#include "MGCosy.h" #include #include #include "msgqueue.h" #include "coord.h" #include "slalib.h" #include #include // TGTab #include // TGPopupMenu #include // TGGroupFrame #include // gSystem #include // TGLabel #include // TGHorizontal3DLine (TGSplitter) #include // TGButton #include // TGTextView #include // TGComboBox #include // TGTextEntry #include // gApplication #include "MCosy.h" #include "MTime.h" #include "MString.h" #include "MAstro.h" #include "MGList.h" #include "MDriveCom.h" #include "MGImage.h" #include "MGAccuracy.h" //#include "MGAccuracyTime.h" #include "MGCoordinates.h" #include "MGSkyPosition.h" #include "MGVelocity.h" #include "SlaStars.h" #undef DEBUG //#define EXPERT //#define HAS_DEMO ClassImp(MGCosy); #define IDM_EXIT 1 #define IDM_TEXT 2 #define IDM_ASPECT 3 enum { kPB_POSITION, kPB_TRACK, kPB_STOP, kPB_TRACKPOS, kPB_CALCALTAZ, kPB_TPOINT, kPB_ENDSWITCH, kPB_START, kPB_DISPLAY1, kPB_DISPLAY2, kPB_RAp, kPB_RAm, kPB_DECp, kPB_DECm, kPB_ZDp, kPB_ZDm, kPB_AZp, kPB_AZm, kPB_LoadBending, kPB_ResetBending, kPB_CALIBSE, kCB_PredefPos, kCB_StarList, kPB_SavePreDef, kPB_SaveStar, // kLog kLogCopy, kLogClear, kLogSelect, kLogSearch, kLogSave, kLogAppend }; void MGCosy::CreateMenu() { TGLayoutHints *laymenubar = new TGLayoutHints (kLHintsNormal | kLHintsExpandX); TGLayoutHints *laymenuitem = new TGLayoutHints (kLHintsNormal, 0, 4, 0, 0); fList->Add(laymenubar); fList->Add(laymenuitem); // // crate the menu bar // TGPopupMenu *filemenu = new TGPopupMenu(gClient->GetRoot()); filemenu->AddEntry("Set Aspect", IDM_ASPECT); filemenu->AddEntry("Exit", IDM_EXIT); filemenu->Associate(this); fList->Add(filemenu); // // Log Menu // TGPopupMenu *logmenu = new TGPopupMenu(gClient->GetRoot()); logmenu->AddEntry("&Copy Selected", kLogCopy); logmenu->AddEntry("&Select All", kLogSelect); logmenu->AddSeparator(); logmenu->AddEntry("Clear &all", kLogClear); /* logmenu->AddSeparator(); logmenu->AddEntry("Search", kLogSearch); */ logmenu->AddSeparator(); logmenu->AddEntry("Sa&ve", kLogSave); logmenu->AddEntry("Save a&ppend", kLogAppend); logmenu->Associate(this); // // the button messages are handled by main frame (this) // TGMenuBar *menubar = new TGMenuBar(this, 1, 1, kHorizontalFrame); menubar->AddPopup("File", filemenu, laymenuitem); menubar->AddPopup("Lo&g", logmenu, laymenuitem); AddFrame(menubar, laymenubar); fList->Add(menubar); // // Seperator beyond menubar // TGHorizontal3DLine *linesep = new TGHorizontal3DLine(this); AddFrame(linesep, laymenubar); fList->Add(linesep); } void MGCosy::CreateLabel(TGCompositeFrame *f) { const int x = 180; const int y = 25; TGLabel *l; l = new TGLabel(f, "UTC:"); l->Move(x-60, y); fList->Add(l); l = new TGLabel(f, "Mjd:"); l->Move(x-60, y+17); fList->Add(l); fUtc = new TGLabel(f, "0000/00/00 00:00:00.0"); fMjd = new TGLabel(f, "00000.000000"); fUtc->Move(x-25, y); fMjd->Move(x-25, y+17); fList->Add(fUtc); fList->Add(fMjd); l = new TGLabel(f, "SE-Az:"); l->Move(x-60, y+40); fList->Add(l); l = new TGLabel(f, "SE-Zd1:"); l->Move(x-60, y+57); fList->Add(l); l = new TGLabel(f, "SE-Zd2:"); l->Move(x-60, y+74); fList->Add(l); fWeather = new TGLabel(f, ""); fWeather->MoveResize(10, y+280, 280, 16); fList->Add(fWeather); fLabel1 = new TGLabel(f, "00000"); // Max: 16384 fLabel2 = new TGLabel(f, "00000"); fLabel3 = new TGLabel(f, "00000"); fLabel1->SetTextJustify(kTextRight); fLabel2->SetTextJustify(kTextRight); fLabel3->SetTextJustify(kTextRight); fLabel1->Move(x, y+40); fLabel2->Move(x, y+57); fLabel3->Move(x, y+74); fList->Add(fLabel1); fList->Add(fLabel2); fList->Add(fLabel3); /* l = new TGLabel(f, "Offset-Zd:"); l->Move(x-60, y+102); fList->Add(l); l = new TGLabel(f, "Offset-Az:"); l->Move(x-60, y+119); fList->Add(l); fOffsetZd = new TGLabel(f, "000000000"); fOffsetAz = new TGLabel(f, "000000000"); fOffsetZd->SetTextJustify(kTextRight); fOffsetAz->SetTextJustify(kTextRight); fOffsetZd->Move(x+15, y+102); fOffsetAz->Move(x+15, y+119); fList->Add(fOffsetZd); fList->Add(fOffsetAz); */ l = new TGLabel(f, "Ra (estimated):"); l->Move(x-60, y+142-20); fList->Add(l); l = new TGLabel(f, "Ra (nominal):"); l->Move(x-60, y+159-20); fList->Add(l); l = new TGLabel(f, "Dec (estimated):"); l->Move(x-60, y+182-20); fList->Add(l); l = new TGLabel(f, "Dec (nominal):"); l->Move(x-60, y+199-20); fList->Add(l); l = new TGLabel(f, "Zd (nominal):"); l->Move(x-60, y+222); fList->Add(l); l = new TGLabel(f, "Az (nominal):"); l->Move(x-60, y+239); fList->Add(l); fRaEst = new TGLabel(f, "+000h 00.0m"); fDecEst = new TGLabel(f, "+000d 00.0m"); fRaSoll = new TGLabel(f, "+000h 00.0m"); fDecSoll = new TGLabel(f, "+000d 00.0m"); fZdSoll = new TGLabel(f, "+000d 00.0m"); fAzSoll = new TGLabel(f, "+000d 00.0m"); fRaEst->SetTextJustify(kTextRight); fDecEst->SetTextJustify(kTextRight); fRaSoll->SetTextJustify(kTextRight); fDecSoll->SetTextJustify(kTextRight); fZdSoll->SetTextJustify(kTextRight); fAzSoll->SetTextJustify(kTextRight); fRaEst->Move(x+30, y+142-20); fRaSoll->Move(x+30, y+159-20); fDecEst->Move(x+30, y+182-20); fDecSoll->Move(x+30, y+199-20); fZdSoll->Move(x+30, y+222); fAzSoll->Move(x+30, y+239); fList->Add(fRaEst); fList->Add(fDecEst); fList->Add(fRaSoll); fList->Add(fDecSoll); fList->Add(fZdSoll); fList->Add(fAzSoll); fError = new TGLabel(f, "Error"); fMoving = new TGLabel(f, "Moving"); fTracking = new TGLabel(f, "Tracking"); fStopping = new TGLabel(f, "Stopping"); fStopped = new TGLabel(f, "Stopped"); fAvailMac1 = new TGLabel(f, "- MAC1 -"); fAvailMac2 = new TGLabel(f, "- MAC2 -"); //fAvailMac3 = new TGLabel(f, "- MAC3 -"); fAvailSe1 = new TGLabel(f, "-SE/Zd1-"); fAvailSe2 = new TGLabel(f, "-SE/Zd2-"); fAvailSe3 = new TGLabel(f, "- SE/Az -"); ULong_t color; gClient->GetColorByName("Red", color); fError->SetBackgroundColor(color); fAvailMac1->SetBackgroundColor(color); fAvailMac2->SetBackgroundColor(color); //fAvailMac3->SetBackgroundColor(color); fAvailSe1->SetBackgroundColor(color); fAvailSe2->SetBackgroundColor(color); fAvailSe3->SetBackgroundColor(color); gClient->GetColorByName("LightBlue", color); fMoving->SetBackgroundColor(color); gClient->GetColorByName("Blue", color); fTracking->SetBackgroundColor(color); gClient->GetColorByName("Orange", color); fStopping->SetBackgroundColor(color); gClient->GetColorByName("Green", color); fStopped->SetBackgroundColor(color); fError ->MoveResize(10, 25, 60, 20); fMoving ->MoveResize(10, 25+20, 60, 20); fTracking->MoveResize(10, 25+40, 60, 20); fStopping->MoveResize(10, 25+60, 60, 20); fStopped ->MoveResize(10, 25+80, 60, 20); fAvailMac1->MoveResize(10, 25+120, 60, 20); fAvailMac2->MoveResize(10, 25+140, 60, 20); //fAvailMac3->Move(10, 25+160); fAvailSe1->MoveResize(10, 25+200, 60, 20); fAvailSe2->MoveResize(10, 25+220, 60, 20); fAvailSe3->MoveResize(10, 25+180, 60, 20); fList->Add(fError); fList->Add(fMoving); fList->Add(fTracking); fList->Add(fStopping); fList->Add(fStopped); fList->Add(fAvailMac1); fList->Add(fAvailMac2); //fList->Add(fAvailMac3); fList->Add(fAvailSe1); fList->Add(fAvailSe2); fList->Add(fAvailSe3); } void MGCosy::CreatePredefinedPos(TGCompositeFrame *tf1) { TGComboBox *box = new TGComboBox(tf1, kCB_PredefPos); box->Resize(120, 20); box->Associate(this); TGLayoutHints *lay = new TGLayoutHints(kLHintsLeft|kLHintsTop, 27, 0, 200, 0); tf1->AddFrame(box, lay); fList->Add(box); fList->Add(lay); ifstream fin("prepos.txt"); if (!fin) { cout << "ERROR: Predifined positions in 'prepos.txt' not found." << endl; return; } int i=0; while (1) { Double_t zd, az; fin >> zd >> az; TString str; str.ReadLine(fin); if (!fin) break; box->AddEntry(str, i++); fPreDefList.Add(zd, az); } } void MGCosy::CreateStarList(TGCompositeFrame *tf1) { TGComboBox *box = new TGComboBox(tf1, kCB_StarList); box->Resize(170, 20); box->Associate(this); TGLayoutHints *lay = new TGLayoutHints(kLHintsLeft|kLHintsTop, 27, 0, 70, 0); tf1->AddFrame(box, lay); fList->Add(box); fList->Add(lay); ifstream fin("stars.txt"); if (!fin) { cout << "ERROR: Star List 'stars.txt' not found." << endl; return; } int i=0; while (1) { Int_t h, m, s, d, am, as; fin >> h >> m >> s >> d >> am >> as; TString str; str.ReadLine(fin); if (!fin) break; box->AddEntry(str, i++); fStarList.Add(MAstro::Hms2Hor(h, m, s), MAstro::Dms2Deg(d, am, as)); } } void MGCosy::CreateTabs() { TGCompositeFrame *tf1 = fTab->AddTab("Position"); TGCompositeFrame *tf2 = fTab->AddTab("Track"); TGCompositeFrame *tf4 = fTab->AddTab("Calib"); #ifdef EXPERT TGCompositeFrame *tf5 = fTab->AddTab("Test SE"); TGCompositeFrame *tf6 = fTab->AddTab("Gear"); #endif #ifdef HAS_DEMO /*TGCompositeFrame *tf3 =*/ fTab->AddTab("Demo"); #endif fCZdAz = new MGCoordinates(tf1, kETypeZdAz); fCZdAz->Move(27, 105); fList->Add(fCZdAz); CreatePredefinedPos(tf1); CreateStarList(tf4); fCRaDec = new MGCoordinates(tf2, kETypeRaDec); fCRaDec->Move(27, 105); fList->Add(fCRaDec); fCCalib = new MGCoordinates(tf4, kETypeRaDec); fCCalib->Move(27, 105); fList->Add(fCCalib); const