// @(#)root/g3d:$Id: TView3D.cxx 23852 2008-05-14 15:01:22Z brun $ // Author: Rene Brun, Nenad Buncic, Evgueni Tcherniaev, Olivier Couet 18/08/95 /************************************************************************* * Copyright (C) 1995-2000, Rene Brun and Fons Rademakers. * * All rights reserved. * * * * For the licensing terms see $ROOTSYS/LICENSE. * * For the list of contributors see $ROOTSYS/README/CREDITS. * *************************************************************************/ #include "TVirtualPad.h" #include "TView3D.h" #include "TAxis3D.h" #include "TPolyLine3D.h" #include "TVirtualX.h" #include "TROOT.h" #include "TClass.h" #include "TList.h" #include "TPluginManager.h" #include "TMath.h" // Remove when TView3Der3DPad fix in ExecuteRotateView() is removed #include "TVirtualViewer3D.h" ClassImp(TView3D) //const Int_t kPerspective = BIT(14); const Int_t kCARTESIAN = 1; const Int_t kPOLAR = 2; const Double_t kRad = 3.14159265358979323846/180.0; //______________________________________________________________________________ /* Begin_Html <center><h2>The 3D view class</h2></center> This package was originally written by Evgueni Tcherniaev from IHEP/Protvino. <p> The original Fortran implementation was adapted to HIGZ/PAW by Olivier Couet and Evgueni Tcherniaev. <p> This View class is a subset of the original system. It has been converted to a C++ class by Rene Brun. <p> TView3D creates a 3-D view in the current pad. In this 3D view Lego and Surface plots can be drawn and also 3D polyline and markers. Most of the time a TView3D is created automatically when a 3D object needs to be painted in a pad (for instance a Lego or a Surface plot). <p> In some case a TView3D should be explicitly. For instance to paint a 3D simple scene composed of simple objects like polylines and polymarkers. The following macro gives an example: End_Html Begin_Macro(source) { cV3D = new TCanvas("cV3D","PolyLine3D & PolyMarker3D Window",200,10,500,500); // Creating a view TView3D *view = TView::CreateView(1); view->SetRange(5,5,5,25,25,25); // Create a first PolyLine3D TPolyLine3D *pl3d1 = new TPolyLine3D(5); pl3d1->SetPoint(0, 10, 10, 10); pl3d1->SetPoint(1, 15, 15, 10); pl3d1->SetPoint(2, 20, 15, 15); pl3d1->SetPoint(3, 20, 20, 20); pl3d1->SetPoint(4, 10, 10, 20); // Create a first PolyMarker3D TPolyMarker3D *pm3d1 = new TPolyMarker3D(12); pm3d1->SetPoint(0, 10, 10, 10); pm3d1->SetPoint(1, 11, 15, 11); pm3d1->SetPoint(2, 12, 15, 9); pm3d1->SetPoint(3, 13, 17, 20); pm3d1->SetPoint(4, 14, 16, 15); pm3d1->SetPoint(5, 15, 20, 15); pm3d1->SetPoint(6, 16, 18, 10); pm3d1->SetPoint(7, 17, 15, 10); pm3d1->SetPoint(8, 18, 22, 15); pm3d1->SetPoint(9, 19, 28, 25); pm3d1->SetPoint(10, 20, 12, 15); pm3d1->SetPoint(11, 21, 12, 15); pm3d1->SetMarkerSize(2); pm3d1->SetMarkerColor(4); pm3d1->SetMarkerStyle(2); // Draw pl3d1->Draw(); pm3d1->Draw(); } End_Macro Begin_Html Several coordinate systems are available: <ul> <li> Cartesian <li> Polar <li> Cylindrical <li> Spherical <li> PseudoRapidity/Phi </ul> End_Html */ //______________________________________________________________________________ TView3D::TView3D() :TView() { // Default constructor fSystem = 0; fOutline = 0; fDefaultOutline = kFALSE; fAutoRange = kFALSE; fChanged = kFALSE; fPsi = 0; Int_t i; for (i = 0; i < 3; i++) { fRmin[i] = 0; fRmax[i] = 1; fX1[i] = fX2[i] = fY1[i] = fY2[i] = fZ1[i] = fZ2[i] = 0; } if (gPad) { fLongitude = -90 - gPad->GetPhi(); fLatitude = 90 - gPad->GetTheta(); } else { fLongitude = 0; fLatitude = 0; } Int_t irep = 1; ResetView(fLongitude, fLatitude, fPsi, irep); } //______________________________________________________________________________ TView3D::TView3D(Int_t system, const Double_t *rmin, const Double_t *rmax) : TView() { // TView3D constructor // // Creates a 3-D view in the current pad // rmin[3], rmax[3] are the limits of the object depending on // the selected coordinate system // // Before drawing a 3-D object in a pad, a 3-D view must be created. // Note that a view is automatically created when drawing legos or surfaces. // // The coordinate system is selected via system: // system = 1 Cartesian // system = 2 Polar // system = 3 Cylindrical // system = 4 Spherical // system = 5 PseudoRapidity/Phi Int_t irep; SetBit(kMustCleanup); fSystem = system; fOutline = 0; fDefaultOutline = kFALSE; fAutoRange = kFALSE; fChanged = kFALSE; if (system == kCARTESIAN || system == kPOLAR || system == 11) fPsi = 0; else fPsi = 90; // By default pad range in 3-D view is (-1,-1,1,1), so ... if (gPad) gPad->Range(-1, -1, 1, 1); fAutoRange = kFALSE; Int_t i; for (i = 0; i < 3; i++) { if (rmin) fRmin[i] = rmin[i]; else fRmin[i] = 0; if (rmax) fRmax[i] = rmax[i]; else fRmax[i] = 1; fX1[i] = fX2[i] = fY1[i] = fY2[i] = fZ1[i] = fZ2[i] = 0; } if (gPad) { fLongitude = -90 - gPad->GetPhi(); fLatitude = 90 - gPad->GetTheta(); } else { fLongitude = 0; fLatitude = 0; } ResetView(fLongitude, fLatitude, fPsi, irep); if (gPad) gPad->SetView(this); if (system == 11) SetPerspective(); } //______________________________________________________________________________ TView3D::TView3D(const TView3D& tv) :TView(tv), fLatitude(tv.fLatitude), fLongitude(tv.fLongitude), fPsi(tv.fPsi), fDview(tv.fDview), fDproj(tv.fDproj), fUpix(tv.fUpix), fVpix(tv.fVpix), fSystem(tv.fSystem), fOutline(tv.fOutline), fDefaultOutline(tv.fDefaultOutline), fAutoRange(tv.fAutoRange), fChanged(tv.fChanged) { // Copy constructor. for (Int_t i=0; i<16; i++) { fTN[i]=tv.fTN[i]; fTB[i]=tv.fTB[i]; fTnorm[i]=tv.fTnorm[i]; fTback[i]=tv.fTback[i]; } for(Int_t i=0; i<3; i++) { fRmax[i]=tv.fRmax[i]; fRmin[i]=tv.fRmin[i]; fX1[i]=tv.fX1[i]; fX2[i]=tv.fX2[i]; fY1[i]=tv.fY1[i]; fY2[i]=tv.fY2[i]; fZ1[i]=tv.fZ1[i]; fZ2[i]=tv.fZ2[i]; } for(Int_t i=0; i<4; i++) fUVcoord[i]=tv.fUVcoord[i]; } //______________________________________________________________________________ TView3D& TView3D::operator=(const TView3D& tv) { // Assignment operator. if (this!=&tv) { TView::operator=(tv); fLatitude=tv.fLatitude; fLongitude=tv.fLongitude; fPsi=tv.fPsi; fDview=tv.fDview; fDproj=tv.fDproj; fUpix=tv.fUpix; fVpix=tv.fVpix; fSystem=tv.fSystem; fOutline=tv.fOutline; fDefaultOutline=tv.fDefaultOutline; fAutoRange=tv.fAutoRange; fChanged=tv.fChanged; for(Int_t i=0; i<16; i++) { fTN[i]=tv.fTN[i]; fTB[i]=tv.fTB[i]; fTnorm[i]=tv.fTnorm[i]; fTback[i]=tv.fTback[i]; } for(Int_t i=0; i<3; i++) { fRmax[i]=tv.fRmax[i]; fRmin[i]=tv.fRmin[i]; fX1[i]=tv.fX1[i]; fX2[i]=tv.fX2[i]; fY1[i]=tv.fY1[i]; fY2[i]=tv.fY2[i]; fZ1[i]=tv.fZ1[i]; fZ2[i]=tv.fZ2[i]; } for(Int_t i=0; i<4; i++) fUVcoord[i]=tv.fUVcoord[i]; } return *this; } //______________________________________________________________________________ TView3D::~TView3D() { // TView3D default destructor. if (fOutline) fOutline->Delete(); delete fOutline; fOutline = 0; } //______________________________________________________________________________ void TView3D::AxisVertex(Double_t ang, Double_t *av, Int_t &ix1, Int_t &ix2, Int_t &iy1, Int_t &iy2, Int_t &iz1, Int_t &iz2) { // Define axis vertices*. // // Input ANG - angle between X and Y axis // // Output: AV(3,8) - axis vertixes // IX1 - 1st point of X-axis // IX2 - 2nd point of X-axis // IY1 - 1st point of Y-axis // IY2 - 2nd point of Y-axis // IZ1 - 1st point of Z-axis // IZ2 - 2nd point of Z-axis // /* 8 6 / \ /|\ 5 / \ 7 5 / | \ 7 |\ /| | | | THETA < 90 | \6/ | THETA > 90 | /2\ | (Top view) | | | (Bottom view) |/ \| 1 \ | /3 1 \ /3 \|/ \ / 2 4 */ // Local variables Double_t cosa, sina; Int_t i, k; Double_t p[8] /* was [2][4] */; Int_t i1, i2, i3, i4, ix, iy; ix = 0; // Parameter adjustments av -= 4; sina = TMath::Sin(ang*kRad); cosa = TMath::Cos(ang*kRad); p[0] = fRmin[0]; p[1] = fRmin[1]; p[2] = fRmax[0]; p[3] = fRmin[1]; p[4] = fRmax[0]; p[5] = fRmax[1]; p[6] = fRmin[0]; p[7] = fRmax[1]; //*-*- F I N D T H E M O S T L E F T P O I N T */ i1 = 1; if (fTN[0] < 0) i1 = 2; if (fTN[0]*cosa + fTN[1]*sina < 0) i1 = 5 - i1; //*-*- S E T O T H E R P O I N T S */ i2 = i1 % 4 + 1; i3 = i2 % 4 + 1; i4 = i3 % 4 + 1; //*-*- S E T A X I S V E R T I X E S */ av[4] = p[(i1 << 1) - 2]; av[5] = p[(i1 << 1) - 1]; av[7] = p[(i2 << 1) - 2]; av[8] = p[(i2 << 1) - 1]; av[10] = p[(i3 << 1) - 2]; av[11] = p[(i3 << 1) - 1]; av[13] = p[(i4 << 1) - 2]; av[14] = p[(i4 << 1) - 1]; for (i = 1; i <= 4; ++i) { av[i*3 + 3] = fRmin[2]; av[i*3 + 13] = av[i*3 + 1]; av[i*3 + 14] = av[i*3 + 2]; av[i*3 + 15] = fRmax[2]; } //*-*- S E T A X I S if (av[4] == av[7]) ix = 2; if (av[5] == av[8]) ix = 1; iy = 3 - ix; //*-*- X - A X I S ix1 = ix; if (av[ix*3 + 1] > av[(ix + 1)*3 + 1]) ix1 = ix + 1; ix2 = (ix << 1) - ix1 + 1; //*-*- Y - A X I S iy1 = iy; if (av[iy*3 + 2] > av[(iy + 1)*3 + 2]) iy1 = iy + 1; iy2 = (iy << 1) - iy1 + 1; //*-*- Z - A X I S iz1 = 1; iz2 = 5; if (fTN[10] >= 0) return; k = (ix1 - 1)*3 + ix2; if (k%2) return; if (k == 2) { ix1 = 4; ix2 = 3; } if (k == 4) { ix1 = 3; ix2 = 4; } if (k == 6) { ix1 = 1; ix2 = 4; } if (k == 8) { ix1 = 4; ix2 = 1; } k = (iy1 - 1)*3 + iy2; if (k%2) return; if (k == 2) { iy1 = 4; iy2 = 3; return; } if (k == 4) { iy1 = 3; iy2 = 4; return; } if (k == 6) { iy1 = 1; iy2 = 4; return; } if (k == 8) { iy1 = 4; iy2 = 1; } } //______________________________________________________________________________ void TView3D::DefinePerspectiveView() { // Define perspective view. // // Compute transformation matrix from world coordinates // to normalised coordinates (-1 to +1) // Input : // theta, phi - spherical angles giving the direction of projection // psi - screen rotation angle // cov[3] - center of view // dview - distance from COV to COP (center of projection) // umin, umax, vmin, vmax - view window in projection plane // dproj - distance from COP to projection plane // bcut, fcut - backward/forward range w.r.t projection plane (fcut<=0) // Output : // nper[16] - normalizing transformation // compute tr+rot to get COV in origin, view vector parallel to -Z axis, up // vector parallel to Y. /* ^Yv UP ^ proj. plane | | /| | | / | | dproj / x--- center of window (COW) COV |----------|--x--|------------> Zv / | VRP'z / ---> | / / VPN |/ Xv */ // 1 - translate COP to origin of MARS : Tper = T(-copx, -copy, -copz) // 2 - rotate VPN : R = Rz(-psi)*Rx(-theta)*Rz(-phi) (inverse Euler) // 3 - left-handed screen reference to right-handed one of MARS : Trl // // T12 = Tper*R*Trl Double_t t12[16]; Double_t cov[3]; Int_t i; for (i=0; i<3; i++) cov[i] = 0.5*(fRmax[i]+fRmin[i]); Double_t c1 = TMath::Cos(fPsi*kRad); Double_t s1 = TMath::Sin(fPsi*kRad); Double_t c2 = TMath::Cos(fLatitude*kRad); Double_t s2 = TMath::Sin(fLatitude*kRad); Double_t s3 = TMath::Cos(fLongitude*kRad); Double_t c3 = -TMath::Sin(fLongitude*kRad); t12[0] = c1*c3 - s1*c2*s3; t12[4] = c1*s3 + s1*c2*c3; t12[8] = s1*s2; t12[3] = 0; t12[1] = -s1*c3 - c1*c2*s3; t12[5] = -s1*s3 + c1*c2*c3; t12[9] = c1*s2; t12[7] = 0; t12[2] = s2*s3; t12[6] = -s2*c3; t12[10] = c2; // contains Trl t12[11] = 0; // translate with -COP (before rotation): t12[12] = -(cov[0]*t12[0]+cov[1]*t12[4]+cov[2]*t12[8]); t12[13] = -(cov[0]*t12[1]+cov[1]*t12[5]+cov[2]*t12[9]); t12[14] = -(cov[0]*t12[2]+cov[1]*t12[6]+cov[2]*t12[10]); t12[15] = 1; // translate with (0, 0, -dview) after rotation t12[14] -= fDview; // reflection on Z : t12[2] *= -1; t12[6] *= -1; t12[10] *= -1; t12[14] *= -1; // Now we shear the center of window from (0.5*(umin+umax), 0.5*(vmin+vmax), dproj) // to (0, 0, dproj) Double_t a2 = -fUVcoord[0]/fDproj; // shear coef. on x Double_t b2 = -fUVcoord[1]/fDproj; // shear coef. on y // | 1 0 0 0 | // SHz(a2,b2) = | 0 1 0 0 | // | a2 b2 1 0 | // | 0 0 0 1 | fTnorm[0] = t12[0] + a2*t12[2]; fTnorm[1] = t12[1] + b2*t12[2]; fTnorm[2] = t12[2]; fTnorm[3] = 0; fTnorm[4] = t12[4] + a2*t12[6]; fTnorm[5] = t12[5] + b2*t12[6]; fTnorm[6] = t12[6]; fTnorm[7] = 0; fTnorm[8] = t12[8] + a2*t12[10]; fTnorm[9] = t12[9] + b2*t12[10]; fTnorm[10] = t12[10]; fTnorm[11] = 0; fTnorm[12] = t12[12] + a2*t12[14]; fTnorm[13] = t12[13] + b2*t12[14]; fTnorm[14] = t12[14]; fTnorm[15] = 1; // Scale so that the view volume becomes the canonical one // // Sper = (2/(umax-umin), 2/(vmax-vmin), 1/dproj // Double_t sz = 1./fDproj; Double_t sx = 1./fUVcoord[2]; Double_t sy = 1./fUVcoord[3]; fTnorm[0] *= sx; fTnorm[4] *= sx; fTnorm[8] *= sx; fTnorm[1] *= sy; fTnorm[5] *= sy; fTnorm[9] *= sy; fTnorm[2] *= sz; fTnorm[6] *= sz; fTnorm[10] *= sz; fTnorm[12] *= sx; fTnorm[13] *= sy; fTnorm[14] *= sz; } //______________________________________________________________________________ void TView3D::DefineViewDirection(const Double_t *s, const Double_t *c, Double_t cosphi, Double_t sinphi, Double_t costhe, Double_t sinthe, Double_t cospsi, Double_t sinpsi, Double_t *tnorm, Double_t *tback) { // Define view direction (in spherical coordinates) // // Compute transformation matrix from world coordinates // to normalised coordinates (-1 to +1) // // Input: S(3) - scale factors // C(3) - centre of scope // COSPHI - longitude COS // SINPHI - longitude SIN // COSTHE - latitude COS (angle between +Z and view direc.) // SINTHE - latitude SIN // COSPSI - screen plane rotation angle COS // SINPSI - screen plane rotation angle SIN if (IsPerspective()) { DefinePerspectiveView(); return; } Int_t i, k; Double_t tran[16] /* was [4][4] */, rota[16] /* was [4][4] */; Double_t c1, c2, c3, s1, s2, s3, scalex, scaley, scalez; // Parameter adjustments tback -= 5; tnorm -= 5; scalex = s[0]; scaley = s[1]; scalez = s[2]; //*-*- S E T T R A N S L A T I O N M A T R I X tran[0] = 1 / scalex; tran[1] = 0; tran[2] = 0; tran[3] = -c[0] / scalex; tran[4] = 0; tran[5] = 1 / scaley; tran[6] = 0; tran[7] = -c[1] / scaley; tran[8] = 0; tran[9] = 0; tran[10] = 1 / scalez; tran[11] = -c[2] / scalez; tran[12] = 0; tran[13] = 0; tran[14] = 0; tran[15] = 1; //*-*- S E T R O T A T I O N M A T R I X // ( C(PSI) S(PSI) 0) (1 0 0 ) ( C(90+PHI) S(90+PHI) 0) // (-S(PSI) C(PSI) 0) * (0 C(THETA) S(THETA)) * (-S(90+PHI) C(90+PHI) 0) // ( 0 0 1) (0 -S(THETA) C(THETA)) ( 0 0 1) c1 = cospsi; s1 = sinpsi; c2 = costhe; s2 = sinthe; c3 = -sinphi; s3 = cosphi; rota[0] = c1*c3 - s1*c2*s3; rota[1] = c1*s3 + s1*c2*c3; rota[2] = s1*s2; rota[3] = 0; rota[4] = -s1*c3 - c1* c2*s3; rota[5] = -s1*s3 + c1* c2*c3; rota[6] = c1*s2; rota[7] = 0; rota[8] = s2*s3; rota[9] = -s2*c3; rota[10] = c2; rota[11] = 0; rota[12] = 0; rota[13] = 0; rota[14] = 0; rota[15] = 1; //*-*- F I N D T R A N S F O R M A T I O N M A T R I X for (i = 1; i <= 3; ++i) { for (k = 1; k <= 4; ++k) { tnorm[k + (i << 