import time from dataclasses import dataclass from multiprocessing import Pool from unittest import TestCase from unittest.mock import patch import multiprocess import numpy as np import pytest from datasets.utils.py_utils import ( NestedDataStructure, asdict, iflatmap_unordered, map_nested, temp_seed, temporary_assignment, zip_dict, ) from .utils import require_tf, require_torch def np_sum(x): # picklable for multiprocessing return x.sum() def add_one(i): # picklable for multiprocessing return i + 1 @dataclass class A: x: int y: str class PyUtilsTest(TestCase): def test_map_nested(self): s1 = {} s2 = [] s3 = 1 s4 = [1, 2] s5 = {"a": 1, "b": 2} s6 = {"a": [1, 2], "b": [3, 4]} s7 = {"a": {"1": 1}, "b": 2} s8 = {"a": 1, "b": 2, "c": 3, "d": 4} expected_map_nested_s1 = {} expected_map_nested_s2 = [] expected_map_nested_s3 = 2 expected_map_nested_s4 = [2, 3] expected_map_nested_s5 = {"a": 2, "b": 3} expected_map_nested_s6 = {"a": [2, 3], "b": [4, 5]} expected_map_nested_s7 = {"a": {"1": 2}, "b": 3} expected_map_nested_s8 = {"a": 2, "b": 3, "c": 4, "d": 5} self.assertEqual(map_nested(add_one, s1), expected_map_nested_s1) self.assertEqual(map_nested(add_one, s2), expected_map_nested_s2) self.assertEqual(map_nested(add_one, s3), expected_map_nested_s3) self.assertEqual(map_nested(add_one, s4), expected_map_nested_s4) self.assertEqual(map_nested(add_one, s5), expected_map_nested_s5) self.assertEqual(map_nested(add_one, s6), expected_map_nested_s6) self.assertEqual(map_nested(add_one, s7), expected_map_nested_s7) self.assertEqual(map_nested(add_one, s8), expected_map_nested_s8) num_proc = 2 self.assertEqual(map_nested(add_one, s1, num_proc=num_proc), expected_map_nested_s1) self.assertEqual(map_nested(add_one, s2, num_proc=num_proc), expected_map_nested_s2) self.assertEqual(map_nested(add_one, s3, num_proc=num_proc), expected_map_nested_s3) self.assertEqual(map_nested(add_one, s4, num_proc=num_proc), expected_map_nested_s4) self.assertEqual(map_nested(add_one, s5, num_proc=num_proc), expected_map_nested_s5) self.assertEqual(map_nested(add_one, s6, num_proc=num_proc), expected_map_nested_s6) self.assertEqual(map_nested(add_one, s7, num_proc=num_proc), expected_map_nested_s7) self.assertEqual(map_nested(add_one, s8, num_proc=num_proc), expected_map_nested_s8) sn1 = {"a": np.eye(2), "b": np.zeros(3), "c": np.ones(2)} expected_map_nested_sn1_sum = {"a": 2, "b": 0, "c": 2} expected_map_nested_sn1_int = { "a": np.eye(2).astype(int), "b": np.zeros(3).astype(int), "c": np.ones(2).astype(int), } self.assertEqual(map_nested(np_sum, sn1, map_numpy=False), expected_map_nested_sn1_sum) self.assertEqual( {k: v.tolist() for k, v in map_nested(int, sn1, map_numpy=True).items()}, {k: v.tolist() for k, v in expected_map_nested_sn1_int.items()}, ) self.assertEqual(map_nested(np_sum, sn1, map_numpy=False, num_proc=num_proc), expected_map_nested_sn1_sum) self.assertEqual( {k: v.tolist() for k, v in map_nested(int, sn1, map_numpy=True, num_proc=num_proc).items()}, {k: v.tolist() for k, v in expected_map_nested_sn1_int.items()}, ) with self.assertRaises(AttributeError): # can't pickle a local lambda map_nested(lambda x: x + 1, sn1, num_proc=num_proc) def test_zip_dict(self): d1 = {"a": 1, "b": 2} d2 = {"a": 3, "b": 4} d3 = {"a": 5, "b": 6} expected_zip_dict_result = sorted([("a", (1, 3, 5)), ("b", (2, 4, 6))]) self.assertEqual(sorted(zip_dict(d1, d2, d3)), expected_zip_dict_result) def test_temporary_assignment(self): class Foo: my_attr = "bar" foo = Foo() self.assertEqual(foo.my_attr, "bar") with temporary_assignment(foo, "my_attr", "BAR"): self.assertEqual(foo.my_attr, "BAR") self.assertEqual(foo.my_attr, "bar") @pytest.mark.parametrize( "iterable_length, num_proc, expected_num_proc", [ (1, None, 1), (1, 1, 1), (2, None, 1), (2, 1, 1), (2, 2, 1), (2, 3, 1), (3, 2, 1), (16, 16, 16), (16, 17, 16), (17, 16, 16), ], ) def test_map_nested_num_proc(iterable_length, num_proc, expected_num_proc): with patch("datasets.utils.py_utils._single_map_nested") as mock_single_map_nested, patch( "datasets.parallel.parallel.Pool" ) as mock_multiprocessing_pool: