/* Copyright 2017 The TensorFlow Authors. All Rights Reserved. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://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. ==============================================================================*/ // Unit test for TFLite LSTM op. // // TODO(alanchiao): add unit test with invalid input dimensions for this and its // variants. #include #include #include #include #include "tensorflow/contrib/lite/interpreter.h" #include "tensorflow/contrib/lite/kernels/register.h" #include "tensorflow/contrib/lite/kernels/test_util.h" #include "tensorflow/contrib/lite/model.h" namespace tflite { namespace { using ::testing::ElementsAreArray; class LSTMOpModel : public SingleOpModel { public: LSTMOpModel(int n_batch, int n_input, int n_cell, int n_output, bool use_cifg, bool use_peephole, bool use_projection_weights, bool use_projection_bias, float cell_clip, float proj_clip, const std::vector>& input_shapes, const TensorType& weight_type = TensorType_FLOAT32) : n_batch_(n_batch), n_input_(n_input), n_cell_(n_cell), n_output_(n_output) { input_ = AddInput(TensorType_FLOAT32); if (use_cifg) { input_to_input_weights_ = AddNullInput(); } else { input_to_input_weights_ = AddInput(weight_type); } input_to_forget_weights_ = AddInput(weight_type); input_to_cell_weights_ = AddInput(weight_type); input_to_output_weights_ = AddInput(weight_type); if (use_cifg) { recurrent_to_input_weights_ = AddNullInput(); } else { recurrent_to_input_weights_ = AddInput(weight_type); } recurrent_to_forget_weights_ = AddInput(weight_type); recurrent_to_cell_weights_ = AddInput(weight_type); recurrent_to_output_weights_ = AddInput(weight_type); if (use_peephole) { if (use_cifg) { cell_to_input_weights_ = AddNullInput(); } else { cell_to_input_weights_ = AddInput(weight_type); } cell_to_forget_weights_ = AddInput(weight_type); cell_to_output_weights_ = AddInput(weight_type); } else { cell_to_input_weights_ = AddNullInput(); cell_to_forget_weights_ = AddNullInput(); cell_to_output_weights_ = AddNullInput(); } if (use_cifg) { input_gate_bias_ = AddNullInput(); } else { input_gate_bias_ = AddInput(TensorType_FLOAT32); } forget_gate_bias_ = AddInput(TensorType_FLOAT32); cell_bias_ = AddInput(TensorType_FLOAT32); output_gate_bias_ = AddInput(TensorType_FLOAT32); if (use_projection_weights) { projection_weights_ = AddInput(weight_type); if (use_projection_bias) { projection_bias_ = AddInput(TensorType_FLOAT32); } else { projection_bias_ = AddNullInput(); } } else { projection_weights_ = AddNullInput(); projection_bias_ = AddNullInput(); } // Adding the 2 input state tensors. input_activation_state_ = AddInput(TensorData{TensorType_FLOAT32, {n_output_ * n_batch_}}, true); input_cell_state_ = AddInput(TensorData{TensorType_FLOAT32, {n_cell_ * n_batch_}}, true); output_ = AddOutput(TensorType_FLOAT32); SetBuiltinOp(BuiltinOperator_LSTM, BuiltinOptions_LSTMOptions, CreateLSTMOptions(builder_, ActivationFunctionType_TANH, cell_clip, proj_clip) .Union()); BuildInterpreter(input_shapes); } void SetInputToInputWeights(std::initializer_list f) { PopulateTensor(input_to_input_weights_, f); } void SetInputToForgetWeights(std::initializer_list f) { PopulateTensor(input_to_forget_weights_, f); } void SetInputToCellWeights(std::initializer_list f) { PopulateTensor(input_to_cell_weights_, f); } void SetInputToOutputWeights(std::initializer_list f) { PopulateTensor(input_to_output_weights_, f); } void SetRecurrentToInputWeights(std::initializer_list f) { PopulateTensor(recurrent_to_input_weights_, f); } void SetRecurrentToForgetWeights(std::initializer_list f) { PopulateTensor(recurrent_to_forget_weights_, f); } void SetRecurrentToCellWeights(std::initializer_list f) { PopulateTensor(recurrent_to_cell_weights_, f); } void SetRecurrentToOutputWeights(std::initializer_list f) { PopulateTensor(recurrent_to_output_weights_, f); } void SetCellToInputWeights(std::initializer_list f) { PopulateTensor(cell_to_input_weights_, f); } void SetCellToForgetWeights(std::initializer_list f) { PopulateTensor(cell_to_forget_weights_, f); } void SetCellToOutputWeights(std::initializer_list f) { PopulateTensor(cell_to_output_weights_, f); } void SetInputGateBias(std::initializer_list f) { PopulateTensor(input_gate_bias_, f); } void