class tensor - apply permutation algebra
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2
t.cc
2
t.cc
@ -3350,4 +3350,6 @@ for(int i=0; i<n; ++i)
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//cout <<c;
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}
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//test Tensor apply_permutation_algebra
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}
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33
tensor.cc
33
tensor.cc
@ -715,6 +715,39 @@ auxmatmult<T>(nn,mm,kk,&data[0],&u.data[0], &rhsu.data[0],alpha,beta);
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}
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template<typename T>
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static const PermutationAlgebra<int,T> *help_pa;
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static bool help_inverse;
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template<typename T>
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static T help_alpha;
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template<typename T>
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static void permutationalgebra_callback(const SUPERINDEX &I, T *v)
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{
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FLATINDEX J = superindex2flat(I);
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for(int p=0; p<help_pa<T>->size(); ++p)
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{
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FLATINDEX Jp = J.permuted((*help_pa<T>)[p].perm,help_inverse);
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*v += help_alpha<T> * (*help_pa<T>)[p].weight * (*help_t<T>)(Jp);
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}
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}
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template<typename T>
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void Tensor<T>::apply_permutation_algebra(const Tensor<T> &rhs, const PermutationAlgebra<int,T> &pa, bool inverse, T alpha, T beta)
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{
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if(beta!=(T)0) *this *= beta; else clear();
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if(alpha==(T)0) return;
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help_t<T> = const_cast<Tensor<T> *>(&rhs);
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help_pa<T> = &pa;
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help_inverse = inverse;
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help_alpha<T> = alpha;
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loopover(permutationalgebra_callback);
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}
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template class Tensor<double>;
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8
tensor.h
8
tensor.h
@ -183,8 +183,12 @@ public:
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void addcontraction(const Tensor &rhs1, int group, int index, const Tensor &rhs, int rhsgroup, int rhsindex, T alpha=1, T beta=1, bool doresize=false);
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inline Tensor contraction(int group, int index, const Tensor &rhs, int rhsgroup, int rhsindex, T alpha=1) const {Tensor<T> r; r.addcontraction(*this,group,index,rhs,rhsgroup,rhsindex,alpha,0,true); return r; }
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//@@@ general antisymmetrization operator Kucharski style - or that will be left to a code generator?
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//@@@symmetrize a group, antisymmetrize a group, expand a (anti)symmetric group - obecne symmetry change krome +1 na -1 vse mozne
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void apply_permutation_algebra(const Tensor &rhs, const PermutationAlgebra<int,T> &pa, bool inverse=false, T alpha=1, T beta=0); //general (not optimally efficient) symmetrizers, antisymmetrizers etc. acting on the flattened index list:
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// this *=beta; for I over this: this(I) += alpha * sum_P c_P rhs(P(I))
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// PermutationAlgebra can represent e.g. general_antisymmetrizer in Kucharski-Bartlett notation
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//TODO perhaps implement application of a permutation algebra to a product of several tensors
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};
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