本文整理汇总了C++中CPPUNIT_ASSERT_METRIC_TIMING_LE函数的典型用法代码示例。如果您正苦于以下问题:C++ CPPUNIT_ASSERT_METRIC_TIMING_LE函数的具体用法?C++ CPPUNIT_ASSERT_METRIC_TIMING_LE怎么用?C++ CPPUNIT_ASSERT_METRIC_TIMING_LE使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。
在下文中一共展示了CPPUNIT_ASSERT_METRIC_TIMING_LE函数的14个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的C++代码示例。
示例1: iters
void CoordCompareMetricTest::testCoordTimingIsEqualTest()
{
// Test overhead of creation
const long iters(400000);
gmtl::Coord<gmtl::Vec<float,3>, gmtl::EulerAngle<float, gmtl::XYZ> > src_coord11;
gmtl::Coord<gmtl::Vec<float,3>, gmtl::EulerAngle<float, gmtl::XYZ> > src_coord22;
gmtl::Coord<gmtl::Vec<float,3>, gmtl::EulerAngle<float, gmtl::XYZ> > src_coord33;
gmtl::Coord<gmtl::Vec<float,3>, gmtl::EulerAngle<float, gmtl::XYZ> > src_coord34;
gmtl::Coord<gmtl::Vec<float,3>, gmtl::EulerAngle<float, gmtl::XYZ> > src_coord44;
gmtl::Coord<gmtl::Vec<double,3>, gmtl::EulerAngle<double, gmtl::XYZ> > src_coord101;
// half will be equal
src_coord11.pos()[0] = 1.0f;
src_coord22.pos()[1] = 1.0f;
src_coord33.pos()[2] = 2.0f;
gmtl::Coord<gmtl::Vec<float,3>, gmtl::EulerAngle<float, gmtl::XYZ> > test_coord11( src_coord11 );
gmtl::Coord<gmtl::Vec<float,3>, gmtl::EulerAngle<float, gmtl::XYZ> > test_coord22( src_coord22 );
gmtl::Coord<gmtl::Vec<float,3>, gmtl::EulerAngle<float, gmtl::XYZ> > test_coord33( src_coord33 );
gmtl::Coord<gmtl::Vec<float,3>, gmtl::EulerAngle<float, gmtl::XYZ> > test_coord34( src_coord34 );
gmtl::Coord<gmtl::Vec<float,3>, gmtl::EulerAngle<float, gmtl::XYZ> > test_coord44( src_coord44 );
gmtl::Coord<gmtl::Vec<double,3>, gmtl::EulerAngle<double, gmtl::XYZ> > test_coord101( src_coord101 );
// half will be not equal
src_coord34.pos()[0] = 23.0f;
src_coord44.pos()[2] = 234.0f;
src_coord101.pos()[1] = 1234.0f;
unsigned true_count(0);
CPPUNIT_METRIC_START_TIMING();
for( long iter=0;iter<iters; ++iter)
{
if (gmtl::isEqual( src_coord11, test_coord11, 0.0f ))
++true_count;
if (gmtl::isEqual( src_coord22, test_coord22, 0.2f ))
++true_count;
if (gmtl::isEqual( src_coord33, test_coord33, 0.3f ))
++true_count;
if (gmtl::isEqual( src_coord34, test_coord34, 0.6f ))
++true_count;
if (gmtl::isEqual( src_coord44, test_coord44, 0.8f ))
++true_count;
if (gmtl::isEqual( src_coord101, test_coord101, 111.1 ))
++true_count;
}
CPPUNIT_METRIC_STOP_TIMING();
CPPUNIT_ASSERT_METRIC_TIMING_LE("CoordCompareTest/isEqual(...)", iters, 0.075f, 0.1f); // warn at 7.5%, error at 10%
// Make sure the compiler doesn't optimize out true_count
CPPUNIT_ASSERT( true_count > 0 );
}示例2: iters
void EulerAngleCompareMetricTest::testEulerAngleTimingIsEqualTest()
{
// Test overhead of creation
const long iters(400000);
gmtl::EulerAngleXYZf src_quat11;
gmtl::EulerAngleXYZf src_quat22;
gmtl::EulerAngleXYZf src_quat33;