int x=15; const int y=12; const int h=16; TGLabel *l1 = new TGLabel(tf1, "Move the telescope to a position given in"); TGLabel *l2 = new TGLabel(tf1, "local coordinates. The given coordinates"); TGLabel *l3 = new TGLabel(tf1, "are pointing coordinates. Enter the coordinates"); TGLabel *l4 = new TGLabel(tf1, "manually or choose a predefined position"); TGLabel *l5 = new TGLabel(tf1, "from the combobox below."); l1->Move(x, y); l2->Move(x, y+h); l3->Move(x, y+2*h); l4->Move(x, y+3*h); l5->Move(x, y+4*h); fList->Add(l1); fList->Add(l2); fList->Add(l3); fList->Add(l4); fList->Add(l5); l1 = new TGLabel(tf2, "Track a position given in sky coordinates."); l2 = new TGLabel(tf2, "Right Ascension and declination must be given"); l3 = new TGLabel(tf2, "in the FK5, J2000 coordinate system."); l1->Move(x, y); l2->Move(x, y+h); l3->Move(x, y+2*h); fList->Add(l1); fList->Add(l2); fList->Add(l3); l1 = new TGLabel(tf4, "Start the calibration using the Start button."); l2 = new TGLabel(tf4, "Write a coordinate pair to a TPoint file using"); l3 = new TGLabel(tf4, "the TPoint button."); //l3 = new TGLabel(tf4, "the TPoint button. To set the Shaftencoder offset"); //l4 = new TGLabel(tf4, "use the Calib SE button."); l1->Move(x, y); l2->Move(x, y+h); l3->Move(x, y+2*h); l4->Move(x, y+3*h); fList->Add(l1); fList->Add(l2); fList->Add(l3); fList->Add(l4); #ifdef EXPERT l1 = new TGLabel(tf5, "START starts histograming the differences of"); l2 = new TGLabel(tf5, "the two shaftencoders at the elevation axis."); l3 = new TGLabel(tf5, "Use STOP to stop histograming and display the"); l4 = new TGLabel(tf5, "results on the screen."); l1->Move(x, y); l2->Move(x, y+h); l3->Move(x, y+2*h); l4->Move(x, y+3*h); fList->Add(l1); fList->Add(l2); fList->Add(l3); fList->Add(l4); l1 = new TGLabel(tf6, "FIXME Text missing / Only one axis?"); l1->Move(x, y); fList->Add(l1); #endif // // light green: 3 light red: 2 blue?: 2 // dark green: 8 dark red: 50 dark blue?: 1 // // blue: 0-7, 9, 10,11, 14, 15, 18, 19, 22, 23, 27, 31, 33-39, 41-43 // 46, 47 // green: 8, 12,13, 16, 17, 20, 21, 24, 25, 26, 28, 29, 30, 40, 44 // 45, 48 // gray: 31, 113- // red: 164, 192, 224, 232 // TGTextButton *but; but= new TGTextButton(tf2, "Ra -", kPB_RAm); but->MoveResize(25, 210, 50, 25); but->SetToolTipText("Right ascension -= 1'"); but->Associate(this); fList->Add(but); but= new TGTextButton(tf2, "RA +", kPB_RAp); but->MoveResize(90, 210, 50, 25); but->SetToolTipText("Right ascension += 1'"); but->Associate(this); fList->Add(but); but= new TGTextButton(tf2, "DEC +", kPB_DECp); but->MoveResize(55, 185, 50, 25); but->SetToolTipText("Declination += 1'"); but->Associate(this); fList->Add(but); but= new TGTextButton(tf2, "DEC -", kPB_DECm); but->MoveResize(55, 235, 50, 25); but->SetToolTipText("Declination -= 1'"); but->Associate(this); fList->Add(but); but = new TGTextButton(tf1, "Move'n'Track", kPB_TRACKPOS); but->MoveResize(25, 242, 100, 25); but->SetToolTipText("Move telescope to a Zd/Az position and start tracking."); but->Associate(this); fList->Add(but); but= new TGTextButton(tf2, "Calc Zd/Az", kPB_CALCALTAZ); but->MoveResize(165, 197, 80, 25); but->SetToolTipText("Calculate Zd/Az corresponding to Ra/Dec."); but->Associate(this); fList->Add(but); but = new TGTextButton(tf4, "TPoint", kPB_TPOINT); but->MoveResize(139, 213, 62, 25); but->SetToolTipText("Trigger writing a tpoint coordinate pair."); but->Associate(this); fList->Add(but); but = new TGTextButton(tf4, "Endswitch", kPB_ENDSWITCH); but->MoveResize(204, 213, 62, 25); but->SetToolTipText("Print coordinates in 'Endswitch-Position' units."); but->Associate(this); fList->Add(but); #ifdef EXPERT but= new TGTextButton(tf1, "New Position", kPB_SavePreDef); but->MoveResize(165, 197, 80, 25); but->SetToolTipText("Save new predefined position."); but->Associate(this); fList->Add(but); but= new TGTextButton(tf4, "New", kPB_SaveStar); but->MoveResize(211, 69, 60, 23); but->SetToolTipText("Save new Source position."); but->Associate(this); fList->Add(but); but = new TGTextButton(tf5, "Display", kPB_DISPLAY1); but->MoveResize(160, 197, 80, 25); but->SetToolTipText("Display Histogram."); but->Associate(this); fList->Add(but); but = new TGTextButton(tf6, "Display", kPB_DISPLAY2); but->MoveResize(160, 197, 80, 25); but->SetToolTipText("Display Histogram."); but->Associate(this); fList->Add(but); but = new TGTextButton(tf4, "Load", kPB_LoadBending); but->ResizeMove(151, 