data_struct = {f"{i}": i for i in range(iterable_length)} _ = map_nested(lambda x: x + 10, data_struct, num_proc=num_proc, parallel_min_length=16) if expected_num_proc == 1: assert mock_single_map_nested.called assert not mock_multiprocessing_pool.called else: assert not mock_single_map_nested.called assert mock_multiprocessing_pool.called assert mock_multiprocessing_pool.call_args[0][0] == expected_num_proc class TempSeedTest(TestCase): @require_tf def test_tensorflow(self): import tensorflow as tf from tensorflow.keras import layers model = layers.Dense(2) def gen_random_output(): x = tf.random.uniform((1, 3)) return model(x).numpy() with temp_seed(42, set_tensorflow=True): out1 = gen_random_output() with temp_seed(42, set_tensorflow=True): out2 = gen_random_output() out3 = gen_random_output() np.testing.assert_equal(out1, out2) self.assertGreater(np.abs(out1 - out3).sum(), 0) @require_torch def test_torch(self): import torch def gen_random_output(): model = torch.nn.Linear(3, 2) x = torch.rand(1, 3) return model(x).detach().numpy() with temp_seed(42, set_pytorch=True): out1 = gen_random_output() with temp_seed(42, set_pytorch=True): out2 = gen_random_output() out3 = gen_random_output() np.testing.assert_equal(out1, out2) self.assertGreater(np.abs(out1 - out3).sum(), 0) def test_numpy(self): def gen_random_output(): return np.random.rand(1, 3) with temp_seed(42): out1 = gen_random_output() with temp_seed(42): out2 = gen_random_output() out3 = gen_random_output() np.testing.assert_equal(out1, out2) self.assertGreater(np.abs(out1 - out3).sum(), 0) @pytest.mark.parametrize("input_data", [{}]) def test_nested_data_structure_data(input_data): output_data = NestedDataStructure(input_data).data assert output_data == input_data @pytest.mark.parametrize( "data, expected_output", [ ({}, []), ([], []), ("foo", ["foo"]), (["foo", "bar"], ["foo", "bar"]), ([["foo", "bar"]], ["foo", "bar"]), ([[["foo"], ["bar"]]], ["foo", "bar"]), ([[["foo"], "bar"]], ["foo", "bar"]), ({"a": 1, "b": 2}, [1, 2]), ({"a": [1, 2], "b": [3, 4]}, [1, 2, 3, 4]), ({"a": [[1, 2]], "b": [[3, 4]]}, [1, 2, 3, 4]), ({"a": [[1, 2]], "b": [3, 4]}, [1, 2, 3, 4]), ({"a": [[[1], [2]]], "b": [[[3], [4]]]}, [1, 2, 3, 4]), ({"a": [[[1], [2]]], "b": [[3, 4]]}, [1, 2, 3, 4]), ({"a": [[[1], [2]]], "b": [3, 4]}, [1, 2, 3, 4]), ({"a": [[[1], [2]]], "b": [3, [4]]}, [1, 2, 3, 4]), ({"a": {"1": 1}, "b": 2}, [1, 2]), ({"a": {"1": [1]}, "b": 2}, [1, 2]), ({"a": {"1": [1]}, "b": [2]}, [1, 2]), ], ) def test_flatten(data, expected_output): output = NestedDataStructure(data).flatten() assert output == expected_output def test_asdict(): input = A(x=1, y="foobar") expected_output = {"x": 1, "y": "foobar"} assert asdict(input) == expected_output input = {"a": {"b": A(x=10, y="foo")}, "c": [A(x=20, y="bar")]} expected_output = {"a": {"b": {"x": 10, "y": "foo"}}, "c": [{"x": 20, "y": "bar"}]} assert asdict(input) == expected_output with pytest.raises(TypeError): asdict([1, A(x=10, y="foo")]) def _split_text(text: str): return text.split() def _2seconds_generator_of_2items_with_timing(content): yield (time.time(), content) time.sleep(2) yield (time.time(), content) def test_iflatmap_unordered(): with Pool(2) as pool: out = list(iflatmap_unordered(pool, _split_text, kwargs_iterable=[{"text": "hello there"}] * 10)) assert out.count("hello") == 10 assert out.count("there") == 10 assert len(out) == 20 # check multiprocess from pathos (uses dill for pickling) with multiprocess.Pool(2) as pool: out = list(iflatmap_unordered(pool, _split_text, kwargs_iterable=[{"text": "hello there"}] * 10)) assert out.count("hello") == 10 assert out.count("there") == 10 assert len(out) == 20 # check that we get items as fast as possible with Pool(2) as pool: out = [] for yield_time, content in iflatmap_unordered( pool, _2seconds_generator_of_2items_with_timing, kwargs_iterable=[{"content": "a"}, {"content": "b"}] ): assert yield_time < time.time() + 0.1, "we should each item directly after it was yielded" out.append(content) assert out.count("a") == 2 assert out.count("b") == 2 assert len(out) == 4