2)] = rota[(i << 2) - 4]*tran[k - 1] + rota[(i << 2) - 3]*tran[k + 3] + rota[(i << 2) - 2]*tran[k +7] + rota[(i << 2) - 1]*tran[k + 11]; } } //*-*- S E T B A C K T R A N S L A T I O N M A T R I X tran[0] = scalex; tran[3] = c[0]; tran[5] = scaley; tran[7] = c[1]; tran[10] = scalez; tran[11] = c[2]; //*-*- F I N D B A C K T R A N S F O R M A T I O N for (i = 1; i <= 3; ++i) { for (k = 1; k <= 4; ++k) { tback[k + (i << 2)] = tran[(i << 2) - 4]*rota[(k << 2) - 4] + tran[(i << 2) - 3]*rota[(k << 2) - 3] + tran[(i << 2) -2] *rota[(k << 2) - 2] + tran[(i << 2) - 1]*rota[(k <<2) - 1]; } } } //______________________________________________________________________________ void TView3D::DrawOutlineCube(TList *outline, Double_t *rmin, Double_t *rmax) { // Draw the outline of a cube while rotaing a 3-d object in the pad. TPolyLine3D::DrawOutlineCube(outline,rmin,rmax); } //______________________________________________________________________________ void TView3D::ExecuteEvent(Int_t event, Int_t px, Int_t py) { // Execute action corresponding to one event. ExecuteRotateView(event,px,py); } //______________________________________________________________________________ void TView3D::ExecuteRotateView(Int_t event, Int_t px, Int_t py) { // Execute action corresponding to one event. // // This member function is called when a object is clicked with the locator // // If Left button clicked in the object area, while the button is kept down // the cube representing the surrounding frame for the corresponding // new latitude and longitude position is drawn. static Int_t system, framewasdrawn; static Double_t xrange, yrange, xmin, ymin, longitude1, latitude1, longitude2, latitude2; static Double_t newlatitude, newlongitude, oldlatitude, oldlongitude; Double_t dlatitude, dlongitude, x, y; Int_t irep = 0; Double_t psideg; // All coordinates transformation are from absolute to relative if (!gPad->IsEditable()) return; gPad->AbsCoordinates(kTRUE); switch (event) { case kKeyPress : fChanged = kTRUE; MoveViewCommand(Char_t(px), py); break; case kMouseMotion: gPad->SetCursor(kRotate); break; case kButton1Down: // remember position of the cube xmin = gPad->GetX1(); ymin = gPad->GetY1(); xrange = gPad->GetX2() - xmin; yrange = gPad->GetY2() - ymin; x = gPad->PixeltoX(px); y = gPad->PixeltoY(py); system = GetSystem(); framewasdrawn = 0; if (system == kCARTESIAN || system == kPOLAR || IsPerspective()) { longitude1 = 180*(x-xmin)/xrange; latitude1 = 90*(y-ymin)/yrange; } else { latitude1 = 90*(x-xmin)/xrange; longitude1 = 180*(y-ymin)/yrange; } newlongitude = oldlongitude = -90 - gPad->GetPhi(); newlatitude = oldlatitude = 90 - gPad->GetTheta(); psideg = GetPsi(); // if outline isn't set, make it look like a cube if(!fOutline) SetOutlineToCube(); break; case kButton1Motion: { // draw the surrounding frame for the current mouse position // first: Erase old frame fChanged = kTRUE; if (framewasdrawn) fOutline->Paint(); framewasdrawn = 1; x = gPad->PixeltoX(px); y = gPad->PixeltoY(py); if (system == kCARTESIAN || system == kPOLAR || IsPerspective()) { longitude2 = 180*(x-xmin)/xrange; latitude2 = 90*(y-ymin)/yrange; } else { latitude2 = 90*(x-xmin)/xrange; longitude2 = 180*(y-ymin)/yrange; } dlongitude = longitude2 - longitude1; dlatitude = latitude2 - latitude1; newlatitude = oldlatitude + dlatitude; newlongitude = oldlongitude - dlongitude; psideg = GetPsi(); ResetView(newlongitude, newlatitude, psideg, irep); fOutline->Paint(); break; } case kButton1Up: if (gROOT->IsEscaped()) { gROOT->SetEscape(kFALSE); break; } // Temporary fix for 2D drawing problems on pad. fOutline contains // a TPolyLine3D object for the rotation box. This will be painted // through a newly created TView3Der3DPad instance, which is left // behind on pad. This remaining creates 2D drawing problems. // // This is a TEMPORARY fix - will be removed when proper multiple viewers // on pad problems are resolved. if (gPad) { TVirtualViewer3D *viewer = gPad->GetViewer3D(); if (viewer && !strcmp(viewer->IsA()->GetName(),"TView3Der3DPad")) { gPad->ReleaseViewer3D(); delete viewer; } } // End fix // Recompute new view matrix and redraw psideg = GetPsi(); SetView(newlongitude, newlatitude, psideg, irep); gPad->SetPhi(-90-newlongitude); gPad->SetTheta(90-newlatitude); gPad->Modified(kTRUE); // Set line color, style and width gVirtualX->SetLineColor(-1); gVirtualX->SetLineStyle(-1); gVirtualX->SetLineWidth(-1); break; } // set back to default transformation mode gPad->AbsCoordinates(kFALSE); } //______________________________________________________________________________ void TView3D::FindNormal(Double_t x, Double_t y, Double_t z, Double_t &zn) { // Find Z component of NORMAL in normalized coordinates. // // Input: X - X-component of NORMAL // Y - Y-component of NORMAL // Z - Z-component of NORMAL // // Output: ZN - Z-component of NORMAL in normalized coordinates zn = x*(fTN[1] * fTN[6] - fTN[2] * fTN[5]) + y*(fTN[2] * fTN[4] - fTN[0] * fTN[6]) + z*(fTN[0] * fTN[5] - fTN[1] * fTN[4]); } //______________________________________________________________________________ void TView3D::FindPhiSectors(Int_t iopt, Int_t &kphi, Double_t *aphi, Int_t &iphi1, Int_t &iphi2) { // Find critical PHI sectors. // // Input: IOPT - options: 1 - from BACK to FRONT 'BF' // 2 - from FRONT to BACK 'FB' // KPHI - number of phi sectors // APHI(*) - PHI separators (modified internally) // // Output: IPHI1 - initial sector // IPHI2 - final sector Int_t iphi[2], i, k; Double_t dphi; Double_t x1, x2, z1, z2, phi1, phi2; // Parameter adjustments --aphi; if (aphi[kphi + 1] == aphi[1]) aphi[kphi + 1] += 360; dphi = TMath::Abs(aphi[kphi + 1] - aphi[1]); if (dphi != 360) { aphi[kphi + 2] = (aphi[1] + aphi[kphi + 1]) / (float)2. + 180; aphi[kphi + 3] = aphi[1] + 360; kphi += 2; } //*-*- F I N D C R I T I C A L S E C T O R S k = 0; for (i = 1; i <= kphi; ++i) { phi1 = kRad*aphi[i]; phi2 = kRad*aphi[i + 1]; x1 = fTN[0]*TMath::Cos(phi1) + fTN[1]*TMath::Sin(phi1); x2 = fTN[0]*TMath::Cos(phi2) + fTN[1]*TMath::Sin(phi2); if (x1 >= 0 && x2 > 0) continue; if (x1 <= 0 && x2 < 0) continue; ++k; if (k == 3) break; iphi[k - 1] = i; } if (k != 2) { Error("FindPhiSectors", "something strange: num. of critical sector not equal 2"); iphi1 = 1; iphi2 = 2; return; } //*-*- F I N D O R D E R O F C R I T I C A L S E C T O R S phi1 = kRad*(aphi[iphi[0]] + aphi[iphi[0] + 1]) / (float)2.; phi2 = kRad*(aphi[iphi[1]] + aphi[iphi[1] + 1]) / (float)2.; z1 = fTN[8]*TMath::Cos(phi1) + fTN[9]*TMath::Sin(phi1); z2 = fTN[8]*TMath::Cos(phi2) + fTN[9]*TMath::Sin(phi2); if ((z1 <= z2 && iopt == 1) || (z1 > z2 && iopt == 2)) { iphi1 = iphi[0]; iphi2 = iphi[1]; } else { iphi1 = iphi[1]; iphi2 = iphi[0]; } } //______________________________________________________________________________ void TView3D::FindThetaSectors(Int_t iopt, Double_t phi, Int_t &kth, Double_t *ath, Int_t &ith1, Int_t &ith2) { // Find critical THETA sectors for given PHI sector. // // Input: IOPT - options: 1 - from BACK to FRONT 'BF' // 2 - from FRONT to BACK 'FB' // PHI - PHI sector // KTH - number of THETA sectors // ATH(*) - THETA separators (modified internally) // // Output: ITH1 - initial sector // ITH2 - final sector Int_t i, k, ith[2]; Double_t z1, z2, cosphi, sinphi, tncons, th1, th2, dth; // Parameter adjustments --ath; // Function Body dth = TMath::Abs(ath[kth + 1] - ath[1]); if (dth != 360) { ath[kth + 2] = 0.5*(ath[1] + ath[kth + 1]) + 180; ath[kth + 3] = ath[1] + 360; kth += 2; } //*-*- F I N D C R I T I C A L S E C T O R S cosphi = TMath::Cos(phi*kRad); sinphi = TMath::Sin(phi*kRad); k = 0; for (i = 1; i <= kth; ++i) { th1 = kRad*ath[i]; th2 = kRad*ath[i + 1]; FindNormal(TMath::Cos(th1)*cosphi, TMath::Cos(th1)*sinphi, -TMath::Sin(th1), z1); FindNormal(TMath::Cos(th2)*cosphi, TMath::Cos(th2)*sinphi, -TMath::Sin(th2), z2); if (z1 >= 0 && z2 > 0) continue; if (z1 <= 0 && z2 < 0) continue; ++k; if (k == 3) break; ith[k - 1] = i; } if (k != 2) { Error("FindThetaSectors", "Something strange: num. of critical sectors not equal 2"); ith1 = 1; ith2 = 2; return; } //*-*- F I N D O R D E R O F C R I T I C A L S E C T O R S tncons = fTN[8]*TMath::Cos(phi*kRad) + fTN[9]*TMath::Sin(phi*kRad); th1 = kRad*(ath[ith[0]] + ath[ith[0] + 1]) / (float)2.; th2 = kRad*(ath[ith[1]] + ath[ith[1] + 1]) / (float)2.; z1 = tncons*TMath::Sin(th1) + fTN[10]*TMath::Cos(th1); z2 = tncons*TMath::Sin(th2) + fTN[10]*TMath::Cos(th2); if ((z1 <= z2 && iopt == 1) || (z1 > z2 && iopt == 2)) { ith1 = ith[0]; ith2 = ith[1]; } else { ith1 = ith[1]; ith2 = ith[0]; } } //______________________________________________________________________________ void TView3D::FindScope(Double_t *scale, Double_t *center, Int_t &irep) { // Find centre of a MIN-MAX scope and scale factors // // Output: SCALE(3) - scale factors // CENTER(3) - centre // IREP - reply (-1 if error in min-max) irep = 0; Double_t sqrt3 = 0.5*TMath::Sqrt(3.0); for (Int_t i = 0; i < 3; i++) { if (fRmin[i] >= fRmax[i]) { irep = -1; return;} scale[i] = sqrt3*(fRmax[i] - fRmin[i]); center[i] = 0.5*(fRmax[i] + fRmin[i]); } } //______________________________________________________________________________ Int_t TView3D::GetDistancetoAxis(Int_t axis, Int_t px, Int_t py, Double_t &ratio) { // Return distance to axis from point px,py. // // Algorithm: /* A(x1,y1) P B(x2,y2) ------------------------------------------------ I I I I M(x,y) */ // Let us call a = distance AM A=a**2 // b = distance BM B=b**2 // c = distance AB C=c**2 // d = distance PM D=d**2 // u = distance AP U=u**2 // v = distance BP V=v**2 c = u + v // // D = A - U // D = B - V = B -(c-u)**2 // ==> u = (A -B +C)/2c Double_t