185, 50, 25); but->SetToolTipText("Load bending corrections from file 'bending.txt'"); but->Associate(this); fList->Add(but); but = new TGTextButton(tf4, "Reset", kPB_ResetBending); but->MoveResize(206, 185, 50, 25); but->SetToolTipText("Reset bending correction (coefficients=0)"); but->Associate(this); fList->Add(but); but= new TGTextButton(tf4, "Zd -", kPB_ZDm); but->MoveResize(25, 210, 50, 25); but->SetToolTipText("Zenith Distance -= 1SE"); but->Associate(this); fList->Add(but); but= new TGTextButton(tf4, "Zd +", kPB_ZDp); but->MoveResize(90, 210, 50, 25); but->SetToolTipText("Zenith Distance += 1SE"); but->Associate(this); fList->Add(but); but= new TGTextButton(tf4, "Az +", kPB_AZp); but->MoveResize(55, 185, 50, 25); but->SetToolTipText("Azimuth += 1SE"); but->Associate(this); fList->Add(but); but= new TGTextButton(tf4, "Az -", kPB_AZm); but->MoveResize(55, 235, 50, 25); but->SetToolTipText("Azimuth -= 1SE"); but->Associate(this); fList->Add(but); #endif ULong_t color; but = new TGTextButton(this, "Start", kPB_START); gClient->GetColorByName("Green", color); but->SetBackgroundColor(color); but->MoveResize(147, 295, 62, 25); but->SetToolTipText("Start a telescope movement."); fList->Add(but); but = new TGTextButton(this, "Stop", kPB_STOP); gClient->GetColorByName("Red", color); but->SetBackgroundColor(color); but->MoveResize(212, 295, 62, 25); but->SetToolTipText("Stop any movement of telescope."); fList->Add(but); /* const Double_t ca = 0; // Left-Right Collimation Error const Double_t an = 0; // Azimuth Axis Misalignment (N-S) const Double_t aw = 0; // Azimuth Axis Misalignment (E-W) const Double_t npae = 0; // Az-El Nonperpendicularity const Double_t nrx = 0; // Nasmyth rotator displacement, horizontan const Double_t nry = 0; // Nasmyth rotator displacement, vertical const Double_t crx = 0; // Alt/Az Coude Displacement (N-S) const Double_t cry = 0; // Alt/Az Coude Displacement (E-W) l1 = new TGLabel(tf5, "CA"); l1->SetTextJustify(kTextLeft); l1->Move(x, y+2*h*1.5); l1->MapWindow(); fList->Add(l1); l1 = new TGLabel(tf5, "AN"); l1->SetTextJustify(kTextLeft); l1->Move(x, y+3*h*1.5); l1->MapWindow(); fList->Add(l1); l1 = new TGLabel(tf5, "AW"); l1->SetTextJustify(kTextLeft); l1->Move(x, y+4*h*1.5); l1->MapWindow(); fList->Add(l1); l1 = new TGLabel(tf5, "NPAE"); l1->SetTextJustify(kTextLeft); l1->Move(x, y+5*h*1.5); l1->MapWindow(); fList->Add(l1); l1 = new TGLabel(tf5, "NRX"); l1->SetTextJustify(kTextLeft); l1->Move(x, y+6*h*1.5); l1->MapWindow(); fList->Add(l1); l1 = new TGLabel(tf5, "NRY"); l1->SetTextJustify(kTextLeft); l1->Move(x, y+7*h*1.5); l1->MapWindow(); fList->Add(l1); l1 = new TGLabel(tf5, "CRX"); l1->SetTextJustify(kTextLeft); l1->Move(x, y+8*h*1.5); l1->MapWindow(); fList->Add(l1); l1 = new TGLabel(tf5, "CRY"); l1->SetTextJustify(kTextLeft); l1->Move(x, y+9*h*1.5); l1->MapWindow(); fList->Add(l1); const Double_t ie = 0; // Index Error in Elevation const Double_t ia = 0; // Index Error in Azimuth const Double_t eces = 0; // Elevation Centering Error (sin) const Double_t ecec = 0; // Elevation Centering Error (cos) const Double_t aces = 0; // Azimuth Centering Error (sin) const Double_t acec = 0; // Azimuth Centering Error (cos) l1 = new TGLabel(tf5, "IE"); l1->SetTextJustify(kTextLeft); l1->Move(x+150, y+3*h*1.5); l1->MapWindow(); fList->Add(l1); l1 = new TGLabel(tf5, "IA"); l1->SetTextJustify(kTextLeft); l1->Move(x+150, y+4*h*1.5); l1->MapWindow(); fList->Add(l1); l1 = new TGLabel(tf5, "ECES"); l1->SetTextJustify(kTextLeft); l1->Move(x+150, y+5*h*1.5); l1->MapWindow(); fList->Add(l1); l1 = new TGLabel(tf5, "ECEC"); l1->SetTextJustify(kTextLeft); l1->Move(x+150, y+6*h*1.5); l1->MapWindow(); fList->Add(l1); l1 = new TGLabel(tf5, "ACES"); l1->SetTextJustify(kTextLeft); l1->Move(x+150, y+4*h*1.5); l1->MapWindow(); fList->Add(l1); l1 = new TGLabel(tf5, "IA"); l1->SetTextJustify(kTextLeft); l1->Move(x+150, y+4*h*1.5); l1->MapWindow(); fList->Add(l1); TGTextEntry *entry = new TGTextEntry(tf5, "****", kEF_BendIE); entry->Associate(this); entry->Move(x+50, y+2*h*1.5); entry->MapWindow(); fList->Add(entry); entry = new TGTextEntry(tf5, "*****", kEF_BendIA); entry->Associate(this); entry->Move(x+50, y+3*h*1.5); entry->MapWindow(); fList->Add(entry); */ } MGCosy::MGCosy(MObservatory::LocationName_t key, MsgQueue *q, const TGWindow *p, UInt_t w, UInt_t h) : TGMainFrame(p, w, h), fObservatory(key), fQueue(q) { fList = new MGList; fFont = gVirtualX->LoadQueryFont("7x13bold"); #ifdef DEBUG cout << "MGCosy: Creating Menu" << endl; #endif CreateMenu(); #ifdef DEBUG cout << "MGCosy: Creating TGCompositeFrame" << endl; #endif TGHorizontalFrame *f1 = new TGHorizontalFrame(this, 0, 0); TGHorizontalFrame *f2 = new TGHorizontalFrame(this, 0, 0); fList->Add(f1); fList->Add(f2); #ifdef DEBUG cout << "MGCosy: Creating TGTab" << endl; #endif fTab = new TGTab(f1, 300, 300); fList->Add(fTab); #ifdef DEBUG cout << "MGCosy: Creating MGSkyPosition" << endl; #endif fSkyPosition = new MGSkyPosition(fObservatory, f1, 300); #ifdef DEBUG cout << "MGCosy: Creating MGAccuracy" << endl; #endif fAccuracy = new MGAccuracy(f1, 300); #ifdef DEBUG cout << "MGCosy: Creating MGVelocity" << endl; #endif fImage = new MGImage(f2, 768/2-1, 576/2-1, kRaisedFrame); //fVelocity = new MGVelocity(f2, "Velocity [U_{mot}/min]", 300); // fOffset = new MGVelocity (f, "Offset se-re [']", 300); #ifdef DEBUG cout << "MGCosy: Creating MGVelocityTime" << endl; #endif // fAccuracyTime = new MGAccuracyTime(f2, 300); fList->Add(fSkyPosition); fList->Add(fAccuracy); // fList->Add(fAccuracyTime); // fList->Add(fVelocity); // fList->Add(fOffset); fList->Add(fImage); #ifdef DEBUG cout << "MGCosy: Creating TGGroupFrame" << endl; #endif TGGroupFrame *frame = new TGGroupFrame(f2, "Status"); fList->Add(frame); #ifdef DEBUG cout << "MGCosy: Creating TGTextView" << endl; #endif fLog = new TGTextView(f2, 300, 300); if (fFont) fLog->SetFont(fFont); fList->Add(fLog); TGLayoutHints *hints1 = new TGLayoutHints(kLHintsNormal | kLHintsExpandX|kLHintsExpandY, 6, 6, 6, 3); TGLayoutHints *hints2 = new TGLayoutHints(kLHintsNormal | kLHintsExpandX|kLHintsExpandY, 6, 6, 3, 6); TGLayoutHints *hints1a = new TGLayoutHints(kLHintsLeft | kLHintsCenterY|kLHintsExpandX|kLHintsExpandY); TGLayoutHints *hints2a = new TGLayoutHints(kLHintsCenterX | kLHintsCenterY|kLHintsExpandX|kLHintsExpandY, 6, 6); TGLayoutHints *hints3a = new TGLayoutHints(kLHintsRight | kLHintsCenterY|kLHintsExpandX|kLHintsExpandY); TGLayoutHints *hints1b = new TGLayoutHints(kLHintsLeft | kLHintsCenterY|kLHintsExpandX|kLHintsExpandY); TGLayoutHints *hints2b = new TGLayoutHints(kLHintsCenterX | kLHintsCenterY, 6, 6); TGLayoutHints *hints3b = new TGLayoutHints(kLHintsRight | kLHintsCenterY|kLHintsExpandX|kLHintsExpandY); fList->Add(hints1); fList->Add(hints2); fList->Add(hints1a); fList->Add(hints2a); fList->Add(hints3a); fList->Add(hints1b); fList->Add(hints2b); fList->Add(hints3b); // Layout upper frame f1->AddFrame(fTab, hints1a); f1->AddFrame(fSkyPosition, hints2a); f1->AddFrame(fAccuracy, hints3a); // Layout upper frame f2->AddFrame(frame, hints1b); f2->AddFrame(fImage, hints2b); //f2->AddFrame(fVelocity, hints2b); //f2->AddFrame(fAccuracyTime, hints2b); f2->AddFrame(fLog, hints3b); // Layout window AddFrame(f1, hints1); AddFrame(f2, hints2); #ifdef DEBUG cout << "MGCosy: Creating Tabs" << endl; #endif CreateTabs(); #ifdef DEBUG cout << "MGCosy: Creating Label" << endl; #endif CreateLabel(frame); // // Map the window, set up the layout, etc. // #ifdef DEBUG cout << "MGCosy: Setting Size" << endl; #endif const Int_t w = 1010; const Int_t h = 700; SetWMSizeHints(w, h, 1280, 900, 10, 10); // set the smallest and biggest size of the Main frame SetWindowName("Cosy Main Window"); SetIconName("Cosy"); #ifdef DEBUG cout << "MGCosy: Map Window" << endl; #endif MapSubwindows(); Resize(w, h); //GetDefaultSize()); MapWindow(); } // ====================================================================== MGCosy::~MGCosy() { #ifdef DEBUG cout << "MGCosy::~MGCosy called." << endl; #endif delete fList; #ifdef DEBUG cout << "Deleting MGCosy::fFont" << endl; #endif if (fFont) gVirtualX->DeleteFont(fFont); #ifdef DEBUG cout << "MGCosy::~MGCosy done." << endl; #endif } void MGCosy::SetLabelColor(TGLabel *label, Bool_t col) { ULong_t red, green; gClient->GetColorByName("Red", red); gClient->GetColorByName("Green", green); if (col && label->TestBit(BIT(14))) return; if (!col && !label->TestBit(BIT(14))) return; col ? label->SetBit(BIT(14)) : label->ResetBit(BIT(14)); label->UnmapWindow(); label->SetBackgroundColor(col ? green : red); label->MapWindow(); } // ====================================================================== void MGCosy::EnableLabel(TGLabel *label, Bool_t stat) { stat ? label->MapWindow() : label->UnmapWindow(); /* TGGC *fRedTextGC(TGButton::GetDefaultGC()) // Set foreground color in graphics context for drawing of // TGlabel and TGButtons with text in red. ULong_t red; gClient->GetColorByName("red", red); fRedTextGC.SetForeground(red); */ } void MGCosy::UpdateRaDec(ZdAz &pos, double mjd, RaDec &radec) { static Int_t rai=~0; static Int_t deci=~0; static Int_t ras=~0; static Int_t decs=~0; static SlaStars sla(fObservatory); sla.SetMjd(mjd); RaDec rd = sla.CalcRaDec(pos*2*TMath::Pi()/360); char text[64]; UShort_t h, d; Double_t hm, dm; Char_t sh, sd; // Calculate Display values MAstro::Rad2Hm(rd.Ra(), sh, h, hm); MAstro::Rad2Dm(rd.Dec(), sd, d, dm); rd.Ra(rd.Ra() * 12/TMath::Pi()); rd.Dec(rd.Dec()*180/TMath::Pi()); RaDec test = rd*600; if (rai!