SetForgetGateBias(std::initializer_list f) { PopulateTensor(forget_gate_bias_, f); } void SetCellBias(std::initializer_list f) { PopulateTensor(cell_bias_, f); } void SetOutputGateBias(std::initializer_list f) { PopulateTensor(output_gate_bias_, f); } void SetProjectionWeights(std::initializer_list f) { PopulateTensor(projection_weights_, f); } void SetProjectionBias(std::initializer_list f) { PopulateTensor(projection_bias_, f); } void SetInput(int offset, const float* begin, const float* end) { PopulateTensor(input_, offset, const_cast(begin), const_cast(end)); } std::vector GetOutput() { return ExtractVector(output_); } int num_inputs() { return n_input_; } int num_outputs() { return n_output_; } int num_cells() { return n_cell_; } int num_batches() { return n_batch_; } protected: int input_; int input_to_input_weights_; int input_to_forget_weights_; int input_to_cell_weights_; int input_to_output_weights_; int recurrent_to_input_weights_; int recurrent_to_forget_weights_; int recurrent_to_cell_weights_; int recurrent_to_output_weights_; int cell_to_input_weights_; int cell_to_forget_weights_; int cell_to_output_weights_; int input_gate_bias_; int forget_gate_bias_; int cell_bias_; int output_gate_bias_; int projection_weights_; int projection_bias_; int input_activation_state_; int input_cell_state_; int output_; int output_state_; int cell_state_; int n_batch_; int n_input_; int n_cell_; int n_output_; }; class HybridLSTMOpModel : public LSTMOpModel { public: HybridLSTMOpModel(int n_batch, int n_input, int n_cell, int n_output, bool use_cifg, bool use_peephole, bool use_projection_weights, bool use_projection_bias, float cell_clip, float proj_clip, const std::vector>& input_shapes) : LSTMOpModel(n_batch, n_input, n_cell, n_output, use_cifg, use_peephole, use_projection_weights, use_projection_bias, cell_clip, proj_clip, input_shapes, TensorType_UINT8) {} void SetInputToInputWeights(std::initializer_list f) { SymmetricQuantizeAndPopulate(input_to_input_weights_, f); } void SetInputToForgetWeights(std::initializer_list f) { SymmetricQuantizeAndPopulate(input_to_forget_weights_, f); } void SetInputToCellWeights(std::initializer_list f) { SymmetricQuantizeAndPopulate(input_to_cell_weights_, f); } void SetInputToOutputWeights(std::initializer_list f) { SymmetricQuantizeAndPopulate(input_to_output_weights_, f); } void SetRecurrentToInputWeights(std::initializer_list f) { SymmetricQuantizeAndPopulate(recurrent_to_input_weights_, f); } void SetRecurrentToForgetWeights(std::initializer_list f) { SymmetricQuantizeAndPopulate(recurrent_to_forget_weights_, f); } void SetRecurrentToCellWeights(std::initializer_list f) { SymmetricQuantizeAndPopulate(recurrent_to_cell_weights_, f); } void SetRecurrentToOutputWeights(std::initializer_list f) { SymmetricQuantizeAndPopulate(recurrent_to_output_weights_, f); } void SetCellToInputWeights(std::initializer_list f) { SymmetricQuantizeAndPopulate(cell_to_input_weights_, f); } void SetCellToForgetWeights(std::initializer_list f) { SymmetricQuantizeAndPopulate(cell_to_forget_weights_, f); } void SetCellToOutputWeights(std::initializer_list f) { SymmetricQuantizeAndPopulate(cell_to_output_weights_, f); } void SetProjectionWeights(std::initializer_list f) { SymmetricQuantizeAndPopulate(projection_weights_, f); } }; class BaseLstmTest : public ::testing::Test { protected: // Weights of the LSTM model. Some are optional. std::initializer_list input_to_input_weights_; std::initializer_list input_to_cell_weights_; std::initializer_list input_to_forget_weights_; std::initializer_list input_to_output_weights_; std::initializer_list input_gate_bias_; std::initializer_list cell_gate_bias_; std::initializer_list forget_gate_bias_; std::initializer_list output_gate_bias_; std::initializer_list recurrent_to_input_weights_; std::initializer_list recurrent_to_cell_weights_; std::initializer_list recurrent_to_forget_weights_; std::initializer_list recurrent_to_output_weights_; std::initializer_list cell_to_input_weights_; std::initializer_list cell_to_forget_weights_; std::initializer_list cell_to_output_weights_; std::initializer_list projection_weights_; // LSTM input is stored as num_batch x num_inputs vector. std::vector> lstm_input_; // LSTM