gmtl::EulerAngleXYZf src_quat34;
gmtl::EulerAngleXYZf src_quat44;
gmtl::EulerAngleXYZd src_quat101;
// half will be equal
src_quat11[0] = 1.0f;
src_quat22[1] = 1.0f;
src_quat33[2] = 2.0f;
gmtl::EulerAngleXYZf test_quat11( src_quat11 );
gmtl::EulerAngleXYZf test_quat22( src_quat22 );
gmtl::EulerAngleXYZf test_quat33( src_quat33 );
gmtl::EulerAngleXYZf test_quat34( src_quat34 );
gmtl::EulerAngleXYZf test_quat44( src_quat44 );
gmtl::EulerAngleXYZd test_quat101( src_quat101 );
// half will be not equal
src_quat34[0] = 23.0f;
src_quat44[2] = 234.0f;
src_quat101[1] = 1234.0f;
unsigned true_count(0);
CPPUNIT_METRIC_START_TIMING();
for( long iter=0;iter<iters; ++iter)
{
if (gmtl::isEqual( src_quat11, test_quat11, 0.0f ))
++true_count;
if (gmtl::isEqual( src_quat22, test_quat22, 0.2f ))
++true_count;
if (gmtl::isEqual( src_quat33, test_quat33, 0.3f ))
++true_count;
if (gmtl::isEqual( src_quat34, test_quat34, 0.6f ))
++true_count;
if (gmtl::isEqual( src_quat44, test_quat44, 0.8f ))
++true_count;
if (gmtl::isEqual( src_quat101, test_quat101, double(111.1) ))
++true_count;
}
CPPUNIT_METRIC_STOP_TIMING();
CPPUNIT_ASSERT_METRIC_TIMING_LE("EulerAngleCompareTest/isEqual(...)", iters, 0.075f, 0.1f); // warn at 7.5%, error at 10%
// Make sure the compiler doesn't optimize out true_count
CPPUNIT_ASSERT( true_count > 0 );
}示例3: iters
void QuatCompareMetricTest::testQuatTimingOpEqualityTest()
{
// Test overhead of creation
const long iters(400000);
gmtl::Quat<float> src_quat11;
gmtl::Quat<float> src_quat22;
gmtl::Quat<float> src_quat33;
gmtl::Quat<float> src_quat34;
gmtl::Quat<float> src_quat44;
gmtl::Quat<double> src_quat101;
// half of them will be equal
src_quat11[0] = 1.0f;
src_quat22[2] = 1.0f;
src_quat33[3] = 2.0f;
gmtl::Quat<float> test_quat11( src_quat11 );
gmtl::Quat<float> test_quat22( src_quat22 );
gmtl::Quat<float> test_quat33( src_quat33 );
gmtl::Quat<float> test_quat34( src_quat34 );
gmtl::Quat<float> test_quat44( src_quat44 );
gmtl::Quat<double> test_quat101( src_quat101 );
// half will be not equal
src_quat34[0] = 2.0f;
src_quat44[1] = 3.0f;
src_quat101[3] = 1.0;
unsigned true_count(0);
CPPUNIT_METRIC_START_TIMING();
for( long iter=0;iter<iters; ++iter)
{
if (src_quat11 == test_quat11)
++true_count;
if (src_quat22 == test_quat22)
++true_count;
if (src_quat33 == test_quat33)
++true_count;
if (src_quat34 == test_quat34)
++true_count;
if (src_quat44 == test_quat44)
++true_count;
if (src_quat101 == test_quat101)
++true_count;
}
CPPUNIT_METRIC_STOP_TIMING();
CPPUNIT_ASSERT_METRIC_TIMING_LE("QuatCompareTest/operator==", iters, 0.075f, 0.1f); // warn at 7.5%, error at 10%
// Make sure the compiler doesn't optimize out true_count
CPPUNIT_ASSERT( true_count > 0 );
}示例4: iters
void MatrixCompareMetricTest::testMatTimingOpNotEqualityTest()
{
// Test overhead of creation
