//------------------------------------------------------------------------------
// void SaveChildPositionAndSize()
//------------------------------------------------------------------------------
void GmatMdiChildFrame::SaveChildPositionAndSize()
{
if (mCanSaveLocation == false)
return;
if (IsIconized())
return;
// Get the position and size of the window first
#ifdef __WXMAC__
Integer screenWidth = wxSystemSettings::GetMetric(wxSYS_SCREEN_X);
Integer screenHeight = wxSystemSettings::GetMetric(wxSYS_SCREEN_Y);
#else
Integer screenWidth;
Integer screenHeight;
GmatAppData::Instance()->GetMainFrame()->GetActualClientSize(&screenWidth, &screenHeight, true);
// Since GmatMainFrame::GetActualClientSize() subtracts one, add one here (LOJ: 2012.07.23)
screenWidth++;
screenHeight++;
#endif
bool isMinimized = IsIconized(), isMaximized = IsMaximized();
if (isMinimized)
Iconize(false);
else if (isMaximized)
Maximize(false);
int tmpX = -1, tmpY = -1;
int tmpW = -1, tmpH = -1;
GetPosition(&tmpX, &tmpY);
GetSize(&tmpW, &tmpH);
Rvector upperLeft(2, ((Real) tmpX /(Real) screenWidth), ((Real) tmpY /(Real) screenHeight));
Rvector childSize(2, ((Real) tmpW /(Real) screenWidth), ((Real) tmpH /(Real) screenHeight));
if (isMinimized)
Iconize();
else if (isMaximized)
Maximize();
#ifdef DEBUG_PERSISTENCE
// ======================= begin temporary ==============================
MessageInterface::ShowMessage("*** Size of SCREEN %s is: width = %d, height = %d\n",
mChildName.WX_TO_C_STRING, screenWidth, screenHeight);
MessageInterface::ShowMessage("Position of View plot %s is: x = %d, y = %d\n",
mChildName.WX_TO_C_STRING, tmpX, tmpY);
MessageInterface::ShowMessage("Size of View plot %s is: width = %d, height = %d\n",
mChildName.WX_TO_C_STRING, tmpW, tmpH);
// ======================= end temporary ==============================
#endif
if ((mItemType == GmatTree::OUTPUT_REPORT) ||
(mItemType == GmatTree::OUTPUT_CCSDS_OEM_FILE ) ||
(mItemType == GmatTree::OUTPUT_ORBIT_VIEW) ||
(mItemType == GmatTree::OUTPUT_XY_PLOT) ||
(mItemType == GmatTree::OUTPUT_GROUND_TRACK_PLOT)
// We'll want to add the event reports eventually, but they are not subscriber based
//|| (mItemType == GmatTree::EVENT_REPORT)
)
{
GmatBase *obj = theGuiInterpreter->GetConfiguredObject(mChildName.c_str());
#ifdef DEBUG_FUNCTION
// Check if child name is the configured object name
MessageInterface::ShowMessage
("GmatMdiChildFrame::SaveChildPositionAndSize() the child '%s' %s a "
"configured object, obj = <%p>[%s]'%s'\n", mChildName.WX_TO_C_STRING,
obj ? "is" : "is not", obj, obj ? obj->GetTypeName().c_str() : "NULL",
obj ? obj->GetName().c_str() : "NULL");
#endif
if (!obj)
{
// Just return if child is not a configured subscriber,ie,
// plotting from GMAT function (LOJ: 2015.06.26)
#ifdef DEBUG_FUNCTION
MessageInterface::ShowMessage
("**** WARNING **** GmatMdiChildFrame::SaveChildPositionAndSize() "
"will not save position and size for unconfigured subscriber '%s'\n",
mChildName.WX_TO_C_STRING);
#endif
return;
}
else if (!obj->IsOfType("Subscriber"))
{
#ifdef DEBUG_PERSISTENCE
MessageInterface::ShowMessage
("**** WARNING **** GmatMdiChildFrame::SaveChildPositionAndSize() "
