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import os |
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import tempfile |
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import unittest |
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from pathlib import Path |
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import mlx.core as mx |
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import mlx_tests |
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import numpy as np |
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class TestLoad(mlx_tests.MLXTestCase): |
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dtypes = [ |
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"uint8", |
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"uint16", |
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"uint32", |
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"uint64", |
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"int8", |
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"int16", |
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"int32", |
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"int64", |
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"float32", |
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"float16", |
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"complex64", |
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] |
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@classmethod |
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def setUpClass(cls): |
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cls.test_dir_fid = tempfile.TemporaryDirectory() |
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cls.test_dir = cls.test_dir_fid.name |
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if not os.path.isdir(cls.test_dir): |
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os.mkdir(cls.test_dir) |
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@classmethod |
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def tearDownClass(cls): |
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cls.test_dir_fid.cleanup() |
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def test_save_and_load(self): |
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for dt in self.dtypes: |
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with self.subTest(dtype=dt): |
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for i, shape in enumerate([(1,), (23,), (1024, 1024), (4, 6, 3, 1, 2)]): |
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with self.subTest(shape=shape): |
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save_file_mlx = os.path.join(self.test_dir, f"mlx_{dt}_{i}.npy") |
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save_file_npy = os.path.join(self.test_dir, f"npy_{dt}_{i}.npy") |
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save_arr = np.random.uniform(0.0, 32.0, size=shape) |
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save_arr_npy = save_arr.astype(getattr(np, dt)) |
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save_arr_mlx = mx.array(save_arr_npy) |
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mx.save(save_file_mlx, save_arr_mlx) |
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np.save(save_file_npy, save_arr_npy) |
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load_arr_mlx_mlx = mx.load(save_file_mlx) |
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self.assertTrue(mx.array_equal(load_arr_mlx_mlx, save_arr_mlx)) |
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load_arr_npy_mlx = mx.load(save_file_npy) |
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self.assertTrue(mx.array_equal(load_arr_npy_mlx, save_arr_mlx)) |
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load_arr_mlx_npy = np.load(save_file_mlx) |
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self.assertTrue(np.array_equal(load_arr_mlx_npy, save_arr_npy)) |
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save_file = os.path.join(self.test_dir, f"mlx_path.npy") |
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save_arr = mx.ones((32,)) |
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mx.save(Path(save_file), save_arr) |
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load_arr = mx.load(Path(save_file)) |
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self.assertTrue(mx.array_equal(load_arr, save_arr)) |
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def test_save_and_load_safetensors(self): |
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test_file = os.path.join(self.test_dir, "test.safetensors") |
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with self.assertRaises(Exception): |
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mx.save_safetensors(test_file, {"a": mx.ones((4, 4))}, {"testing": 0}) |
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for obj in [str, Path]: |
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mx.save_safetensors( |
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obj(test_file), |
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{"test": mx.ones((2, 2))}, |
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{"testing": "test", "format": "mlx"}, |
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) |
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res = mx.load(obj(test_file), return_metadata=True) |
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self.assertEqual(len(res), 2) |
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self.assertEqual(res[1], {"testing": "test", "format": "mlx"}) |
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for dt in self.dtypes + ["bfloat16"]: |
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with self.subTest(dtype=dt): |
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for i, shape in enumerate([(1,), (23,), (1024, 1024), (4, 6, 3, 1, 2)]): |
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with self.subTest(shape=shape): |
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save_file_mlx = os.path.join( |
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self.test_dir, f"mlx_{dt}_{i}_fs.safetensors" |
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) |
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save_dict = { |
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"test": ( |
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mx.random.normal(shape=shape, dtype=getattr(mx, dt)) |
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if dt in ["float32", "float16", "bfloat16"] |
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else mx.ones(shape, dtype=getattr(mx, dt)) |
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) |
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} |
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with open(save_file_mlx, "wb") as f: |
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mx.save_safetensors(f, save_dict) |
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with open(save_file_mlx, "rb") as f: |
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load_dict = mx.load(f) |
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self.assertTrue("test" in load_dict) |
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self.assertTrue( |
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mx.array_equal(load_dict["test"], save_dict["test"]) |
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) |
