import warnings import torch import tests.utils as tutils from pytorch_lightning import Trainer, data_loader from pytorch_lightning.callbacks import ( EarlyStopping, ) from pytorch_lightning.testing import ( LightningTestModel, LightningTestModelBase, LightningTestMixin, ) def test_early_stopping_cpu_model(tmpdir): """Test each of the trainer options.""" tutils.reset_seed() stopping = EarlyStopping(monitor='val_loss', min_delta=0.1) trainer_options = dict( default_save_path=tmpdir, early_stop_callback=stopping, gradient_clip_val=1.0, overfit_pct=0.20, track_grad_norm=2, print_nan_grads=True, show_progress_bar=True, logger=tutils.get_test_tube_logger(tmpdir), train_percent_check=0.1, val_percent_check=0.1 ) model, hparams = tutils.get_model() tutils.run_model_test(trainer_options, model, on_gpu=False) # test freeze on cpu model.freeze() model.unfreeze() def test_lbfgs_cpu_model(tmpdir): """Test each of the trainer options.""" tutils.reset_seed() trainer_options = dict( default_save_path=tmpdir, max_epochs=1, print_nan_grads=True, show_progress_bar=False, weights_summary='top', train_percent_check=1.0, val_percent_check=0.2 ) model, hparams = tutils.get_model(use_test_model=True, lbfgs=True) tutils.run_model_test_no_loggers(trainer_options, model, min_acc=0.30) def test_default_logger_callbacks_cpu_model(tmpdir): """Test each of the trainer options.""" tutils.reset_seed() trainer_options = dict( default_save_path=tmpdir, max_epochs=1, gradient_clip_val=1.0, overfit_pct=0.20, print_nan_grads=True, show_progress_bar=False, train_percent_check=0.01, val_percent_check=0.01 ) model, hparams = tutils.get_model() tutils.run_model_test_no_loggers(trainer_options, model) # test freeze on cpu model.freeze() model.unfreeze() def test_running_test_after_fitting(tmpdir): """Verify test() on fitted model.""" tutils.reset_seed() hparams = tutils.get_hparams() model = LightningTestModel(hparams) # logger file to get meta logger = tutils.get_test_tube_logger(tmpdir, False) # logger file to get weights checkpoint = tutils.init_checkpoint_callback(logger) trainer_options = dict( default_save_path=tmpdir, show_progress_bar=False, max_epochs=1, train_percent_check=0.4, val_percent_check=0.2, test_percent_check=0.2, checkpoint_callback=checkpoint, logger=logger ) # fit model trainer = Trainer(**trainer_options) result = trainer.fit(model) assert result == 1, 'training failed to complete' trainer.test() # test we have good test accuracy tutils.assert_ok_test_acc(trainer) def test_running_test_without_val(tmpdir): """Verify `test()` works on a model with no `val_loader`.""" tutils.reset_seed() class CurrentTestModel(LightningTestMixin, LightningTestModelBase): pass hparams = tutils.get_hparams() model = CurrentTestModel(hparams) # logger file to get meta logger = tutils.get_test_tube_logger(tmpdir, False) # logger file to get weights checkpoint = tutils.init_checkpoint_callback(logger) trainer_options = dict( show_progress_bar=False, max_epochs=1, train_percent_check=0.4, val_percent_check=0.2, test_percent_check=0.2, checkpoint_callback=checkpoint, logger=logger ) # fit model trainer = Trainer(**trainer_options) result = trainer.fit(model) assert result == 1, 'training failed to complete' trainer.test() # test we have good test accuracy tutils.assert_ok_test_acc(trainer) def test_single_gpu_batch_parse(): tutils.reset_seed() if not tutils.can_run_gpu_test(): return trainer = Trainer() # batch is just a tensor batch = torch.rand(2, 3) batch = trainer.transfer_batch_to_gpu(batch, 0) assert batch.device.index == 0 and batch.type() == 'torch.cuda.FloatTensor' # tensor list batch = [torch.rand(2, 3), torch.rand(2, 3)] batch = trainer.transfer_batch_to_gpu(batch, 0) assert batch[0].device.index == 0 and batch[0].type() == 'torch.cuda.FloatTensor' assert batch[1].device.index == 0 and batch[1].type() == 'torch.cuda.FloatTensor' # tensor list of lists batch = [[torch.rand(2, 3), torch.rand(2, 3)]] batch = trainer.transfer_batch_to_gpu(batch, 0) assert batch[0][0].device.index == 0 and batch[0][0].type() == 'torch.cuda.FloatTensor' assert batch[0][1].device.index == 0 and batch[0][1].type() == 'torch.cuda.FloatTensor' # tensor dict batch = [{'a': torch.rand(2, 3), 'b': torch.rand(2, 3)}] batch = trainer.transfer_batch_to_gpu(batch, 0) assert batch[0]['a'].device.index == 0 and batch[0]['a'].type() == 'torch.cuda.FloatTensor' assert batch[0]['b'].device.index == 0 and batch[0]['b'].type() == 'torch.cuda.FloatTensor' # tuple of tensor list and list of tensor dict batch = ([torch.rand(2, 3) for _ in range(2)], [{'a': torch.rand(2, 3), 'b': torch.rand(2, 3)} for _ in range(2)]) batch = trainer.transfer_batch_to_gpu(batch, 0) assert batch[0][0].device.index == 0 and batch[0][0].type() == 'torch.cuda.FloatTensor' assert batch[1][0]['a'].device.index == 0 assert batch[1][0]['a'].type() == 'torch.cuda.FloatTensor' assert batch[1][0]['b'].device.index == 0 assert batch[1][0]['b'].type() == 'torch.cuda.FloatTensor' def test_simple_cpu(tmpdir): """Verify continue training session on CPU.""" tutils.reset_seed() hparams = tutils.get_hparams() model = LightningTestModel(hparams) # logger file to get meta trainer_options = dict( default_save_path=tmpdir, max_epochs=1, val_percent_check=0.1, train_percent_check=0.1, ) # fit model trainer = Trainer(**trainer_options) result = trainer.fit(model) # traning complete assert result == 1, 'amp + ddp model failed to complete' def test_cpu_model(tmpdir): """Make sure model trains on CPU.""" tutils.reset_seed() trainer_options = dict( default_save_path=tmpdir, show_progress_bar=False, logger=tutils.get_test_tube_logger(tmpdir), max_epochs=1, train_percent_check=0.4, val_percent_check=0.4 ) model, hparams = tutils.get_model() tutils.run_model_test(trainer_options, model, on_gpu=False) def test_all_features_cpu_model(tmpdir): """Test each of the trainer options.""" tutils.reset_seed() trainer_options = dict( default_save_path=tmpdir, gradient_clip_val=1.0, overfit_pct=0.20, track_grad_norm=2, print_nan_grads=True, show_progress_bar=False, logger=tutils.get_test_tube_logger(tmpdir), accumulate_grad_batches=2, max_epochs=1, train_percent_check=0.4, val_percent_check=0.4 ) model, hparams = tutils.get_model() tutils.run_model_test(trainer_options, model, on_gpu=False) def test_tbptt_cpu_model(tmpdir): """Test truncated back propagation through time works.""" tutils.reset_seed() truncated_bptt_steps = 2 sequence_size = 30 batch_size = 30 x_seq = torch.rand(batch_size, sequence_size, 1) y_seq_list = torch.rand(batch_size, sequence_size, 1).tolist() class MockSeq2SeqDataset(torch.utils.data.Dataset): def __getitem__(self, i): return x_seq, y_seq_list def __len__(self): return 1 class BpttTestModel(LightningTestModelBase): def __init__(self, hparams): super().__init__(hparams) self.test_hidden = None def training_step(self, batch, batch_idx, hiddens): assert hiddens == self.test_hidden, "Hidden state not persistent between tbptt steps" self.test_hidden = torch.rand(1) x_tensor, y_list = batch assert x_tensor.shape[1] == truncated_bptt_steps, "tbptt split Tensor failed" y_tensor = torch.tensor(y_list, dtype=x_tensor.dtype) assert y_tensor.shape[1] == truncated_bptt_steps, "tbptt split list failed" pred = self.forward(x_tensor.view(batch_size, truncated_bptt_steps)) loss_val = torch.nn.functional.mse_loss( pred, y_tensor.view(batch_size, truncated_bptt_steps)) return { 'loss': loss_val, 'hiddens': self.test_hidden, } @data_loader def train_dataloader(self): return torch.utils.data.DataLoader( dataset=MockSeq2SeqDataset(), batch_size=batch_size, shuffle=False, sampler=None, ) trainer_options = dict( default_save_path=tmpdir, max_epochs=1, truncated_bptt_steps=truncated_bptt_steps, val_percent_check=0, weights_summary=None, ) hparams = tutils.get_hparams() hparams.batch_size = batch_size hparams.in_features = truncated_bptt_steps hparams.hidden_dim = truncated_bptt_steps hparams.out_features = truncated_bptt_steps model = BpttTestModel(hparams) # fit model trainer = Trainer(**trainer_options) result = trainer.fit(model) assert result == 1, 'training failed to complete' def test_single_gpu_model(tmpdir): """Make sure single GPU works (DP mode).""" tutils.reset_seed() if not torch.cuda.is_available(): warnings.warn('test_single_gpu_model cannot run.' ' Rerun on a GPU node to run this test') return model, hparams = tutils.get_model() trainer_options = dict( default_save_path=tmpdir, show_progress_bar=False, max_epochs=1, train_percent_check=0.1, val_percent_check=0.1, gpus=1 ) tutils.run_model_test(trainer_options, model) # if __name__ == '__main__': # pytest.main([__file__])