ADMB Documentation  -a65f1c97
 All Classes Namespaces Files Functions Variables Typedefs Enumerations Enumerator Friends Macros Groups Pages
fvar_a41.cpp
Go to the documentation of this file.
1 /*
2  * $Id$
3  *
4  * Author: David Fournier
5  * Copyright (c) 2008-2012 Regents of the University of California
6  */
11 #include "fvar.hpp"
12 
17 dvar_vector operator+(const dvar_vector& t1, const double x)
18 {
19  return x + t1;
20 }
21 
22 void DF_cdble_dv_add(void);
23 
28 dvar_vector operator+(const double x, const dvar_vector& t1)
29 {
32 
33  int min = t1.indexmin();
34  int max = t1.indexmax();
35  dvar_vector tmp(min, max);
36  save_identifier_string("wctf");
37 
38  double_and_int* ptmpi = tmp.va + min;
39  const double_and_int* pt1i = t1.va + min;
40  for (int i = min; i <= max; ++i)
41  {
42  ptmpi->x = pt1i->x + x;
43 
44  ++ptmpi;
45  ++pt1i;
46  }
50  save_identifier_string("ddtu");
53 
54  return tmp;
55 }
56 
61 void DF_cdble_dv_add(void)
62 {
64 
69 
70  int min = t1_pos.indexmin();
71  int max = t1_pos.indexmax();
72  dvector dft1(min, max);
74 
75  double* pdft1i = dft1.get_v() + max;
76  double* pdftmpi = dftmp.get_v() + max;
77  for (int i = max; i >= min; --i)
78  {
79  // tmp.elem_value(i)=x+t1.elem_value(i);
80  *pdft1i = *pdftmpi;
81 
82  --pdft1i;
83  --pdftmpi;
84  }
85  dft1.save_dvector_derivatives(t1_pos);
86 }
#define x
Vector of double precision numbers.
Definition: dvector.h:50
d3_array operator+(const d3_array &a, const d3_array &b)
Returns d3_array results with computed elements addition of a(i, j, k) + b(i, j, k).
Definition: d3arr2a.cpp:132
void save_dvector_derivatives(const dvar_vector_position &pos) const
Puts the derivative values in a dvector into a dvar_vector&#39;s guts.
Definition: cmpdif5.cpp:212
Description not yet available.
Definition: fvar.hpp:4814
int indexmin() const
Definition: fvar.hpp:4827
ADMB variable vector.
Definition: fvar.hpp:2172
void verify_identifier_string(const char *)
Verifies gradient stack string.
Definition: cmpdif3.cpp:149
Holds the data for the prevariable class.
Definition: fvar.hpp:191
void set_gradient_stack(void(*func)(void), double *dep_addr, double *ind_addr1=NULL, double mult1=0, double *ind_addr2=NULL, double mult2=0)
Description not yet available.
Definition: fvar.hpp:1045
int indexmax() const
Definition: fvar.hpp:4831
dvar_vector_position restore_dvar_vector_position()
Definition: cmpdif4.cpp:69
void RETURN_ARRAYS_INCREMENT()
Definition: gradstrc.cpp:478
#define min(a, b)
Definition: cbivnorm.cpp:188
Author: David Fournier Copyright (c) 2008-2012 Regents of the University of California.
static _THREAD gradient_structure * _instance
int save_identifier_string(const char *)
Writes a gradient stack verification string.
Definition: cmpdif2.cpp:315
int indexmin() const
Definition: fvar.hpp:2287
void save_dvar_vector_position(const dvar_vector &v)
Definition: cmpdif3.cpp:214
static _THREAD DF_FILE * fp
Stores the adjoint gradient data that will be processed by gradcalc.
dvector restore_dvar_vector_derivatives(const dvar_vector_position &tmp)
Description not yet available.
Definition: cmpdif5.cpp:150
void RETURN_ARRAYS_DECREMENT()
Definition: gradstrc.cpp:511
double_and_int * va
Definition: fvar.hpp:2175
static _THREAD grad_stack * GRAD_STACK1
#define max(a, b)
Definition: cbivnorm.cpp:189
class for things related to the gradient structures, including dimension of arrays, size of buffers, etc.
double *& get_v(void)
Definition: dvector.h:148
void DF_cdble_dv_add(void)
Description not yet available.
Definition: fvar_a41.cpp:61
int indexmax() const
Definition: fvar.hpp:2292
double x
&lt; value of the variable
Definition: fvar.hpp:195