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Saxum/extern/bullet/Test/Source/Tests/Test_v3triple.cpp
Fabian Klemp aeb6218d2d Renaming.
2014-10-24 11:49:46 +02:00

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//
// Test_v3triple.cpp
// BulletTest
//
// Copyright (c) 2011 Apple Inc.
//
#include "LinearMath/btScalar.h"
#if defined (BT_USE_SSE_IN_API) || defined (BT_USE_NEON)
#include "Test_v3triple.h"
#include "vector.h"
#include "Utils.h"
#include "main.h"
#include <math.h>
#include <string.h>
#include <LinearMath/btVector3.h>
// reference code for testing purposes
static btScalar
v3triple_ref(
const btVector3& v,
const btVector3& v1,
const btVector3& v2);
#define LOOPCOUNT 1024
#define NUM_CYCLES 10000
int Test_v3triple(void)
{
btVector3 v1, v2, v3;
float x,y,z,w;
// Init the data
x = RANDF_01;
y = RANDF_01;
z = RANDF_01;
w = BT_NAN; // w channel NaN
v1.setValue(x,y,z);
v1.setW(w);
x = RANDF_01;
y = RANDF_01;
z = RANDF_01;
v2.setValue(x,y,z);
v2.setW(w);
x = RANDF_01;
y = RANDF_01;
z = RANDF_01;
v3.setValue(x,y,z);
v3.setW(w);
float correctTriple0, testTriple0;
{
correctTriple0 = w;
testTriple0 = w;
testTriple0 = v3triple_ref(v1,v2,v3);
correctTriple0 = v1.triple(v2, v3);
if( fabsf(correctTriple0 - testTriple0) > FLT_EPSILON * 4 )
{
vlog( "Error - v3triple result error! %f != %f \n", correctTriple0, testTriple0);
return 1;
}
}
#define DATA_SIZE 1024
btVector3 v3_arr1[DATA_SIZE];
btVector3 v3_arr2[DATA_SIZE];
btVector3 v3_arr3[DATA_SIZE];
btScalar res_arr[DATA_SIZE];
uint64_t scalarTime;
uint64_t vectorTime;
size_t j, k;
for( k = 0; k < DATA_SIZE; k++ )
{
x = RANDF_01;
y = RANDF_01;
z = RANDF_01;
v3_arr1[k].setValue(x,y,z);
v3_arr1[k].setW(w);
x = RANDF_01;
y = RANDF_01;
z = RANDF_01;
v3_arr2[k].setValue(x,y,z);
v3_arr2[k].setW(w);
x = RANDF_01;
y = RANDF_01;
z = RANDF_01;
v3_arr3[k].setValue(x,y,z);
v3_arr3[k].setW(w);
}
{
uint64_t startTime, bestTime, currentTime;
bestTime = uint64_t(-1LL);
scalarTime = 0;
for (j = 0; j < NUM_CYCLES; j++)
{
startTime = ReadTicks();
for( k = 0; k+4 <= LOOPCOUNT; k+=4 )
{
size_t k32 = (k & (DATA_SIZE-1));
res_arr[k32] = v3triple_ref( v3_arr1[k32], v3_arr2[k32], v3_arr3[k32]); k32++;
res_arr[k32] = v3triple_ref( v3_arr1[k32], v3_arr2[k32], v3_arr3[k32]); k32++;
res_arr[k32] = v3triple_ref( v3_arr1[k32], v3_arr2[k32], v3_arr3[k32]); k32++;
res_arr[k32] = v3triple_ref( v3_arr1[k32], v3_arr2[k32], v3_arr3[k32]);
}
currentTime = ReadTicks() - startTime;
scalarTime += currentTime;
if( currentTime < bestTime )
bestTime = currentTime;
}
if( 0 == gReportAverageTimes )
scalarTime = bestTime;
else
scalarTime /= NUM_CYCLES;
}
{
uint64_t startTime, bestTime, currentTime;
bestTime = uint64_t(-1LL);
vectorTime = 0;
for (j = 0; j < NUM_CYCLES; j++)
{
startTime = ReadTicks();
for( k = 0; k+4 <= LOOPCOUNT; k+=4 )
{
size_t k32 = k & (DATA_SIZE -1);
res_arr[k32] = v3_arr1[k32].triple(v3_arr2[k32], v3_arr3[k32]); k32++;
res_arr[k32] = v3_arr1[k32].triple(v3_arr2[k32], v3_arr3[k32]); k32++;
res_arr[k32] = v3_arr1[k32].triple(v3_arr2[k32], v3_arr3[k32]); k32++;
res_arr[k32] = v3_arr1[k32].triple(v3_arr2[k32], v3_arr3[k32]);
}
currentTime = ReadTicks() - startTime;
vectorTime += currentTime;
if( currentTime < bestTime )
bestTime = currentTime;
}
if( 0 == gReportAverageTimes )
vectorTime = bestTime;
else
vectorTime /= NUM_CYCLES;
}
vlog( "Timing:\n" );
vlog( " \t scalar\t vector\n" );
vlog( " \t%10.4f\t%10.4f\n", TicksToCycles( scalarTime ) / LOOPCOUNT, TicksToCycles( vectorTime ) / LOOPCOUNT );
return 0;
}
static btScalar
v3triple_ref(
const btVector3& v,
const btVector3& v1,
const btVector3& v2)
{
return
v.m_floats[0] * (v1.m_floats[1] * v2.m_floats[2] - v1.m_floats[2] * v2.m_floats[1]) +
v.m_floats[1] * (v1.m_floats[2] * v2.m_floats[0] - v1.m_floats[0] * v2.m_floats[2]) +
v.m_floats[2] * (v1.m_floats[0] * v2.m_floats[1] - v1.m_floats[1] * v2.m_floats[0]);
}
#endif //BT_USE_SSE
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