output is stored as num_batch x num_outputs vector. std::vector> lstm_golden_output_; // Compares output up to tolerance to the result of the lstm given the input. void VerifyGoldens(const std::vector>& input, const std::vector>& output, LSTMOpModel* lstm, float tolerance = 1e-5) { const int num_batches = input.size(); EXPECT_GT(num_batches, 0); const int num_inputs = lstm->num_inputs(); EXPECT_GT(num_inputs, 0); const int input_sequence_size = input[0].size() / num_inputs; EXPECT_GT(input_sequence_size, 0); for (int i = 0; i < input_sequence_size; ++i) { for (int b = 0; b < num_batches; ++b) { const float* batch_start = input[b].data() + i * num_inputs; const float* batch_end = batch_start + num_inputs; lstm->SetInput(b * lstm->num_inputs(), batch_start, batch_end); } lstm->Invoke(); const int num_outputs = lstm->num_outputs(); std::vector expected; for (int b = 0; b < num_batches; ++b) { const float* golden_start_batch = output[b].data() + i * num_outputs; const float* golden_end_batch = golden_start_batch + num_outputs; expected.insert(expected.end(), golden_start_batch, golden_end_batch); } EXPECT_THAT(lstm->GetOutput(), ElementsAreArray(ArrayFloatNear(expected, tolerance))); } } }; class NoCifgNoPeepholeNoProjectionNoClippingLstmTest : public BaseLstmTest { void SetUp() override { input_to_input_weights_ = {-0.45018822, -0.02338299, -0.0870589, -0.34550029, 0.04266912, -0.15680569, -0.34856534, 0.43890524}; input_to_cell_weights_ = {-0.50013041, 0.1370284, 0.11810488, 0.2013163, -0.20583314, 0.44344562, 0.22077113, -0.29909778}; input_to_forget_weights_ = {0.09701663, 0.20334584, -0.50592935, -0.31343272, -0.40032279, 0.44781327, 0.01387155, -0.35593212}; input_to_output_weights_ = {-0.25065863, -0.28290087, 0.04613829, 0.40525138, 0.44272184, 0.03897077, -0.1556896, 0.19487578}; input_gate_bias_ = {0., 0., 0., 0.}; cell_gate_bias_ = {0., 0., 0., 0.}; forget_gate_bias_ = {1., 1., 1., 1.}; output_gate_bias_ = {0., 0., 0., 0.}; recurrent_to_input_weights_ = { -0.0063535, -0.2042388, 0.31454784, -0.35746509, 0.28902304, 0.08183324, -0.16555229, 0.02286911, -0.13566875, 0.03034258, 0.48091322, -0.12528998, 0.24077177, -0.51332325, -0.33502164, 0.10629296}; recurrent_to_cell_weights_ = { -0.3407414, 0.24443203, -0.2078532, 0.26320225, 0.05695659, -0.00123841, -0.4744786, -0.35869038, -0.06418842, -0.13502428, -0.501764, 0.22830659, -0.46367589, 0.26016325, -0.03894562, -0.16368064}; recurrent_to_forget_weights_ = { -0.48684245, -0.06655136, 0.42224967, 0.2112639, 0.27654213, 0.20864892, -0.07646349, 0.45877004, 0.00141793, -0.14609534, 0.36447752, 0.09196436, 0.28053468, 0.01560611, -0.20127171, -0.01140004}; recurrent_to_output_weights_ = { 0.43385774, -0.17194885, 0.2718237, 0.09215671, 0.24107647, -0.39835793, 0.18212086, 0.01301402, 0.48572797, -0.50656658, 0.20047462, -0.20607421, -0.51818722, -0.15390486, 0.0468148, 0.39922136}; lstm_input_ = {{2., 3., 3., 4., 1., 1.}}; lstm_golden_output_ = {{-0.02973187, 0.1229473, 0.20885126, -0.15358765, -0.03716109, 0.12507336, 0.41193449, -0.20860538, -0.15053082, 0.09120187, 0.24278517, -0.12222792}}; } }; TEST_F(NoCifgNoPeepholeNoProjectionNoClippingLstmTest, LstmBlackBoxTest) { const int n_batch = 1; const int n_input = 2; // n_cell and n_output have the same size when there is no projection. const int n_cell = 4; const int n_output = 4; LSTMOpModel lstm(n_batch, n_input, n_cell, n_output, /*use_cifg=*/false, /*use_peephole=*/false, /*use_projection_weights=*/false, /*use_projection_bias=*/false, /*cell_clip=*/0.0, /*proj_clip=*/0.0, { {n_batch, n_input}, // input tensor {n_cell, n_input}, // input_to_input_weight tensor {n_cell, n_input}, // input_to_forget_weight tensor {n_cell, n_input}, // input_to_cell_weight tensor {n_cell, n_input}, // input_to_output_weight tensor {n_cell, n_output}, // recurrent_to_input_weight_tensor {n_cell, n_output}, // recurrent_to_forget_weight_tensor {n_cell, n_output}, // recurrent_to_cell_weight_tensor {n_cell, n_output}, // recurrent_to_output_weight_tensor {0}, // cell_to_input_weight tensor {0}, // cell_to_forget_weight tensor {0}, // cell_to_output_weight tensor {n_cell}, // input_gate_bias tensor {n_cell}, // forget_gate_bias tensor {n_cell}, // cell_bias tensor {n_cell}, // output_gate_bias