# Copyright (c) 2023 CINN Authors. All Rights Reserved. # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # http://www.apache.org/licenses/LICENSE-2.0 # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import unittest import numpy as np from op_test import OpTest, OpTestTool from op_test_helper import TestCaseHelper import paddle import cinn from cinn.frontend import * from cinn.common import * @OpTestTool.skip_if(not is_compiled_with_cuda(), "x86 test will be skipped due to timeout.") class TestLogicalAndOp(OpTest): def setUp(self): print(f"\nRunning {self.__class__.__name__}: {self.case}") self.prepare_inputs() def prepare_inputs(self): self.x_np = self.random( shape=self.case["x_shape"], dtype=self.case["x_dtype"], low=-10, high=100) self.y_np = self.random( shape=self.case["y_shape"], dtype=self.case["y_dtype"], low=-10, high=100) def build_paddle_program(self, target): x = paddle.to_tensor(self.x_np, stop_gradient=False) y = paddle.to_tensor(self.y_np, stop_gradient=False) def get_unsqueeze_axis(x_rank, y_rank, axis): self.assertTrue( x_rank >= y_rank, "The rank of x should be greater or equal to that of y.") axis = axis if axis >= 0 else x_rank - y_rank unsqueeze_axis = np.arange(0, axis).tolist() + np.arange( axis + y_rank, x_rank).tolist() return unsqueeze_axis unsqueeze_axis = get_unsqueeze_axis( len(x.shape), len(y.shape), self.case["axis"]) y_t = paddle.unsqueeze( y, axis=unsqueeze_axis) if len(unsqueeze_axis) > 0 else y out = paddle.logical_and(x, y_t) self.paddle_outputs = [out] def build_cinn_program(self, target): builder = NetBuilder("logical_and") x = builder.create_input( self.nptype2cinntype(self.case["x_dtype"]), self.case["x_shape"], "x") y = builder.create_input( self.nptype2cinntype(self.case["y_dtype"]), self.case["y_shape"], "y") out = builder.logical_and(x, y, axis=self.case["axis"]) prog = builder.build() res = self.get_cinn_output(prog, target, [x, y], [self.x_np, self.y_np], [out]) self.cinn_outputs = res def test_check_results(self): max_relative_error = self.case[ "max_relative_error"] if "max_relative_error" in self.case else 1e-5 self.check_outputs_and_grads(max_relative_error=max_relative_error) class TestLogicalAndCase1(TestCaseHelper): def init_attrs(self): self.class_name = "TestLogicalAndCase1" self.cls = TestLogicalAndOp self.inputs = [{"x_shape": [512, 256], "y_shape": [512, 256]}] self.dtypes = [{ "x_dtype": "bool", "y_dtype": "bool" }, { "x_dtype": "int8", "y_dtype": "int8" }, { "x_dtype": "int16", "y_dtype": "int16" }, { "x_dtype": "int32", "y_dtype": "int32" }, { "x_dtype": "int64", "y_dtype": "int64" }, { "x_dtype": "float32", "y_dtype": "float32" }, { "x_dtype": "float64", "y_dtype": "float64" }] self.attrs = [{"axis": -1}] class TestLogicalAndCase2(TestCaseHelper): def init_attrs(self): self.class_name = "TestLogicalAndCase2" self.cls = TestLogicalAndOp self.inputs = [{ "x_shape": [1], "y_shape": [1] }, { "x_shape": [1024], "y_shape": [1024] }, { "x_shape": [512, 256], "y_shape": [512, 256] }, { "x_shape": [128, 64, 32], "y_shape": [128, 64, 32] }, { "x_shape": [128, 2048, 32], "y_shape": [128, 2048, 32] }, { "x_shape": [16, 8, 4, 2], "y_shape": [16, 8, 4, 2] }, { "x_shape": [1, 1, 1, 1], "y_shape": [1, 1, 1, 1] }, { "x_shape": [16, 8, 4, 2, 1], "y_shape": [16, 8, 4, 2, 1] }] self.dtypes = [{"x_dtype": "bool", "y_dtype": "bool"}] self.attrs = [{"axis": -1}] class TestLogicalAndCaseWithBroadcast1(TestCaseHelper): def init_attrs(self): self.class_name = "TestLogicalAndCaseWithBroadcast1" self.cls = TestLogicalAndOp self.inputs = [{"x_shape": [56], "y_shape": [1]}] self.dtypes = [{ "x_dtype": "bool", "y_dtype": "bool" }, { "x_dtype": "int8", "y_dtype": "int8" }, { "x_dtype": "int16", "y_dtype": "int16" }, { "x_dtype": "int32", "y_dtype": "int32" }, { "x_dtype": "int64", "y_dtype": "int64" }, { "x_dtype": "float32", "y_dtype": "float32" }, { "x_dtype": "float64", "y_dtype": "float64" }] self.attrs = [{"axis": -1}] class TestLogicalAndCaseWithBroadcast2(TestCaseHelper): def init_attrs(self): self.class_name = "TestLogicalAndCaseWithBroadcast2" self.cls = TestLogicalAndOp self.inputs = [{ "x_shape": [56], "y_shape": [1] }, { "x_shape": [1024], "y_shape": [1] }, { "x_shape": [512, 256], "y_shape": [512, 1] }, { "x_shape": [128, 64, 32], "y_shape": [128, 64, 1] }, { "x_shape": [16, 1, 1, 2], "y_shape": [16, 8, 4, 2] }, { "x_shape": [16, 1, 1, 2, 1], "y_shape": [16, 8, 4, 2, 1] }] self.dtypes = [{"x_dtype": "bool", "y_dtype": "bool"}] self.attrs = [{"axis": -1}] if __name__ == "__main__": TestLogicalAndCase1().run() TestLogicalAndCase2().run() TestLogicalAndCaseWithBroadcast1().run() TestLogicalAndCaseWithBroadcast2().run()