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def test_save_and_load_gguf(self): |
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if not os.path.isdir(self.test_dir): |
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os.mkdir(self.test_dir) |
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supported_dtypes = ["float16", "float32", "int8", "int16", "int32"] |
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for dt in supported_dtypes: |
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with self.subTest(dtype=dt): |
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for i, shape in enumerate([(1,), (23,), (1024, 1024), (4, 6, 3, 1, 2)]): |
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with self.subTest(shape=shape): |
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save_file_mlx = os.path.join( |
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self.test_dir, f"mlx_{dt}_{i}_fs.gguf" |
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) |
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save_dict = { |
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"test": ( |
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mx.random.normal(shape=shape, dtype=getattr(mx, dt)) |
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if dt in ["float32", "float16", "bfloat16"] |
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else mx.ones(shape, dtype=getattr(mx, dt)) |
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) |
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} |
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mx.save_gguf(save_file_mlx, save_dict) |
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load_dict = mx.load(save_file_mlx) |
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self.assertTrue("test" in load_dict) |
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self.assertTrue( |
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mx.array_equal(load_dict["test"], save_dict["test"]) |
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) |
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save_file_mlx = os.path.join(self.test_dir, f"mlx_path_test_fs.gguf") |
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save_dict = {"test": mx.ones(shape)} |
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mx.save_gguf(Path(save_file_mlx), save_dict) |
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load_dict = mx.load(Path(save_file_mlx)) |
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self.assertTrue("test" in load_dict) |
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self.assertTrue(mx.array_equal(load_dict["test"], save_dict["test"])) |
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def test_load_f8_e4m3(self): |
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if not os.path.isdir(self.test_dir): |
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os.mkdir(self.test_dir) |
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expected = [ |
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0, |
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mx.nan, |
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mx.nan, |
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-0.875, |
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0.4375, |
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-0.005859, |
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-1.25, |
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-1.25, |
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-1.5, |
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-0.0039, |
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] |
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expected = mx.array(expected, dtype=mx.bfloat16) |
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contents = b'H\x00\x00\x00\x00\x00\x00\x00{"tensor":{"dtype":"F8_E4M3","shape":[10],"data_offsets":[0,10]}} \x00\x7f\xff\xb6.\x83\xba\xba\xbc\x82' |
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with tempfile.NamedTemporaryFile(suffix=".safetensors") as f: |
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f.write(contents) |
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f.seek(0) |
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out = mx.load(f)["tensor"] |
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self.assertTrue(mx.allclose(out[0], expected[0], equal_nan=True)) |
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def test_save_and_load_gguf_metadata_basic(self): |
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if not os.path.isdir(self.test_dir): |
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os.mkdir(self.test_dir) |
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save_file_mlx = os.path.join(self.test_dir, f"mlx_gguf_with_metadata.gguf") |
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save_dict = {"test": mx.ones((4, 4), dtype=mx.int32)} |
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metadata = {} |
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mx.save_gguf(save_file_mlx, save_dict, metadata) |
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load_dict = mx.load(save_file_mlx) |
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self.assertTrue("test" in load_dict) |
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self.assertTrue(mx.array_equal(load_dict["test"], save_dict["test"])) |
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load_dict, meta_load_dict = mx.load(save_file_mlx, return_metadata=True) |
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self.assertTrue("test" in load_dict) |
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self.assertTrue(mx.array_equal(load_dict["test"], save_dict["test"])) |
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self.assertEqual(len(meta_load_dict), 0) |
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metadata = {"meta": "data"} |
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mx.save_gguf(save_file_mlx, save_dict, metadata) |
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load_dict, meta_load_dict = mx.load(save_file_mlx, return_metadata=True) |
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self.assertTrue("test" in load_dict) |
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self.assertTrue(mx.array_equal(load_dict["test"], save_dict["test"])) |
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self.assertEqual(len(meta_load_dict), 1) |
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self.assertTrue("meta" in meta_load_dict) |
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self.assertEqual(meta_load_dict["meta"], "data") |
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def test_save_and_load_gguf_metadata_arrays(self): |
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if not os.path.isdir(self.test_dir): |
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os.mkdir(self.test_dir) |
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save_file_mlx = os.path.join(self.test_dir, f"mlx_gguf_with_metadata.gguf") |
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save_dict = {"test": mx.ones((4, 4), dtype=mx.int32)} |
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for t in [ |
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mx.uint8, |
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mx.int8, |
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mx.uint16, |