tensor {0, 0}, // projection_weight tensor {0}, // projection_bias tensor }); lstm.SetInputToInputWeights(input_to_input_weights_); lstm.SetInputToCellWeights(input_to_cell_weights_); lstm.SetInputToForgetWeights(input_to_forget_weights_); lstm.SetInputToOutputWeights(input_to_output_weights_); lstm.SetInputGateBias(input_gate_bias_); lstm.SetCellBias(cell_gate_bias_); lstm.SetForgetGateBias(forget_gate_bias_); lstm.SetOutputGateBias(output_gate_bias_); lstm.SetRecurrentToInputWeights(recurrent_to_input_weights_); lstm.SetRecurrentToCellWeights(recurrent_to_cell_weights_); lstm.SetRecurrentToForgetWeights(recurrent_to_forget_weights_); lstm.SetRecurrentToOutputWeights(recurrent_to_output_weights_); VerifyGoldens(lstm_input_, lstm_golden_output_, &lstm); } TEST_F(NoCifgNoPeepholeNoProjectionNoClippingLstmTest, HybridLstmBlackBoxTest) { const int n_batch = 1; const int n_input = 2; // n_cell and n_output have the same size when there is no projection. const int n_cell = 4; const int n_output = 4; HybridLSTMOpModel lstm( n_batch, n_input, n_cell, n_output, /*use_cifg=*/false, /*use_peephole=*/false, /*use_projection_weights=*/false, /*use_projection_bias=*/false, /*cell_clip=*/0.0, /*proj_clip=*/0.0, { {n_batch, n_input}, // input tensor {n_cell, n_input}, // input_to_input_weight tensor {n_cell, n_input}, // input_to_forget_weight tensor {n_cell, n_input}, // input_to_cell_weight tensor {n_cell, n_input}, // input_to_output_weight tensor {n_cell, n_output}, // recurrent_to_input_weight tensor {n_cell, n_output}, // recurrent_to_forget_weight tensor {n_cell, n_output}, // recurrent_to_cell_weight tensor {n_cell, n_output}, // recurrent_to_output_weight tensor {0}, // cell_to_input_weight tensor {0}, // cell_to_forget_weight tensor {0}, // cell_to_output_weight tensor {n_cell}, // input_gate_bias tensor {n_cell}, // forget_gate_bias tensor {n_cell}, // cell_bias tensor {n_cell}, // output_gate_bias tensor {0, 0}, // projection_weight tensor {0}, // projection_bias tensor }); lstm.SetInputToInputWeights(input_to_input_weights_); lstm.SetInputToCellWeights(input_to_cell_weights_); lstm.SetInputToForgetWeights(input_to_forget_weights_); lstm.SetInputToOutputWeights(input_to_output_weights_); lstm.SetInputGateBias(input_gate_bias_); lstm.SetCellBias(cell_gate_bias_); lstm.SetForgetGateBias(forget_gate_bias_); lstm.SetOutputGateBias(output_gate_bias_); lstm.SetRecurrentToInputWeights(recurrent_to_input_weights_); lstm.SetRecurrentToCellWeights(recurrent_to_cell_weights_); lstm.SetRecurrentToForgetWeights(recurrent_to_forget_weights_); lstm.SetRecurrentToOutputWeights(recurrent_to_output_weights_); VerifyGoldens(lstm_input_, lstm_golden_output_, &lstm, /*tolerance=*/0.0157651); } class CifgNoPeepholeNoProjectionNoClippingLstmTest : public BaseLstmTest { void SetUp() override { input_to_cell_weights_ = {-0.49770179, -0.27711356, -0.09624726, 0.05100781, 0.04717243, 0.48944736, -0.38535351, -0.17212132}; input_to_forget_weights_ = {-0.55291498, -0.42866567, 0.13056988, -0.3633365, -0.22755712, 0.28253698, 0.24407166, 0.33826375}; input_to_output_weights_ = {0.10725588, -0.02335852, -0.55932593, -0.09426838, -0.44257352, 0.54939759, 0.01533556, 0.42751634}; cell_gate_bias_ = {0., 0., 0., 0.}; forget_gate_bias_ = {1., 1., 1., 1.}; output_gate_bias_ = {0., 0., 0., 0.}; recurrent_to_cell_weights_ = { 0.54066205, -0.32668582, -0.43562764, -0.56094903, 0.42957711, 0.01841056, -0.32764608, -0.33027974, -0.10826075, 0.20675004, 0.19069612, -0.03026325, -0.54532051, 0.33003211, 0.44901288, 0.21193194}; recurrent_to_forget_weights_ = { -0.13832897, -0.0515101, -0.2359007, -0.16661474, -0.14340827, 0.36986142, 0.23414481, 0.55899, 0.10798943, -0.41174671, 0.17751795, -0.34484994, -0.35874045, -0.11352962, 0.27268326, 0.54058349}; recurrent_to_output_weights_ = { 0.41613156, 0.42610586, -0.16495961, -0.5663873, 0.30579174, -0.05115908, -0.33941799, 0.23364776, 0.11178309, 0.09481031, -0.26424935, 0.46261835, 0.50248802, 0.26114327, -0.43736315, 0.33149987}; cell_to_forget_weights_ = {0.47485286, -0.51955009, -0.24458408, 0.31544167}; cell_to_output_weights_ = {-0.17135078, 0.82760304, 0.85573703, -0.77109635}; lstm_input_ = {{2., 3., 3., 4., 1., 1.