto locked = NDArrayFactory::create('c', {3}); auto indices = NDArrayFactory::create('c', {2}, {4, 5}); auto codes = NDArrayFactory::create('c', {2}, {1, 1}); auto syn0 = NDArrayFactory::create('c', {100, 10}); auto syn1 = NDArrayFactory::create('c', {100, 10}); auto syn1Neg = NDArrayFactory::empty(); auto expTable = NDArrayFactory::create('c', {10000}); auto negTable = NDArrayFactory::empty(); auto numWords = NDArrayFactory::create('c', {1}, {1}); syn0.assign(0.01); syn1.assign(0.02); expTable.assign(0.5); auto alpha = NDArrayFactory::create(0.025); auto randomValue = NDArrayFactory::create(2L); auto inferenceVector = NDArrayFactory::empty(); nd4j::ops::cbow op; auto result = op.execute({&target, &ngStarter, &context, &indices, &codes, &syn0, &syn1, &syn1Neg, &expTable, &negTable, &alpha, &randomValue, &numWords, &locked, &inferenceVector}, {}, {}, {true}, true); ASSERT_EQ(Status::OK(), result->status()); auto row_s0_0 = syn0({0,1, 0,0}, true); auto row_s0_1 = syn0({1,2, 0,0}, true); auto row_s0_2 = syn0({2,3, 0,0}, true); auto row_s1_4 = syn1({4,5, 0,0}, true); auto row_s1_5 = syn1({5,6, 0,0}, true); auto row_s1_6 = syn1({6,7, 0,0}, true); ASSERT_EQ(exp0, row_s0_0); ASSERT_EQ(exp0, row_s0_1); ASSERT_EQ(exp0, row_s0_2); ASSERT_EQ(exp1, row_s1_4); ASSERT_EQ(exp1, row_s1_5); ASSERT_EQ(exp2, row_s1_6); delete result; } TEST_F(NlpTests, basic_cb_ns_test_1) { auto exp0 = NDArrayFactory::create('c', {1, 10}); auto exp1 = NDArrayFactory::create('c', {1, 10}); auto exp2 = NDArrayFactory::create('c', {1, 10}); exp0.assign(0.0096265625); exp1.assign(0.01); exp2.assign(0.030125f); auto target = NDArrayFactory::create(0); auto ngStarter = NDArrayFactory::create(6); auto context = NDArrayFactory::create('c', {3}, {0, 1, 2}); auto locked = NDArrayFactory::create('c', {3}); auto indices = NDArrayFactory::empty(); auto codes = NDArrayFactory::empty(); auto syn0 = NDArrayFactory::create('c', {100, 10}); auto syn1 = NDArrayFactory::create('c', {100, 10}); auto syn1Neg = NDArrayFactory::create('c', {100, 10}); auto expTable = NDArrayFactory::create('c', {10000}); auto negTable = NDArrayFactory::create('c', {100000}); auto numWords = NDArrayFactory::create('c', {2}, {1, 2}); syn0.assign(0.01); syn1.assign(0.02); syn1Neg.assign(0.03); expTable.assign(0.5); auto alpha = NDArrayFactory::create(0.025); auto randomValue = NDArrayFactory::create(2L); auto inferenceVector = NDArrayFactory::empty(); nd4j::ops::cbow op; auto result = op.execute({&target, &ngStarter, &context, &indices, &codes, &syn0, &syn1, &syn1Neg, &expTable, &negTable, &alpha, &randomValue, &numWords, &locked, &inferenceVector}, {}, {1, 2, 0}, {true}, true); ASSERT_EQ(Status::OK(), result->status()); auto row_s0_0 = syn0({0,1, 0,0}, true); auto row_s0_1 = syn0({1,2, 0,0}, true); auto row_s0_2 = syn0({2,3, 0,0}, true); auto row_s1_4 = syn1({4,5, 0,0}, true); auto row_s1_5 = syn1({5,6, 0,0}, true); auto row_s1_6 = syn1Neg({6,7, 0,0}, true); ASSERT_EQ(exp0, row_s0_0); ASSERT_EQ(exp0, row_s0_1); ASSERT_EQ(exp0, row_s0_2); ASSERT_EQ(exp2, row_s1_6); delete result; } TEST_F(NlpTests, test_sg_hs_batch_1) { auto exp0 = NDArrayFactory::create('c', {1, 10}); auto exp1 = NDArrayFactory::create('c', {1, 10}); auto exp2 = NDArrayFactory::create('c', {1, 10}); exp0.assign(0.01f); exp1.assign(0.020005f); exp2.assign(0.019995f); auto target = NDArrayFactory::create('c', {2}, {0, 5}); auto ngStarter = NDArrayFactory::empty(); auto indices = NDArrayFactory::create('c', {2, 2}, {1, 2, 3, 4}); auto codes = NDArrayFactory::create('c', {2, 2}, {0, 1, 1, 1}); auto syn0 = NDArrayFactory::create('c', {100, 10}); auto syn1 = NDArrayFactory::create('c', {100, 10}); auto syn1Neg = NDArrayFactory::empty(); auto expTable = NDArrayFactory::create('c', {10000}); auto negTable = NDArrayFactory::empty(); auto alpha = NDArrayFactory::create('c', {2}, {0.001, 0.024}); auto randomValue = NDArrayFactory::create('c', {2}, {1L, 3L}); auto