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mx.int16, |
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mx.uint32, |
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mx.int32, |
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mx.uint64, |
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mx.int64, |
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mx.float32, |
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]: |
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for shape in [(), (2,)]: |
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arr = mx.random.uniform(shape=shape).astype(t) |
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metadata = {"meta": arr} |
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mx.save_gguf(save_file_mlx, save_dict, metadata) |
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_, meta_load_dict = mx.load(save_file_mlx, return_metadata=True) |
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self.assertEqual(len(meta_load_dict), 1) |
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self.assertTrue("meta" in meta_load_dict) |
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self.assertTrue(mx.array_equal(meta_load_dict["meta"], arr)) |
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self.assertEqual(meta_load_dict["meta"].dtype, arr.dtype) |
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for t in [mx.float16, mx.bfloat16, mx.complex64]: |
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with self.assertRaises(ValueError): |
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arr = mx.array(1, t) |
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metadata = {"meta": arr} |
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mx.save_gguf(save_file_mlx, save_dict, metadata) |
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def test_save_and_load_gguf_metadata_mixed(self): |
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if not os.path.isdir(self.test_dir): |
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os.mkdir(self.test_dir) |
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save_file_mlx = os.path.join(self.test_dir, f"mlx_gguf_with_metadata.gguf") |
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save_dict = {"test": mx.ones((4, 4), dtype=mx.int32)} |
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arr = mx.array(1.5) |
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metadata = {"meta1": arr, "meta2": "data"} |
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mx.save_gguf(save_file_mlx, save_dict, metadata) |
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_, meta_load_dict = mx.load(save_file_mlx, return_metadata=True) |
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self.assertEqual(len(meta_load_dict), 2) |
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self.assertTrue("meta1" in meta_load_dict) |
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self.assertTrue(mx.array_equal(meta_load_dict["meta1"], arr)) |
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self.assertEqual(meta_load_dict["meta1"].dtype, arr.dtype) |
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self.assertTrue("meta2" in meta_load_dict) |
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self.assertEqual(meta_load_dict["meta2"], "data") |
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metadata = {"meta": ["data1", "data2", "data345"]} |
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mx.save_gguf(save_file_mlx, save_dict, metadata) |
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_, meta_load_dict = mx.load(save_file_mlx, return_metadata=True) |
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self.assertEqual(len(meta_load_dict), 1) |
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self.assertEqual(meta_load_dict["meta"], metadata["meta"]) |
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metadata = { |
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"meta1": ["data1", "data2", "data345"], |
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"meta2": mx.array([1, 2, 3, 4]), |
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"meta3": "data", |
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"meta4": mx.array(1.5), |
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} |
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mx.save_gguf(save_file_mlx, save_dict, metadata) |
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_, meta_load_dict = mx.load(save_file_mlx, return_metadata=True) |
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self.assertEqual(len(meta_load_dict), 4) |
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for k, v in metadata.items(): |
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if isinstance(v, mx.array): |
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self.assertTrue(mx.array_equal(meta_load_dict[k], v)) |
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else: |
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self.assertEqual(meta_load_dict[k], v) |
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def test_save_and_load_fs(self): |
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if not os.path.isdir(self.test_dir): |
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os.mkdir(self.test_dir) |
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for dt in self.dtypes: |
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with self.subTest(dtype=dt): |
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for i, shape in enumerate([(1,), (23,), (1024, 1024), (4, 6, 3, 1, 2)]): |
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with self.subTest(shape=shape): |
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save_file_mlx = os.path.join( |
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self.test_dir, f"mlx_{dt}_{i}_fs.npy" |
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) |
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save_file_npy = os.path.join( |
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self.test_dir, f"npy_{dt}_{i}_fs.npy" |
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) |
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save_arr = np.random.uniform(0.0, 32.0, size=shape) |
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save_arr_npy = save_arr.astype(getattr(np, dt)) |
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save_arr_mlx = mx.array(save_arr_npy) |
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with open(save_file_mlx, "wb") as f: |
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mx.save(f, save_arr_mlx) |
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np.save(save_file_npy, save_arr_npy) |
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with open(save_file_mlx, "rb") as f: |
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load_arr_mlx_mlx = mx.load(f) |
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self.assertTrue(mx.array_equal(load_arr_mlx_mlx, save_arr_mlx)) |
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with open(save_file_npy, "rb") as f: |
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load_arr_npy_mlx = mx.load(f) |
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self.assertTrue(mx.array_equal(load_arr_npy_mlx, save_arr_mlx)) |
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load_arr_mlx_npy = np.load(save_file_mlx) |
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self.assertTrue(np.array_equal(load_arr_mlx_npy, save_arr_npy)) |