}}; lstm_golden_output_ = {{-0.36444446, -0.00352185, 0.12886585, -0.05163646, -0.42312205, -0.01218222, 0.24201041, -0.08124574, -0.358325, -0.04621704, 0.21641694, -0.06471302}}; } }; TEST_F(CifgNoPeepholeNoProjectionNoClippingLstmTest, LstmBlackBoxTest) { const int n_batch = 1; const int n_input = 2; // n_cell and n_output have the same size when there is no projection. const int n_cell = 4; const int n_output = 4; LSTMOpModel lstm(n_batch, n_input, n_cell, n_output, /*use_cifg=*/true, /*use_peephole=*/true, /*use_projection_weights=*/false, /*use_projection_bias=*/false, /*cell_clip=*/0.0, /*proj_clip=*/0.0, { {n_batch, n_input}, // input tensor {0, 0}, // input_to_input_weight tensor {n_cell, n_input}, // input_to_forget_weight tensor {n_cell, n_input}, // input_to_cell_weight tensor {n_cell, n_input}, // input_to_output_weight tensor {0, 0}, // recurrent_to_input_weight tensor {n_cell, n_output}, // recurrent_to_forget_weight tensor {n_cell, n_output}, // recurrent_to_cell_weight tensor {n_cell, n_output}, // recurrent_to_output_weight tensor {0}, // cell_to_input_weight tensor {n_cell}, // cell_to_forget_weight tensor {n_cell}, // cell_to_output_weight tensor {0}, // input_gate_bias tensor {n_cell}, // forget_gate_bias tensor {n_cell}, // cell_bias tensor {n_cell}, // output_gate_bias tensor {0, 0}, // projection_weight tensor {0}, // projection_bias tensor }); lstm.SetInputToCellWeights(input_to_cell_weights_); lstm.SetInputToForgetWeights(input_to_forget_weights_); lstm.SetInputToOutputWeights(input_to_output_weights_); lstm.SetCellBias(cell_gate_bias_); lstm.SetForgetGateBias(forget_gate_bias_); lstm.SetOutputGateBias(output_gate_bias_); lstm.SetRecurrentToCellWeights(recurrent_to_cell_weights_); lstm.SetRecurrentToForgetWeights(recurrent_to_forget_weights_); lstm.SetRecurrentToOutputWeights(recurrent_to_output_weights_); lstm.SetCellToForgetWeights(cell_to_forget_weights_); lstm.SetCellToOutputWeights(cell_to_output_weights_); VerifyGoldens(lstm_input_, lstm_golden_output_, &lstm); } TEST_F(CifgNoPeepholeNoProjectionNoClippingLstmTest, HybridLstmBlackBoxTest) { const int n_batch = 1; const int n_input = 2; // n_cell and n_output have the same size when there is no projection. const int n_cell = 4; const int n_output = 4; HybridLSTMOpModel lstm( n_batch, n_input, n_cell, n_output, /*use_cifg=*/true, /*use_peephole=*/true, /*use_projection_weights=*/false, /*use_projection_bias=*/false, /*cell_clip=*/0.0, /*proj_clip=*/0.0, { {n_batch, n_input}, // input tensor {0, 0}, // input_to_input_weight tensor {n_cell, n_input}, // input_to_forget_weight tensor {n_cell, n_input}, // input_to_cell_weight tensor {n_cell, n_input}, // input_to_output_weight tensor {0, 0}, // recurrent_to_input_weight tensor {n_cell, n_output}, // recurrent_to_forget_weight tensor {n_cell, n_output}, // recurrent_to_cell_weight tensor {n_cell, n_output}, // recurrent_to_output_weight tensor {0}, // cell_to_input_weight tensor {n_cell}, // cell_to_forget_weight tensor {n_cell}, // cell_to_output_weight tensor {0}, // input_gate_bias tensor {n_cell}, // forget_gate_bias tensor {n_cell}, // cell_bias tensor {n_cell}, // output_gate_bias tensor {0, 0}, // projection_weight tensor {0}, // projection_bias tensor }); lstm.SetInputToCellWeights(input_to_cell_weights_); lstm.SetInputToForgetWeights(input_to_forget_weights_); lstm.SetInputToOutputWeights(input_to_output_weights_); lstm.SetCellBias(cell_gate_bias_); lstm.SetForgetGateBias(forget_gate_bias_); lstm.SetOutputGateBias(output_gate_bias_); lstm.SetRecurrentToCellWeights(recurrent_to_cell_weights_); lstm.SetRecurrentToForgetWeights(recurrent_to_forget_weights_); lstm.SetRecurrentToOutputWeights(recurrent_to_output_weights_); lstm.SetCellToForgetWeights(cell_to_forget_weights_); lstm.SetCellToOutputWeights(cell_to_output_weights_); VerifyGoldens(lstm_input_, lstm_golden_output_, &lstm, /*tolerance=*/0.03573); } class NoCifgPeepholeProjectionNoClippingLstmTest : public BaseLstmTest { void SetUp() override { input_to_input_weights_ = { 0.021393683, 0.06124551, 0.046905167, -0.014657677, -0.03149463, 0.09171803, 0.14647801, 0.10797193, -0.0057968358, 0.0019193048, -0.2726754, 0.10154029, -0.018539885, 0.080349885, -0.10262385, -0.022599787, -0.09121155, -0.008675967, -0.045206103, -0.0821282, -0.008045952, 