const long iters(25000);
gmtl::Matrix<float, 1, 1> src_mat11;
gmtl::Matrix<float, 2, 2> src_mat22;
gmtl::Matrix<float, 3, 3> src_mat33;
gmtl::Matrix<float, 3, 4> src_mat34;
gmtl::Matrix<float, 4, 4> src_mat44;
gmtl::Matrix<double, 10, 1> src_mat101;
// half will be equal
src_mat11.mData[0] = 1.0f;
src_mat22.mData[0] = 1.0f;
src_mat33.mData[4] = 2.0f;
gmtl::Matrix<float, 1, 1> test_mat11( src_mat11 );
gmtl::Matrix<float, 2, 2> test_mat22( src_mat22 );
gmtl::Matrix<float, 3, 3> test_mat33( src_mat33 );
gmtl::Matrix<float, 3, 4> test_mat34( src_mat34 );
gmtl::Matrix<float, 4, 4> test_mat44( src_mat44 );
gmtl::Matrix<double, 10, 1> test_mat101( src_mat101 );
// half will be not equal
src_mat34.mData[5] = 2.0f;
src_mat44.mData[15] = 3.0f;
src_mat101.mData[9] = 1.0f;
unsigned true_count(0);
CPPUNIT_METRIC_START_TIMING();
for( long iter=0;iter<iters; ++iter)
{
if (src_mat11 != test_mat11)
++true_count;
if (src_mat22 != test_mat22)
++true_count;
if (src_mat33 != test_mat33)
++true_count;
if (src_mat34 != test_mat34)
++true_count;
if (src_mat44 != test_mat44)
++true_count;
if (src_mat101 != test_mat101)
++true_count;
}
CPPUNIT_METRIC_STOP_TIMING();
CPPUNIT_ASSERT_METRIC_TIMING_LE("MatrixCompareTest/OpNotEqualityTest", iters, 0.075f, 0.1f); // warn at 7.5%, error at 10%
// make sure compiler uses true_count
CPPUNIT_ASSERT( true_count > 0 );
}示例5: iters
void QuatOpsMetricTest::testQuatTimingDiv()
{
gmtl::Quat<float> q3, q4;
const long iters(10000);
CPPUNIT_METRIC_START_TIMING();
for (long iter = 0; iter < iters; ++iter)
{
gmtl::div( q4, q4, q3 );
}
CPPUNIT_METRIC_STOP_TIMING();
CPPUNIT_ASSERT_METRIC_TIMING_LE("QuatOpsTest/invert()", iters, 0.075f, 0.1f); // warn at 7.5%, error at 10%
// Make sure the compiler doesn't optimize out
CPPUNIT_ASSERT( q4[2] != 1234.5f );
}示例6: iters
void CoordClassMetricTest::testCoordTimingOpEqual()
{
const long iters( 400000 );
gmtl::Coord<gmtl::Vec<float,3>, gmtl::EulerAngle<float, gmtl::XYZ> > q4, q2;
CPPUNIT_METRIC_START_TIMING();
for (long iter = 0; iter < iters; ++iter)
{
// performance of operator=() function
q4 = q2;
q2.pos()[2] += q4.pos()[1];
}
CPPUNIT_METRIC_STOP_TIMING();
CPPUNIT_ASSERT_METRIC_TIMING_LE("CoordTest/operator=()", iters, 0.075f, 0.1f); // warn at 7.5%, error at 10%
CPPUNIT_ASSERT( q4.pos()[0] != 3498.0f );
}示例7: iters
void QuatGenMetricTest::testGenTimingMakeInvert2()
{
gmtl::Quat<float> q2;
const long iters(25000);
CPPUNIT_METRIC_START_TIMING();
for (long iter = 0; iter < iters; ++iter)
{
q2 = gmtl::makeInvert( q2 );
}
CPPUNIT_METRIC_STOP_TIMING();
CPPUNIT_ASSERT_METRIC_TIMING_LE( "QuatGenTest/makeInvert(quatf)", iters, 0.075f, 0.1f); // warn at 7.5%, error at 10%
// force intelligent compilers to do all the iterations (ie. to not optimize them out),
// by using the variables computed...