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def test_savez_and_loadz(self): |
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if not os.path.isdir(self.test_dir): |
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os.mkdir(self.test_dir) |
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for dt in self.dtypes: |
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with self.subTest(dtype=dt): |
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shapes = [(6,), (6, 6), (4, 1, 3, 1, 2)] |
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save_file_mlx_uncomp = os.path.join( |
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self.test_dir, f"mlx_{dt}_uncomp.npz" |
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) |
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save_file_npy_uncomp = os.path.join( |
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self.test_dir, f"npy_{dt}_uncomp.npz" |
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) |
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save_file_mlx_comp = os.path.join(self.test_dir, f"mlx_{dt}_comp.npz") |
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save_file_npy_comp = os.path.join(self.test_dir, f"npy_{dt}_comp.npz") |
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save_arrs_npy = { |
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f"save_arr_{i}": np.random.uniform( |
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0.0, 32.0, size=shapes[i] |
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).astype(getattr(np, dt)) |
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for i in range(len(shapes)) |
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} |
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save_arrs_mlx = {k: mx.array(v) for k, v in save_arrs_npy.items()} |
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np.savez(save_file_npy_uncomp, **save_arrs_npy) |
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mx.savez(save_file_mlx_uncomp, **save_arrs_mlx) |
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np.savez_compressed(save_file_npy_comp, **save_arrs_npy) |
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mx.savez_compressed(save_file_mlx_comp, **save_arrs_mlx) |
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for save_file_npy, save_file_mlx in ( |
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(save_file_npy_uncomp, save_file_mlx_uncomp), |
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(save_file_npy_comp, save_file_mlx_comp), |
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): |
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load_arr_mlx_mlx = mx.load(save_file_mlx) |
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for k, v in load_arr_mlx_mlx.items(): |
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self.assertTrue(mx.array_equal(save_arrs_mlx[k], v)) |
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load_arr_npy_mlx = mx.load(save_file_npy) |
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for k, v in load_arr_npy_mlx.items(): |
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self.assertTrue(mx.array_equal(save_arrs_mlx[k], v)) |
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load_arr_mlx_npy = np.load(save_file_mlx) |
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for k, v in load_arr_mlx_npy.items(): |
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self.assertTrue(np.array_equal(save_arrs_npy[k], v)) |
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def test_non_contiguous(self): |
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a = mx.broadcast_to(mx.array([1, 2]), [4, 2]) |
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save_file = os.path.join(self.test_dir, "a.npy") |
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mx.save(save_file, a) |
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aload = mx.load(save_file) |
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self.assertTrue(mx.array_equal(a, aload)) |
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save_file = os.path.join(self.test_dir, "a.safetensors") |
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mx.save_safetensors(save_file, {"a": a}) |
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aload = mx.load(save_file)["a"] |
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self.assertTrue(mx.array_equal(a, aload)) |
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save_file = os.path.join(self.test_dir, "a.gguf") |
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mx.save_gguf(save_file, {"a": a}) |
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aload = mx.load(save_file)["a"] |
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self.assertTrue(mx.array_equal(a, aload)) |
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save_file = os.path.join(self.test_dir, "a.safetensors") |
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a = mx.arange(4).reshape(2, 2).T |
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mx.save_safetensors(save_file, {"a": a}) |
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aload = mx.load(save_file)["a"] |
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self.assertTrue(mx.array_equal(a, aload)) |
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save_file = os.path.join(self.test_dir, "a.gguf") |
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mx.save_gguf(save_file, {"a": a}) |
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aload = mx.load(save_file)["a"] |
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self.assertTrue(mx.array_equal(a, aload)) |
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def test_load_donation(self): |
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x = mx.random.normal((1024,)) |
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mx.eval(x) |
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save_file = os.path.join(self.test_dir, "donation.npy") |
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mx.save(save_file, x) |
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mx.synchronize() |
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|
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mx.reset_peak_memory() |
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scale = mx.array(2.0) |
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y = mx.load(save_file) |
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mx.eval(y) |
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mx.synchronize() |
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load_only = mx.get_peak_memory() |
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y = mx.load(save_file) * scale |
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mx.eval(y) |
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mx.synchronize() |
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load_with_binary = mx.get_peak_memory() |
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|
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self.assertEqual(load_only, load_with_binary) |
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|
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|
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if __name__ == "__main__": |
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mlx_tests.MLXTestRunner() |
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|