0.015478081, 0.055217247, 0.038719587, 0.044153627, -0.06453243, 0.05031825, -0.046935108, -0.008164439, 0.014574226, -0.1671009, -0.15519552, -0.16819797, -0.13971269, -0.11953059, 0.25005487, -0.22790983, 0.009855087, -0.028140958, -0.11200698, 0.11295408, -0.0035217577, 0.054485075, 0.05184695, 0.064711206, 0.10989193, 0.11674786, 0.03490607, 0.07727357, 0.11390585, -0.1863375, -0.1034451, -0.13945189, -0.049401227, -0.18767063, 0.042483903, 0.14233552, 0.13832581, 0.18350165, 0.14545603, -0.028545704, 0.024939531, 0.050929718, 0.0076203286, -0.0029723682, -0.042484224, -0.11827596, -0.09171104, -0.10808628, -0.16327988, -0.2273378, -0.0993647, -0.017155107, 0.0023917493, 0.049272764, 0.0038534778, 0.054764505, 0.089753784, 0.06947234, 0.08014476, -0.04544234, -0.0497073, -0.07135631, -0.048929106, -0.004042012, -0.009284026, 0.018042054, 0.0036860977, -0.07427302, -0.11434604, -0.018995456, 0.031487543, 0.012834908, 0.019977754, 0.044256654, -0.39292613, -0.18519334, -0.11651281, -0.06809892, 0.011373677}; input_to_forget_weights_ = { -0.0018401089, -0.004852237, 0.03698424, 0.014181704, 0.028273236, -0.016726194, -0.05249759, -0.10204261, 0.00861066, -0.040979505, -0.009899187, 0.01923892, -0.028177269, -0.08535103, -0.14585495, 0.10662567, -0.01909731, -0.017883534, -0.0047269356, -0.045103323, 0.0030784295, 0.076784775, 0.07463696, 0.094531395, 0.0814421, -0.12257899, -0.033945758, -0.031303465, 0.045630626, 0.06843887, -0.13492945, -0.012480007, -0.0811829, -0.07224499, -0.09628791, 0.045100946, 0.0012300825, 0.013964662, 0.099372394, 0.02543059, 0.06958324, 0.034257296, 0.0482646, 0.06267997, 0.052625068, 0.12784666, 0.07077897, 0.025725935, 0.04165009, 0.07241905, 0.018668644, -0.037377294, -0.06277783, -0.08833636, -0.040120605, -0.011405586, -0.007808335, -0.010301386, -0.005102167, 0.027717464, 0.05483423, 0.11449111, 0.11289652, 0.10939839, 0.13396506, -0.08402166, -0.01901462, -0.044678304, -0.07720565, 0.014350063, -0.11757958, -0.0652038, -0.08185733, -0.076754324, -0.092614375, 0.10405491, 0.052960336, 0.035755895, 0.035839386, -0.012540553, 0.036881298, 0.02913376, 0.03420159, 0.05448447, -0.054523353, 0.02582715, 0.02327355, -0.011857179, -0.0011980024, -0.034641717, -0.026125094, -0.17582615, -0.15923657, -0.27486774, -0.0006143371, 0.0001771948, -8.470171e-05, 0.02651807, 0.045790765, 0.06956496}; input_to_cell_weights_ = { -0.04580283, -0.09549462, -0.032418985, -0.06454633, -0.043528453, 0.043018587, -0.049152344, -0.12418144, -0.078985475, -0.07596889, 0.019484362, -0.11434962, -0.0074034138, -0.06314844, -0.092981495, 0.0062155537, -0.025034338, -0.0028890965, 0.048929527, 0.06235075, 0.10665918, -0.032036792, -0.08505916, -0.10843358, -0.13002433, -0.036816437, -0.02130134, -0.016518239, 0.0047691227, -0.0025825808, 0.066017866, 0.029991534, -0.10652836, -0.1037554, -0.13056071, -0.03266643, -0.033702414, -0.006473424, -0.04611692, 0.014419339, -0.025174323, 0.0396852, 0.081777506, 0.06157468, 0.10210095, -0.009658194, 0.046511717, 0.03603906, 0.0069369148, 0.015960095, -0.06507666, 0.09551598, 0.053568836, 0.06408714, 0.12835667, -0.008714329, -0.20211966, -0.12093674, 0.029450472, 0.2849013, -0.029227901, 0.1164364, -0.08560263, 0.09941786, -0.036999565, -0.028842626, -0.0033637602, -0.017012902, -0.09720865, -0.11193351, -0.029155117, -0.017936034, -0.009768936, -0.04223324, -0.036159635, 0.06505112, -0.021742892, -0.023377212, -0.07221364, -0.06430552, 0.05453865, 0.091149814, 0.06387331, 0.007518393, 0.055960953, 0.069779344, 0.046411168, 0.10509911, 0.07463894, 0.0075130584, 0.012850982, 0.04555431, 0.056955688, 0.06555285, 0.050801456, -0.009862683, 0.00826772, -0.026555609, -0.0073611983, -0.0014897042}; input_to_output_weights_ = { -0.0998932, -0.07201956, -0.052803773, -0.15629593, -0.15001918, -0.07650751, 0.02359855, -0.075155355, -0.08037709, -0.15093534, 0.029517552, -0.04751393, 0.010350531, -0.02664851, -0.016839722, -0.023121163, 0.0077019283, 0.012851257, -0.05040649, -0.0129761, -0.021737747, -0.038305793, -0.06870586, -0.01481247, -0.001285394, 0.10124236, 0.083122835, 0.053313006, -0.062235646, -0.075637154, -0.027833903, 0.029774971, 0.1130802, 0.09218906, 