tests/meta/test_vector.py - platform/external/google-fruit - Git at Google

 #!/usr/bin/env python3
 #  Copyright 2016 Google Inc. 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.

 from absl.testing import parameterized
 from fruit_test_common import *

 COMMON_DEFINITIONS = '''
     #define IN_FRUIT_CPP_FILE 1

     #include "meta/common.h"
     #include <fruit/impl/meta/vector.h>
     #include <fruit/impl/meta/metaprogramming.h>

     struct A1 {};
     struct B1 {};
     struct C1 {};

     using A = A1;
     using B = B1;
     using C = C1;
     '''

 class TestVector(parameterized.TestCase):
     def test_IsInVector(self):
         source = '''
             int main() {
                 AssertNot(IsInVector(A, Vector<>));
                 AssertNot(IsInVector(A, Vector<B>));
                 Assert(IsInVector(A, Vector<A>));
             }
             '''
         expect_success(
             COMMON_DEFINITIONS,
             source,
             locals())

     def test_IsSameVector(self):
         source = '''
             int main() {
                 AssertNotSameType(Vector<A, B>, Vector<B, A>);
                 AssertNotSameType(Vector<A>, Vector<>);
                 AssertNotSameType(Vector<>, Vector<A>);
             }
             '''
         expect_success(
             COMMON_DEFINITIONS,
             source,
             locals())

     def test_VectorSize(self):
         source = '''
             int main() {
                 AssertSameType(Id<VectorSize(Vector<>)>, Int<0>);
                 AssertSameType(Id<VectorSize(Vector<A>)>, Int<1>);
                 AssertSameType(Id<VectorSize(Vector<A, B>)>, Int<2>);
             }
             '''
         expect_success(
             COMMON_DEFINITIONS,
             source,
             locals())

     def test_ConcatVectors(self):
         source = '''
             int main() {
                 AssertSameType(Id<ConcatVectors(Vector<>, Vector<>)>, Vector<>);
                 AssertSameType(Id<ConcatVectors(Vector<>, Vector<A, B>)>, Vector<A, B>);
                 AssertSameType(Id<ConcatVectors(Vector<A, B>, Vector<>)>, Vector<A, B>);
                 AssertSameType(Id<ConcatVectors(Vector<A>, Vector<A, B>)>, Vector<A, A, B>);
                 AssertSameType(Id<ConcatVectors(Vector<A, B>, Vector<A, C>)>, Vector<A, B, A, C>);
             }
             '''
         expect_success(
             COMMON_DEFINITIONS,
             source,
             locals())

     def test_VectorEndsWith(self):
         source = '''
             int main() {
                 Assert(VectorEndsWith(Vector<A, B>, B));
                 AssertNot(VectorEndsWith(Vector<A, B>, A));
                 AssertNot(VectorEndsWith(Vector<>, A));
             }
             '''
         expect_success(
             COMMON_DEFINITIONS,
             source,
             locals())

     def test_VectorRemoveFirstN(self):
         source = '''
             int main() {
                 AssertSameType(Id<VectorRemoveFirstN(Vector<>, Int<0>)>, Vector<>);
                 AssertSameType(Id<VectorRemoveFirstN(Vector<A>, Int<0>)>, Vector<A>);
                 AssertSameType(Id<VectorRemoveFirstN(Vector<A>, Int<1>)>, Vector<>);
                 AssertSameType(Id<VectorRemoveFirstN(Vector<A, B, C>, Int<0>)>, Vector<A, B, C>);
                 AssertSameType(Id<VectorRemoveFirstN(Vector<A, B, C>, Int<1>)>, Vector<B, C>);
                 AssertSameType(Id<VectorRemoveFirstN(Vector<A, B, C>, Int<2>)>, Vector<C>);
                 AssertSameType(Id<VectorRemoveFirstN(Vector<A, B, C>, Int<3>)>, Vector<>);
             }
             '''
         expect_success(
             COMMON_DEFINITIONS,
             source,
             locals())

 if __name__ == '__main__':
     absltest.main()
	#!/usr/bin/env python3
	# Copyright 2016 Google Inc. 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.

