187 lines
5.6 KiB
Python
187 lines
5.6 KiB
Python
# Licensed to the Apache Software Foundation (ASF) under one
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# or more contributor license agreements. See the NOTICE file
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# distributed with this work for additional information
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# regarding copyright ownership. The ASF licenses this file
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# to you under the Apache License, Version 2.0 (the
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# "License"); you may not use this file except in compliance
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# with the License. You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing,
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# software distributed under the License is distributed on an
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# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
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# KIND, either express or implied. See the License for the
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# specific language governing permissions and limitations
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# under the License.
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# ruff: noqa: E712, F401, F841
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import json
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import sys
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import numpy as np
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import pytest
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import tvm_ffi
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import tvm
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import tvm.testing
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from tvm import te
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def test_const_saveload_json():
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# save load json
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x = tvm.tirx.const(1, "int32")
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y = tvm.tirx.const(10, "int32")
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z = x + y
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z = z + z
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json_str = tvm.ir.save_json(z)
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zz = tvm.ir.load_json(json_str)
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tvm.ir.assert_structural_equal(zz, z, map_free_vars=True)
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def test_save_json_metadata_version():
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obj = tvm.runtime.convert([1, 2])
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json_str = tvm.ir.save_json(obj)
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assert json.loads(json_str)["metadata"]["tvm_version"] == tvm.__version__
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assert list(tvm.ir.load_json(json_str)) == [1, 2]
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def _test_infinity_value(value, dtype):
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x = tvm.tirx.const(value, dtype)
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json_str = tvm.ir.save_json(x)
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tvm.ir.assert_structural_equal(x, tvm.ir.load_json(json_str))
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def test_infinity_value():
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_test_infinity_value(float("inf"), "float64")
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_test_infinity_value(float("-inf"), "float64")
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_test_infinity_value(float("inf"), "float32")
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_test_infinity_value(float("-inf"), "float32")
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def _test_minmax_value(value):
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json_str = tvm.ir.save_json(value)
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tvm.ir.assert_structural_equal(value, tvm.ir.load_json(json_str))
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def test_minmax_value():
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_test_minmax_value(tvm.tirx.min_value("float32"))
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_test_minmax_value(tvm.tirx.max_value("float32"))
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def test_make_smap():
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# save load json
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x = tvm.tirx.const(1, "int32")
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y = tvm.tirx.const(10, "int32")
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z = tvm.tirx.Add(x, y)
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smap = tvm.runtime.convert({"z": z, "x": x})
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json_str = tvm.ir.save_json(tvm.runtime.convert([smap]))
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arr = tvm.ir.load_json(json_str)
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assert len(arr) == 1
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assert arr[0]["z"].a == arr[0]["x"]
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tvm.ir.assert_structural_equal(arr, [smap], map_free_vars=True)
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def test_make_node():
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x = tvm.ir.make_node("ir.IntImm", ty=tvm.ir.PrimType("int32"), value=10, span=None)
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assert isinstance(x, tvm.tirx.IntImm)
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assert x.value == 10
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A = te.placeholder((10,), name="A")
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AA = tvm.ir.make_node(
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"te.Tensor", shape=A.shape, dtype=A.dtype, op=A.op, value_index=A.value_index
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)
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assert AA.op == A.op
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assert AA.value_index == A.value_index
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y = tvm.ir.make_node(
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"ir.IntImm", ty=tvm.ir.PrimType(tvm_ffi.core.String("int32")), value=10, span=None
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)
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assert isinstance(y, tvm.tirx.IntImm)
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assert y.value == 10
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def test_make_sum():
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A = te.placeholder((2, 10), name="A")
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k = te.reduce_axis((0, 10), "k")
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B = te.compute((2,), lambda i: te.sum(A[i, k], axis=k), name="B")
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json_str = tvm.ir.save_json(B)
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BB = tvm.ir.load_json(json_str)
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assert B.op.body[0].combiner is not None
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assert BB.op.body[0].combiner is not None
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def test_string():
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# non printable str, need to store by b64
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s1 = tvm_ffi.core.String("xy\x01z")
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s2 = tvm.ir.load_json(tvm.ir.save_json(s1))
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tvm.ir.assert_structural_equal(s1, s2)
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# printable str, need to store by repr_str
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s1 = tvm_ffi.core.String("xyz")
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s2 = tvm.ir.load_json(tvm.ir.save_json(s1))
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tvm.ir.assert_structural_equal(s1, s2)
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def test_pass_config():
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cfg = tvm.transform.PassContext(
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opt_level=1,
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config={
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"tirx.UnrollLoop": {
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"auto_max_step": 10,
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}
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},
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)
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cfg.opt_level == 1
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assert cfg.config["tirx.UnrollLoop"].auto_max_step == 10
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# default option
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assert cfg.config["tirx.UnrollLoop"].explicit_unroll == True
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# schema checking for specific config key
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with pytest.raises(TypeError):
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cfg = tvm.transform.PassContext(config={"tirx.UnrollLoop": {"invalid": 1}})
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# schema check for un-registered config
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with pytest.raises(AttributeError):
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cfg = tvm.transform.PassContext(config={"inavlid-opt": True})
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# schema check for wrong type
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with pytest.raises(AttributeError):
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cfg = tvm.transform.PassContext(config={"tirx.UnrollLoop": 1})
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def test_dict():
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x = tvm.tirx.const(1) # a class that has Python-defined methods
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# instances should see the full class dict
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assert set(dir(x.__class__)) <= set(dir(x))
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def test_tensor():
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dev = tvm.cpu(0)
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tvm_arr = tvm.runtime.tensor(np.random.rand(4), device=dev)
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tvm_arr2 = tvm.ir.load_json(tvm.ir.save_json(tvm_arr))
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tvm.ir.assert_structural_equal(tvm_arr, tvm_arr2)
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np.testing.assert_array_equal(tvm_arr.numpy(), tvm_arr2.numpy())
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def test_tensor_dict():
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dev = tvm.cpu(0)
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m1 = {
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"key1": tvm.runtime.tensor(np.random.rand(4), device=dev),
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"key2": tvm.runtime.tensor(np.random.rand(4), device=dev),
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}
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m2 = tvm.ir.load_json(tvm.ir.save_json(m1))
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tvm.ir.assert_structural_equal(m1, m2)
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def test_free_var_equal():
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x = tvm.tirx.Var("x", dtype="int32")
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y = tvm.tirx.Var("y", dtype="int32")
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z = tvm.tirx.Var("z", dtype="int32")
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v1 = x + y
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v1 = y + z
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tvm.ir.assert_structural_equal(x, z, map_free_vars=True)
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if __name__ == "__main__":
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tvm.testing.main()
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