0.09506135, -0.086665764, -0.037162706, -0.038880914, -0.035832845, -0.014481564, -0.09825003, -0.12048569, -0.097665586, -0.05287633, -0.0964047, -0.11366429, 0.035777505, 0.13568819, 0.052451383, 0.050649304, 0.05798951, -0.021852335, -0.099848844, 0.014740475, -0.078897946, 0.04974699, 0.014160473, 0.06973932, 0.04964942, 0.033364646, 0.08190124, 0.025535367, 0.050893165, 0.048514254, 0.06945813, -0.078907564, -0.06707616, -0.11844508, -0.09986688, -0.07509403, 0.06263226, 0.14925587, 0.20188436, 0.12098451, 0.14639415, 0.0015017595, -0.014267382, -0.03417257, 0.012711468, 0.0028300495, -0.024758482, -0.05098548, -0.0821182, 0.014225672, 0.021544158, 0.08949725, 0.07505268, -0.0020780868, 0.04908258, 0.06476295, -0.022907063, 0.027562456, 0.040185735, 0.019567577, -0.015598739, -0.049097303, -0.017121866, -0.083368234, -0.02332002, -0.0840956}; input_gate_bias_ = {0.02234832, 0.14757581, 0.18176508, 0.10380666, 0.053110216, -0.06928846, -0.13942584, -0.11816189, 0.19483899, 0.03652339, -0.10250295, 0.036714908, -0.18426876, 0.036065217, 0.21810818, 0.02383196, -0.043370757, 0.08690144, -0.04444982, 0.00030581196}; forget_gate_bias_ = {0.035185695, -0.042891346, -0.03032477, 0.23027696, 0.11098921, 0.15378423, 0.09263801, 0.09790885, 0.09508917, 0.061199076, 0.07665568, -0.015443159, -0.03499149, 0.046190713, 0.08895977, 0.10899629, 0.40694186, 0.06030037, 0.012413437, -0.06108739}; cell_gate_bias_ = {-0.024379363, 0.0055531194, 0.23377132, 0.033463873, -0.1483596, -0.10639995, -0.091433935, 0.058573797, -0.06809782, -0.07889636, -0.043246906, -0.09829136, -0.4279842, 0.034901652, 0.18797937, 0.0075234566, 0.016178843, 0.1749513, 0.13975595, 0.92058027}; output_gate_bias_ = {0.046159424, -0.0012809046, 0.03563469, 0.12648113, 0.027195795, 0.35373217, -0.018957434, 0.008907322, -0.0762701, 0.12018895, 0.04216877, 0.0022856654, 0.040952638, 0.3147856, 0.08225149, -0.057416286, -0.14995944, -0.008040261, 0.13208859, 0.029760877}; 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lstm_input_ = { {// Batch0: 4 (input_sequence_size) * 5 (n_input) 0.787926, 0.151646, 0.071352, 0.118426, 0.458058, // step 0 0.596268, 0.998386, 0.568695, 0.864524, 0.571277, // step 1 0.073204, 0.296072, 0.743333, 0.069199, 0.045348, // step 2 0.867394, 0.291279, 0.013714, 0.482521, 0.626339}, // step 3 {// Batch1: 4 (input_sequence_size) * 5 (n_input) 0.295743, 0.544053, 0.690064, 0.858138, 0.497181, // step 0 0.642421, 0.524260, 0.134799, 0.003639, 0.162482, // step 1 0.640394, 0.930399, 0.050782, 0.432485, 0.988078, // step 2 0.082922, 0.563329, 0.865614, 0.333232, 0.259916} // step 3 }; lstm_golden_output_ = { {// Batch0: 4 (input_sequence_size) * 16 (n_output) -0.00396806, 0.029352, -0.00279226, 0.0159977, -0.00835576, -0.0211779, 0.0283512, -0.0114597, 0.00907307, -0.0244004, -0.0152191, -0.0259063, 0.00914318, 0.00415118, 0.017147, 0.0134203, -0.0166936, 0.0381209, 0.000889694, 0.0143363, -0.0328911, -0.0234288, 0.0333051, -0.012229, 0.0110322, -0.0457725, -0.000832209, -0.0202817, 0.0327257, 0.0121308, 0.0155969, 0.0312091, -0.0213783, 0.0350169, 0.000324794, 0.0276012, -0.0263374, -0.0371449, 0.0446149, -0.0205474, 0.0103729, -0.0576349, -0.0150052, -0.0292043, 0.0376827, 0.0136115, 0.0243435, 0.0354492, -0.0189322, 0.0464512, -0.00251373, 0.0225745, -0.0308346, -0.0317124, 0.0460407, -0.0189395, 0.0149363, -0.0530162, -0.0150767, -0.0340193, 0.0286833, 0.00824207, 0.0264887, 0.0305169}, {// Batch1: 4 (input_sequence_size) * 16 (n_output) -0.013869, 0.0287268, -0.00334693, 0.00733398, -0.0287926, -0.0186926, 0.0193662, -0.0115437, 0.00422612, -0.0345232, 0.00223253, -0.00957321, 0.0210624, 0.013331, 0.0150954, 0.02168, -0.0141913, 0.0322082, 0.00227024, 0.0260507, -0.0188721, -0.0296489, 0.0399134, -0.0160509, 0.0116039, -0.0447318, -0.0150515, -0.0277406, 0.0316596, 0.0118233, 0.0214762, 0.0293641, -0.0204549, 0.0450315, -0.00117378, 0.0167673, -0.0375007, -0.0238314, 0.038784, -0.0174034, 0.0131743, -0.0506589, -0.0048447, -0.0240239, 0.0325789, 0.00790065, 0.0220157, 0.0333314, -0.0264787, 0.0387855, -0.000764675, 0.0217599, -0.037537, -0.0335206, 0.0431679, -0.0211424, 0.010203, -0.062785, -0.00832363, -0.025181, 0.0412031, 0.0118723, 0.0239643, 0.0394009}}; } }; TEST_F(NoCifgPeepholeProjectionNoClippingLstmTest, LstmBlackBoxTest) { const int