File: ps_tensor.h

package info (click to toggle)
dynare 4.5.7-1
  • links: PTS, VCS
  • area: main
  • in suites: buster
  • size: 49,408 kB
  • sloc: cpp: 84,998; ansic: 29,058; pascal: 13,843; sh: 4,833; objc: 4,236; yacc: 3,622; makefile: 2,278; lex: 1,541; python: 236; lisp: 69; xml: 8
file content (211 lines) | stat: -rw-r--r-- 5,809 bytes parent folder | download | duplicates (5) 
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
 
/*1:*/
#line 51 "./ps_tensor.hweb"


#ifndef PS_TENSOR_H
#define PS_TENSOR_H

#include "tensor.h"
#include "gs_tensor.h"
#include "equivalence.h"
#include "permutation.h"
#include "kron_prod.h"
#include "sparse_tensor.h"

/*2:*/
#line 73 "./ps_tensor.hweb"

class SortIntSequence:public IntSequence{
public:
SortIntSequence(const IntSequence&s)
:IntSequence(s){sort();}
};


/*:2*/
#line 63 "./ps_tensor.hweb"
;
/*3:*/
#line 101 "./ps_tensor.hweb"

class PerTensorDimens:public TensorDimens{
protected:
Permutation per;
public:
PerTensorDimens(const Symmetry&s,const IntSequence&nvars,
const Equivalence&e)
:TensorDimens(s,nvars),per(e)
{per.apply(nvmax);}
PerTensorDimens(const TensorDimens&td,const Equivalence&e)
:TensorDimens(td),per(e)
{per.apply(nvmax);}
PerTensorDimens(const TensorDimens&td,const Permutation&p)
:TensorDimens(td),per(p)
{per.apply(nvmax);}
PerTensorDimens(const IntSequence&ss,const IntSequence&coor)
:TensorDimens(ss,SortIntSequence(coor)),per(coor)
{per.apply(nvmax);}
PerTensorDimens(const PerTensorDimens&td)
:TensorDimens(td),per(td.per){}
const PerTensorDimens&operator= (const PerTensorDimens&td)
{TensorDimens::operator= (td);per= td.per;return*this;}
bool operator==(const PerTensorDimens&td)
{return TensorDimens::operator==(td)&&per==td.per;}
int tailIdentity()const
{return per.tailIdentity();}
const Permutation&getPer()const
{return per;}
};

/*:3*/
#line 64 "./ps_tensor.hweb"
;
/*4:*/
#line 154 "./ps_tensor.hweb"

class UPSTensor:public UTensor{
const PerTensorDimens tdims;
public:
/*5:*/
#line 194 "./ps_tensor.hweb"

UPSTensor(const TensorDimens&td,const Equivalence&e,
const ConstTwoDMatrix&a,const KronProdAll&kp)
:UTensor(along_col,PerTensorDimens(td,e).getNVX(),
a.nrows(),kp.ncols(),td.dimen()),tdims(td,e)
{kp.mult(a,*this);}
UPSTensor(const TensorDimens&td,const Equivalence&e,
const ConstTwoDMatrix&a,const KronProdAllOptim&kp)
:UTensor(along_col,PerTensorDimens(td,Permutation(e,kp.getPer())).getNVX(),
a.nrows(),kp.ncols(),td.dimen()),tdims(td,Permutation(e,kp.getPer()))
{kp.mult(a,*this);}
UPSTensor(const TensorDimens&td,const Equivalence&e,const Permutation&p,
const ConstTwoDMatrix&a,const KronProdAll&kp)
:UTensor(along_col,PerTensorDimens(td,Permutation(e,p)).getNVX(),
a.nrows(),kp.ncols(),td.dimen()),tdims(td,Permutation(e,p))
{kp.mult(a,*this);}
UPSTensor(const TensorDimens&td,const Equivalence&e,const Permutation&p,
const ConstTwoDMatrix&a,const KronProdAllOptim&kp)
:UTensor(along_col,PerTensorDimens(td,Permutation(e,Permutation(p,kp.getPer()))).getNVX(),
a.nrows(),kp.ncols(),td.dimen()),tdims(td,Permutation(e,Permutation(p,kp.getPer())))
{kp.mult(a,*this);}

