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bullet3/test/OpenCL/AllBullet3Kernels/testCompileBullet3PgsContactSolverKernels.cpp
erwin coumans 670576ec72 remove #include <stdbool.h> it breaks MSVC 2010 
enable gtest by default when using premake, added flag without-gtest
use gtest ASSERT_EQ( expected_value, actual_value) instead of the reverse,
this fixes issue 205 (https://github.com/bulletphysics/bullet3/issues/205)
2014-08-12 12:18:32 -07:00

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#include <gtest/gtest.h>
#include "Bullet3Common/b3Logging.h"
#include "Bullet3Common/b3CommandLineArgs.h"
#include "Bullet3OpenCL/Initialize/b3OpenCLUtils.h"
#include "Bullet3OpenCL/RigidBody/kernels/solverSetup.h"
#include "Bullet3OpenCL/RigidBody/kernels/solverSetup2.h"
#include "Bullet3OpenCL/RigidBody/kernels/solveContact.h"
#include "Bullet3OpenCL/RigidBody/kernels/solveFriction.h"
#include "Bullet3OpenCL/RigidBody/kernels/batchingKernels.h"
#include "Bullet3OpenCL/RigidBody/kernels/batchingKernelsNew.h"
extern int gArgc;
extern char** gArgv;
namespace
{
struct CompileBullet3PgsContactSolverKernels : public ::testing::Test
{
cl_context m_clContext;
cl_device_id m_clDevice;
cl_command_queue m_clQueue;
char* m_clDeviceName;
cl_platform_id m_platformId;
CompileBullet3PgsContactSolverKernels()
:m_clDeviceName(0),
m_clContext(0),
m_clDevice(0),
m_clQueue(0),
m_platformId(0)
{
// You can do set-up work for each test here.
b3CommandLineArgs args(gArgc,gArgv);
int preferredDeviceIndex=-1;
int preferredPlatformIndex = -1;
bool allowCpuOpenCL = false;
initCL();
}
virtual ~CompileBullet3PgsContactSolverKernels()
{
// You can do clean-up work that doesn't throw exceptions here.
exitCL();
}
// If the constructor and destructor are not enough for setting up
// and cleaning up each test, you can define the following methods:
#include "initCL.h"
virtual void SetUp()
{
// Code here will be called immediately after the constructor (right
// before each test).
}
virtual void TearDown()
{
// Code here will be called immediately after each test (right
// before the destructor).
}
};
TEST_F(CompileBullet3PgsContactSolverKernels,solveFrictionCL)
{
const char* additionalMacros="";
cl_int errNum=0;
cl_program solveFrictionProg= b3OpenCLUtils::compileCLProgramFromString( m_clContext, m_clDevice, solveFrictionCL, &errNum,additionalMacros, 0,true);
ASSERT_EQ(CL_SUCCESS,errNum);
{
cl_kernel k = b3OpenCLUtils::compileCLKernelFromString( m_clContext, m_clDevice, solveFrictionCL, "BatchSolveKernelFriction", &errNum, solveFrictionProg,additionalMacros );
ASSERT_EQ(CL_SUCCESS,errNum);
ASSERT_FALSE(k==0);
clReleaseKernel(k);
}
{
cl_kernel k =b3OpenCLUtils::compileCLKernelFromString( m_clContext, m_clDevice, solveFrictionCL, "solveSingleFrictionKernel", &errNum, solveFrictionProg,additionalMacros );
ASSERT_EQ(CL_SUCCESS,errNum);
ASSERT_FALSE(k==0);
clReleaseKernel(k);
}
clReleaseProgram(solveFrictionProg);
}
TEST_F(CompileBullet3PgsContactSolverKernels,solverSetupCL)
{
const char* additionalMacros="";
cl_int errNum=0;
cl_program solverSetupProg= b3OpenCLUtils::compileCLProgramFromString( m_clContext, m_clDevice, solverSetupCL, &errNum,additionalMacros, 0,true);
ASSERT_EQ(CL_SUCCESS,errNum);
{
cl_kernel k = b3OpenCLUtils::compileCLKernelFromString( m_clContext, m_clDevice, solverSetupCL, "ContactToConstraintKernel", &errNum, solverSetupProg,additionalMacros );
ASSERT_EQ(CL_SUCCESS,errNum);
ASSERT_FALSE(k==0);
clReleaseKernel(k);
}
clReleaseProgram(solverSetupProg);
}
TEST_F(CompileBullet3PgsContactSolverKernels,solverSetup2CL)
{
const char* additionalMacros="";
cl_int errNum=0;
cl_program solverSetup2Prog= b3OpenCLUtils::compileCLProgramFromString( m_clContext, m_clDevice, solverSetup2CL, &errNum,additionalMacros, 0,true);
ASSERT_EQ(CL_SUCCESS,errNum);
