const dtDAL::ObjectType* AIPluginInterface::GetWaypointTypeByName( const std::string& name ) const
{
typedef std::vector<dtCore::RefPtr<const dtDAL::ObjectType> > ObjectTypeArray;
ObjectTypeArray waypointTypes;
GetSupportedWaypointTypes(waypointTypes);
ObjectTypeArray::iterator ob_iter = waypointTypes.begin();
ObjectTypeArray::iterator ob_iterEnd = waypointTypes.end();
for(;ob_iter != ob_iterEnd; ++ob_iter)
{
if((**ob_iter).GetName() == name)
{
return (*ob_iter).get();
}
}
return NULL;
}
//------------------------------------------------------------------------------
// void SaveData()
//------------------------------------------------------------------------------
void AchievePanel::SaveData()
{
#if DEBUG_ACHIEVE_PANEL_SAVE
MessageInterface::ShowMessage
("AchievePanel::SaveData() entered, mIsTextModified=%d\n", mIsTextModified);
#endif
canClose = true;
std::string inputString;
//-----------------------------------------------------------------
// check input values: Number, Variable, Array element, Parameter
//-----------------------------------------------------------------
if (mIsTextModified)
{
ObjectTypeArray objTypes;
objTypes.push_back(Gmat::SPACE_POINT);
objTypes.push_back(Gmat::IMPULSIVE_BURN);
inputString = mGoalValue.c_str();
CheckVariable(mGoalValue.c_str(), objTypes, "GoalValue",
"Real Number, Variable, Array element, plottable Parameter", true);
inputString = mToleranceTextCtrl->GetValue();
CheckVariable(inputString.c_str(), objTypes, "Tolerance",
"Real Number, Variable, Array element, plottable Parameter", true);
}
if (!canClose)
return;
//-------------------------------------------------------
// Saving Solver Data
//-------------------------------------------------------
try
{
#if DEBUG_ACHIEVE_PANEL_SAVE
MessageInterface::ShowMessage(" Setting Solver to '%s'\n", mSolverName.c_str());
#endif
mAchieveCommand->SetStringParameter
(mAchieveCommand->GetParameterID("TargeterName"), mSolverName.c_str());
if (mIsTextModified)
{
#if DEBUG_ACHIEVE_PANEL_SAVE
MessageInterface::ShowMessage
(" Setting Goal to '%s', Value to '%s', Tolerance to '%s'\n",
mGoalName.c_str(), mGoalValue.c_str(), mTolerance.c_str());
#endif
mAchieveCommand->SetStringParameter
(mAchieveCommand->GetParameterID("Goal"), mGoalName.c_str());
mAchieveCommand->SetStringParameter
(mAchieveCommand->GetParameterID("GoalValue"), mGoalValue.c_str());
mTolerance = mToleranceTextCtrl->GetValue();
mAchieveCommand->SetStringParameter
(mAchieveCommand->GetParameterID("Tolerance"), mTolerance.c_str());
mIsTextModified = false;
#if DEBUG_ACHIEVE_PANEL_SAVE
MessageInterface::ShowMessage(" Calling theGuiInterpreter->ValidateCommand()\n");
#endif
if (!theGuiInterpreter->ValidateCommand(mAchieveCommand))
{
#if DEBUG_ACHIEVE_PANEL_SAVE
MessageInterface::ShowMessage(" Failed to validate command\n");
#endif
canClose = false;
}
}
}
catch (BaseException &e)
{
MessageInterface::PopupMessage(Gmat::ERROR_, e.GetFullMessage());
canClose = false;
}
#if DEBUG_ACHIEVE_PANEL_SAVE
MessageInterface::ShowMessage
("AchievePanel::SaveData() leaving, canClose=%d\n", canClose);
#endif
}
//------------------------------------------------------------------------------
// void SaveData()
//------------------------------------------------------------------------------
void VaryPanel::SaveData()
{
#ifdef DEBUG_VARYPANEL_SAVE
MessageInterface::ShowMessage("VaryPanel::SaveData() entered\n");
#endif
canClose = true;
std::string strInitVal, strPert, strLower, strUpper, strMaxStep;
