joint_model.cpp
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35 
36 /* Author: Ioan Sucan */
37 
41 #include <algorithm>
42 
43 namespace moveit
44 {
45 namespace core
46 {
47 JointModel::JointModel(const std::string& name)
48  : name_(name)
49  , type_(UNKNOWN)
50  , parent_link_model_(nullptr)
51  , child_link_model_(nullptr)
52  , mimic_(nullptr)
53  , mimic_factor_(1.0)
54  , mimic_offset_(0.0)
55  , passive_(false)
56  , distance_factor_(1.0)
57  , first_variable_index_(-1)
58  , joint_index_(-1)
59 {
60 }
61 
62 JointModel::~JointModel() = default;
63 
64 std::string JointModel::getTypeName() const
65 {
66  switch (type_)
67  {
68  case UNKNOWN:
69  return "Unkown";
70  case REVOLUTE:
71  return "Revolute";
72  case PRISMATIC:
73  return "Prismatic";
74  case PLANAR:
75  return "Planar";
76  case FLOATING:
77  return "Floating";
78  case FIXED:
79  return "Fixed";
80  default:
81  return "[Unkown]";
82  }
83 }
84 
85 int JointModel::getLocalVariableIndex(const std::string& variable) const
86 {
87  VariableIndexMap::const_iterator it = variable_index_map_.find(variable);
88  if (it == variable_index_map_.end())
89  throw Exception("Could not find variable '" + variable + "' to get bounds for within joint '" + name_ + "'");
90  return it->second;
91 }
92 
93 bool JointModel::harmonizePosition(double* /*values*/, const Bounds& /*other_bounds*/) const
94 {
95  return false;
96 }
97 
98 bool JointModel::enforceVelocityBounds(double* values, const Bounds& other_bounds) const
99 {
100  bool change = false;
101  for (std::size_t i = 0; i < other_bounds.size(); ++i)
102  if (other_bounds[i].max_velocity_ < values[i])
103  {
104  values[i] = other_bounds[i].max_velocity_;
105  change = true;
106  }
107  else if (other_bounds[i].min_velocity_ > values[i])
108  {
109  values[i] = other_bounds[i].min_velocity_;
110  change = true;
111  }
112  return change;
113 }
114 
115 bool JointModel::satisfiesVelocityBounds(const double* values, const Bounds& other_bounds, double margin) const
116 {
117  for (std::size_t i = 0; i < other_bounds.size(); ++i)
118  {
119  if (!other_bounds[i].velocity_bounded_)
120  {
121  continue;
122  }
123  if (other_bounds[i].max_velocity_ + margin < values[i])
124  return false;
125  else if (other_bounds[i].min_velocity_ - margin > values[i])
126  return false;
127  }
128  return true;
129 }
130 
131 bool JointModel::satisfiesAccelerationBounds(const double* values, const Bounds& other_bounds, double margin) const
132 {
133  for (std::size_t i = 0; i < other_bounds.size(); ++i)
134  {
135  if (!other_bounds[i].acceleration_bounded_)
136  {
137  continue;
138  }
139  if (other_bounds[i].max_acceleration_ + margin < values[i])
140  return false;
141  else if (other_bounds[i].min_acceleration_ - margin > values[i])
142  return false;
143  }
144  return true;
145 }
146 
147 const VariableBounds& JointModel::getVariableBounds(const std::string& variable) const
148 {
149  return variable_bounds_[getLocalVariableIndex(variable)];
150 }
151 
152 void JointModel::setVariableBounds(const std::string& variable, const VariableBounds& bounds)
153 {
154  variable_bounds_[getLocalVariableIndex(variable)] = bounds;
155  computeVariableBoundsMsg();
156 }
157 
158 void JointModel::setVariableBounds(const std::vector<moveit_msgs::JointLimits>& jlim)
159 {
160  for (std::size_t j = 0; j < variable_names_.size(); ++j)
161  for (const moveit_msgs::JointLimits& joint_limit : jlim)
162  if (joint_limit.joint_name == variable_names_[j])
163  {
164  variable_bounds_[j].position_bounded_ = joint_limit.has_position_limits;
165  if (joint_limit.has_position_limits)
166  {
167  variable_bounds_[j].min_position_ = joint_limit.min_position;
168  variable_bounds_[j].max_position_ = joint_limit.max_position;
169  }
170  variable_bounds_[j].velocity_bounded_ = joint_limit.has_velocity_limits;
171  if (joint_limit.has_velocity_limits)
172  {
173  variable_bounds_[j].min_velocity_ = -joint_limit.max_velocity;
174  variable_bounds_[j].max_velocity_ = joint_limit.max_velocity;
175  }
176  variable_bounds_[j].acceleration_bounded_ = joint_limit.has_acceleration_limits;