x1,y1,x2,y2; Double_t x = px; Double_t y = py; ratio = 0; if (fSystem != 1) return 9998; // only implemented for Cartesian coordinates if (axis == 1) { x1 = gPad->XtoAbsPixel(fX1[0]); y1 = gPad->YtoAbsPixel(fX1[1]); x2 = gPad->XtoAbsPixel(fX2[0]); y2 = gPad->YtoAbsPixel(fX2[1]); } else if (axis == 2) { x1 = gPad->XtoAbsPixel(fY1[0]); y1 = gPad->YtoAbsPixel(fY1[1]); x2 = gPad->XtoAbsPixel(fY2[0]); y2 = gPad->YtoAbsPixel(fY2[1]); } else { x1 = gPad->XtoAbsPixel(fZ1[0]); y1 = gPad->YtoAbsPixel(fZ1[1]); x2 = gPad->XtoAbsPixel(fZ2[0]); y2 = gPad->YtoAbsPixel(fZ2[1]); } Double_t xx1 = x - x1; Double_t xx2 = x - x2; Double_t x1x2 = x1 - x2; Double_t yy1 = y - y1; Double_t yy2 = y - y2; Double_t y1y2 = y1 - y2; Double_t a = xx1*xx1 + yy1*yy1; Double_t b = xx2*xx2 + yy2*yy2; Double_t c = x1x2*x1x2 + y1y2*y1y2; if (c <= 0) return 9999; Double_t v = TMath::Sqrt(c); Double_t u = (a - b + c)/(2*v); Double_t d = TMath::Abs(a - u*u); Int_t dist = Int_t(TMath::Sqrt(d) - 0.5); ratio = u/v; return dist; } //______________________________________________________________________________ Double_t TView3D::GetExtent() const { // Get maximum view extent. Double_t dx = 0.5*(fRmax[0]-fRmin[0]); Double_t dy = 0.5*(fRmax[1]-fRmin[1]); Double_t dz = 0.5*(fRmax[2]-fRmin[2]); Double_t extent = TMath::Sqrt(dx*dx+dy*dy+dz*dz); return extent; } //______________________________________________________________________________ void TView3D::GetRange(Float_t *min, Float_t *max) { // Get Range function. for (Int_t i = 0; i < 3; max[i] = fRmax[i], min[i] = fRmin[i], i++) { } } //______________________________________________________________________________ void TView3D::GetRange(Double_t *min, Double_t *max) { // Get Range function. for (Int_t i = 0; i < 3; max[i] = fRmax[i], min[i] = fRmin[i], i++) { } } //______________________________________________________________________________ void TView3D::GetWindow(Double_t &u0, Double_t &v0, Double_t &du, Double_t &dv) const { // Get current window extent. u0 = fUVcoord[0]; v0 = fUVcoord[1]; du = fUVcoord[2]; dv = fUVcoord[3]; } //______________________________________________________________________________ Bool_t TView3D::IsClippedNDC(Double_t *p) const { // Check if point is clipped in perspective view. if (TMath::Abs(p[0])>p[2]) return kTRUE; if (TMath::Abs(p[1])>p[2]) return kTRUE; return kFALSE; } //______________________________________________________________________________ void TView3D::NDCtoWC(const Float_t* pn, Float_t* pw) { // Transfer point from normalized to world coordinates. // // Input: PN(3) - point in world coordinate system // PW(3) - point in normalized coordinate system pw[0] = fTback[0]*pn[0] + fTback[1]*pn[1] + fTback[2]*pn[2] + fTback[3]; pw[1] = fTback[4]*pn[0] + fTback[5]*pn[1] + fTback[6]*pn[2] + fTback[7]; pw[2] = fTback[8]*pn[0] + fTback[9]*pn[1] + fTback[10]*pn[2] + fTback[11]; } //______________________________________________________________________________ void TView3D::NDCtoWC(const Double_t* pn, Double_t* pw) { // Transfer point from normalized to world coordinates. // // Input: PN(3) - point in world coordinate system // PW(3) - point in normalized coordinate system pw[0] = fTback[0]*pn[0] + fTback[1]*pn[1] + fTback[2]*pn[2] + fTback[3]; pw[1] = fTback[4]*pn[0] + fTback[5]*pn[1] + fTback[6]*pn[2] + fTback[7]; pw[2] = fTback[8]*pn[0] + fTback[9]*pn[1] + fTback[10]*pn[2] + fTback[11]; } //______________________________________________________________________________ void TView3D::NormalWCtoNDC(const Float_t *pw, Float_t *pn) { // Transfer vector of NORMAL from word to normalized coodinates. // // Input: PW(3) - vector of NORMAL in word coordinate system // PN(3) - vector of NORMAL in normalized coordinate system Double_t x, y, z, a1, a2, a3, b1, b2, b3, c1, c2, c3; x = pw[0]; y = pw[1]; z = pw[2]; a1 = fTnorm[0]; a2 = fTnorm[1]; a3 = fTnorm[2]; b1 = fTnorm[4]; b2 = fTnorm[5]; b3 = fTnorm[6]; c1 = fTnorm[8]; c2 = fTnorm[9]; c3 = fTnorm[10]; pn[0] = x*(b2*c3 - b3*c2) + y*(b3*c1 - b1*c3) + z*(b1*c2 - b2*c1); pn[1] = x*(c2*a3 - c3*a2) + y*(c3*a1 - c1*a3) + z*(c1*a2 - c2*a1); pn[2] = x*(a2*b3 - a3*b2) + y*(a3*b1 - a1*b3) + z*(a1*b2 - a2*b1); } //______________________________________________________________________________ void TView3D::NormalWCtoNDC(const Double_t *pw, Double_t *pn) { // Transfer vector of NORMAL from word to normalized coodinates. // // Input: PW(3) - vector of NORMAL in word coordinate system // PN(3) - vector of NORMAL in normalized coordinate system Double_t x, y, z, a1, a2, a3, b1, b2, b3, c1, c2, c3; x = pw[0]; y = pw[1]; z = pw[2]; a1 = fTnorm[0]; a2 = fTnorm[1]; a3 = fTnorm[2]; b1 = fTnorm[4]; b2 = fTnorm[5]; b3 = fTnorm[6]; c1 = fTnorm[8]; c2 = fTnorm[9]; c3 = fTnorm[10]; pn[0] = x*(b2*c3 - b3*c2) + y*(b3*c1 - b1*c3) + z*(b1*c2 - b2*c1); pn[1] = x*(c2*a3 - c3*a2) + y*(c3*a1 - c1*a3) + z*(c1*a2 - c2*a1); pn[2] = x*(a2*b3 - a3*b2) + y*(a3*b1 - a1*b3) + z*(a1*b2 - a2*b1); } //______________________________________________________________________________ void TView3D::PadRange(Int_t rback) { // Set the correct window size for lego and surface plots. // // Set the correct window size for lego and surface plots. // And draw the background if necessary. // // Input parameters: // // RBACK : Background colour Int_t i, k; Double_t x, y, z, r1, r2, r3, xx, yy, smax[2]; Double_t xgraf[6], ygraf[6]; for (i = 1; i <= 2; ++i) { smax[i - 1] = fTnorm[(i << 2) - 1]; for (k = 1; k <= 3; ++k) { if (fTnorm[k + (i << 2) - 5] < 0) { smax[i - 1] += fTnorm[k + (i << 2) - 5]*fRmin[k-1]; } else { smax[i - 1] += fTnorm[k + (i << 2) - 5]*fRmax[k-1]; } } } //*-*- Compute x,y range Double_t xmin = -smax[0]; Double_t xmax = smax[0]; Double_t ymin = -smax[1]; Double_t ymax = smax[1]; Double_t dx = xmax-xmin; Double_t dy = ymax-ymin; Double_t dxr = dx/(1 - gPad->GetLeftMargin() - gPad->GetRightMargin()); Double_t dyr = dy/(1 - gPad->GetBottomMargin() - gPad->GetTopMargin()); // Range() could change the size of the pad pixmap and therefore should // be called before the other paint routines gPad->Range(xmin - dxr*gPad->GetLeftMargin(), ymin - dyr*gPad->GetBottomMargin(), xmax + dxr*gPad->GetRightMargin(), ymax + dyr*gPad->GetTopMargin()); gPad->RangeAxis(xmin, ymin, xmax, ymax); //*-*- Draw the background if necessary if (rback > 0) { r1 = -1; r2 = -1; r3 = -1; xgraf[0] = -smax[0]; xgraf[1] = -smax[0]; xgraf[2] = -smax[0]; xgraf[3] = -smax[0]; xgraf[4] = smax[0]; xgraf[5] = smax[0]; ygraf[0] = -smax[1]; ygraf[1] = smax[1]; ygraf[2] = -smax[1]; ygraf[3] = smax[1]; ygraf[5] = smax[1]; ygraf[4] = -smax[1]; for (i = 1; i <= 8; ++i) { x = 0.5*((1 - r1)*fRmin[0] + (r1 + 1)*fRmax[0]); y = 0.5*((1 - r2)*fRmin[1] + (r2 + 1)*fRmax[1]); z = 0.5*((1 - r3)*fRmin[2] + (r3 + 1)*fRmax[2]); xx = fTnorm[0]*x + fTnorm[1]*y + fTnorm[2]*z + fTnorm[3]; yy = fTnorm[4]*x + fTnorm[5]*y + fTnorm[6]*z + fTnorm[7]; if (TMath::Abs(xx - xgraf[1]) <= 1e-4) { if (ygraf[1] >= yy) ygraf[1] = yy; if (ygraf[2] <= yy) ygraf[2] = yy; } if (TMath::Abs(xx - xgraf[5]) <= 1e-4) { if (ygraf[5] >= yy) ygraf[5] = yy; if (ygraf[4] <= yy) ygraf[4] = yy; } if (TMath::Abs(yy - ygraf[0]) <= 1e-4) xgraf[0] = xx; if (TMath::Abs(yy - ygraf[3]) <= 1e-4) xgraf[3] = xx; r1 = -r1; if (i % 2 == 0) r2 = -r2; if (i >= 4) r3 = 1; } gPad->PaintFillArea(6, xgraf, ygraf); } } //______________________________________________________________________________ void TView3D::SetAxisNDC(const Double_t *x1, const Double_t *x2, const Double_t *y1, const Double_t *y2, const Double_t *z1, const Double_t *z2) { // Store axis coordinates in the NDC system. for (Int_t i=0;i<3;i++) { fX1[i] = x1[i]; fX2[i] = x2[i]; fY1[i] = y1[i]; fY2[i] = y2[i]; fZ1[i] = z1[i]; fZ2[i] = z2[i]; } } //______________________________________________________________________________ void TView3D::SetDefaultWindow() { // Set default viewing window. if (!gPad) return; Double_t screen_factor = 1.; Double_t du, dv; Double_t extent = GetExtent(); fDview = 3*extent; fDproj = 0.5*extent; // widh in pixels fUpix = gPad->GetWw()*gPad->GetAbsWNDC(); // height in pixels fVpix = gPad->GetWh()*gPad->GetAbsHNDC(); du = 0.5*screen_factor*fDproj; dv = du*fVpix/fUpix; // keep aspect ratio SetWindow(0, 0, du, dv); } //______________________________________________________________________________ void TView3D::SetOutlineToCube() { // This is a function which creates default outline. // // x = fRmin[0] X = fRmax[0] // y = fRmin[1] Y = fRmax[1] // z = fRmin[2] Z = fRmax[2] /* (x,Y,Z) +---------+ (X,Y,Z) / /| / / | / / | (x,y,Z) +---------+ | | | + (X,Y,z) | | / | | / | |/ +---------+ (x,y,z) (X,y,z) */ if (!fOutline) { fDefaultOutline = kTRUE; fOutline = new TList(); } DrawOutlineCube((TList*)fOutline,fRmin,fRmax); } //______________________________________________________________________________ void TView3D::SetParallel() { // Set the parallel option (default). if (!IsPerspective()) return; SetBit(kPerspective, kFALSE); Int_t irep; ResetView(fLongitude, fLatitude, fPsi, irep); } //______________________________________________________________________________ void TView3D::SetPerspective() { // Set perspective option. if (IsPerspective()) return; SetBit(kPerspective, kTRUE); Int_t irep; SetDefaultWindow(); ResetView(fLongitude, fLatitude, fPsi, irep); } //______________________________________________________________________________ void TView3D::SetRange(const Double_t *min, const Double_t *max) { // Set Range function. Int_t irep; for (Int_t i = 0; i < 3; fRmax[i] = max[i], fRmin[i] = min[i], i++) { } if (IsPerspective()) SetDefaultWindow(); ResetView(fLongitude, fLatitude, fPsi, irep); if(irep < 0) Error("SetRange", "problem setting