	from absl.testing import parameterized
	from fruit_test_common import *

	COMMON_DEFINITIONS = '''
	#define IN_FRUIT_CPP_FILE 1

	#include "meta/common.h"
	#include <fruit/impl/meta/vector.h>
	#include <fruit/impl/meta/metaprogramming.h>

	struct A1 {};
	struct B1 {};
	struct C1 {};

	using A = A1;
	using B = B1;
	using C = C1;
	'''

	class TestVector(parameterized.TestCase):
	def test_IsInVector(self):
	source = '''
	int main() {
	AssertNot(IsInVector(A, Vector<>));
	AssertNot(IsInVector(A, Vector<B>));
	Assert(IsInVector(A, Vector<A>));
	}
	'''
	expect_success(
	COMMON_DEFINITIONS,
	source,
	locals())

	def test_IsSameVector(self):
	source = '''
	int main() {
	AssertNotSameType(Vector<A, B>, Vector<B, A>);
	AssertNotSameType(Vector<A>, Vector<>);
	AssertNotSameType(Vector<>, Vector<A>);
	}
	'''
	expect_success(
	COMMON_DEFINITIONS,
	source,
	locals())

	def test_VectorSize(self):
	source = '''
	int main() {
	AssertSameType(Id<VectorSize(Vector<>)>, Int<0>);
	AssertSameType(Id<VectorSize(Vector<A>)>, Int<1>);
	AssertSameType(Id<VectorSize(Vector<A, B>)>, Int<2>);
	}
	'''
	expect_success(
	COMMON_DEFINITIONS,
	source,
	locals())

	def test_ConcatVectors(self):
	source = '''
	int main() {
	AssertSameType(Id<ConcatVectors(Vector<>, Vector<>)>, Vector<>);
	AssertSameType(Id<ConcatVectors(Vector<>, Vector<A, B>)>, Vector<A, B>);
	AssertSameType(Id<ConcatVectors(Vector<A, B>, Vector<>)>, Vector<A, B>);
	AssertSameType(Id<ConcatVectors(Vector<A>, Vector<A, B>)>, Vector<A, A, B>);
	AssertSameType(Id<ConcatVectors(Vector<A, B>, Vector<A, C>)>, Vector<A, B, A, C>);
	}
	'''
	expect_success(
	COMMON_DEFINITIONS,
	source,
	locals())

	def test_VectorEndsWith(self):
	source = '''
	int main() {
	Assert(VectorEndsWith(Vector<A, B>, B));
	AssertNot(VectorEndsWith(Vector<A, B>, A));
	AssertNot(VectorEndsWith(Vector<>, A));
	}
	'''
	expect_success(
	COMMON_DEFINITIONS,
	source,
	locals())

	def test_VectorRemoveFirstN(self):
	source = '''
	int main() {
	AssertSameType(Id<VectorRemoveFirstN(Vector<>, Int<0>)>, Vector<>);
	AssertSameType(Id<VectorRemoveFirstN(Vector<A>, Int<0>)>, Vector<A>);
	AssertSameType(Id<VectorRemoveFirstN(Vector<A>, Int<1>)>, Vector<>);
	AssertSameType(Id<VectorRemoveFirstN(Vector<A, B, C>, Int<0>)>, Vector<A, B, C>);
	AssertSameType(Id<VectorRemoveFirstN(Vector<A, B, C>, Int<1>)>, Vector<B, C>);
	AssertSameType(Id<VectorRemoveFirstN(Vector<A, B, C>, Int<2>)>, Vector<C>);
	AssertSameType(Id<VectorRemoveFirstN(Vector<A, B, C>, Int<3>)>, Vector<>);
	}
	'''
	expect_success(
	COMMON_DEFINITIONS,
	source,
	locals())

	if __name__ == '__main__':
	absltest.main()