vtk-m/vtkm/testing/UnitTestBinaryOperators.cxx

//============================================================================
//  Copyright (c) Kitware, Inc.
//  All rights reserved.
//  See LICENSE.txt for details.
//
//  This software is distributed WITHOUT ANY WARRANTY; without even
//  the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
//  PURPOSE.  See the above copyright notice for more information.
//============================================================================

#include <vtkm/BinaryOperators.h>

#include <vtkm/testing/Testing.h>

namespace
{

//general pair test
template <typename T>
void BinaryOperatorTest()
{

  //Not using TestValue method as it causes roll-over to occur with
  //uint8 and int8 leading to unexpected comparisons.

  //test Sum
  {
    vtkm::Sum sum;
    T result;

    result = sum(vtkm::TypeTraits<T>::ZeroInitialization(), T(1));
    VTKM_TEST_ASSERT(result == T(1), "Sum wrong.");

    result = sum(T(1), T(1));
    VTKM_TEST_ASSERT(result == T(2), "Sum wrong.");
  }

  //test Product
  {
    vtkm::Product product;
    T result;

    result = product(vtkm::TypeTraits<T>::ZeroInitialization(), T(1));
    VTKM_TEST_ASSERT(result == vtkm::TypeTraits<T>::ZeroInitialization(), "Product wrong.");

    result = product(T(1), T(1));
    VTKM_TEST_ASSERT(result == T(1), "Product wrong.");

    result = product(T(2), T(3));
    VTKM_TEST_ASSERT(result == T(6), "Product wrong.");
  }

  //test Maximum
  {
    vtkm::Maximum maximum;
    VTKM_TEST_ASSERT(maximum(T(1), T(2)) == T(2), "Maximum wrong.");
    VTKM_TEST_ASSERT(maximum(T(2), T(2)) == T(2), "Maximum wrong.");
    VTKM_TEST_ASSERT(maximum(T(2), T(1)) == T(2), "Maximum wrong.");
  }

  //test Minimum
  {
    vtkm::Minimum minimum;
    VTKM_TEST_ASSERT(minimum(T(1), T(2)) == T(1), "Minimum wrong.");
    VTKM_TEST_ASSERT(minimum(T(1), T(1)) == T(1), "Minimum wrong.");
    VTKM_TEST_ASSERT(minimum(T(3), T(2)) == T(2), "Minimum wrong.");
  }

  //test MinAndMax
  {
    vtkm::MinAndMax<T> min_and_max;
    vtkm::Vec<T, 2> result;

    // Test1: basic param
    {
      result = min_and_max(T(1));
      VTKM_TEST_ASSERT(test_equal(result, vtkm::Vec<T, 2>(T(1), T(1))), "Test1 MinAndMax wrong");
    }

    // Test2: basic param
    {
      result = min_and_max(vtkm::TypeTraits<T>::ZeroInitialization(), T(1));
      VTKM_TEST_ASSERT(
        test_equal(result, vtkm::Vec<T, 2>(vtkm::TypeTraits<T>::ZeroInitialization(), T(1))),
        "Test2 MinAndMax wrong");

      result = min_and_max(T(2), T(1));
      VTKM_TEST_ASSERT(test_equal(result, vtkm::Vec<T, 2>(T(1), T(2))), "Test2 MinAndMax wrong");
    }

    // Test3: 1st param vector, 2nd param basic
    {
      result = min_and_max(vtkm::Vec<T, 2>(3, 5), T(7));
      VTKM_TEST_ASSERT(test_equal(result, vtkm::Vec<T, 2>(T(3), T(7))), "Test3 MinAndMax Wrong");

      result = min_and_max(vtkm::Vec<T, 2>(3, 5), T(2));
      VTKM_TEST_ASSERT(test_equal(result, vtkm::Vec<T, 2>(T(2), T(5))), "Test3 MinAndMax Wrong");
    }

    // Test4: 1st param basic, 2nd param vector
    {
      result = min_and_max(T(7), vtkm::Vec<T, 2>(3, 5));
      VTKM_TEST_ASSERT(test_equal(result, vtkm::Vec<T, 2>(T(3), T(7))), "Test4 MinAndMax Wrong");

      result = min_and_max(T(2), vtkm::Vec<T, 2>(3, 5));
      VTKM_TEST_ASSERT(test_equal(result, vtkm::Vec<T, 2>(T(2), T(5))), "Test4 MinAndMax Wrong");
    }

