/usr/include/sofa/gpu/cuda/CudaFixedConstraint.inl is in libsofa1-dev 1.0~beta4-12.
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* SOFA, Simulation Open-Framework Architecture, version 1.0 beta 4 *
* (c) 2006-2009 MGH, INRIA, USTL, UJF, CNRS *
* *
* This library is free software; you can redistribute it and/or modify it *
* under the terms of the GNU Lesser General Public License as published by *
* the Free Software Foundation; either version 2.1 of the License, or (at *
* your option) any later version. *
* *
* This library is distributed in the hope that it will be useful, but WITHOUT *
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or *
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License *
* for more details. *
* *
* You should have received a copy of the GNU Lesser General Public License *
* along with this library; if not, write to the Free Software Foundation, *
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. *
*******************************************************************************
* SOFA :: Modules *
* *
* Authors: The SOFA Team and external contributors (see Authors.txt) *
* *
* Contact information: contact@sofa-framework.org *
******************************************************************************/
#ifndef SOFA_GPU_CUDA_CUDAFIXEDCONSTRAINT_INL
#define SOFA_GPU_CUDA_CUDAFIXEDCONSTRAINT_INL
#include "CudaFixedConstraint.h"
#include <sofa/component/constraint/FixedConstraint.inl>
namespace sofa
{
namespace gpu
{
namespace cuda
{
extern "C"
{
void FixedConstraintCuda3f_projectResponseContiguous(unsigned int size, void* dx);
void FixedConstraintCuda3f_projectResponseIndexed(unsigned int size, const void* indices, void* dx);
void FixedConstraintCuda3f1_projectResponseContiguous(unsigned int size, void* dx);
void FixedConstraintCuda3f1_projectResponseIndexed(unsigned int size, const void* indices, void* dx);
#ifdef SOFA_GPU_CUDA_DOUBLE
void FixedConstraintCuda3d_projectResponseContiguous(unsigned int size, void* dx);
void FixedConstraintCuda3d_projectResponseIndexed(unsigned int size, const void* indices, void* dx);
void FixedConstraintCuda3d1_projectResponseContiguous(unsigned int size, void* dx);
void FixedConstraintCuda3d1_projectResponseIndexed(unsigned int size, const void* indices, void* dx);
#endif // SOFA_GPU_CUDA_DOUBLE
}
} // namespace cuda
} // namespace gpu
namespace component
{
namespace constraint
{
using namespace gpu::cuda;
template<class TCoord, class TDeriv, class TReal>
void FixedConstraintInternalData< gpu::cuda::CudaVectorTypes<TCoord,TDeriv,TReal> >::init(Main* m)
{
Data& data = m->data;
data.minIndex = -1;
data.maxIndex = -1;
data.cudaIndices.clear();
m->core::componentmodel::behavior::Constraint<DataTypes>::init();
const SetIndex& indices = m->f_indices.getValue();
if (!indices.empty())
{
// put indices in a set to sort them and remove duplicates
std::set<int> sortedIndices;
for (typename SetIndex::const_iterator it = indices.begin(); it!=indices.end(); it++)
sortedIndices.insert(*it);
// check if the indices are contiguous
if (*sortedIndices.begin() + (int)sortedIndices.size()-1 == *sortedIndices.rbegin())
{
data.minIndex = *sortedIndices.begin();
data.maxIndex = *sortedIndices.rbegin();
//std::cout << "CudaFixedConstraint: "<<sortedIndices.size()<<" contiguous fixed indices, "<<data.minIndex<<" - "<<data.maxIndex<<sendl;
}
else
{
//std::cout << "CudaFixedConstraint: "<<sortedIndices.size()<<" non-contiguous fixed indices"<<sendl;
data.cudaIndices.reserve(sortedIndices.size());
for (std::set<int>::const_iterator it = sortedIndices.begin(); it!=sortedIndices.end(); it++)
data.cudaIndices.push_back(*it);
}
}
}
template<class TCoord, class TDeriv, class TReal>
void FixedConstraintInternalData< gpu::cuda::CudaVectorTypes<TCoord,TDeriv,TReal> >::addConstraint(Main* m, unsigned int index)
{
Data& data = m->data;
//std::cout << "CudaFixedConstraint::addConstraint("<<index<<")\n";
m->f_indices.beginEdit()->push_back(index);
m->f_indices.endEdit();
if (data.cudaIndices.empty())
{
if (data.minIndex == -1)
{
//std::cout << "CudaFixedConstraint: single index "<<index<<"\n";
data.minIndex = index;
data.maxIndex = index;
}
else if ((int)index >= data.minIndex && (int)index <= data.maxIndex)
{
// point already fixed
}
else if (data.minIndex == (int)index+1)
{
data.minIndex = index;
//std::cout << "CudaFixedConstraint: new min index "<<index<<"\n";
}
else if (data.maxIndex == (int)index-1)
{
data.maxIndex = index;
//std::cout << "CudaFixedConstraint: new max index "<<index<<"\n";
}
else
{
data.cudaIndices.reserve(data.maxIndex-data.minIndex+2);
for (int i=data.minIndex;i<data.maxIndex;i++)