std::string strAddSf, strMultSf;
//-----------------------------------------------------------------
// check input values: Number, Variable, Array element, Parameter
//-----------------------------------------------------------------
std::string expRange = "Real Number, Variable, Array element, Plottable Parameter";
ObjectTypeArray objTypes;
objTypes.push_back(Gmat::UNKNOWN_OBJECT);
// Any plottable Parameters allowed, so use UNKNOWN_OBJECT
if (mInitialTextCtrl->IsModified())
{
strInitVal = mInitialTextCtrl->GetValue().c_str();
CheckVariable(strInitVal, objTypes,
"InitialValue", expRange, true);
}
if (mPertTextCtrl->IsModified())
{
strPert = mPertTextCtrl->GetValue().c_str();
CheckVariable(strPert, objTypes,
"Perturbation", expRange, true);
}
if (mLowerValueTextCtrl->IsModified())
{
strLower = mLowerValueTextCtrl->GetValue().c_str();
CheckVariable(strLower, objTypes,
"Lower", expRange, true);
}
if (mUpperValueTextCtrl->IsModified())
{
strUpper = mUpperValueTextCtrl->GetValue().c_str();
CheckVariable(strUpper.c_str(), objTypes,
"Upper", expRange, true);
}
if (mMaxStepTextCtrl->IsModified())
{
strMaxStep = mMaxStepTextCtrl->GetValue().c_str();
CheckVariable(strMaxStep.c_str(), objTypes,
"MaxStep", expRange, true);
}
if (mAdditiveTextCtrl->IsModified())
{
strAddSf = mAdditiveTextCtrl->GetValue().c_str();
CheckVariable(strAddSf.c_str(), objTypes,
"AdditiveScaleFactor", expRange, true);
}
if (mMultiplicativeTextCtrl->IsModified())
{
strMultSf = mMultiplicativeTextCtrl->GetValue().c_str();
CheckVariable(strMultSf.c_str(), objTypes,
"MultiplicativeScaleFactor", expRange, true);
}
if (!canClose)
return;
//-----------------------------------------------------------------
// save values to base, base code should do the range checking
//-----------------------------------------------------------------
#ifdef DEBUG_VARYPANEL_SAVE
MessageInterface::ShowMessage(" solverName=%s, variableName=%s\n",
solverName.c_str(), variableName.c_str());
#endif
Solver *solver = (Solver*)theGuiInterpreter->GetConfiguredObject(solverName);
if (solver == NULL)
throw GmatBaseException("Cannot find the solver: " + solverName);
bool validateCommand = false;
try
{
bool changed = false;
if (solverChanged)
{
#ifdef DEBUG_VARYPANEL_SAVE
MessageInterface::ShowMessage
(" Solver changed, solver=<%p>'%s'\n", solver, solver->GetName().c_str());
#endif
mVaryCommand->SetStringParameter("SolverName", solverName);
mVaryCommand->SetRefObject(solver, Gmat::SOLVER, solverName);
solverChanged = false;
changed = true;
}
if (variableChanged)
{
#ifdef DEBUG_VARYPANEL_SAVE
MessageInterface::ShowMessage
(" Variable changed, variableName='%s'\n", variableName.c_str());
#endif
validateCommand = true;
mVaryCommand->SetStringParameter("Variable", variableName);
solver->SetStringParameter("Variables", variableName);
variableChanged = false;
changed = true;
}
if (mInitialTextCtrl->IsModified())
{
validateCommand = true;
mVaryCommand->SetStringParameter("InitialValue", strInitVal.c_str());
mInitialTextCtrl->DiscardEdits();
changed = true;
}
if (mPertTextCtrl->IsModified())
{
validateCommand = true;
mVaryCommand->SetStringParameter("Perturbation", strPert.c_str());
mPertTextCtrl->DiscardEdits();
changed = true;
}
if (mLowerValueTextCtrl->IsModified())
{
validateCommand = true;
mVaryCommand->SetStringParameter("Lower", strLower.c_str());
mLowerValueTextCtrl->DiscardEdits();
changed = true;
}
if (mUpperValueTextCtrl->IsModified())
{
validateCommand = true;
mVaryCommand->SetStringParameter("Upper", strUpper.c_str());