    // Test5: 2 vector param
    {
      result = min_and_max(vtkm::Vec<T, 2>(2, 4), vtkm::Vec<T, 2>(3, 5));
      VTKM_TEST_ASSERT(test_equal(result, vtkm::Vec<T, 2>(T(2), T(5))), "Test5 MinAndMax Wrong");

      result = min_and_max(vtkm::Vec<T, 2>(2, 7), vtkm::Vec<T, 2>(3, 5));
      VTKM_TEST_ASSERT(test_equal(result, vtkm::Vec<T, 2>(T(2), T(7))), "Test5 MinAndMax Wrong");

      result = min_and_max(vtkm::Vec<T, 2>(4, 4), vtkm::Vec<T, 2>(1, 8));
      VTKM_TEST_ASSERT(test_equal(result, vtkm::Vec<T, 2>(T(1), T(8))), "Test5 MinAndMax Wrong");

      result = min_and_max(vtkm::Vec<T, 2>(4, 4), vtkm::Vec<T, 2>(3, 3));
      VTKM_TEST_ASSERT(test_equal(result, vtkm::Vec<T, 2>(T(3), T(4))), "Test5 MinAndMax Wrong");
    }
  }
}

struct BinaryOperatorTestFunctor
{
  template <typename T>
  void operator()(const T&) const
  {
    BinaryOperatorTest<T>();
  }
};

void TestBinaryOperators()
{
  vtkm::testing::Testing::TryTypes(BinaryOperatorTestFunctor());

  vtkm::UInt32 v1 = 0xccccccccu;
  vtkm::UInt32 v2 = 0xffffffffu;
  vtkm::UInt32 v3 = 0x0u;

  //test BitwiseAnd
  {
    vtkm::BitwiseAnd bitwise_and;
    VTKM_TEST_ASSERT(bitwise_and(v1, v2) == (v1 & v2), "bitwise_and wrong.");
    VTKM_TEST_ASSERT(bitwise_and(v1, v3) == (v1 & v3), "bitwise_and wrong.");
    VTKM_TEST_ASSERT(bitwise_and(v2, v3) == (v2 & v3), "bitwise_and wrong.");
  }

  //test BitwiseOr
  {
    vtkm::BitwiseOr bitwise_or;
    VTKM_TEST_ASSERT(bitwise_or(v1, v2) == (v1 | v2), "bitwise_or wrong.");
    VTKM_TEST_ASSERT(bitwise_or(v1, v3) == (v1 | v3), "bitwise_or wrong.");
    VTKM_TEST_ASSERT(bitwise_or(v2, v3) == (v2 | v3), "bitwise_or wrong.");
  }

  //test BitwiseXor
  {
    vtkm::BitwiseXor bitwise_xor;
    VTKM_TEST_ASSERT(bitwise_xor(v1, v2) == (v1 ^ v2), "bitwise_xor wrong.");
    VTKM_TEST_ASSERT(bitwise_xor(v1, v3) == (v1 ^ v3), "bitwise_xor wrong.");
    VTKM_TEST_ASSERT(bitwise_xor(v2, v3) == (v2 ^ v3), "bitwise_xor wrong.");
  }
}

} // anonymous namespace

int UnitTestBinaryOperators(int argc, char* argv[])
{
  return vtkm::testing::Testing::Run(TestBinaryOperators, argc, argv);
}
Add UnitTest for BinaryOperators. 2015-08-04 13:59:00 +00:00			`//============================================================================`
			`// Copyright (c) Kitware, Inc.`
			`// All rights reserved.`
			`// See LICENSE.txt for details.`
conslidate the license statement 2019-04-15 23:24:21 +00:00			`//`
Add UnitTest for BinaryOperators. 2015-08-04 13:59:00 +00:00			`// This software is distributed WITHOUT ANY WARRANTY; without even`
			`// the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR`
			`// PURPOSE. See the above copyright notice for more information.`
			`//============================================================================`

