API
4.2
For C++ developers
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Return type for MocoStudy::solve(). More...
Public Member Functions | |
virtual MocoSolution * | clone () const override |
Returns a dynamically-allocated copy of this solution. More... | |
bool | success () const |
Was the problem solved successfully? If not, then you cannot access the solution until you call unlock(). More... | |
double | getObjective () const |
operator bool () const | |
Same as success(). More... | |
const std::string & | getStatus () const |
Obtain a solver-dependent string describing the return status of the optimization. More... | |
int | getNumIterations () const |
Number of solver iterations at which this solution was obtained (-1 if not set). More... | |
double | getSolverDuration () const |
Get the amount of time (clock time, not CPU time) spent within solve(). More... | |
Breakdown of objective | |
Some solvers provide a breakdown of the terms in the objective. Use these functions to access this breakdown. Some terms may come from MocoGoals in the problem, while other terms may be added by the solver. | |
int | getNumObjectiveTerms () const |
Returns the number of terms in the objective. More... | |
std::vector< std::string > | getObjectiveTermNames () const |
Get the names of all terms in the objective (either from MocoGoals in the problem or added by the solver). More... | |
double | getObjectiveTerm (const std::string &name) const |
Get the value of a term in the objective by name. More... | |
double | getObjectiveTermByIndex (int index) const |
Get the value of a term in the objective, using an index. More... | |
void | printObjectiveBreakdown () const |
Print to the console the terms in the objective and their values. More... | |
Access control | |
MocoSolution & | unseal () |
If the solver did not succeed, call this to enable read and write access to the (failed) solution. More... | |
MocoSolution & | seal () |
bool | isSealed () const |
Public Member Functions inherited from OpenSim::MocoTrajectory | |
MocoTrajectory ()=default | |
MocoTrajectory (std::vector< std::string > state_names, std::vector< std::string > control_names, std::vector< std::string > multiplier_names, std::vector< std::string > parameter_names) | |
Create a trajectory with no data. More... | |
MocoTrajectory (std::vector< std::string > state_names, std::vector< std::string > control_names, std::vector< std::string > multiplier_names, std::vector< std::string > derivative_names, std::vector< std::string > parameter_names) | |
Create a trajectory (including columns for derivatives) with no data. More... | |
MocoTrajectory (const SimTK::Vector &time, std::vector< std::string > state_names, std::vector< std::string > control_names, std::vector< std::string > multiplier_names, std::vector< std::string > parameter_names, const SimTK::Matrix &statesTrajectory, const SimTK::Matrix &controlsTrajectory, const SimTK::Matrix &multipliersTrajectory, const SimTK::RowVector ¶meters) | |
MocoTrajectory (const SimTK::Vector &time, std::vector< std::string > state_names, std::vector< std::string > control_names, std::vector< std::string > multiplier_names, std::vector< std::string > derivative_names, std::vector< std::string > parameter_names, const SimTK::Matrix &statesTrajectory, const SimTK::Matrix &controlsTrajectory, const SimTK::Matrix &multipliersTrajectory, const SimTK::Matrix &derivativesTrajectory, const SimTK::RowVector ¶meters) | |
This constructor is for use with the implicit dynamics mode, and allows specifying a derivativesTrajectory. More... | |
MocoTrajectory (const SimTK::Vector &time, const std::map< std::string, NamesAndData< SimTK::Matrix >> &continuousVars, const NamesAndData< SimTK::RowVector > ¶meters={}) | |
MocoTrajectory (const std::string &filepath) | |
Read a MocoTrajectory from an STO file (see STOFileAdapter). More... | |
virtual | ~MocoTrajectory ()=default |
bool | empty () const |
bool | hasCoordinateStates () const |
void | setNumTimes (int numTimes) |
Resize the time vector and the time dimension of the states, controls, multipliers, and derivatives trajectories, and set all times, states, controls, multipliers, and derivatives to NaN. More... | |
double | resampleWithNumTimes (int numTimes) |
Uniformly resample (interpolate) the trajectory so that it retains the same initial and final times but now has the provided number of time points. More... | |
double | resampleWithInterval (double desiredTimeInterval) |
Uniformly resample (interpolate) the trajectory to try to achieve the provided time interval between mesh points, while preserving the initial and final times. More... | |
double | resampleWithFrequency (double desiredNumTimePointsPerSecond) |
Uniformly resample (interpolate) the trajectory to try to achieve the provided frequency of time points per second of the trajectory, while preserving the initial and final times. More... | |
void | resample (SimTK::Vector newTime) |
Resample (interpolate) the data in this trajectory at the provided times. More... | |