mUpperValueTextCtrl->DiscardEdits();
changed = true;
}
if (mMaxStepTextCtrl->IsModified())
{
validateCommand = true;
mVaryCommand->SetStringParameter("MaxStep", strMaxStep.c_str());
mMaxStepTextCtrl->DiscardEdits();
changed = true;
}
if (mAdditiveTextCtrl->IsModified())
{
validateCommand = true;
mVaryCommand->SetStringParameter("AdditiveScaleFactor", strAddSf.c_str());
mAdditiveTextCtrl->DiscardEdits();
changed = true;
}
if (mMultiplicativeTextCtrl->IsModified())
{
validateCommand = true;
mVaryCommand->SetStringParameter("MultiplicativeScaleFactor", strMultSf.c_str());
mMultiplicativeTextCtrl->DiscardEdits();
changed = true;
}
if (changed)
mVaryCommand->SetRefObject(solver, Gmat::SOLVER, solverName);
// avoid unnecessary validation since it clears all wrappers and recreates them
if (validateCommand)
{
#ifdef DEBUG_VARYPANEL_SAVE
MessageInterface::ShowMessage(" Calling ValidateCommand()\n");
#endif
if (!theGuiInterpreter->ValidateCommand(mVaryCommand))
canClose = false;
}
}
catch (BaseException &e)
{
MessageInterface::PopupMessage(Gmat::ERROR_, e.GetFullMessage());
canClose = false;
}
#ifdef DEBUG_VARYPANEL_SAVE
MessageInterface::ShowMessage("VaryPanel::SaveData() leaving\n");
#endif
}
//------------------------------------------------------------------------------
bool UserInputValidator::CheckVariable(const std::string &varName, ObjectTypeArray ownerTypes,
const std::string &field, const std::string &expRange,
bool allowNumber, bool allowNonPlottable,
bool allowObjectProperty, bool allowWholeArray)
{
#ifdef DEBUG_CHECK_VARIABLE
MessageInterface::ShowMessage
("UserInputValidator::CheckVariable() entered, varName='%s', ownerTypes[0]=%d, field='%s'\n"
" expRange='%s'\n allowNumber=%d, allowNonPlottable=%d, allowObjectProperty=%d, "
"allowWholeArray=%d\n", varName.c_str(), ownerTypes.at(0), field.c_str(), expRange.c_str(),
allowNumber, allowNonPlottable, allowObjectProperty, allowWholeArray);
#endif
if (mGuiManager == NULL)
{
MessageInterface::ShowMessage
("UserInputValidator::CheckVariable() mGuiManager is NULL\n");
return false;
}
int retval = -1;
try
{
for (unsigned int ii = 0; ii < ownerTypes.size(); ii++)
{
retval = mGuiManager->
IsValidVariable(varName.c_str(), ownerTypes.at(ii), allowNumber, allowNonPlottable,
allowObjectProperty, allowWholeArray);
if (retval != 0) break;
}
}
catch (BaseException &e)
{
MessageInterface::PopupMessage(Gmat::ERROR_, e.GetFullMessage());
SetErrorFlag();
return false;
}
if (retval == -1)
{
std::string lastMsg = mGuiManager->GetLastErrorMessage().c_str();
lastMsg = " - " + lastMsg;
MessageInterface::PopupMessage
(Gmat::ERROR_, mMsgFormat.c_str(), varName.c_str(), field.c_str(),
lastMsg.c_str(), expRange.c_str());
mGuiManager->SetLastErrorMessage("");
SetErrorFlag();
return false;
}
else if (retval == 3)
{
std::string type, ownerName, depObj;
GmatStringUtil::ParseParameter(varName, type, ownerName, depObj);
MessageInterface::PopupMessage
(Gmat::ERROR_, "The value of \"%s\" for field \"%s\" "
"has undefined object \"%s\".\nPlease create proper object first "
"from the Resource Tree.\n", varName.c_str(), field.c_str(), ownerName.c_str());
SetErrorFlag();
return false;
}
else if (retval == 4)
{
std::string type, ownerName, depObj;
GmatStringUtil::ParseParameter(varName, type, ownerName, depObj);
MessageInterface::PopupMessage
(Gmat::ERROR_, "The value \"%s\" for field \"%s\" "
"has unknown Parameter type \"%s\".\n", varName.c_str(), field.c_str(),
type.c_str());
