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_zhematrix-zssmatrix.hpp
1 //=============================================================================
3 inline _zgematrix operator+(const _zhematrix& matA, const zssmatrix& matB)
4 {
5 #ifdef CPPL_VERBOSE
6  std::cerr << "# [MARK] operator+(const _zhematrix&, const zssmatrix&)"
7  << std::endl;
8 #endif//CPPL_VERBOSE
9 
10 #ifdef CPPL_DEBUG
11  if(matA.N!=matB.M || matA.N!=matB.N){
12  std::cerr << "[ERROR] operator+(const _zhematrix&, const zssmatrix&)"
13  << std::endl
14  << "These two matrises can not make a summation." << std::endl
15  << "Your input was (" << matA.N << "x" << matA.N << ") + ("
16  << matB.M << "x" << matB.N << ")." << std::endl;
17  exit(1);
18  }
19 #endif//CPPL_DEBUG
20 
21  zgematrix newmat(matA);
22  for(long c=0; c<matB.VOL; c++){
23  newmat(matB.Indx[c],matB.Jndx[c]) += matB.Array[c];
24  }
25 
26  matA.destroy();
27  return _(newmat);
28 }
29 
30 //=============================================================================
32 inline _zgematrix operator-(const _zhematrix& matA, const zssmatrix& matB)
33 {
34 #ifdef CPPL_VERBOSE
35  std::cerr << "# [MARK] operator-(const _zhematrix&, const zssmatrix&)"
36  << std::endl;
37 #endif//CPPL_VERBOSE
38 
39 #ifdef CPPL_DEBUG
40  if(matA.N!=matB.M || matA.N!=matB.N){
41  std::cerr << "[ERROR] operator-(const _zhematrix&, const zssmatrix&)"
42  << std::endl
43  << "These two matrises can not make a subtraction." << std::endl
44  << "Your input was (" << matA.N << "x" << matA.N << ") - ("
45  << matB.M << "x" << matB.N << ")." << std::endl;
46  exit(1);
47  }
48 #endif//CPPL_DEBUG
49 
50  zgematrix newmat(matA);
51  for(long c=0; c<matB.VOL; c++){
52  newmat(matB.Indx[c],matB.Jndx[c]) -= matB.Array[c];
53  }
54 
55  matA.destroy();
56  return _(newmat);
57 }
58 
59 //=============================================================================
61 inline _zgematrix operator*(const _zhematrix& matA, const zssmatrix& matB)
62 {
63 #ifdef CPPL_VERBOSE
64  std::cerr << "# [MARK] operator*(const _zhematrix&, const zssmatrix&)"
65  << std::endl;
66 #endif//CPPL_VERBOSE
67 
68 #ifdef CPPL_DEBUG
69  if(matA.N!=matB.M){
70  std::cerr << "[ERROR] operator*(const _zhematrix&, const zssmatrix&)"
71  << std::endl
72  << "These two matrises can not make a product." << std::endl
73  << "Your input was (" << matA.N << "x" << matA.N << ") * ("
74  << matB.M << "x" << matB.N << ")." << std::endl;
75  exit(1);
76  }
77 #endif//CPPL_DEBUG
78 
79  zgematrix newmat(matA.N, matB.N);
80  newmat.zero();
81 
82  for(long c=0; c<matB.VOL; c++){
83  for(long i=0; i<matA.N; i++){
84  newmat(i,matB.Jndx[c]) += matA(i,matB.Indx[c])*matB.Array[c];
85  }
86  }
87 
88  matA.destroy();
89  return _(newmat);
90 }
(DO NOT USE) Smart-temporary Complex Double-precision Hermitian Matrix Class
Definition: _zhematrix.hpp:3
friend _zrovector operator-(const _zrovector &)
Definition: _zrovector-unary.hpp:15
Complex Double-precision General Dence Matrix Class.
Definition: zgematrix.hpp:3
(DO NOT USE) Smart-temporary Complex Double-precision General Dence Matrix Class
Definition: _zgematrix.hpp:3
void zero()
Definition: zgematrix-misc.hpp:26
void destroy() const
Definition: _zhematrix-misc.hpp:3
friend _zrovector operator*(const zrovector &, const zgematrix &)
Definition: zrovector-zgematrix.hpp:3
long N
matrix column or row size
Definition: _zhematrix.hpp:7
Complex Double-precision Sparse Matrix Class.
Definition: zssmatrix.hpp:3
friend const _zrovector & operator+(const _zrovector &)
Definition: _zrovector-unary.hpp:3