n_batch = 2; const int n_input = 5; const int n_cell = 20; const int n_output = 16; LSTMOpModel lstm(n_batch, n_input, n_cell, n_output, /*use_cifg=*/false, /*use_peephole=*/true, /*use_projection_weights=*/true, /*use_projection_bias=*/false, /*cell_clip=*/0.0, /*proj_clip=*/0.0, { {n_batch, n_input}, // input tensor {n_cell, n_input}, // input_to_input_weight tensor {n_cell, n_input}, // input_to_forget_weight tensor {n_cell, n_input}, // input_to_cell_weight tensor {n_cell, n_input}, // input_to_output_weight tensor {n_cell, n_output}, // recurrent_to_input_weight tensor {n_cell, n_output}, // recurrent_to_forget_weight tensor {n_cell, n_output}, // recurrent_to_cell_weight tensor {n_cell, n_output}, // recurrent_to_output_weight tensor {n_cell}, // cell_to_input_weight tensor {n_cell}, // cell_to_forget_weight tensor {n_cell}, // cell_to_output_weight tensor {n_cell}, // input_gate_bias tensor {n_cell}, // forget_gate_bias tensor {n_cell}, // cell_bias tensor {n_cell}, // output_gate_bias tensor {n_output, n_cell}, // projection_weight tensor {0}, // projection_bias tensor }); lstm.SetInputToInputWeights(input_to_input_weights_); lstm.SetInputToCellWeights(input_to_cell_weights_); lstm.SetInputToForgetWeights(input_to_forget_weights_); lstm.SetInputToOutputWeights(input_to_output_weights_); lstm.SetInputGateBias(input_gate_bias_); lstm.SetCellBias(cell_gate_bias_); lstm.SetForgetGateBias(forget_gate_bias_); lstm.SetOutputGateBias(output_gate_bias_); lstm.SetRecurrentToInputWeights(recurrent_to_input_weights_); lstm.SetRecurrentToCellWeights(recurrent_to_cell_weights_); lstm.SetRecurrentToForgetWeights(recurrent_to_forget_weights_); lstm.SetRecurrentToOutputWeights(recurrent_to_output_weights_); lstm.SetCellToInputWeights(cell_to_input_weights_); lstm.SetCellToForgetWeights(cell_to_forget_weights_); lstm.SetCellToOutputWeights(cell_to_output_weights_); lstm.SetProjectionWeights(projection_weights_); VerifyGoldens(lstm_input_, lstm_golden_output_, &lstm); } TEST_F(NoCifgPeepholeProjectionNoClippingLstmTest, HybridLstmBlackBoxTest) { const int n_batch = 2; const int n_input = 5; const int n_cell = 20; const int n_output = 16; HybridLSTMOpModel lstm( n_batch, n_input, n_cell, n_output, /*use_cifg=*/false, /*use_peephole=*/true, /*use_projection_weights=*/true, /*use_projection_bias=*/false, /*cell_clip=*/0.0, /*proj_clip=*/0.0, { {n_batch, n_input}, // input tensor {n_cell, n_input}, // input_to_input_weight tensor {n_cell, n_input}, // input_to_forget_weight tensor {n_cell, n_input}, // input_to_cell_weight tensor {n_cell, n_input}, // input_to_output_weight tensor {n_cell, n_output}, // recurrent_to_input_weight tensor {n_cell, n_output}, // recurrent_to_forget_weight tensor {n_cell, n_output}, // recurrent_to_cell_weight tensor {n_cell, n_output}, // recurrent_to_output_weight tensor {n_cell}, // cell_to_input_weight tensor {n_cell}, // cell_to_forget_weight tensor {n_cell}, // cell_to_output_weight tensor {n_cell}, // input_gate_bias tensor {n_cell}, // forget_gate_bias tensor {n_cell}, // cell_bias tensor {n_cell}, // output_gate_bias tensor {n_output, n_cell}, // projection_weight tensor {0}, // projection_bias tensor }); lstm.SetInputToInputWeights(input_to_input_weights_); lstm.SetInputToCellWeights(input_to_cell_weights_); lstm.SetInputToForgetWeights(input_to_forget_weights_); lstm.SetInputToOutputWeights(input_to_output_weights_); lstm.SetInputGateBias(input_gate_bias_); lstm.SetCellBias(cell_gate_bias_); lstm.SetForgetGateBias(forget_gate_bias_); lstm.SetOutputGateBias(output_gate_bias_); lstm.SetRecurrentToInputWeights(recurrent_to_input_weights_); lstm.SetRecurrentToCellWeights(recurrent_to_cell_weights_); lstm.SetRecurrentToForgetWeights(recurrent_to_forget_weights_); lstm.SetRecurrentToOutputWeights(recurrent_to_output_weights_); lstm.SetCellToInputWeights(cell_to_input_weights_); lstm.SetCellToForgetWeights(cell_to_forget_weights_); lstm.SetCellToOutputWeights(cell_to_output_weights_); lstm.SetProjectionWeights(projection_weights_); VerifyGoldens(lstm_input_, lstm_golden_output_, &lstm, /*tolerance=*/0.00467); } } // namespace } // namespace tflite int main(int argc, char** argv) { ::tflite::LogToStderr(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); }