SetErrorFlag();
return false;
}
else if (retval == 5)
{
MessageInterface::PopupMessage
(Gmat::ERROR_, mMsgFormat.c_str(), varName.c_str(), field.c_str(),
" - invalid array index", expRange.c_str());
SetErrorFlag();
return false;
}
else if (retval == 6)
{
MessageInterface::PopupMessage
(Gmat::ERROR_, mMsgFormat.c_str(), varName.c_str(), field.c_str(),
" - invalid object field", expRange.c_str());
SetErrorFlag();
return false;
}
else if (retval == 0)
{
MessageInterface::PopupMessage
(Gmat::ERROR_, mMsgFormat.c_str(), varName.c_str(), field.c_str(), "",
expRange.c_str());
SetErrorFlag();
return false;
}
return true;
}
//------------------------------------------------------------------------------
void ForPanel::SaveData()
{
#if DEBUG_FOR_PANEL_SAVE
MessageInterface::ShowMessage("ForPanel::SaveData() entered\n");
#endif
canClose = true;
ObjectTypeArray objTypes;
objTypes.push_back(Gmat::SPACE_POINT);
objTypes.push_back(Gmat::IMPULSIVE_BURN);
//-----------------------------------------------------------------
// check input values: Number, Variable, Array element, Parameter
//-----------------------------------------------------------------
CheckVariable(mIndexString.c_str(), objTypes, "Index",
"Variable", false);
CheckVariable(mStartString.c_str(), objTypes, "Start",
"Real Number, Variable, Array element, plottable Parameter", true);
CheckVariable(mIncrString.c_str(), objTypes, "Increment",
"Real Number, Variable, Array element, plottable Parameter", true);
CheckVariable(mEndString.c_str(), objTypes, "End",
"Real Number, Variable, Array element, plottable Parameter", true);
if (!canClose)
{
#if DEBUG_FOR_PANEL_SAVE
MessageInterface::ShowMessage("ForPanel::SaveData() leaving, error encountered\n");
#endif
return;
}
//-----------------------------------------------------------------
// save values to base, base code should do the range checking
//-----------------------------------------------------------------
try
{
// Since validation is not done until element wrappers are created,
// need to create a clone
For *clonedForCommand = (For*)theForCommand->Clone();
Integer paramId;
paramId = clonedForCommand->GetParameterID("IndexName");
clonedForCommand->SetStringParameter(paramId, mIndexString.c_str());
paramId = clonedForCommand->GetParameterID("StartName");
clonedForCommand->SetStringParameter(paramId, mStartString.c_str());
paramId = clonedForCommand->GetParameterID("EndName");
clonedForCommand->SetStringParameter(paramId, mEndString.c_str());
paramId = clonedForCommand->GetParameterID("IncrementName");
clonedForCommand->SetStringParameter(paramId, mIncrString.c_str());
bool contOnError = theGuiInterpreter->GetContinueOnError();
theGuiInterpreter->SetContinueOnError(false);
if (!theGuiInterpreter->ValidateCommand(clonedForCommand))
canClose = false;
theGuiInterpreter->SetContinueOnError(contOnError);
// Copy cloned command to original and validate if cloned validation was successful
if (canClose)
{
#if DEBUG_FOR_PANEL_SAVE
MessageInterface::ShowMessage
(" Copying cloned <%p> to original <%p>, and validating command to create wrppers\n",
clonedForCommand, theForCommand);
#endif
theForCommand->Copy(clonedForCommand);
theGuiInterpreter->ValidateCommand(theForCommand);
}
delete clonedForCommand;
}
catch (BaseException &e)
{
MessageInterface::PopupMessage(Gmat::ERROR_, e.GetFullMessage());
canClose = false;
}
#if DEBUG_FOR_PANEL_SAVE
MessageInterface::ShowMessage("ForPanel::SaveData() leaving, canClose=%d\n", canClose);
#endif
}