/*:5*/
#line 158 "./ps_tensor.hweb"
;
UPSTensor(const FSSparseTensor&t,const IntSequence&ss,
const IntSequence&coor,const PerTensorDimens&ptd);
UPSTensor(const UPSTensor&ut)
:UTensor(ut),tdims(ut.tdims){}

void increment(IntSequence&v)const;
void decrement(IntSequence&v)const;
FTensor&fold()const;

int getOffset(const IntSequence&v)const;
void addTo(FGSTensor&out)const;
void addTo(UGSTensor&out)const;

enum fill_method{first,second};
static fill_method decideFillMethod(const FSSparseTensor&t);
private:
int tailIdentitySize()const;
void fillFromSparseOne(const FSSparseTensor&t,const IntSequence&ss,
const IntSequence&coor);
void fillFromSparseTwo(const FSSparseTensor&t,const IntSequence&ss,
const IntSequence&coor);
};

/*:4*/
#line 65 "./ps_tensor.hweb"
;
/*6:*/
#line 231 "./ps_tensor.hweb"

class PerTensorDimens2:public PerTensorDimens{
InducedSymmetries syms;
IntSequence ds;
public:
PerTensorDimens2(const TensorDimens&td,const Equivalence&e,
const Permutation&p)
:PerTensorDimens(td,Permutation(e,p)),
syms(e,p,td.getSym()),
ds(syms.size())
{setDimensionSizes();}
PerTensorDimens2(const TensorDimens&td,const Equivalence&e)
:PerTensorDimens(td,e),
syms(e,td.getSym()),
ds(syms.size())
{setDimensionSizes();}
int numSyms()const
{return(int)syms.size();}
const Symmetry&getSym(int i)const
{return syms[i];}
int calcMaxOffset()const
{return ds.mult();}
int calcOffset(const IntSequence&coor)const;
void print()const;
protected:
void setDimensionSizes();
};

/*:6*/
#line 66 "./ps_tensor.hweb"
;
/*7:*/
#line 298 "./ps_tensor.hweb"

template<typename _Ttype> class StackProduct;

class FPSTensor:public FTensor{
const PerTensorDimens2 tdims;
public:
/*8:*/
#line 323 "./ps_tensor.hweb"

FPSTensor(const TensorDimens&td,const Equivalence&e,
const ConstTwoDMatrix&a,const KronProdAll&kp)
:FTensor(along_col,PerTensorDimens(td,e).getNVX(),
a.nrows(),kp.ncols(),td.dimen()),tdims(td,e)
{kp.mult(a,*this);}
FPSTensor(const TensorDimens&td,const Equivalence&e,
const ConstTwoDMatrix&a,const KronProdAllOptim&kp)
:FTensor(along_col,PerTensorDimens(td,Permutation(e,kp.getPer())).getNVX(),
a.nrows(),kp.ncols(),td.dimen()),tdims(td,e,kp.getPer())
{kp.mult(a,*this);}
FPSTensor(const TensorDimens&td,const Equivalence&e,const Permutation&p,
const ConstTwoDMatrix&a,const KronProdAll&kp)
:FTensor(along_col,PerTensorDimens(td,Permutation(e,p)).getNVX(),
a.nrows(),kp.ncols(),td.dimen()),tdims(td,e,p)
{kp.mult(a,*this);}
FPSTensor(const TensorDimens&td,const Equivalence&e,const Permutation&p,
const ConstTwoDMatrix&a,const KronProdAllOptim&kp)
:FTensor(along_col,PerTensorDimens(td,Permutation(e,Permutation(p,kp.getPer()))).getNVX(),
a.nrows(),kp.ncols(),td.dimen()),tdims(td,e,Permutation(p,kp.getPer()))
{kp.mult(a,*this);}

FPSTensor(const TensorDimens&td,const Equivalence&e,const Permutation&p,
const GSSparseTensor&t,const KronProdAll&kp);

FPSTensor(const FPSTensor&ft)
:FTensor(ft),tdims(ft.tdims){}

/*:8*/
#line 304 "./ps_tensor.hweb"
;

void increment(IntSequence&v)const;
void decrement(IntSequence&v)const;
UTensor&unfold()const;

int getOffset(const IntSequence&v)const;
void addTo(FGSTensor&out)const;
};

/*:7*/
#line 67 "./ps_tensor.hweb"
;

#endif

/*:1*/