=(int)test.Ra()) { rai = (int)test.Ra(); //sprintf(text, "%c%dh %.1fm", rd.Ra()<0?'-':'+', abs((int)rd.Ra()), 0.1*(abs((int)test.Ra())%600)); sprintf(text, "%c%dh %.1fm", sh, h, hm); fRaEst->SetText(new TGString(text)); } if (deci!=(int)test.Dec()) { deci = (int)test.Dec(); //sprintf(text, "%c%dd %.1fm", rd.Dec()<0?'-':'+' , abs((int)rd.Dec()), 0.1*(abs((int)test.Dec())%600)); sprintf(text, "%c%dd %.1fm", sd, d, dm); fDecEst->SetText(new TGString(text)); } // Align RaDec radec.Ra(radec.Ra() * 12/TMath::Pi()); radec.Dec(radec.Dec()*180/TMath::Pi()); if (radec.Dec()>90|| radec.Dec()<-90) { radec.Ra(radec.Ra()+12); radec.Dec(180-radec.Dec()); } radec.Ra(fmod((radec.Ra()+48), 24)); // Calculate display values MAstro::Hor2Hm(radec.Ra(), sh, h, hm); MAstro::Deg2Dm(radec.Dec(), sd, d, dm); test = radec*600; if (ras!=(int)test.Ra()) { ras = (int)test.Ra(); //sprintf(text, "%c%dh %.1fm", radec.Ra()<0?'-':'+', abs((int)radec.Ra()), 0.1*(abs((int)test.Ra())%600)); sprintf(text, "%c%dh %.1fm", sh, h, hm); fRaSoll->SetText(new TGString(text)); } if (decs!=(int)test.Dec()) { decs = (int)test.Dec(); //sprintf(text, "%c%dd %.1fm", radec.Dec()<0?'-':'+' , abs((int)radec.Dec()), 0.1*(abs((int)test.Dec())%600)); sprintf(text, "%c%dd %.1fm", sd, d, dm); fDecSoll->SetText(new TGString(text)); } } /* void MGCosy::UpdateOffset(ZdAz &off) { static Int_t zd=~0; static Int_t az=~0; char text[21]; if (zd!=(Int_t)off.Zd()) { zd = (Int_t)off.Zd(); sprintf(text, "%dre", zd); fOffsetZd->SetText(new TGString(text)); } if (az!=(Int_t)off.Az()) { az = (Int_t)off.Az(); sprintf(text, "%dre", az); fOffsetAz->SetText(new TGString(text)); } } */ void MGCosy::UpdateZdAz(ZdAz &soll) { static Int_t zd=~0; static Int_t az=~0; char text[21]; UShort_t z, a; Double_t zm, am; Char_t sz, sa; MAstro::Rad2Dm(soll.Zd(), sz, z, zm); MAstro::Rad2Dm(soll.Az(), sa, a, am); const ZdAz test = soll*kRad2Deg*600; if (zd!=(int)test.Zd()) { zd = (int)test.Zd(); sprintf(text, "%c%dd %.1fm", sz, z, zm); fZdSoll->SetText(new TGString(text)); } if (az!=(int)test.Az()) { az = (int)test.Az(); sprintf(text, "%c%dd %.1fm", sa, a, am); fAzSoll->SetText(new TGString(text)); } } double MGCosy::UpdateTime() { MTime time; time.Now(); static TString oldtxt; TString text(time.GetString()); text.Remove(text.Last('.')+2); if (text!=oldtxt) { fUtc->SetText(new TGString(text)); oldtxt = text; } static ULong_t oldmjd=0; const double mjd = time.GetMjd(); if (oldmjd != (ULong_t)(1000000*mjd)) { MString str; str.Print("%12.6f", mjd); fMjd->SetText(new TGString(str)); oldmjd = (ULong_t)(1000000*mjd); } return mjd; } void MGCosy::Update(ZdAz pos, ZdAz acc, ZdAz vel, /*ZdAz off,*/ RaDec radec, ZdAz soll, UInt_t stat, UInt_t stat2) { // acc [rad] acc *= kRad2Deg; // [deg] const double mjd = UpdateTime(); fSkyPosition->Update(pos, mjd); //UpdateOffset(off); UpdateRaDec(pos, mjd, radec); UpdateZdAz(soll); EnableLabel(fError, stat&MDriveCom::kError); EnableLabel(fMoving, stat&MDriveCom::kMoving); EnableLabel(fTracking, stat&MDriveCom::kTracking); EnableLabel(fStopping, stat&MDriveCom::kStopping); EnableLabel(fStopped, stat&MDriveCom::kStopped); EnableLabel(fRaSoll, stat&MDriveCom::kTracking); EnableLabel(fDecSoll, stat&MDriveCom::kTracking); EnableLabel(fZdSoll, stat&MDriveCom::kMoving); EnableLabel(fAzSoll, stat&MDriveCom::kMoving); SetLabelColor(fAvailMac1, stat2&0x01); SetLabelColor(fAvailMac2, stat2&0x02); //SetLabelColor(fAvailMac3, stat2&0x04); SetLabelColor(fAvailSe1, stat2&0x08); SetLabelColor(fAvailSe2, stat2&0x10); SetLabelColor(fAvailSe3, stat2&0x20); if (stat&MDriveCom::kTracking) { fAccuracy->Update(pos, acc); // fAccuracyTime->Update(pos, acc); // fVelocity->Update(vel); fAccuracy->MapWindow(); // fAccuracyTime->MapWindow(); // fVelocity->MapWindow(); } else { fAccuracy->UnmapWindow(); // fAccuracyTime->UnmapWindow(); // fVelocity->UnmapWindow(); } // stat&kTracking ? fOffset->MapWindow() : fOffset->UnmapWindow(); //unsigned char empty[(768/2-1)*(576/2-1)]; //fImage->DrawImg(empty); //fImage->DoRedraw(); // if (IsMapped()) // fImage->DoRedraw(); } void MGCosy::UpdateWeather(const MCeCoCom &com) { ULong_t color; switch (com.GetWeatherStatus()) { case 0: color=TGFrame::GetDefaultFrameBackground(); break; case 1: gClient->GetColorByName("Yellow", color); break; case 2: gClient->GetColorByName("Orange", color); break; default: gClient->GetColorByName("Red", color); break; } if (com.HasAlarm()) { static int i=0; if ((i++/4)%2==0) color = TGFrame::GetDefaultFrameBackground(); } const TString old(fWeather->GetText()->GetString()); const TString txt(com.GetWeather()); // Color is only updated if the text has changed if (old!=txt || color!=fWeather->GetBackground()) fWeather->SetText(txt); if (color!=fWeather->GetBackground()) fWeather->SetBackgroundColor(color); } void MGCosy::CloseWindow() { // Got close message for this MainFrame. Calls parent CloseWindow() // (which destroys the window) and terminate the application. // The close message is generated by the window manager when its close // window menu item is selected. // gSystem->ExitLoop(); // gSystem->DispatchOneEvent(kTRUE); // TGMainFrame::CloseWindow(); cout << "Closing window - waiting until all nodes are stopped." << endl; fQueue->PostMsg(WM_QUIT); cout << "Closing window - done." << endl; // gApplication->Terminate(0); } void MGCosy::StartTrack(bool track) { cout << "Start tracking." << endl; XY xy0 = fCRaDec->GetCoordinates(); XY xy1 = track ? xy0 : fCCalib->GetCoordinates(); RaDec dest0(xy0.X()*15., xy0.Y()); // xy.X() [h]->[ø] RaDec dest1(xy1.X()*15., xy1.Y()); // xy.X() [h]->[ø] cout << "TrackPos: " << dest0.Ra() << "h " << dest0.Dec() << "\xb0" << endl; cout << "CalibPos: " << dest1.Ra() << "h " << dest1.Dec() << "\xb0" << endl; RaDec dest[2] = { dest0, dest1 }; fQueue->PostMsg(WM_TRACK, &dest, sizeof(dest)); cout << "PostMsg (WM_Track) returned." << endl; } void MGCosy::StartTrackPos(Long_t mp1) { cout << "Start tracking Zd/Az pos." << endl; const XY &xy = fCZdAz->GetCoordinates(); ZdAz za(xy.X(), xy.Y()); switch (mp1) { case kPB_ZDm: za.Zd(za.Zd()-360/16384.); break; case kPB_ZDp: za.Zd(za.Zd()+360/16384.); break; case kPB_AZm: za.Az(za.Az()-360/16384.); break; case kPB_AZp: za.Az(za.Az()+360/16384.); break; } cout << za.Zd() << "\xb0 " << za.Az() << "\xb0" << endl; fQueue->PostMsg(WM_TRACKPOS, &za, sizeof(za)); cout << "PostMsg (WM_TrackPos) returned." << endl; } void MGCosy::StartPos() { cout << "Start positioning." << endl; XY xy = fCZdAz->GetCoordinates(); ZdAz dest(xy.X(), xy.Y()); cout << dest.Zd() << kDEG << " " << dest.Az() << kDEG << endl; fQueue->PostMsg(WM_POSITION, &dest, sizeof(dest)); cout << "PostMsg (WM_Position) returned." << endl; } // // ************************** For demo purpose ********************** // #ifdef HAS_DEMO #include class MDemo : public MThread { private: MsgQueue *fQueue; TRandom fRand; public: MDemo() : MThread(false) {} void SetQueue(MsgQueue *q) { fQueue = q; } bool Wait(int s, int m) { int i = 0; while (!HasStopFlag() && i++PostMsg(WM_POSITION1, &dest1, sizeof(dest1)); return Wait(s, m); // 30s? } virtual void *Thread() { if (!Move(90, -65, 1000000, 27)) return NULL; Int_t i=1; while (i-->0) { //Timer tm; //tm.Now(); if (!Move(75, -80, 1000000, 13)) break; if (!Move(60, -65, 1000000, 13)) break; if (!Move(75, -50, 1000000, 13)) break; if (!Move(90, -65, 1000000, 13)) break; } if (!Move(60, -65, 1000000, 17)) return NULL; if (!Move(90, -65, 1000000, 19)) return NULL; if (!Move(90, -10, 1000000, 28)) return NULL; cout << "Demo Thread: done." << endl; return NULL; } }; MDemo demo; void MGCosy::StartDemo() { cout << "Start Demo." << endl; demo.SetQueue(fQueue); demo.Start(); cout << "PostMsg (WM_Demo) returned." << endl; } void StopDemo() { cout << "Stopping demo." << endl; demo.Stop(); } #endif //HAS_DEMO /* void MGCosy::StartCalib() { cout << "Start Calibration." << endl; XY xy = fCCalib->GetCoordinates(); RaDec pos(xy.X()*360/24, xy.Y()); fQueue->PostMsg(WM_CALIB, &pos, sizeof(pos)); cout << "PostMsg (WM_Calib) returned." << endl; } */ void MGCosy::StartTPoint() { cout << "Start writing tpoint pair." << endl; XY xy = fCCalib->GetCoordinates(); RaDec pos(xy.X()*360/24, xy.Y()); //fQueue->PostMsg(WM_TPOINT, &pos, sizeof(pos)); fQueue->Proc(WM_TPOINT, &pos); cout << "PostMsg (WM_TPoint) returned." << endl; } // // ****************************************************************** // Bool_t MGCosy::ProcessMessage(Long_t msg, Long_t mp1, Long_t mp2) { // // This processing is serialized! // switch (GET_MSG(msg)) { case kC_COMMAND: switch (GET_SUBMSG(msg)) { case kCM_COMBOBOX: switch (mp1) { case kCB_PredefPos: { MStar *pos = fPreDefList[mp2]; if (pos) fCZdAz->SetCoordinates(ZdAz(pos->GetX(), pos->GetY())); return kTRUE; } case kCB_StarList: { MStar *pos = fStarList[mp2]; if (pos) fCCalib->SetCoordinates(RaDec(pos->GetX(), pos->GetY())); return kTRUE; } } return kTRUE; case kCM_TAB: //cout << "Tab: " << mp1 << endl; return kTRUE; case kCM_BUTTON: switch (mp1) { /* case kPB_POSITION: Start(0); return kTRUE; case kPB_TRACK: Start(1); return kTRUE; */ case kPB_START: switch (fTab->GetCurrent()) { case 0: StartPos(); return kTRUE; case 1: StartTrack(true); return kTRUE; case 2: fCRaDec->SetCoordinates(fCCalib->GetCoordinates()); StartTrack(false); return kTRUE; case 3: fQueue->Proc(WM_TESTSE, (void*)1); return kTRUE; case 4: fQueue->Proc(WM_GEAR, (void*)1); return kTRUE; #ifdef HAS_DEMO case 5: StartDemo(); return kTRUE; #endif } return kTRUE; case kPB_STOP: cout << "Sending stop movement msg." << endl; #ifdef HAS_DEMO StopDemo(); #endif fQueue->PostMsg(WM_STOP); if (fTab->GetCurrent()==3) fQueue->Proc(WM_TESTSE); if (fTab->GetCurrent()==4) fQueue->Proc(WM_GEAR); cout << "PostMsg (WM_Stop) returned." << endl; return kTRUE; case kPB_CALCALTAZ: { XY xy = fCRaDec->GetCoordinates(); fQueue->Proc(WM_CALCALTAZ, &xy); } return kTRUE; case kPB_SavePreDef: { ofstream fout("prepos.txt", ios::app); XY za = fCZdAz->GetCoordinates(); fout << setprecision(7) << za.X() << " \t" << za.Y(); fout << " New Position" << endl; } return kTRUE; case kPB_SaveStar: { ofstream fout("stars.txt", ios::app); XY za = fCCalib->GetCoordinates(); UShort_t d, m, s; Char_t sgn; MAstro::Deg2Dms(za.X(), sgn, d, m, s); if (sgn=='-') fout << sgn; fout << d << " " << m << " " << s << " \t"; MAstro::Deg2Dms(za.Y(), sgn, d, m, s); if (sgn=='-') fout << sgn; fout << d << " " << m << " " << s << " \t"; fout << " New Star/Source" << endl; } return kTRUE; case kPB_RAp: case kPB_RAm: case kPB_DECp: case kPB_DECm: { XY xy = fCRaDec->GetCoordinates(); switch (mp1) { case kPB_RAp: xy.X(xy.X()+1./60); break; case kPB_RAm: xy.X(xy.X()-1./60); break; case kPB_DECp: xy.Y(xy.Y()+1./60); break; case kPB_DECm: xy.Y(xy.Y()-1./60); break; } fCRaDec->SetCoordinates(xy); StartTrack(false); /* RaDec dest(xy.X()*15., xy.Y()); // xy.X() [h]->[ø] fQueue->PostMsg(WM_TRACK, &dest, sizeof(dest)); //fQueue->Proc(WM_NEWTRACK, &dest); */ //cout << "New Ra/Dec: " << dest.Ra() << "h " << dest.Dec() << "\xb0" << endl; } return kTRUE; case kPB_ZDp: case kPB_ZDm: case kPB_AZp: case kPB_AZm: StartTrackPos(mp1); return kTRUE; case kPB_TPOINT: StartTPoint(); return kTRUE; case kPB_ENDSWITCH: fQueue->Proc(WM_ENDSWITCH); return kTRUE; /* case kPB_CALIBSE: StartCalib(); return kTRUE; */ case kPB_LoadBending: fQueue->Proc(WM_LOADBENDING); return kTRUE; case kPB_ResetBending: fQueue->Proc(WM_RESETBENDING); return kTRUE; /* case kPB_HOME: fQueue->PostMsg(WM_HOME, 0, 0); return kTRUE; */ case kPB_TRACKPOS: StartTrackPos(); return kTRUE; case kPB_DISPLAY1: case kPB_DISPLAY2: fQueue->PostMsg(WM_DISPLAY); return kTRUE; default: return kTRUE; } return kTRUE; case kCM_MENU: switch (mp1) { case IDM_EXIT: cout << "IDM_EXIT: Posting WM_QUIT." << endl; fQueue->PostMsg(WM_QUIT); cout << "IDM_EXIT: WM_QUIT done." << endl; //cout << "Idm_Exit." << endl; //CloseWindow(); return kTRUE; case IDM_ASPECT: { Int_t w = GetWidth(); Int_t h = GetHeight(); if (w>940*h/660) w = 940*h/660; else h = 660*w/940; Resize(w, h); } return kTRUE; case kLogClear: fLog->Clear(); return kTRUE; case kLogCopy: fLog->Copy(); return kTRUE; case kLogSelect: fLog->SelectAll(); return kTRUE; case kLogSearch: //virtual Bool_t Search(const char *string, Bool_t direction, Bool_t caseSensitive); return kTRUE; case kLogSave: cout << "Saving log... " << flush; if (fLog->GetText()->Save("cosylog.txt")) cout << "done." << endl; else cout << "failed!" << endl; return kTRUE; case kLogAppend: cout << "Appending log... " << flush; if (fLog->GetText()->Append("cosylog.txt")) cout << "done." << endl; else cout << "failed!" << endl; return kTRUE; } return kTRUE; } } // // Start a thread to process the message. // // fQueue->PostMsg(msg, mp1, mp2); return kTRUE; }