void | setTime (const SimTK::Vector &time) |
Set the time vector. More... | |
void | setState (const std::string &name, const SimTK::Vector &trajectory) |
Set the value of a single state variable across time. More... | |
void | setControl (const std::string &name, const SimTK::Vector &trajectory) |
Set the value of a single control variable across time. More... | |
void | setMultiplier (const std::string &name, const SimTK::Vector &trajectory) |
Set the value of a single Lagrange multiplier variable across time. More... | |
void | setDerivative (const std::string &name, const SimTK::Vector &trajectory) |
Set the value of a single state derivative variable across time. More... | |
void | setParameter (const std::string &name, const SimTK::Real &value) |
Set the value of a single parameter variable. More... | |
void | setTime (std::initializer_list< double > time) |
Set the time vector. More... | |
void | setState (const std::string &name, std::initializer_list< double > trajectory) |
Set the value of a single state variable across time. More... | |
void | setControl (const std::string &name, std::initializer_list< double > trajectory) |
Set the value of a single control variable across time. More... | |
void | setMultiplier (const std::string &name, std::initializer_list< double > trajectory) |
Set the value of a single Lagrange multiplier variable across time. More... | |
void | setDerivative (const std::string &name, std::initializer_list< double > trajectory) |
Set the value of a single state derivative variable across time. More... | |
void | setStatesTrajectory (const TimeSeriesTable &states, bool allowMissingColumns=false, bool allowExtraColumns=false) |
Set the states trajectory. More... | |
void | insertStatesTrajectory (const TimeSeriesTable &subsetOfStates, bool overwrite=false) |
Add additional state columns. More... | |
void | insertControlsTrajectory (const TimeSeriesTable &subsetOfControls, bool overwrite=false) |
Add additional control columns. More... | |
void | generateSpeedsFromValues () |
Compute coordinate speeds based on coordinate position values and append to the trajectory. More... | |
void | generateAccelerationsFromValues () |
Compute coordinate accelerations based on coordinate position values and append to the trajectory. More... | |
void | generateAccelerationsFromSpeeds () |
Compute coordinate accelerations based on coordinate speeds and append to the trajectory. More... | |
int | getNumTimes () const |
const SimTK::Vector & | getTime () const |
double | getInitialTime () const |
The first time in the time vector. More... | |
double | getFinalTime () const |
The last time in the time vector. More... | |
int | getNumStates () const |
int | getNumControls () const |
int | getNumMultipliers () const |
int | getNumDerivatives () const |
int | getNumParameters () const |
const std::vector< std::string > & | getStateNames () const |
const std::vector< std::string > & | getControlNames () const |
const std::vector< std::string > & | getMultiplierNames () const |
const std::vector< std::string > & | getDerivativeNames () const |
const std::vector< std::string > & | getParameterNames () const |
SimTK::VectorView_< double > | getState (const std::string &name) const |
SimTK::VectorView_< double > | getControl (const std::string &name) const |
SimTK::VectorView_< double > | getMultiplier (const std::string &name) const |
SimTK::VectorView_< double > | getDerivative (const std::string &name) const |
const SimTK::Real & | getParameter (const std::string &name) const |
const SimTK::Matrix & | getStatesTrajectory () const |
const SimTK::Matrix & | getControlsTrajectory () const |
const SimTK::Matrix & | getMultipliersTrajectory () const |
const SimTK::Matrix & | getDerivativesTrajectory () const |
const SimTK::RowVector & | getParameters () const |
bool | isCompatible (const MocoProblemRep &, bool requireAccelerations=false, bool throwOnError=false) const |
Do the state, control, multiplier, derivative, and parameter names in this trajectory match those in the problem? This may not catch all possible incompatibilities. More... | |
bool | isNumericallyEqual (const MocoTrajectory &other, double tol=SimTK::NTraits< SimTK::Real >::getDefaultTolerance()) const |
Check if this trajectory is numerically equal to another trajectory. More... | |
double | compareContinuousVariablesRMS (const MocoTrajectory &other, std::map< std::string, std::vector< std::string >> columnsToUse={}) const |
Compute the root-mean-square error between the continuous variables of this trajectory and another. More... | |
double | compareContinuousVariablesRMSPattern (const MocoTrajectory &other, std::string columnType, std::string pattern) const |
This is an alternative interface for compareContinuousVariablesRMS() that uses regular expression patterns to select columns. More... | |
double | compareParametersRMS (const MocoTrajectory &other, std::vector< std::string > parameterNames={}) const |
Compute the root-mean-square error between the parameters in this trajectory and another. More... | |