{
cl_kernel k = b3OpenCLUtils::compileCLKernelFromString( m_clContext, m_clDevice, solverSetup2CL, "SetSortDataKernel", &errNum, solverSetup2Prog,additionalMacros );
ASSERT_EQ(CL_SUCCESS,errNum);
ASSERT_FALSE(k==0);
clReleaseKernel(k);
}
{
cl_kernel k = b3OpenCLUtils::compileCLKernelFromString( m_clContext, m_clDevice, solverSetup2CL, "SetDeterminismSortDataBodyA", &errNum, solverSetup2Prog,additionalMacros );
ASSERT_EQ(CL_SUCCESS,errNum);
ASSERT_FALSE(k==0);
clReleaseKernel(k);
}
{
cl_kernel k = b3OpenCLUtils::compileCLKernelFromString( m_clContext, m_clDevice, solverSetup2CL, "SetDeterminismSortDataBodyB", &errNum, solverSetup2Prog,additionalMacros );
ASSERT_EQ(CL_SUCCESS,errNum);
ASSERT_FALSE(k==0);
clReleaseKernel(k);
}
{
cl_kernel k = b3OpenCLUtils::compileCLKernelFromString( m_clContext, m_clDevice, solverSetup2CL, "SetDeterminismSortDataChildShapeA", &errNum, solverSetup2Prog,additionalMacros );
ASSERT_EQ(CL_SUCCESS,errNum);
ASSERT_FALSE(k==0);
clReleaseKernel(k);
}
{
cl_kernel k = b3OpenCLUtils::compileCLKernelFromString( m_clContext, m_clDevice, solverSetup2CL, "SetDeterminismSortDataChildShapeB", &errNum, solverSetup2Prog,additionalMacros );
ASSERT_EQ(CL_SUCCESS,errNum);
ASSERT_FALSE(k==0);
clReleaseKernel(k);
}
{
cl_kernel k = b3OpenCLUtils::compileCLKernelFromString( m_clContext, m_clDevice, solverSetup2CL, "ReorderContactKernel", &errNum, solverSetup2Prog,additionalMacros );
ASSERT_EQ(CL_SUCCESS,errNum);
ASSERT_FALSE(k==0);
clReleaseKernel(k);
}
{
cl_kernel k = b3OpenCLUtils::compileCLKernelFromString( m_clContext, m_clDevice, solverSetup2CL, "CopyConstraintKernel", &errNum, solverSetup2Prog,additionalMacros );
ASSERT_EQ(CL_SUCCESS,errNum);
ASSERT_FALSE(k==0);
clReleaseKernel(k);
}
clReleaseProgram(solverSetup2Prog);
}
TEST_F(CompileBullet3PgsContactSolverKernels,solveContactCL)
{
const char* additionalMacros="";
cl_int errNum=0;
cl_program solveContactProg= b3OpenCLUtils::compileCLProgramFromString( m_clContext, m_clDevice, solveContactCL, &errNum,additionalMacros, 0,true);
ASSERT_EQ(CL_SUCCESS,errNum);
{
cl_kernel k = b3OpenCLUtils::compileCLKernelFromString( m_clContext, m_clDevice, solveContactCL, "BatchSolveKernelContact", &errNum, solveContactProg,additionalMacros );
ASSERT_EQ(CL_SUCCESS,errNum);
ASSERT_FALSE(k==0);
clReleaseKernel(k);
}
{
cl_kernel k = b3OpenCLUtils::compileCLKernelFromString( m_clContext, m_clDevice, solveContactCL, "solveSingleContactKernel", &errNum, solveContactProg,additionalMacros );
ASSERT_EQ(CL_SUCCESS,errNum);
ASSERT_FALSE(k==0);
clReleaseKernel(k);
}
clReleaseProgram(solveContactProg);
}
TEST_F(CompileBullet3PgsContactSolverKernels,batchingKernelsCL)
{
const char* additionalMacros="";
cl_int errNum=0;
cl_program batchingProg = b3OpenCLUtils::compileCLProgramFromString( m_clContext, m_clDevice, batchingKernelsCL, &errNum,additionalMacros, 0,true);
ASSERT_EQ(CL_SUCCESS,errNum);
{
cl_kernel k = b3OpenCLUtils::compileCLKernelFromString( m_clContext, m_clDevice, batchingKernelsCL, "CreateBatches", &errNum, batchingProg,additionalMacros );
ASSERT_EQ(CL_SUCCESS,errNum);
ASSERT_FALSE(k==0);
clReleaseKernel(k);
}
clReleaseProgram(batchingProg);
}
TEST_F(CompileBullet3PgsContactSolverKernels,batchingKernelsNewCL)
{
const char* additionalMacros="";
cl_int errNum=0;
cl_program batchingNewProg = b3OpenCLUtils::compileCLProgramFromString( m_clContext, m_clDevice, batchingKernelsNewCL, &errNum,additionalMacros, 0,true);
ASSERT_EQ(CL_SUCCESS,errNum);
{
cl_kernel k = b3OpenCLUtils::compileCLKernelFromString( m_clContext, m_clDevice, batchingKernelsNewCL, "CreateBatchesNew", &errNum, batchingNewProg,additionalMacros );
ASSERT_EQ(CL_SUCCESS,errNum);
ASSERT_FALSE(k==0);
clReleaseKernel(k);
}
clReleaseProgram(batchingNewProg);
}
};
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