home
about
news
download
doc
source
systems
tests
bugs
contact
IMP Reference Guide
2.22.0
The Integrative Modeling Platform
IMP Manual
Reference Guide
Tutorial Index
Modules
Classes
Examples
include
IMP
version 2.22.0
singleton_macros.h
Go to the documentation of this file.
1
// Autogenerated by ../../../../tmp/nightly-build-470/imp-2.22.0/tools/build/make_containers.py
2
// from ../../../../tmp/nightly-build-470/imp-2.22.0/tools/build/container_templates/kernel/classname_macros.h
3
// Do not edit - any changes will be lost!
4
5
/**
6
* \file IMP/singleton_macros.h
7
* \brief Macros for various classes.
8
*
9
* Copyright 2007-2022 IMP Inventors. All rights reserved.
10
*/
11
12
#ifndef IMPKERNEL_SINGLETON_MACROS_H
13
#define IMPKERNEL_SINGLETON_MACROS_H
14
15
#include "internal/TupleRestraint.h"
16
#include "internal/functors.h"
17
#include "
container_macros.h
"
18
#include <
IMP/object_macros.h
>
19
#include <algorithm>
20
21
/** Define
22
- IMP::SingletonScore::evaluate_indexes()
23
- IMP::SingletonScore::evaluate_if_good_indexes()
24
*/
25
#define IMP_SINGLETON_SCORE_METHODS(Name) \
26
double evaluate_indexes(Model *m, const ParticleIndexes &p, \
27
DerivativeAccumulator *da, unsigned int lower_bound, \
28
unsigned int upper_bound) \
29
const override final { \
30
double ret = 0; \
31
for (unsigned int i = lower_bound; i < upper_bound; ++i) { \
32
ret += evaluate_index(m, p[i], da); \
33
} \
34
return ret; \
35
} \
36
double evaluate_indexes_scores( \
37
Model *m, const ParticleIndexes &p, \
38
DerivativeAccumulator *da, unsigned int lower_bound, \
39
unsigned int upper_bound, \
40
std::vector<double> &score) \
41
const override final { \
42
double ret = 0; \
43
for (unsigned int i = lower_bound; i < upper_bound; ++i) { \
44
double s = evaluate_index(m, p[i], da); \
45
score[i] = s; \
46
ret += s; \
47
} \
48
return ret; \
49
} \
50
double evaluate_indexes_delta( \
51
Model *m, const ParticleIndexes &p, \
52
DerivativeAccumulator *da, \
53
const std::vector<unsigned> &indexes, \
54
std::vector<double> &score) \
55
const override final { \
56
double ret = 0; \
57
for (std::vector<unsigned>::const_iterator it = indexes.begin(); \
58
it != indexes.end(); ++it) { \
59
double s = evaluate_index(m, p[*it], da); \
60
ret = ret - score[*it] + s; \
61
score[*it] = s; \
62
} \
63
return ret; \
64
} \
65
double evaluate_if_good_indexes( \
66
Model *m, const ParticleIndexes &p, DerivativeAccumulator *da, \
67
double max, unsigned int lower_bound, \
68
unsigned int upper_bound) const override { \
69
double ret = 0; \
70
for (unsigned int i = lower_bound; i < upper_bound; ++i) { \
71
ret += evaluate_if_good_index(m, p[i], da, max - ret); \
72
if (ret > max) return std::numeric_limits<double>::max(); \
73
} \
74
return ret; \
75
}
76
77
//! Define extra the functions needed for a SingletonPredicate
78
#define IMP_SINGLETON_PREDICATE_METHODS(Name) \
79
int get_value(Particle* a) const { \
80
return get_value_index(IMP::internal::get_model(a), \
81
IMP::internal::get_index(a)); \
82
} \
83
Ints get_value(const ParticlesTemp &o) const { \
84
Ints ret(o.size()); \
85
for (unsigned int i = 0; i < o.size(); ++i) { \
86
ret[i] += Name::get_value(o[i]); \
87
} \
88
return ret; \
89
} \
90
Ints get_value_index(Model *m, const ParticleIndexes &o) const override { \
91
Ints ret(o.size()); \
92
for (unsigned int i = 0; i < o.size(); ++i) { \
93
ret[i] += Name::get_value_index(m, o[i]); \
94
} \
95
return ret; \
96
} \
97
IMP_IMPLEMENT_INLINE_NO_SWIG( \
98
void remove_if_equal(Model *m, ParticleIndexes &ps, \
99
int value) const, \
100
{ \
101
ps.erase( \
102
std::remove_if(ps.begin(), ps.end(), \
103
IMP::internal::PredicateEquals<Name, true>( \
104
this, m, value)), \
105
ps.end()); \
106
}); \
107
IMP_IMPLEMENT_INLINE_NO_SWIG(void remove_if_not_equal(Model *m, \
108
ParticleIndexes &ps, \
109
int value) const, \
110
{ \
111
ps.erase( \
112
std::remove_if(ps.begin(), ps.end(), \
113
IMP::internal::PredicateEquals<Name, false>( \
114
this, m, value)), \
115
ps.end()); \
116
});
117
118
//! Use IMP_SINGLETON_MODIFIER() instead
119
#define IMP_SINGLETON_DERIVATIVE_MODIFIER(Name) IMP_SINGLETON_MODIFIER(Name)
120
121
/** Define
122
- IMP::SingletonModifier::apply_indexes()
123
*/
124
#define IMP_SINGLETON_MODIFIER_METHODS(Name) \
125
virtual void apply_indexes(Model *m, const ParticleIndexes &o, \
126
unsigned int lower_bound, \
127
unsigned int upper_bound) \
128
const override final { \
129
for (unsigned int i = lower_bound; i < upper_bound; ++i) { \
130
apply_index(m, o[i]); \
131
} \
132
}
133
134
//! Use IMP_INDEX_SINGLETON_MODIFIER instead
135
#define IMP_INDEX_SINGLETON_DERIVATIVE_MODIFIER(Name) \
136
IMP_INDEX_SINGLETON_MODIFIER(Name)
137
138
#ifndef IMP_DOXYGEN
139
#define IMP_IMPLEMENT_SINGLETON_CONTAINER(Name) \
140
IMP_IMPLEMENT_INLINE(void do_apply(const SingletonModifier *sm) const, \
141
{ apply_generic(sm); }); \
142
IMP_IMPLEMENT_INLINE(void do_apply_moved(const SingletonModifier *sm, \
143
const ParticleIndexes &moved_pis, \
144
const ParticleIndexes &reset_pis) const, \
145
{ apply_generic_moved(sm, moved_pis, reset_pis); }); \
146
virtual ParticleIndexes get_all_possible_indexes() const override; \
147
IMP_OBJECT_METHODS(Name)
148
#endif
149
150
/** Use this to fill in container methods
151
IMP::SingletonContainer::do_apply()
152
IMP::SingletonContainer::do_apply_moved()
153
*/
154
#define IMP_SINGLETON_CONTAINER_METHODS(Name) \
155
void do_apply(const SingletonModifier *sm) const override { \
156
apply_generic(sm); } \
157
void do_apply_moved(const SingletonModifier *sm, \
158
const ParticleIndexes &moved_pis, \
159
const ParticleIndexes &reset_pis) const override { \
160
apply_generic_moved(sm, moved_pis, reset_pis); }
161
162
#endif
/* IMPKERNEL_SINGLETON_MACROS_H */
object_macros.h
Helper macros for implementing IMP Objects.
container_macros.h
Macros to define containers of objects.