/* LA: linear algebra C++ interface library Copyright (C) 2024 Jiri Pittner or This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ //a simple tensor class with arbitrary symmetry of index subgroups //stored in an efficient way //presently only a rudimentary implementation //presently limited to 2G data size due to NRVec - maybe use a typedef LA_index //to uint64_t in the future in vector and matrix classes #ifndef _TENSOR_H #define _TENSOR_H #include #include #include "vec.h" #include "miscfunc.h" namespace LA { template class Signedpointer { T *ptr; int sgn; public: Signedpointer(const T *p, int s) : ptr(p),sgn(s) {}; //@@@@@@operations on singedpointer as LHS of the non-const tensor.operator() expressions }; typedef int LA_index; typedef int LA_largeindex; typedef class indexgroup { int number; //number of indices int symmetry; //-1 0 or 1 LA_index offset; //indices start at LA_index range; //indices span this range } INDEXGROUP; typedef NRVec FLATINDEX; //all indices but in a single vector typedef NRVec > SUPERINDEX; //all indices in the INDEXGROUP structure template class Tensor { //essential data NRVec shape; NRVec data; //redundant data to facilitate efficient indexing NRVec cumsizes; //cumulative sizes of symmetry index groups private: LA_largeindex index(int *sign, const SUPERINDEX &I); //map the tensor indices to the position in data LA_largeindex index(int *sign, const FLATINDEX &I); //map the tensor indices to the position in data LA_largeindex vindex(int *sign, int i1, va_list args); //map list of indices to the position in data @@@must call va_end public: Tensor() {}; Tensor(const NRVec &s) : shape(s), data((int)getsize()) {data.clear();}; int getrank() const; //is computed from shape LA_largeindex getsize(); //set redundant data and return total size void copyonwrite() {shape.copyonwrite(); data.copyonwrite();}; inline Signedpointer operator()(const SUPERINDEX &I) {int sign; LA_largeindex i=index(&sign,I); return Signedpointer(&data[i],sign);}; inline const T& operator()(const SUPERINDEX &I) const {int sign; LA_largeindex i=index(&sign,I); if(sign==0) return 0; return sign>0 ?data[i] : -data[i];}; inline Signedpointer operator()(const FLATINDEX &I) {int sign; LA_largeindex i=index(&sign,I); return Signedpointer(&data[i],sign);}; inline const T& operator()(const FLATINDEX &I) const {int sign; LA_largeindex i=index(&sign,I); if(sign==0) return 0; return sign>0 ?data[i] : -data[i];}; inline Signedpointer operator()(int i1...) {va_list args; int sign; LA_largeindex i; va_start(args,i1); i= vindex(&sign, i1,args); return Signedpointer(&data[i],sign); }; inline const T& operator()(int i1...) const {va_list args; ; int sign; LA_largeindex i; va_start(args,i1); i= vindex(&sign, i1,args); if(sign==0) return 0; return sign>0 ?data[i] : -data[i];}; //NOTE: for sign==0 data[i] can be undefined pointer, avoid dereferencing it //@@@TODO - unwinding to full size in a specified index //@@@TODO - contractions - basic and efficient //@@@TODO get/put to file, stream i/o }; template int Tensor:: getrank() const { int r=0; for(int i=0; i LA_largeindex Tensor::getsize() { cumsizes.resize(shape.size()); LA_largeindex s=1; for(int i=0; i