mirror of
https://github.com/finegrain-ai/refiners.git
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338 lines
10 KiB
Python
338 lines
10 KiB
Python
import random
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import warnings
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from dataclasses import dataclass
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from pathlib import Path
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import pytest
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import torch
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from torch import Tensor, nn
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from torch.optim.sgd import SGD
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from refiners.fluxion import layers as fl
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from refiners.fluxion.utils import norm
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from refiners.training_utils.callback import Callback, CallbackConfig
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from refiners.training_utils.clock import ClockConfig
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from refiners.training_utils.common import (
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Epoch,
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Step,
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count_learnable_parameters,
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human_readable_number,
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scoped_seed,
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)
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from refiners.training_utils.config import BaseConfig, IterationOrEpochField, ModelConfig, TimeValueField
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from refiners.training_utils.data_loader import DataLoaderConfig, create_data_loader
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from refiners.training_utils.trainer import (
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Trainer,
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TrainingClock,
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WarmupScheduler,
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count_learnable_parameters,
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human_readable_number,
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register_callback,
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register_model,
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)
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@dataclass
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class MockBatch:
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inputs: torch.Tensor
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targets: torch.Tensor
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class MockModelConfig(ModelConfig):
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use_activation: bool
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class MockCallbackConfig(CallbackConfig):
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on_batch_end_interval: TimeValueField
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on_batch_end_seed: int
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on_optimizer_step_interval: IterationOrEpochField
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class MockConfig(BaseConfig):
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# we register the `early_callback` before the `clock` callback to test the callback ordering
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early_callback: CallbackConfig = CallbackConfig()
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clock: ClockConfig = ClockConfig()
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mock_model: MockModelConfig
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mock_callback: MockCallbackConfig
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data_loader: DataLoaderConfig
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class MockModel(fl.Chain):
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def __init__(self):
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super().__init__(
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fl.Linear(10, 10),
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fl.Linear(10, 10),
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fl.Linear(10, 10),
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)
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def add_activation(self) -> None:
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self.insert(1, fl.SiLU())
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self.insert(3, fl.SiLU())
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class MockCallback(Callback["MockTrainer"]):
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def __init__(self, config: MockCallbackConfig) -> None:
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self.config = config
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self.optimizer_step_count = 0
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self.step_end_count = 0
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self.optimizer_step_random_int: int | None = None
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self.step_end_random_int: int | None = None
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def on_init_begin(self, trainer: "MockTrainer") -> None:
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pass
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def on_optimizer_step_begin(self, trainer: "MockTrainer") -> None:
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if not trainer.clock.is_due(self.config.on_optimizer_step_interval):
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return
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self.optimizer_step_count += 1
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self.optimizer_step_random_int = random.randint(0, 100)
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def on_step_end(self, trainer: "MockTrainer") -> None:
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if not trainer.clock.is_due(self.config.on_batch_end_interval):
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return
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# We verify that this callback is always called before the clock is updated (see `_call_callbacks` in trainer.py)
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assert trainer.clock.step // 3 <= self.step_end_count
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self.step_end_count += 1
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with scoped_seed(self.config.on_batch_end_seed):
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self.step_end_random_int = random.randint(0, 100)
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class EarlyMockCallback(Callback["MockTrainer"]):
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"""
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A callback that will be registered before the Clock callback to test the callback ordering.
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"""
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def on_train_begin(self, trainer: "MockTrainer") -> None:
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assert trainer.clock.start_time is not None, "Clock callback should have been called before this callback."
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class MockTrainer(Trainer[MockConfig, MockBatch]):
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step_counter: int = 0
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model_registration_counter: int = 0
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@property
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def dataset_length(self) -> int:
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return 20
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def get_item(self, index: int) -> MockBatch:
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return MockBatch(inputs=torch.randn(1, 10), targets=torch.randn(1, 10))
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def collate_fn(self, batch: list[MockBatch]) -> MockBatch:
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return MockBatch(
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inputs=torch.cat([b.inputs for b in batch]),
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targets=torch.cat([b.targets for b in batch]),
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)
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def create_data_iterable(self):
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return create_data_loader(
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get_item=self.get_item,
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length=self.dataset_length,
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config=self.config.data_loader,
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collate_fn=self.collate_fn,
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)
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@register_callback()
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def early_callback(self, config: CallbackConfig) -> EarlyMockCallback:
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return EarlyMockCallback()
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@register_callback()
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def mock_callback(self, config: MockCallbackConfig) -> MockCallback:
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return MockCallback(config)
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@register_model()
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def mock_model(self, config: MockModelConfig) -> MockModel:
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model = MockModel()
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if config.use_activation:
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model.add_activation()
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self.model_registration_counter += 1
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return model
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def compute_loss(self, batch: MockBatch) -> Tensor:
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self.step_counter += 1
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inputs, targets = batch.inputs.to(self.device), batch.targets.to(self.device)
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outputs = self.mock_model(inputs)
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return norm(outputs - targets)
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@pytest.fixture
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def mock_config() -> MockConfig:
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config = MockConfig.load_from_toml(Path(__file__).parent / "mock_config.toml")
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return config
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@pytest.fixture
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def mock_trainer(mock_config: MockConfig) -> MockTrainer:
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return MockTrainer(config=mock_config)
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@pytest.fixture
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def mock_trainer_short(mock_config: MockConfig) -> MockTrainer:
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mock_config_short = mock_config.model_copy(deep=True)
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mock_config_short.training.duration = Step(3)
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return MockTrainer(config=mock_config_short)
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@pytest.fixture
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def mock_model() -> fl.Chain:
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return MockModel()
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def test_count_learnable_parameters_with_params() -> None:
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params = [
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nn.Parameter(torch.randn(2, 2), requires_grad=True),
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nn.Parameter(torch.randn(5), requires_grad=False),
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nn.Parameter(torch.randn(3, 3), requires_grad=True),
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]
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assert count_learnable_parameters(params) == 13
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def test_count_learnable_parameters_with_model(mock_model: fl.Chain) -> None:
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assert count_learnable_parameters(mock_model.parameters()) == 330
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def test_human_readable_number() -> None:
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assert human_readable_number(123) == "123.0"
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assert human_readable_number(1234) == "1.2K"
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assert human_readable_number(1234567) == "1.2M"
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@pytest.fixture
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def training_clock() -> TrainingClock:
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return TrainingClock(
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training_duration=Epoch(5),
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gradient_accumulation=Step(1),
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lr_scheduler_interval=Epoch(1),
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)
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def test_timer_functionality(training_clock: TrainingClock) -> None:
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training_clock.start_timer()
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assert training_clock.start_time is not None
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training_clock.stop_timer()
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assert training_clock.end_time is not None
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assert training_clock.time_elapsed >= 0
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def test_mock_trainer_initialization(mock_config: MockConfig, mock_trainer: MockTrainer) -> None:
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assert mock_trainer.config == mock_config
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assert isinstance(mock_trainer, MockTrainer)
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assert mock_trainer.optimizer is not None
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assert mock_trainer.lr_scheduler is not None
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assert mock_trainer.model_registration_counter == 1
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def test_training_cycle(mock_trainer: MockTrainer) -> None:
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clock = mock_trainer.clock
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config = mock_trainer.config
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assert mock_trainer.step_counter == 0
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assert clock.epoch == 0
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mock_trainer.train()
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assert clock.epoch == config.training.duration.number
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assert mock_trainer.step_counter == mock_trainer.clock.step
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def test_callback_registration(mock_trainer: MockTrainer) -> None:
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mock_trainer.train()
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# Check that the callback skips every other iteration
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assert mock_trainer.mock_callback.optimizer_step_count == mock_trainer.clock.iteration // 2 + 1
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assert mock_trainer.mock_callback.step_end_count == mock_trainer.clock.step // 3 + 1
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# Check that the random seed was set
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assert mock_trainer.mock_callback.optimizer_step_random_int == 41
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assert mock_trainer.mock_callback.step_end_random_int == 81
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def test_training_short_cycle(mock_trainer_short: MockTrainer) -> None:
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clock = mock_trainer_short.clock
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config = mock_trainer_short.config
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assert mock_trainer_short.step_counter == 0
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assert mock_trainer_short.clock.epoch == 0
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mock_trainer_short.train()
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assert clock.step == config.training.duration.number
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@pytest.fixture
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def warmup_scheduler():
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optimizer = SGD([nn.Parameter(torch.randn(2, 2), requires_grad=True)], lr=0.1)
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scheduler = torch.optim.lr_scheduler.ConstantLR(optimizer, 1)
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return WarmupScheduler(optimizer, scheduler, warmup_scheduler_steps=100)
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def test_initial_lr(warmup_scheduler: WarmupScheduler) -> None:
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optimizer = warmup_scheduler.optimizer
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for group in optimizer.param_groups:
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assert group["lr"] == 1e-3
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def test_warmup_lr(warmup_scheduler: WarmupScheduler) -> None:
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with warnings.catch_warnings():
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warnings.filterwarnings(
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"ignore",
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category=UserWarning,
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message=r"Detected call of `lr_scheduler.step\(\)` before `optimizer.step\(\)`",
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)
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for _ in range(102):
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warmup_scheduler.step()
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optimizer = warmup_scheduler.optimizer
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for group in optimizer.param_groups:
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assert group["lr"] == 0.1
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class MockTrainerWith2Models(MockTrainer):
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@register_model()
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def mock_model1(self, config: ModelConfig) -> MockModel:
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return MockModel()
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@register_model()
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def mock_model2(self, config: ModelConfig) -> MockModel:
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return MockModel()
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def compute_loss(self, batch: MockBatch) -> Tensor:
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self.step_counter += 1
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inputs, targets = batch.inputs.to(self.device), batch.targets.to(self.device)
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outputs = self.mock_model2(self.mock_model1(inputs))
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return norm(outputs - targets)
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class MockConfig_2_Models(BaseConfig):
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mock_model1: ModelConfig
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mock_model2: ModelConfig
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@pytest.fixture
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def mock_config_2_models() -> MockConfig_2_Models:
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return MockConfig_2_Models.load_from_toml(Path(__file__).parent / "mock_config_2_models.toml")
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@pytest.fixture
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def mock_trainer_2_models(mock_config_2_models: MockConfig) -> MockTrainerWith2Models:
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return MockTrainerWith2Models(config=mock_config_2_models)
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def test_optimizer_parameters(mock_trainer_2_models: MockTrainerWith2Models) -> None:
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assert len(mock_trainer_2_models.optimizer.param_groups) == 2
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assert mock_trainer_2_models.optimizer.param_groups[0]["lr"] == 1e-5
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class MockTrainerNoDataLoader(MockTrainer):
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def create_data_iterable(self) -> list[MockBatch]: # type: ignore
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return [MockBatch(inputs=torch.randn(4, 10), targets=torch.randn(4, 10)) for _ in range(5)]
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def test_trainer_no_data_loader(mock_config: MockConfig) -> None:
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trainer = MockTrainerNoDataLoader(config=mock_config)
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trainer.train()
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assert trainer.step_counter == 500
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assert trainer.clock.epoch == 100
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