"cannot not save position and size for non-subscriber '%s'\n",
mChildName.WX_TO_C_STRING);
#endif
SubscriberException se;
se.SetDetails("Cannot set position and size for non-subscriber '%s'");
throw se;
}
Subscriber *sub = (Subscriber*) obj;
#ifdef DEBUG_PERSISTENCE
MessageInterface::ShowMessage("...... Now saving plot data to %s:\n", (sub->GetName()).c_str());
MessageInterface::ShowMessage(" Upper left = %12.10f %12.10f\n", upperLeft[0], upperLeft[1]);
MessageInterface::ShowMessage(" Size = %12.10f %12.10f\n", childSize[0], childSize[1]);
MessageInterface::ShowMessage(" RelativeZOrder = %d\n", relativeZOrder);
#endif
sub->SetRvectorParameter(sub->GetParameterID("UpperLeft"), upperLeft);
sub->SetRvectorParameter(sub->GetParameterID("Size"), childSize);
sub->SetIntegerParameter(sub->GetParameterID("RelativeZOrder"), relativeZOrder);
sub->SetBooleanParameter(sub->GetParameterID("Maximized"), isMaximized);
}
else if (mItemType == GmatTree::MISSION_TREE_UNDOCKED)
{
// get the config object
wxFileConfig *pConfig;
pConfig = (wxFileConfig *) GmatAppData::Instance()->GetPersonalizationConfig();
std::stringstream location("");
location << upperLeft[0] << " " << upperLeft[1];
std::stringstream size("");
size << childSize[0] << " " << childSize[1];
pConfig->Write("/MissionTree/UpperLeft", location.str().c_str());
pConfig->Write("/MissionTree/Size", size.str().c_str());
pConfig->Write("/MissionTree/IsMaximized", isMaximized);
pConfig->Write("/MissionTree/IsMinimized", isMinimized);
}
else if (mItemType == GmatTree::SCRIPT_FILE)
{
// get the config object
wxFileConfig *pConfig;
pConfig = (wxFileConfig *) GmatAppData::Instance()->GetPersonalizationConfig();
std::stringstream location("");
location << upperLeft[0] << " " << upperLeft[1];
std::stringstream size("");
size << childSize[0] << " " << childSize[1];
pConfig->Write("/ScriptEditor/UpperLeft", location.str().c_str());
pConfig->Write("/ScriptEditor/Size", size.str().c_str());
pConfig->Write("/ScriptEditor/IsMaximized", isMaximized);
pConfig->Write("/ScriptEditor/IsMinimized", isMinimized);
}
}
//------------------------------------------------------------------------------
// void SaveChildPositionAndSize()
//------------------------------------------------------------------------------
void GmatMdiChildFrame::SaveChildPositionAndSize()
{
if (mCanSaveLocation == false)
return;
// Get the position and size of the window first
#ifdef __WXMAC__
Integer screenWidth = wxSystemSettings::GetMetric(wxSYS_SCREEN_X);
Integer screenHeight = wxSystemSettings::GetMetric(wxSYS_SCREEN_Y);
#else
Integer screenWidth;
Integer screenHeight;
//theParent->GetClientSize(&screenWidth, &screenHeight);
GmatAppData::Instance()->GetMainFrame()->GetActualClientSize(&screenWidth, &screenHeight, true);
#endif
// #ifdef DEBUG_PERSISTENCE
// wxRect wxR = GetScreenRect();
// wxPoint wxP = wxR.GetPosition();
// wxSize wxS = wxR.GetSize();
// Integer x = (Integer) wxP.x;
// Integer y = (Integer) wxP.y;
// Integer w = (Integer) wxS.GetWidth();
// Integer h = (Integer) wxS.GetHeight();
// MessageInterface::ShowMessage