void | write (const std::string &filepath) const |
Save the trajectory to a STO file. Use the ."sto" file extension. More... | |
TimeSeriesTable | exportToStatesTable () const |
This table can be saved as a Storage file that can be used in the OpenSim GUI to visualize a motion, or as input to OpenSim's conventional tools (e.g., AnalyzeTool). More... | |
TimeSeriesTable | exportToControlsTable () const |
Export the controls trajectory to a TimeSeriesTable. More... | |
StatesTrajectory | exportToStatesTrajectory (const MocoProblem &) const |
Controls are not carried over to the StatesTrajectory. More... | |
StatesTrajectory | exportToStatesTrajectory (const Model &) const |
This is similar to the above function but requires only a model, not a MocoProblem. More... | |
void | randomizeReplace (const SimTK::Random &randGen=SimTK::Random::Uniform(-0.1, 0.1)) |
Randomize all data except time using the provided random number generator. More... | |
void | randomizeAdd (const SimTK::Random &randGen=SimTK::Random::Uniform(-0.1, 0.1)) |
Randomize all data except time using the provided random number generator. More... | |
Friends | |
class | MocoSolver |
Additional Inherited Members | |
Public Types inherited from OpenSim::MocoTrajectory | |
template<typename T > | |
using | NamesAndData = std::pair< std::vector< std::string >, T > |
This constructor allows you to control which data you provide for the trajectory. More... | |
Static Public Member Functions inherited from OpenSim::MocoTrajectory | |
static MocoTrajectory | createFromStatesControlsTables (const MocoProblemRep &, const TimeSeriesTable &statesTrajectory, const TimeSeriesTable &controlsTrajectory) |
(Experimental) Create a trajectory from a states trajectory and controls trajectory (i.e, from Manager::getStatesTable() and Model::getControlsTable()). More... | |
Protected Member Functions inherited from OpenSim::MocoTrajectory | |
void | setSealed (bool sealed) |
bool | isSealed () const |
void | ensureUnsealed () const |
Return type for MocoStudy::solve().
Use success() to check if the solver succeeded. You can also use this object as a boolean in an if-statement:
You can use getStatus() to get more details about the return status of the optimizer. If the solver was not successful, then this object is "sealed", which means you cannot do anything with it until calling unseal()
. This prevents you from silently proceeding with a failed solution. In the file written by write(), the header contains solver success, the objective, the individual terms in the objective (including the weight), the breakdown of the objective, and other quantities.
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Returns a dynamically-allocated copy of this solution.
You must manage the memory for return value.
Reimplemented from OpenSim::MocoTrajectory.
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Number of solver iterations at which this solution was obtained (-1 if not set).
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Returns the number of terms in the objective.
If the solver did not provide this breakdown, then this returns 0.
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double OpenSim::MocoSolution::getObjectiveTerm | ( | const std::string & | name | ) | const |
Get the value of a term in the objective by name.
See getObjectiveTermNames(). The value includes the weight on the term.
double OpenSim::MocoSolution::getObjectiveTermByIndex | ( | int | index | ) | const |
Get the value of a term in the objective, using an index.
The order of terms is the same as in getObjectiveTermNames(). The value includes the weight on the term.
std::vector<std::string> OpenSim::MocoSolution::getObjectiveTermNames | ( | ) | const |
Get the names of all terms in the objective (either from MocoGoals in the problem or added by the solver).
Terms from MocoGoals are named with the name of the associated MocoGoal. If the solver did not provide this breakdown, then this returns an empty vector.
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Get the amount of time (clock time, not CPU time) spent within solve().
Units: seconds.
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Obtain a solver-dependent string describing the return status of the optimization.
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Same as success().
void OpenSim::MocoSolution::printObjectiveBreakdown | ( | ) | const |
Print to the console the terms in the objective and their values.
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References OpenSim::MocoTrajectory::setSealed().
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Was the problem solved successfully? If not, then you cannot access the solution until you call unlock().
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If the solver did not succeed, call this to enable read and write access to the (failed) solution.
If the solver succeeded, then the solution is already unsealed.
References OpenSim::MocoTrajectory::setSealed().
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