/***************************************************************************
VectorTest-3.h - description
-------------------
begin : Oct 25, 2010
copyright : (C) 2010 by Tomas Oberhuber
email : tomas.oberhuber@fjfi.cvut.cz
***************************************************************************/
/* See Copyright Notice in tnl/Copyright */
// NOTE: Vector = Array + VectorOperations, so we test Vector and VectorOperations at the same time
#pragma once
#ifdef HAVE_GTEST
#include "VectorTestSetup.h"
// should be small enough to have fast tests, but larger than minGPUReductionDataSize
// and large enough to require multiple CUDA blocks for reduction
constexpr int VECTOR_TEST_SIZE = 5000;
TYPED_TEST( VectorTest, max )
{
using VectorType = typename TestFixture::VectorType;
using VectorOperations = typename TestFixture::VectorOperations;
using ViewType = typename TestFixture::ViewType;
const int size = VECTOR_TEST_SIZE;
VectorType v;
v.setSize( size );
ViewType v_view( v );
setLinearSequence( v );
EXPECT_EQ( max( v ), size - 1 );
EXPECT_EQ( max( v_view ), size - 1 );
}
TYPED_TEST( VectorTest, min )
{
using VectorType = typename TestFixture::VectorType;
using VectorOperations = typename TestFixture::VectorOperations;
using ViewType = typename TestFixture::ViewType;
const int size = VECTOR_TEST_SIZE;
VectorType v;
v.setSize( size );
ViewType v_view( v );
setLinearSequence( v );
EXPECT_EQ( min( v ), 0 );
EXPECT_EQ( min( v_view ), 0 );
}
TYPED_TEST( VectorTest, absMax )
{
using VectorType = typename TestFixture::VectorType;
using VectorOperations = typename TestFixture::VectorOperations;
using ViewType = typename TestFixture::ViewType;
// this test expect an even size
const int size = VECTOR_TEST_SIZE % 2 ? VECTOR_TEST_SIZE - 1 : VECTOR_TEST_SIZE;
VectorType u( size ), v( size );
ViewType u_view( u ), v_view( v );
setNegativeLinearSequence( v );
EXPECT_EQ( max( abs( v ) ), size - 1 );
EXPECT_EQ( max( abs( v_view ) ), size - 1 );
v.setValue( 1.0 );
setConstantSequence( u, 2 );
EXPECT_EQ( sum( u - v ), size );
EXPECT_EQ( sum( u_view - v_view ), size );
setLinearSequence( u );
EXPECT_EQ( sum( u - v ), 0.5 * size * ( size - 1 ) - size );
EXPECT_EQ( sum( u_view - v_view ), 0.5 * size * ( size - 1 ) - size );
setNegativeLinearSequence( u );
EXPECT_EQ( sum( u - v ), - 0.5 * size * ( size - 1 ) - size );
EXPECT_EQ( sum( u_view - v_view ), - 0.5 * size * ( size - 1 ) - size );
setOscilatingSequence( u, 1.0 );
EXPECT_EQ( sum( u - v ), - size );
EXPECT_EQ( sum( u_view - v_view ), - size );
}
TYPED_TEST( VectorTest, absMin )
{
using VectorType = typename TestFixture::VectorType;
using VectorOperations = typename TestFixture::VectorOperations;
using ViewType = typename TestFixture::ViewType;
const int size = VECTOR_TEST_SIZE;
VectorType v;
v.setSize( size );
ViewType v_view( v );
setNegativeLinearSequence( v );
EXPECT_EQ( min( abs( v ) ), 0 );
EXPECT_EQ( min( abs( v_view ) ), 0 );
}
TYPED_TEST( VectorTest, lpNorm )
{
using VectorType = typename TestFixture::VectorType;
using RealType = typename VectorType::RealType;
using VectorOperations = typename TestFixture::VectorOperations;
using ViewType = typename TestFixture::ViewType;
const int size = VECTOR_TEST_SIZE;
const RealType epsilon = 64 * std::numeric_limits< RealType >::epsilon();
VectorType v;
v.setSize( size );
ViewType v_view( v );
setConstantSequence( v, 1 );
const RealType expectedL1norm = size;
const RealType expectedL2norm = std::sqrt( size );
const RealType expectedL3norm = std::cbrt( size );
EXPECT_EQ( lpNorm( v, 1.0 ), expectedL1norm );
EXPECT_EQ( lpNorm( v, 2.0 ), expectedL2norm );
EXPECT_NEAR( lpNorm( v, 3.0 ), expectedL3norm, epsilon );
EXPECT_EQ( lpNorm( v_view, 1.0 ), expectedL1norm );
EXPECT_EQ( lpNorm( v_view, 2.0 ), expectedL2norm );
EXPECT_NEAR( lpNorm( v_view, 3.0 ), expectedL3norm, epsilon );
}
#endif // HAVE_GTEST
#include "../main.h"