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Grid/lib/tensors/Tensor_Ta.h

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#ifndef GRID_MATH_TA_H
#define GRID_MATH_TA_H
namespace Grid {
///////////////////////////////////////////////
// Ta function for scalar, vector, matrix
///////////////////////////////////////////////
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inline ComplexF Ta( const ComplexF &arg){ return arg;}
inline ComplexD Ta( const ComplexD &arg){ return arg;}
inline RealF Ta( const RealF &arg){ return arg;}
inline RealD Ta( const RealD &arg){ return arg;}
template<class vtype> inline iScalar<vtype> Ta(const iScalar<vtype>&r)
{
iScalar<vtype> ret;
ret._internal = Ta(r._internal);
return ret;
}
template<class vtype,int N> inline iVector<vtype,N> Ta(const iVector<vtype,N>&r)
{
iVector<vtype,N> ret;
for(int i=0;i<N;i++){
ret._internal[i] = Ta(r._internal[i]);
}
return ret;
}
template<class vtype,int N> inline iMatrix<vtype,N> Ta(const iMatrix<vtype,N> &arg)
{
iMatrix<vtype,N> ret(arg);
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double factor = (1/(double)N);
ret = (ret - adj(arg))*0.5;
ret -= trace(ret)*factor;
return ret;
}
///////////////////////////////////////////////
// ProjectOnGroup function for scalar, vector, matrix
///////////////////////////////////////////////
template<class vtype> inline iScalar<vtype> ProjectOnGroup(const iScalar<vtype>&r)
{
iScalar<vtype> ret;
ret._internal = ProjectOnGroup(r._internal);
return ret;
}
template<class vtype,int N> inline iVector<vtype,N> ProjectOnGroup(const iVector<vtype,N>&r)
{
iVector<vtype,N> ret;
for(int i=0;i<N;i++){
ret._internal[i] = ProjectOnGroup(r._internal[i]);
}
return ret;
}
template<class vtype,int N, typename std::enable_if< GridTypeMapper<vtype>::TensorLevel == 0 >::type * =nullptr>
inline iMatrix<vtype,N> ProjectOnGroup(const iMatrix<vtype,N> &arg)
{
// need a check for the group type?
iMatrix<vtype,N> ret(arg);
double nrm;
for(int c1=0;c1<N;c1++){
nrm = 0.0;
for(int c2=0;c2<N;c2++)
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nrm += real(innerProduct(ret._internal[c1][c2],ret._internal[c1][c2]));
nrm = 1.0/sqrt(nrm);
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std::cout << "norm : "<< nrm << "\n";
for(int c2=0;c2<N;c2++)
ret._internal[c1][c2]*= nrm;
for (int b=c1+1; b<N; ++b){
decltype(ret._internal[b][b]*ret._internal[b][b]) pr = 0.0;
for(int c=0; c<N; ++c)
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pr += conjugate(ret._internal[c1][c])*ret._internal[b][c];
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std::cout << "pr : "<< pr << "\n";
for(int c=0; c<N; ++c){
ret._internal[b][c] -= pr * ret._internal[c1][c];
}
}
}
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// assuming the determinant is ok
return ret;
}
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///////////////////////////////////////////////
// Determinant function for scalar, vector, matrix
///////////////////////////////////////////////
inline ComplexF Determinant( const ComplexF &arg){ return arg;}
inline ComplexD Determinant( const ComplexD &arg){ return arg;}
inline RealF Determinant( const RealF &arg){ return arg;}
inline RealD Determinant( const RealD &arg){ return arg;}
template<class vtype> inline auto Determinant(const iScalar<vtype>&r) -> iScalar<decltype(Determinant(r._internal))>
{
iScalar<decltype(Determinant(r._internal))> ret;
ret._internal = Determinant(r._internal);
return ret;
}
template<class vtype,int N, typename std::enable_if< GridTypeMapper<vtype>::TensorLevel == 0 >::type * =nullptr>
inline auto Determinant(const iMatrix<vtype,N> &arg)-> iScalar<decltype(Determinant(arg._internal[0][0]))>
{
iMatrix<vtype,N> ret(arg);
iScalar<decltype(Determinant(arg._internal[0][0]))> det = 1.0;
/* Conversion of matrix to upper triangular */
for(int i = 0; i < N; i++){
for(int j = 0; j < N; j++){
if(j>i){
vtype ratio = ret._internal[j][i]/ret._internal[i][i];
for(int k = 0; k < N; k++){
ret._internal[j][k] -= ratio * ret._internal[i][k];
}
}
}
}
for(int i = 0; i < N; i++)
det *= ret._internal[i][i];
return det;
}
///////////////////////////////////////////////
// Exponentiate function for scalar, vector, matrix
///////////////////////////////////////////////
template<class vtype> inline iScalar<vtype> Exponentiate(const iScalar<vtype>&r, double alpha, int Nexp)
{
iScalar<vtype> ret;
ret._internal = Exponentiate(r._internal, alpha, Nexp);
return ret;
}
template<class vtype,int N, typename std::enable_if< GridTypeMapper<vtype>::TensorLevel == 0 >::type * =nullptr>
inline iMatrix<vtype,N> Exponentiate(const iMatrix<vtype,N> &arg, double alpha, int Nexp)
{
iMatrix<vtype,N> unit(1.0);
iMatrix<vtype,N> temp(unit);
for(int i=Nexp; i>=1;--i){
temp *= alpha/double(i);
temp = unit + temp*arg;
}
return ProjectOnGroup(temp);
}
}
#endif