228 lines
6.2 KiB
Python
228 lines
6.2 KiB
Python
import numpy as np
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import pytest
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import torch
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import torch.distributed as dist
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import torch.multiprocessing as mp
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import tests.base.utils as tutils
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from pytorch_lightning.metrics.converters import (
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_apply_to_inputs,
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_apply_to_outputs,
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_convert_to_tensor,
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_convert_to_numpy,
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_numpy_metric_conversion,
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_tensor_metric_conversion,
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_sync_ddp_if_available,
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tensor_metric,
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numpy_metric
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)
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def test_apply_to_inputs():
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def apply_fn(inputs, factor):
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if isinstance(inputs, (float, int)):
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return inputs * factor
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elif isinstance(inputs, dict):
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return {k: apply_fn(v, factor) for k, v in inputs.items()}
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elif isinstance(inputs, (tuple, list)):
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return [apply_fn(x, factor) for x in inputs]
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@_apply_to_inputs(apply_fn, factor=2.)
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def test_fn(*args, **kwargs):
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return args, kwargs
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for args in [[], [1., 2.]]:
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for kwargs in [{}, {'a': 1., 'b': 2.}]:
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result_args, result_kwargs = test_fn(*args, **kwargs)
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assert isinstance(result_args, (list, tuple))
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assert isinstance(result_kwargs, dict)
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assert len(result_args) == len(args)
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assert len(result_kwargs) == len(kwargs)
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assert all([k in result_kwargs for k in kwargs.keys()])
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for arg, result_arg in zip(args, result_args):
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assert arg * 2. == result_arg
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for key in kwargs.keys():
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arg = kwargs[key]
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result_arg = result_kwargs[key]
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assert arg * 2. == result_arg
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def test_apply_to_outputs():
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def apply_fn(inputs, additional_str):
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return str(inputs) + additional_str
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@_apply_to_outputs(apply_fn, additional_str='_str')
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def test_fn(*args, **kwargs):
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return 'dummy'
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assert test_fn() == 'dummy_str'
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def test_convert_to_tensor():
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for test_item in [1., np.array([1.])]:
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result_tensor = _convert_to_tensor(test_item)
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assert isinstance(result_tensor, torch.Tensor)
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assert result_tensor.item() == 1.
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def test_convert_to_numpy():
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for test_item in [1., torch.tensor([1.])]:
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result = _convert_to_numpy(test_item)
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assert isinstance(result, np.ndarray)
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assert result.item() == 1.
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def test_numpy_metric_conversion():
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@_numpy_metric_conversion
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def numpy_test_metric(*args, **kwargs):
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for arg in args:
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assert isinstance(arg, np.ndarray)
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for v in kwargs.values():
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assert isinstance(v, np.ndarray)
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return 5.
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result = numpy_test_metric(torch.tensor([1.]), dummy_kwarg=2.)
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assert isinstance(result, torch.Tensor)
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assert result.item() == 5.
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def test_tensor_metric_conversion():
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@_tensor_metric_conversion
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def tensor_test_metric(*args, **kwargs):
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for arg in args:
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assert isinstance(arg, torch.Tensor)
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for v in kwargs.values():
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assert isinstance(v, torch.Tensor)
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return 5.
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result = tensor_test_metric(np.array([1.]), dummy_kwarg=2.)
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assert isinstance(result, torch.Tensor)
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assert result.item() == 5.
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def _setup_ddp(rank, worldsize):
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import os
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os.environ['MASTER_ADDR'] = 'localhost'
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# initialize the process group
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dist.init_process_group("gloo", rank=rank, world_size=worldsize)
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def _ddp_test_fn(rank, worldsize):
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_setup_ddp(rank, worldsize)
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tensor = torch.tensor([1.], device='cuda:0')
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reduced_tensor = _sync_ddp_if_available(tensor)
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assert reduced_tensor.item() == dist.get_world_size(), \
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'Sync-Reduce does not work properly with DDP and Tensors'
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@pytest.mark.spawn
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@pytest.mark.skipif(torch.cuda.device_count() < 2, reason="test requires multi-GPU machine")
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def test_sync_reduce_ddp():
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"""Make sure sync-reduce works with DDP"""
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tutils.reset_seed()
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tutils.set_random_master_port()
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worldsize = 2
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mp.spawn(_ddp_test_fn, args=(worldsize,), nprocs=worldsize)
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# dist.destroy_process_group()
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def test_sync_reduce_simple():
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"""Make sure sync-reduce works without DDP"""
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tensor = torch.tensor([1.], device='cpu')
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reduced_tensor = _sync_ddp_if_available(tensor)
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assert torch.allclose(tensor, reduced_tensor), \
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'Sync-Reduce does not work properly without DDP and Tensors'
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def _test_tensor_metric(is_ddp: bool):
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@tensor_metric()
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def tensor_test_metric(*args, **kwargs):
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for arg in args:
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assert isinstance(arg, torch.Tensor)
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for v in kwargs.values():
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assert isinstance(v, torch.Tensor)
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return 5.
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if is_ddp:
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factor = dist.get_world_size()
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else:
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factor = 1.
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result = tensor_test_metric(np.array([1.]), dummy_kwarg=2.)
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assert isinstance(result, torch.Tensor)
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assert result.item() == 5. * factor
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def _ddp_test_tensor_metric(rank, worldsize):
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_setup_ddp(rank, worldsize)
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_test_tensor_metric(True)
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@pytest.mark.skipif(torch.cuda.device_count() < 2, reason="test requires multi-GPU machine")
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def test_tensor_metric_ddp():
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tutils.reset_seed()
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tutils.set_random_master_port()
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world_size = 2
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mp.spawn(_ddp_test_tensor_metric, args=(world_size,), nprocs=world_size)
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# dist.destroy_process_group()
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def test_tensor_metric_simple():
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_test_tensor_metric(False)
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def _test_numpy_metric(is_ddp: bool):
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@numpy_metric()
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def numpy_test_metric(*args, **kwargs):
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for arg in args:
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assert isinstance(arg, np.ndarray)
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for v in kwargs.values():
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assert isinstance(v, np.ndarray)
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return 5.
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if is_ddp:
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factor = dist.get_world_size()
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else:
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factor = 1.
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result = numpy_test_metric(torch.tensor([1.]), dummy_kwarg=2.)
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assert isinstance(result, torch.Tensor)
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assert result.item() == 5. * factor
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def _ddp_test_numpy_metric(rank, worldsize):
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_setup_ddp(rank, worldsize)
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_test_numpy_metric(True)
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@pytest.mark.spawn
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@pytest.mark.skipif(torch.cuda.device_count() < 2, reason="test requires multi-GPU machine")
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def test_numpy_metric_ddp():
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tutils.reset_seed()
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tutils.set_random_master_port()
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world_size = 2
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mp.spawn(_ddp_test_numpy_metric, args=(world_size,), nprocs=world_size)
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# dist.destroy_process_group()
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def test_numpy_metric_simple():
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_test_numpy_metric(False)
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