			`#include <vtkm/BinaryOperators.h>`

			`#include <vtkm/testing/Testing.h>`

clang-format: apply to the entire tree 2017-05-18 14:29:41 +00:00			`namespace`
			`{`
Add UnitTest for BinaryOperators. 2015-08-04 13:59:00 +00:00
			`//general pair test`
			`template <typename T>`
added missing MinAndMax BinaryOperator tests, updated formatting 2019-04-29 18:53:58 +00:00			`void BinaryOperatorTest()`
			`{`
Add UnitTest for BinaryOperators. 2015-08-04 13:59:00 +00:00
			`//Not using TestValue method as it causes roll-over to occur with`
			`//uint8 and int8 leading to unexpected comparisons.`

			`//test Sum`
added missing MinAndMax BinaryOperator tests, updated formatting 2019-04-29 18:53:58 +00:00			`{`
			`vtkm::Sum sum;`
			`T result;`
Add UnitTest for BinaryOperators. 2015-08-04 13:59:00 +00:00
added missing MinAndMax BinaryOperator tests, updated formatting 2019-04-29 18:53:58 +00:00			`result = sum(vtkm::TypeTraits<T>::ZeroInitialization(), T(1));`
			`VTKM_TEST_ASSERT(result == T(1), "Sum wrong.");`
Add UnitTest for BinaryOperators. 2015-08-04 13:59:00 +00:00
added missing MinAndMax BinaryOperator tests, updated formatting 2019-04-29 18:53:58 +00:00			`result = sum(T(1), T(1));`
			`VTKM_TEST_ASSERT(result == T(2), "Sum wrong.");`
			`}`
Add UnitTest for BinaryOperators. 2015-08-04 13:59:00 +00:00
added missing MinAndMax BinaryOperator tests, updated formatting 2019-04-29 18:53:58 +00:00			`//test Product`
			`{`
			`vtkm::Product product;`
			`T result;`
Add UnitTest for BinaryOperators. 2015-08-04 13:59:00 +00:00
added missing MinAndMax BinaryOperator tests, updated formatting 2019-04-29 18:53:58 +00:00			`result = product(vtkm::TypeTraits<T>::ZeroInitialization(), T(1));`
			`VTKM_TEST_ASSERT(result == vtkm::TypeTraits<T>::ZeroInitialization(), "Product wrong.");`
Add UnitTest for BinaryOperators. 2015-08-04 13:59:00 +00:00
added missing MinAndMax BinaryOperator tests, updated formatting 2019-04-29 18:53:58 +00:00			`result = product(T(1), T(1));`
			`VTKM_TEST_ASSERT(result == T(1), "Product wrong.");`
Add UnitTest for BinaryOperators. 2015-08-04 13:59:00 +00:00
added missing MinAndMax BinaryOperator tests, updated formatting 2019-04-29 18:53:58 +00:00			`result = product(T(2), T(3));`
			`VTKM_TEST_ASSERT(result == T(6), "Product wrong.");`
			`}`
Add UnitTest for BinaryOperators. 2015-08-04 13:59:00 +00:00
added missing MinAndMax BinaryOperator tests, updated formatting 2019-04-29 18:53:58 +00:00			`//test Maximum`
			`{`
			`vtkm::Maximum maximum;`
			`VTKM_TEST_ASSERT(maximum(T(1), T(2)) == T(2), "Maximum wrong.");`
			`VTKM_TEST_ASSERT(maximum(T(2), T(2)) == T(2), "Maximum wrong.");`
			`VTKM_TEST_ASSERT(maximum(T(2), T(1)) == T(2), "Maximum wrong.");`
			`}`
Add UnitTest for BinaryOperators. 2015-08-04 13:59:00 +00:00
added missing MinAndMax BinaryOperator tests, updated formatting 2019-04-29 18:53:58 +00:00			`//test Minimum`
			`{`
			`vtkm::Minimum minimum;`
			`VTKM_TEST_ASSERT(minimum(T(1), T(2)) == T(1), "Minimum wrong.");`
			`VTKM_TEST_ASSERT(minimum(T(1), T(1)) == T(1), "Minimum wrong.");`
			`VTKM_TEST_ASSERT(minimum(T(3), T(2)) == T(2), "Minimum wrong.");`
			`}`

			`//test MinAndMax`
			`{`
			`vtkm::MinAndMax<T> min_and_max;`
			`vtkm::Vec<T, 2> result;`