CPPUNIT_ASSERT( q2[0] != 10000.0f );
}示例8: iters
void QuatClassMetricTest::testQuatTimingOpEqual()
{
const long iters( 400000 );
gmtl::Quat<float> q4, q2( 0, 2, 1, 3 );
CPPUNIT_METRIC_START_TIMING();
for (long iter = 0; iter < iters; ++iter)
{
// performance of operator=() function
q4 = q2;
q2[0] += q4[2];
}
CPPUNIT_METRIC_STOP_TIMING();
CPPUNIT_ASSERT_METRIC_TIMING_LE("QuatTest/operator=()", iters, 0.075f, 0.1f); // warn at 7.5%, error at 10%
CPPUNIT_ASSERT( q4[0] != 3498.0f );
}示例9: test_point1
void PointMetricTest::testTimingOpDivScalarEq()
{
gmtl::Point<float,3> test_point1(12.0, 8.0, 4.0);
// -- test op-= performance
const float iters(400000);
CPPUNIT_METRIC_START_TIMING();
for( float iter=0;iter<iters; ++iter)
{
test_point1 /= 0.95f;
}
CPPUNIT_METRIC_STOP_TIMING();
CPPUNIT_ASSERT_METRIC_TIMING_LE("PointTest/OpDivScalarEqOverhead", iters, 0.075f, 0.1f); // warn at 7.5%, error at 10%
}示例10: iters
void EulerAngleClassMetricTest::testEulerAngleTimingOpEqual()
{
const long iters( 400000 );
gmtl::EulerAngleXYZf q4, q2( 0.0f, 2.0f, 1.0f );
CPPUNIT_METRIC_START_TIMING();
for (long iter = 0; iter < iters; ++iter)
{
// performance of operator=() function
q4 = q2;
q2[0] += q4[2];
}
CPPUNIT_METRIC_STOP_TIMING();
CPPUNIT_ASSERT_METRIC_TIMING_LE("EulerAngleTest/operator=()", iters, 0.075f, 0.1f); // warn at 7.5%, error at 10%
CPPUNIT_ASSERT( q4[0] != 3498.0f );
}示例11: iters
void CoordGenMetricTest::testGenTimingMakeMatrix()
{
gmtl::Matrix44f mat;
gmtl::Coord<gmtl::Vec<float,3>, gmtl::EulerAngle<float, gmtl::XYZ> > q1;
const long iters(25000);
CPPUNIT_METRIC_START_TIMING();
for (long iter = 0; iter < iters; ++iter)
{
mat = gmtl::make<gmtl::Matrix44f>( q1 );
q1.pos()[2] += mat[3][3];
}
CPPUNIT_METRIC_STOP_TIMING();
CPPUNIT_ASSERT_METRIC_TIMING_LE( "CoordGenTest/make<Matrix44f>(q1,XYZ)", iters, 0.075f, 0.1f); // warn at 7.5%, error at 10%
CPPUNIT_ASSERT( q1.pos()[1] != 10000.0f );
}示例12: iters
void AxisAngleClassMetricTest::testAxisAngleTimingDefaultConstructor()
{
const long iters( 400000 );
float use_value(1);
CPPUNIT_METRIC_START_TIMING();
for (long iter = 0; iter < iters; ++iter)
{
// performance of def constructor
gmtl::AxisAnglef q;
use_value += q.mData[0];
}
CPPUNIT_METRIC_STOP_TIMING();
CPPUNIT_ASSERT_METRIC_TIMING_LE("AxisAngleTest/DefaultConstructor", iters, 0.075f, 0.1f); // warn at 7.5%, error at 10%
CPPUNIT_ASSERT( use_value != 0 );
}示例13: quat1
void QuatCompareMetricTest::testQuatTimingEquiv()
{
gmtl::Quatf quat1(1.0, 2.0, 34.0, 4.0),
quat2(-1.0, -2.0, -34.0, -4.0);
unsigned true_count(0);
const long iters(200000);
CPPUNIT_METRIC_START_TIMING();
for( long iter=0;iter<iters; ++iter)
{
if (gmtl::isEquiv( quat1, quat2, 0.0001f ) )
++true_count;
}
CPPUNIT_METRIC_STOP_TIMING();
CPPUNIT_ASSERT_METRIC_TIMING_LE("QuatCompareTest/isEquiv(quat,quat,tol)", iters, 0.075f, 0.1f); // warn at 7.5%, error at 10%
// Make sure the compiler doesn't optimize out true_count
CPPUNIT_ASSERT( true_count > 0 );
}示例14: box
void AABoxContainMetricTest::testTimingIsInVolumePt()
{
gmtl::AABoxf box(gmtl::Point3f(-1,-1,-1), gmtl::Point3f(1,1,1));
gmtl::Point3f origin;
const long iters(400000);
float use_value(0);
CPPUNIT_METRIC_START_TIMING();
for(long iter=0;iter<iters; ++iter)
{
gmtl::isInVolume(box, origin);
use_value = use_value + box.mMin[0] + 2.0f;
}
CPPUNIT_METRIC_STOP_TIMING();
CPPUNIT_ASSERT_METRIC_TIMING_LE("AABoxContainTest/IsInVolumePt", iters, 0.075f, 0.1f); // warn at 7.5%, error at 10%
CPPUNIT_ASSERT(use_value > 0.0f);
}