// (wxT("wxP.x = %d, wxP.y = %d, wxS.w = %d, wxS.h = %d\n"), x, y, w, h);
// #endif
int tmpX = -1, tmpY = -1;
int tmpW = -1, tmpH = -1;
GetPosition(&tmpX, &tmpY);
GetSize(&tmpW, &tmpH);
Rvector upperLeft(2, ((Real) tmpX /(Real) screenWidth), ((Real) tmpY /(Real) screenHeight));
Rvector childSize(2, ((Real) tmpW /(Real) screenWidth), ((Real) tmpH /(Real) screenHeight));
#ifdef DEBUG_PERSISTENCE
// ======================= begin temporary ==============================
MessageInterface::ShowMessage(wxT("*** Size of SCREEN %s is: width = %d, height = %d\n"), mPlotName.c_str(), screenWidth, screenHeight);
MessageInterface::ShowMessage(wxT("Position of View plot %s is: x = %d, y = %d\n"), mPlotName.c_str(), tmpX, tmpY);
MessageInterface::ShowMessage(wxT("Size of View plot %s is: width = %d, height = %d\n"), mPlotName.c_str(), tmpW, tmpH);
// MessageInterface::ShowMessage(wxT("Position of View plot %s in pixels rel. to parent window is: x = %d, y = %d\n"),
// mPlotName.c_str(), (Integer) tmpX, (Integer) tmpY);
// MessageInterface::ShowMessage(wxT("Size of View plot %s in pixels rel. to parent window is: x = %d, y = %d\n"),
// mPlotName.c_str(), (Integer) tmpW, (Integer) tmpH);
// wxPoint tmpPt = ScreenToClient(wxP);
// MessageInterface::ShowMessage(wxT("--- Position of View plot %s in client coords is: x = %d, y = %d\n"),
// mPlotName.c_str(), (Integer) tmpPt.x, (Integer) tmpPt.y);
// ======================= end temporary ==============================
#endif
if ((mItemType == GmatTree::OUTPUT_REPORT) || (mItemType == GmatTree::OUTPUT_ORBIT_VIEW) ||
(mItemType == GmatTree::OUTPUT_XY_PLOT) || (mItemType == GmatTree::OUTPUT_GROUND_TRACK_PLOT)
// We'll want to add the event reports eventually, but they are not subscriber based
//|| (mItemType == GmatTree::EVENT_REPORT)
)
{
GmatBase *obj =
(Subscriber*)theGuiInterpreter->GetConfiguredObject(mPlotName.c_str());
if (!obj || !obj->IsOfType(wxT("Subscriber")))
{
wxString errmsg = wxT("Cannot find subscriber ");
errmsg += mPlotName + wxT("\n");
throw SubscriberException(errmsg);
}
Subscriber *sub = (Subscriber*) obj;
#ifdef DEBUG_PERSISTENCE
MessageInterface::ShowMessage("...... Now saving plot data to %s:\n", (sub->GetName()).c_str());
MessageInterface::ShowMessage(" Upper left = %12.10f %12.10f\n", upperLeft[0], upperLeft[1]);
MessageInterface::ShowMessage(" Size = %12.10f %12.10f\n", childSize[0], childSize[1]);
MessageInterface::ShowMessage(" RelativeZOrder = %d\n", relativeZOrder);
#endif
sub->SetRvectorParameter(sub->GetParameterID(wxT("UpperLeft")), upperLeft);
sub->SetRvectorParameter(sub->GetParameterID(wxT("Size")), childSize);
sub->SetIntegerParameter(sub->GetParameterID(wxT("RelativeZOrder")), relativeZOrder);
}
else if (mItemType == GmatTree::MISSION_TREE_UNDOCKED)
{
// get the config object
wxFileConfig *pConfig;
pConfig = (wxFileConfig *) GmatAppData::Instance()->GetPersonalizationConfig();
wxString location;
location << upperLeft[0] << wxT(" ") << upperLeft[1];
wxString size;
size << childSize[0] << wxT(" ") << childSize[1];
pConfig->Write(wxT("/MissionTree/UpperLeft"), location.c_str());
pConfig->Write(wxT("/MissionTree/Size"), size.c_str());
}
}