			`// Test1: basic param`
			`{`
			`result = min_and_max(T(1));`
			`VTKM_TEST_ASSERT(test_equal(result, vtkm::Vec<T, 2>(T(1), T(1))), "Test1 MinAndMax wrong");`
			`}`

			`// Test2: basic param`
			`{`
			`result = min_and_max(vtkm::TypeTraits<T>::ZeroInitialization(), T(1));`
			`VTKM_TEST_ASSERT(`
			`test_equal(result, vtkm::Vec<T, 2>(vtkm::TypeTraits<T>::ZeroInitialization(), T(1))),`
			`"Test2 MinAndMax wrong");`

			`result = min_and_max(T(2), T(1));`
			`VTKM_TEST_ASSERT(test_equal(result, vtkm::Vec<T, 2>(T(1), T(2))), "Test2 MinAndMax wrong");`
			`}`

			`// Test3: 1st param vector, 2nd param basic`
			`{`
			`result = min_and_max(vtkm::Vec<T, 2>(3, 5), T(7));`
			`VTKM_TEST_ASSERT(test_equal(result, vtkm::Vec<T, 2>(T(3), T(7))), "Test3 MinAndMax Wrong");`

			`result = min_and_max(vtkm::Vec<T, 2>(3, 5), T(2));`
			`VTKM_TEST_ASSERT(test_equal(result, vtkm::Vec<T, 2>(T(2), T(5))), "Test3 MinAndMax Wrong");`
			`}`

			`// Test4: 1st param basic, 2nd param vector`
			`{`
			`result = min_and_max(T(7), vtkm::Vec<T, 2>(3, 5));`
			`VTKM_TEST_ASSERT(test_equal(result, vtkm::Vec<T, 2>(T(3), T(7))), "Test4 MinAndMax Wrong");`

			`result = min_and_max(T(2), vtkm::Vec<T, 2>(3, 5));`
			`VTKM_TEST_ASSERT(test_equal(result, vtkm::Vec<T, 2>(T(2), T(5))), "Test4 MinAndMax Wrong");`
			`}`

			`// Test5: 2 vector param`
			`{`
			`result = min_and_max(vtkm::Vec<T, 2>(2, 4), vtkm::Vec<T, 2>(3, 5));`
			`VTKM_TEST_ASSERT(test_equal(result, vtkm::Vec<T, 2>(T(2), T(5))), "Test5 MinAndMax Wrong");`

			`result = min_and_max(vtkm::Vec<T, 2>(2, 7), vtkm::Vec<T, 2>(3, 5));`
			`VTKM_TEST_ASSERT(test_equal(result, vtkm::Vec<T, 2>(T(2), T(7))), "Test5 MinAndMax Wrong");`

			`result = min_and_max(vtkm::Vec<T, 2>(4, 4), vtkm::Vec<T, 2>(1, 8));`
			`VTKM_TEST_ASSERT(test_equal(result, vtkm::Vec<T, 2>(T(1), T(8))), "Test5 MinAndMax Wrong");`

			`result = min_and_max(vtkm::Vec<T, 2>(4, 4), vtkm::Vec<T, 2>(3, 3));`
			`VTKM_TEST_ASSERT(test_equal(result, vtkm::Vec<T, 2>(T(3), T(4))), "Test5 MinAndMax Wrong");`
			`}`
			`}`
clang-format: apply to the entire tree 2017-05-18 14:29:41 +00:00			`}`
Add UnitTest for BinaryOperators. 2015-08-04 13:59:00 +00:00
			`struct BinaryOperatorTestFunctor`
			`{`
clang-format: apply to the entire tree 2017-05-18 14:29:41 +00:00			`template <typename T>`
			`void operator()(const T&) const`
Add UnitTest for BinaryOperators. 2015-08-04 13:59:00 +00:00			`{`
			`BinaryOperatorTest<T>();`
			`}`
			`};`

