1// Ceres Solver - A fast non-linear least squares minimizer
2// Copyright 2010, 2011, 2012 Google Inc. All rights reserved.
3// http://code.google.com/p/ceres-solver/
4//
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6// modification, are permitted provided that the following conditions are met:
7//
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12//   and/or other materials provided with the distribution.
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14//   used to endorse or promote products derived from this software without
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16//
17// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
18// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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28//
29// Author: sameeragarwal@google.com (Sameer Agarwal)
30//         keir@google.com (Keir Mierle)
31
32#include "ceres/problem.h"
33
34#include <vector>
35#include "ceres/crs_matrix.h"
36#include "ceres/problem_impl.h"
37
38namespace ceres {
39
40Problem::Problem() : problem_impl_(new internal::ProblemImpl) {}
41Problem::Problem(const Problem::Options& options)
42    : problem_impl_(new internal::ProblemImpl(options)) {}
43Problem::~Problem() {}
44
45ResidualBlockId Problem::AddResidualBlock(
46    CostFunction* cost_function,
47    LossFunction* loss_function,
48    const vector<double*>& parameter_blocks) {
49  return problem_impl_->AddResidualBlock(cost_function,
50                                         loss_function,
51                                         parameter_blocks);
52}
53
54ResidualBlockId Problem::AddResidualBlock(
55    CostFunction* cost_function,
56    LossFunction* loss_function,
57    double* x0) {
58  return problem_impl_->AddResidualBlock(cost_function,
59                                         loss_function,
60                                         x0);
61}
62
63ResidualBlockId Problem::AddResidualBlock(
64    CostFunction* cost_function,
65    LossFunction* loss_function,
66    double* x0, double* x1) {
67  return problem_impl_->AddResidualBlock(cost_function,
68                                         loss_function,
69                                         x0, x1);
70}
71
72ResidualBlockId Problem::AddResidualBlock(
73    CostFunction* cost_function,
74    LossFunction* loss_function,
75    double* x0, double* x1, double* x2) {
76  return problem_impl_->AddResidualBlock(cost_function,
77                                         loss_function,
78                                         x0, x1, x2);
79}
80
81ResidualBlockId Problem::AddResidualBlock(
82    CostFunction* cost_function,
83    LossFunction* loss_function,
84    double* x0, double* x1, double* x2, double* x3) {
85  return problem_impl_->AddResidualBlock(cost_function,
86                                         loss_function,
87                                         x0, x1, x2, x3);
88}
89
90ResidualBlockId Problem::AddResidualBlock(
91    CostFunction* cost_function,
92    LossFunction* loss_function,
93    double* x0, double* x1, double* x2, double* x3, double* x4) {
94  return problem_impl_->AddResidualBlock(cost_function,
95                                         loss_function,
96                                         x0, x1, x2, x3, x4);
97}
98
99ResidualBlockId Problem::AddResidualBlock(
100    CostFunction* cost_function,
101    LossFunction* loss_function,
102    double* x0, double* x1, double* x2, double* x3, double* x4, double* x5) {
103  return problem_impl_->AddResidualBlock(cost_function,
104                                         loss_function,
105                                         x0, x1, x2, x3, x4, x5);
106}
107
108ResidualBlockId Problem::AddResidualBlock(
109    CostFunction* cost_function,
110    LossFunction* loss_function,
111    double* x0, double* x1, double* x2, double* x3, double* x4, double* x5,
112    double* x6) {
113  return problem_impl_->AddResidualBlock(cost_function,
114                                         loss_function,
115                                         x0, x1, x2, x3, x4, x5, x6);
116}
117
118ResidualBlockId Problem::AddResidualBlock(
119    CostFunction* cost_function,
120    LossFunction* loss_function,
121    double* x0, double* x1, double* x2, double* x3, double* x4, double* x5,
122    double* x6, double* x7) {
123  return problem_impl_->AddResidualBlock(cost_function,
124                                         loss_function,
125                                         x0, x1, x2, x3, x4, x5, x6, x7);
126}
127
128ResidualBlockId Problem::AddResidualBlock(
129    CostFunction* cost_function,
130    LossFunction* loss_function,
131    double* x0, double* x1, double* x2, double* x3, double* x4, double* x5,
132    double* x6, double* x7, double* x8) {
133  return problem_impl_->AddResidualBlock(cost_function,
134                                         loss_function,
135                                         x0, x1, x2, x3, x4, x5, x6, x7, x8);
136}
137
138ResidualBlockId Problem::AddResidualBlock(
139    CostFunction* cost_function,
140    LossFunction* loss_function,
141    double* x0, double* x1, double* x2, double* x3, double* x4, double* x5,
142    double* x6, double* x7, double* x8, double* x9) {
143  return problem_impl_->AddResidualBlock(
144      cost_function,
145      loss_function,
146      x0, x1, x2, x3, x4, x5, x6, x7, x8, x9);
147}
148
149void Problem::AddParameterBlock(double* values, int size) {
150  problem_impl_->AddParameterBlock(values, size);
151}
152
153void Problem::AddParameterBlock(double* values,
154                                int size,
155                                LocalParameterization* local_parameterization) {
156  problem_impl_->AddParameterBlock(values, size, local_parameterization);
157}
158
159void Problem::RemoveResidualBlock(ResidualBlockId residual_block) {
160  problem_impl_->RemoveResidualBlock(residual_block);
161}
162
163void Problem::RemoveParameterBlock(double* values) {
164  problem_impl_->RemoveParameterBlock(values);
165}
166
167void Problem::SetParameterBlockConstant(double* values) {
168  problem_impl_->SetParameterBlockConstant(values);
169}
170
171void Problem::SetParameterBlockVariable(double* values) {
172  problem_impl_->SetParameterBlockVariable(values);
173}
174
175void Problem::SetParameterization(
176    double* values,
177    LocalParameterization* local_parameterization) {
178  problem_impl_->SetParameterization(values, local_parameterization);
179}
180
181bool Problem::Evaluate(const EvaluateOptions& evaluate_options,
182                       double* cost,
183                       vector<double>* residuals,
184                       vector<double>* gradient,
185                       CRSMatrix* jacobian) {
186  return problem_impl_->Evaluate(evaluate_options,
187                                 cost,
188                                 residuals,
189                                 gradient,
190                                 jacobian);
191}
192
193int Problem::NumParameterBlocks() const {
194  return problem_impl_->NumParameterBlocks();
195}
196
197int Problem::NumParameters() const {
198  return problem_impl_->NumParameters();
199}
200
201int Problem::NumResidualBlocks() const {
202  return problem_impl_->NumResidualBlocks();
203}
204
205int Problem::NumResiduals() const {
206  return problem_impl_->NumResiduals();
207}
208
209int Problem::ParameterBlockSize(const double* parameter_block) const {
210  return problem_impl_->ParameterBlockSize(parameter_block);
211};
212
213int Problem::ParameterBlockLocalSize(const double* parameter_block) const {
214  return problem_impl_->ParameterBlockLocalSize(parameter_block);
215};
216
217void Problem::GetParameterBlocks(vector<double*>* parameter_blocks) const {
218  problem_impl_->GetParameterBlocks(parameter_blocks);
219}
220
221}  // namespace ceres
222