inferenceVector = NDArrayFactory::empty(); auto neu1e = NDArrayFactory::create('c', {2, 10}); syn0.assign(0.01); syn1.assign(0.02); expTable.assign(0.5); nd4j::ops::skipgram op; auto result = op.execute({&target, &ngStarter, &indices, &codes, &syn0, &syn1, &syn1Neg, &expTable, &negTable, &alpha, &randomValue, &inferenceVector, &neu1e}, {}, {}, {false, true}, true); ASSERT_EQ(Status::OK(), result->status()); auto row0 = syn0({0,1, 0,0}, true); auto row1 = syn1({1,2, 0,0}, true); auto row2 = syn1({2,3, 0,0}, true); ASSERT_TRUE(exp0.equalsTo(row0, 1e-6)); ASSERT_TRUE(exp1.equalsTo(row1, 1e-6)); ASSERT_TRUE(exp2.equalsTo(row2, 1e-6)); delete result; } TEST_F(NlpTests, test_sg_ns_batch_1) { auto exp0 = NDArrayFactory::create('c', {1, 10}); auto exp1 = NDArrayFactory::create('c', {1, 10}); auto exp2 = NDArrayFactory::create('c', {1, 10}); exp0.assign(0.01f); exp1.assign(0.020005f); exp2.assign(0.019995f); auto target = NDArrayFactory::create('c', {2}, {0, 5}); auto ngStarter = NDArrayFactory::create('c', {2}, {3, 8}); auto indices = NDArrayFactory::empty(); auto codes = NDArrayFactory::empty(); auto syn0 = NDArrayFactory::create('c', {100, 10}); auto syn1Neg = NDArrayFactory::create('c', {100, 10}); auto syn1 = NDArrayFactory::empty(); auto expTable = NDArrayFactory::create('c', {10000}); auto negTable = NDArrayFactory::create('c', {100000}); auto alpha = NDArrayFactory::create('c', {2}, {0.001, 0.024}); auto randomValue = NDArrayFactory::create('c', {2}, {1L, 3L}); auto inferenceVector = NDArrayFactory::empty(); auto neu1e = NDArrayFactory::create('c', {2, 10}); syn0.assign(0.01); syn1.assign(0.02); expTable.assign(0.5); negTable.linspace(0.0); nd4j::ops::skipgram op; auto result = op.execute({&target, &ngStarter, &indices, &codes, &syn0, &syn1, &syn1Neg, &expTable, &negTable, &alpha, &randomValue, &inferenceVector, &neu1e}, {}, {4, 5}, {false, true}, true); ASSERT_EQ(Status::OK(), result->status()); auto row0 = syn0({0,0, 0,0}, true); auto row1 = syn0({5,0, 0,0}, true); auto row2 = syn0({2,0, 0,0}, true); delete result; } TEST_F(NlpTests, test_cbow_hs_batch_1) { #ifdef __CUDABLAS__ return ; #endif auto target = NDArrayFactory::create(0); auto ngStarter = NDArrayFactory::empty(); auto context = NDArrayFactory::create('c', {2, 3}, {0, 1, 2, 100, 101, 102}); auto locked = NDArrayFactory::create('c', {2, 3}); auto indices = NDArrayFactory::create('c', {2, 2}, {4, 5, 40, 50}); auto codes = NDArrayFactory::create('c', {2, 2}, {1, 1, 1, 1}); auto syn0 = NDArrayFactory::create('c', {244, 10}); auto syn1 = NDArrayFactory::create('c', {244, 10}); auto syn1Neg = NDArrayFactory::empty(); auto expTable = NDArrayFactory::create('c', {10000}); auto negTable = NDArrayFactory::empty(); auto numWords = NDArrayFactory::create('c', {2}, {1, 2}); syn0.assign(0.01); syn1.assign(0.02); expTable.assign(0.5); auto alpha = NDArrayFactory::create('c', {2}, {0.025, 0.025}); auto randomValue = NDArrayFactory::create('c', {2}, {2L, 2L}); auto inferenceVector = NDArrayFactory::empty(); nd4j::ops::cbow op; auto result = op.execute({&target, &ngStarter, &context, &indices, &codes, &syn0, &syn1, &syn1Neg, &expTable, &negTable, &alpha, &randomValue, &numWords, &locked, &inferenceVector}, {}, {}, {true}, true); ASSERT_EQ(Status::OK(), result->status()); auto exp0 = NDArrayFactory::create('c', {1, 10}); auto exp1 = NDArrayFactory::create('c', {1, 10}); auto exp2 = NDArrayFactory::create('c', {1, 10}); exp0.assign(0.0095f); exp1.assign(0.019875f); exp2.assign(0.02f); auto row_s0_0 = syn0({0,1, 0,0}, true); auto row_s0_1 = syn0({1,2, 0,0}, true); auto row_s0_2 = syn0({2,3, 0,0}, true); auto row_s1_4 = syn1({4,5, 0,0}, true); auto row_s1_5 = syn1({5,6, 0,0}, true); auto row_s1_6 = syn1({6,7, 0,0}, true); ASSERT_EQ(exp0, row_s0_0); ASSERT_EQ(exp0, row_s0_1); ASSERT_EQ(exp0, row_s0_2); ASSERT_EQ(exp1, row_s1_4); ASSERT_EQ(exp1, row_s1_5); ASSERT_EQ(exp2, row_s1_6); delete result; }