			`void TestBinaryOperators()`
			`{`
Replace TryAllTypes with trying exemplar tests There were many tests that created code paths for every base and Vec type that VTK-m supports (up to 4 components). Although this is admirable, it is also excessive, and our compile times for the tests are very long. To shorten compile times, remove the TryAllTypes method. Replace it with a version of TryTypes that uses a default list of "exemplar" set of integers, floats, and Vecs. 2016-08-24 22:02:18 +00:00			`vtkm::testing::Testing::TryTypes(BinaryOperatorTestFunctor());`
Add UnitTest for BinaryOperators. 2015-08-04 13:59:00 +00:00
Make BinaryOperators/Predicates more flexible. Allow the argument types to differ. This allows ArrayPortalValueReferences to be used. 2019-12-06 17:52:26 +00:00			`vtkm::UInt32 v1 = 0xccccccccu;`
			`vtkm::UInt32 v2 = 0xffffffffu;`
			`vtkm::UInt32 v3 = 0x0u;`

Add UnitTest for BinaryOperators. 2015-08-04 13:59:00 +00:00			`//test BitwiseAnd`
			`{`
clang-format: apply to the entire tree 2017-05-18 14:29:41 +00:00			`vtkm::BitwiseAnd bitwise_and;`
Make BinaryOperators/Predicates more flexible. Allow the argument types to differ. This allows ArrayPortalValueReferences to be used. 2019-12-06 17:52:26 +00:00			`VTKM_TEST_ASSERT(bitwise_and(v1, v2) == (v1 & v2), "bitwise_and wrong.");`
			`VTKM_TEST_ASSERT(bitwise_and(v1, v3) == (v1 & v3), "bitwise_and wrong.");`
			`VTKM_TEST_ASSERT(bitwise_and(v2, v3) == (v2 & v3), "bitwise_and wrong.");`
Add UnitTest for BinaryOperators. 2015-08-04 13:59:00 +00:00			`}`

			`//test BitwiseOr`
			`{`
clang-format: apply to the entire tree 2017-05-18 14:29:41 +00:00			`vtkm::BitwiseOr bitwise_or;`
Make BinaryOperators/Predicates more flexible. Allow the argument types to differ. This allows ArrayPortalValueReferences to be used. 2019-12-06 17:52:26 +00:00			`VTKM_TEST_ASSERT(bitwise_or(v1, v2) == (v1 \| v2), "bitwise_or wrong.");`
			`VTKM_TEST_ASSERT(bitwise_or(v1, v3) == (v1 \| v3), "bitwise_or wrong.");`
			`VTKM_TEST_ASSERT(bitwise_or(v2, v3) == (v2 \| v3), "bitwise_or wrong.");`
Add UnitTest for BinaryOperators. 2015-08-04 13:59:00 +00:00			`}`

			`//test BitwiseXor`
			`{`
clang-format: apply to the entire tree 2017-05-18 14:29:41 +00:00			`vtkm::BitwiseXor bitwise_xor;`
Make BinaryOperators/Predicates more flexible. Allow the argument types to differ. This allows ArrayPortalValueReferences to be used. 2019-12-06 17:52:26 +00:00			`VTKM_TEST_ASSERT(bitwise_xor(v1, v2) == (v1 ^ v2), "bitwise_xor wrong.");`
			`VTKM_TEST_ASSERT(bitwise_xor(v1, v3) == (v1 ^ v3), "bitwise_xor wrong.");`
			`VTKM_TEST_ASSERT(bitwise_xor(v2, v3) == (v2 ^ v3), "bitwise_xor wrong.");`
Add UnitTest for BinaryOperators. 2015-08-04 13:59:00 +00:00			`}`
			`}`

			`} // anonymous namespace`

Testing run methods now take argc/argv to init logging/runtime device `vtkm::cont::testing` now initializes with logging enabled and support for device being passed on the command line, `vtkm::testing` only enables logging. 2019-01-01 22:19:02 +00:00			`int UnitTestBinaryOperators(int argc, char* argv[])`
Add UnitTest for BinaryOperators. 2015-08-04 13:59:00 +00:00			`{`
Testing run methods now take argc/argv to init logging/runtime device `vtkm::cont::testing` now initializes with logging enabled and support for device being passed on the command line, `vtkm::testing` only enables logging. 2019-01-01 22:19:02 +00:00			`return vtkm::testing::Testing::Run(TestBinaryOperators, argc, argv);`
Add UnitTest for BinaryOperators. 2015-08-04 13:59:00 +00:00			`}`