data.cudaIndices.push_back(i);
data.cudaIndices.push_back(index);
data.minIndex = -1;
data.maxIndex = -1;
std::cout << "CudaFixedConstraint: new indices array size "<<data.cudaIndices.size()<<"\n";
}
}
else
{
data.cudaIndices.push_back(index);
//std::cout << "CudaFixedConstraint: indices array size "<<data.cudaIndices.size()<<"\n";
}
}
template<class TCoord, class TDeriv, class TReal>
void FixedConstraintInternalData< gpu::cuda::CudaVectorTypes<TCoord,TDeriv,TReal> >::removeConstraint(Main* m, unsigned int index)
{
Data& data = m->data;
removeValue(*m->f_indices.beginEdit(),index);
m->f_indices.endEdit();
if (data.cudaIndices.empty())
{
if (data.minIndex <= (int)index && (int)index <= data.maxIndex)
{
if (data.minIndex == (int)index)
{
if (data.maxIndex == (int)index)
{
// empty set
data.minIndex = -1;
data.maxIndex = -1;
}
else
++data.minIndex;
}
else if (data.maxIndex == (int)index)
--data.maxIndex;
else
{
data.cudaIndices.reserve(data.maxIndex-data.minIndex);
for (int i=data.minIndex;i<data.maxIndex;i++)
if (i != (int)index)
data.cudaIndices.push_back(i);
data.minIndex = -1;
data.maxIndex = -1;
}
}
}
else
{
bool found = false;
for (unsigned int i=0; i<data.cudaIndices.size(); i++)
{
if (found)
data.cudaIndices[i-1] = data.cudaIndices[i];
else if (data.cudaIndices[i] == (int)index)
found = true;
}
if (found)
data.cudaIndices.resize(data.cudaIndices.size()-1);
}
}
template <>
void FixedConstraintInternalData<gpu::cuda::CudaVec3fTypes>::projectResponse(Main* m, VecDeriv& dx)
{
Data& data = m->data;
if (m->f_fixAll.getValue())
FixedConstraintCuda3f_projectResponseContiguous(dx.size(), ((float*)dx.deviceWrite()));
else if (data.minIndex >= 0)
FixedConstraintCuda3f_projectResponseContiguous(data.maxIndex-data.minIndex+1, ((float*)dx.deviceWrite())+3*data.minIndex);
else
FixedConstraintCuda3f_projectResponseIndexed(data.cudaIndices.size(), data.cudaIndices.deviceRead(), dx.deviceWrite());
}
template <>
void FixedConstraintInternalData<gpu::cuda::CudaVec3f1Types>::projectResponse(Main* m, VecDeriv& dx)
{
Data& data = m->data;
if (m->f_fixAll.getValue())
FixedConstraintCuda3f1_projectResponseContiguous(dx.size(), ((float*)dx.deviceWrite()));
else if (data.minIndex >= 0)
FixedConstraintCuda3f1_projectResponseContiguous(data.maxIndex-data.minIndex+1, ((float*)dx.deviceWrite())+4*data.minIndex);
else
FixedConstraintCuda3f1_projectResponseIndexed(data.cudaIndices.size(), data.cudaIndices.deviceRead(), dx.deviceWrite());
}
#ifdef SOFA_GPU_CUDA_DOUBLE
template <>
void FixedConstraintInternalData<gpu::cuda::CudaVec3dTypes>::projectResponse(Main* m, VecDeriv& dx)
{
Data& data = m->data;
if (m->f_fixAll.getValue())
FixedConstraintCuda3d_projectResponseContiguous(dx.size(), ((double*)dx.deviceWrite()));
else if (data.minIndex >= 0)
FixedConstraintCuda3d_projectResponseContiguous(data.maxIndex-data.minIndex+1, ((double*)dx.deviceWrite())+3*data.minIndex);
else
FixedConstraintCuda3d_projectResponseIndexed(data.cudaIndices.size(), data.cudaIndices.deviceRead(), dx.deviceWrite());
}
template <>
void FixedConstraintInternalData<gpu::cuda::CudaVec3d1Types>::projectResponse(Main* m, VecDeriv& dx)
{
Data& data = m->data;
if (m->f_fixAll.getValue())
FixedConstraintCuda3d1_projectResponseContiguous(dx.size(), ((double*)dx.deviceWrite()));
else if (data.minIndex >= 0)
FixedConstraintCuda3d1_projectResponseContiguous(data.maxIndex-data.minIndex+1, ((double*)dx.deviceWrite())+4*data.minIndex);
else
FixedConstraintCuda3d1_projectResponseIndexed(data.cudaIndices.size(), data.cudaIndices.deviceRead(), dx.deviceWrite());
}
#endif // SOFA_GPU_CUDA_DOUBLE
// I know using macros is bad design but this is the only way not to repeat the code for all CUDA types
#define CudaFixedConstraint_ImplMethods(T) \
template<> void FixedConstraint< T >::init() \
{ data.init(this); } \
template<> void FixedConstraint< T >::addConstraint(unsigned int index) \
{ data.addConstraint(this, index); } \
template<> void FixedConstraint< T >::removeConstraint(unsigned int index) \
{ data.removeConstraint(this, index); } \
template<> void FixedConstraint< T >::projectResponse(VecDeriv& dx) \
{ data.projectResponse(this, dx); }
CudaFixedConstraint_ImplMethods(gpu::cuda::CudaVec3fTypes);
CudaFixedConstraint_ImplMethods(gpu::cuda::CudaVec3f1Types);
#ifdef SOFA_GPU_CUDA_DOUBLE
CudaFixedConstraint_ImplMethods(gpu::cuda::CudaVec3dTypes);
CudaFixedConstraint_ImplMethods(gpu::cuda::CudaVec3d1Types);
#endif // SOFA_GPU_CUDA_DOUBLE
#undef CudaFixedConstraint_ImplMethods
} // namespace constraint
} // namespace component
} // namespace sofa
#endif
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