177  if (joint_limit.has_acceleration_limits)
178  {
179  variable_bounds_[j].min_acceleration_ = -joint_limit.max_acceleration;
180  variable_bounds_[j].max_acceleration_ = joint_limit.max_acceleration;
181  }
182  break;
183  }
184  computeVariableBoundsMsg();
185 }
186 
187 void JointModel::computeVariableBoundsMsg()
188 {
189  variable_bounds_msg_.clear();
190  for (std::size_t i = 0; i < variable_bounds_.size(); ++i)
191  {
192  moveit_msgs::JointLimits lim;
193  lim.joint_name = variable_names_[i];
194  lim.has_position_limits = variable_bounds_[i].position_bounded_;
195  lim.min_position = variable_bounds_[i].min_position_;
196  lim.max_position = variable_bounds_[i].max_position_;
197  lim.has_velocity_limits = variable_bounds_[i].velocity_bounded_;
198  lim.max_velocity = std::min(fabs(variable_bounds_[i].min_velocity_), fabs(variable_bounds_[i].max_velocity_));
199  lim.has_acceleration_limits = variable_bounds_[i].acceleration_bounded_;
200  lim.max_acceleration =
201  std::min(fabs(variable_bounds_[i].min_acceleration_), fabs(variable_bounds_[i].max_acceleration_));
202  variable_bounds_msg_.push_back(lim);
203  }
204 }
205 
206 void JointModel::setMimic(const JointModel* mimic, double factor, double offset)
207 {
208  mimic_ = mimic;
209  mimic_factor_ = factor;
210  mimic_offset_ = offset;
211 }
212 
213 void JointModel::addMimicRequest(const JointModel* joint)
214 {
215  mimic_requests_.push_back(joint);
216 }
217 
218 void JointModel::addDescendantJointModel(const JointModel* joint)
219 {
220  descendant_joint_models_.push_back(joint);
221  if (joint->getType() != FIXED)
222  non_fixed_descendant_joint_models_.push_back(joint);
223 }
224 
225 void JointModel::addDescendantLinkModel(const LinkModel* link)
226 {
227  descendant_link_models_.push_back(link);
228 }
229 
230 namespace
231 {
232 inline void printBoundHelper(std::ostream& out, double v)
233 {
234  if (v <= -std::numeric_limits<double>::infinity())
235  out << "-inf";
236  else if (v >= std::numeric_limits<double>::infinity())
237  out << "inf";
238  else
239  out << v;
240 }
241 } // namespace
242 
243 std::ostream& operator<<(std::ostream& out, const VariableBounds& b)
244 {
245  out << "P." << (b.position_bounded_ ? "bounded" : "unbounded") << " [";
246  printBoundHelper(out, b.min_position_);
247  out << ", ";
248  printBoundHelper(out, b.max_position_);
249  out << "]; "
250  << "V." << (b.velocity_bounded_ ? "bounded" : "unbounded") << " [";
251  printBoundHelper(out, b.min_velocity_);
252  out << ", ";
253  printBoundHelper(out, b.max_velocity_);
254  out << "]; "
255  << "A." << (b.acceleration_bounded_ ? "bounded" : "unbounded") << " [";
256  printBoundHelper(out, b.min_acceleration_);
257  out << ", ";
258  printBoundHelper(out, b.max_acceleration_);
259  out << "];";
260  return out;
261 }
262 
263 } // end of namespace core
264 } // end of namespace moveit
moveit::core::LinkModel
A link from the robot. Contains the constant transform applied to the link and its geometry.
Definition: link_model.h:71
exceptions.h
moveit::core::operator<<
std::ostream & operator<<(std::ostream &out, const VariableBounds &b)
Operator overload for printing variable bounds to a stream.
Definition: joint_model.cpp:309
moveit::core::VariableBounds
Definition: joint_model.h:118
moveit::core::JointModel::getType
JointType getType() const
Get the type of joint.
Definition: joint_model.h:202
name
std::string name
moveit::core::JointModel::Bounds
std::vector< VariableBounds > Bounds
The datatype for the joint bounds.
Definition: joint_model.h:188
moveit
Main namespace for MoveIt.
Definition: background_processing.h:46
values
std::vector< double > values
moveit::core::JointModel::JointModel
JointModel(const std::string &name)
Construct a joint named name.
Definition: joint_model.cpp:113
joint_model.h
moveit::core::JointModel
A joint from the robot. Models the transform that this joint applies in the kinematic chain....
Definition: joint_model.h:173


moveit_core
Author(s): Ioan Sucan , Sachin Chitta , Acorn Pooley
autogenerated on Sat Dec 21 2024 03:23:41