view"); if(fDefaultOutline) SetOutlineToCube(); } //______________________________________________________________________________ void TView3D::SetRange(Double_t x0, Double_t y0, Double_t z0, Double_t x1, Double_t y1, Double_t z1, Int_t flag) { // Set 3-D View range. // // Input: x0, y0, z0 are minimum coordinates // x1, y1, z1 are maximum coordinates // // flag values are: 0 (set always) <- default // 1 (shrink view) // 2 (expand view) // Double_t rmax[3], rmin[3]; switch (flag) { case 2: // expand view GetRange(rmin, rmax); rmin[0] = x0 < rmin[0] ? x0 : rmin[0]; rmin[1] = y0 < rmin[1] ? y0 : rmin[1]; rmin[2] = z0 < rmin[2] ? z0 : rmin[2]; rmax[0] = x1 > rmax[0] ? x1 : rmax[0]; rmax[1] = y1 > rmax[1] ? y1 : rmax[1]; rmax[2] = z1 > rmax[2] ? z1 : rmax[2]; break; case 1: // shrink view GetRange(rmin, rmax); rmin[0] = x0 > rmin[0] ? x0 : rmin[0]; rmin[1] = y0 > rmin[1] ? y0 : rmin[1]; rmin[2] = z0 > rmin[2] ? z0 : rmin[2]; rmax[0] = x1 < rmax[0] ? x1 : rmax[0]; rmax[1] = y1 < rmax[1] ? y1 : rmax[1]; rmax[2] = z1 < rmax[2] ? z1 : rmax[2]; break; default: rmin[0] = x0; rmax[0] = x1; rmin[1] = y0; rmax[1] = y1; rmin[2] = z0; rmax[2] = z1; } SetRange(rmin, rmax); } //______________________________________________________________________________ void TView3D::SetWindow(Double_t u0, Double_t v0, Double_t du, Double_t dv) { // Set viewing window. fUVcoord[0] = u0; fUVcoord[1] = v0; fUVcoord[2] = du; fUVcoord[3] = dv; } //______________________________________________________________________________ void TView3D::SetView(Double_t longitude, Double_t latitude, Double_t psi, Int_t &irep) { //set view parameters ResetView(longitude, latitude, psi, irep); } //______________________________________________________________________________ void TView3D::ResizePad() { // Recompute window for perspective view if (!IsPerspective()) return; Double_t upix = fUpix; Double_t vpix = fVpix; // widh in pixels fUpix = gPad->GetWw()*gPad->GetAbsWNDC(); // height in pixels fVpix = gPad->GetWh()*gPad->GetAbsHNDC(); Double_t u0 = fUVcoord[0]*fUpix/upix; Double_t v0 = fUVcoord[1]*fVpix/vpix; Double_t du = fUVcoord[2]*fUpix/upix; Double_t dv = fUVcoord[3]*fVpix/vpix; SetWindow(u0, v0, du, dv); DefinePerspectiveView(); } //______________________________________________________________________________ void TView3D::ResetView(Double_t longitude, Double_t latitude, Double_t psi, Int_t &irep) { // Set view direction (in spherical coordinates). // // Input PHI - longitude // THETA - latitude (angle between +Z and view direction) // PSI - rotation in screen plane // // Output: IREP - reply (-1 if error in min-max) // // Errors: error in min-max scope Double_t scale[3], centre[3]; Double_t c1, c2, c3, s1, s2, s3; //*-*- F I N D C E N T E R O F S C O P E A N D //*-*- S C A L E F A C T O R S FindScope(scale, centre, irep); if (irep < 0) { Error("ResetView", "Error in min-max scope"); return; } //*-*- S E T T R A N S F O R M A T I O N M A T R I C E S fLongitude = longitude; fPsi = psi; fLatitude = latitude; if (IsPerspective()) { DefinePerspectiveView(); return; } c1 = TMath::Cos(longitude*kRad); s1 = TMath::Sin(longitude*kRad); c2 = TMath::Cos(latitude*kRad); s2 = TMath::Sin(latitude*kRad); c3 = TMath::Cos(psi*kRad); s3 = TMath::Sin(psi*kRad); DefineViewDirection(scale, centre, c1, s1, c2, s2, c3, s3, fTnorm, fTback); c3 = 1; s3 = 0; DefineViewDirection(scale, centre, c1, s1, c2, s2, c3, s3, fTN, fTB); } //______________________________________________________________________________ void TView3D::WCtoNDC(const Float_t *pw, Float_t *pn) { // Transfer point from world to normalized coordinates. // // Input: PW(3) - point in world coordinate system // PN(3) - point in normalized coordinate system // perspective view if (IsPerspective()) { for (Int_t i=0; i<3; i++) pn[i] = pw[0]*fTnorm[i]+pw[1]*fTnorm[i+4]+pw[2]*fTnorm[i+8]+fTnorm[i+12]; if (pn[2]>0) { pn[0] /= pn[2]; pn[1] /= pn[2]; } else { pn[0] *= 1000.; pn[1] *= 1000.; } return; } // parallel view pn[0] = fTnorm[0]*pw[0] + fTnorm[1]*pw[1] + fTnorm[2]*pw[2] + fTnorm[3]; pn[1] = fTnorm[4]*pw[0] + fTnorm[5]*pw[1] + fTnorm[6]*pw[2] + fTnorm[7]; pn[2] = fTnorm[8]*pw[0] + fTnorm[9]*pw[1] + fTnorm[10]*pw[2] + fTnorm[11]; } //______________________________________________________________________________ void TView3D::WCtoNDC(const Double_t *pw, Double_t *pn) { // Transfer point from world to normalized coordinates. // // Input: PW(3) - point in world coordinate system // PN(3) - point in normalized coordinate system // perspective view if (IsPerspective()) { for (Int_t i=0; i<3; i++) pn[i] = pw[0]*fTnorm[i]+pw[1]*fTnorm[i+4]+pw[2]*fTnorm[i+8]+fTnorm[i+12]; if (pn[2]>0) { pn[0] /= pn[2]; pn[1] /= pn[2]; } else { pn[0] *= 1000.; pn[1] *= 1000.; } return; } // parallel view pn[0] = fTnorm[0]*pw[0] + fTnorm[1]*pw[1] + fTnorm[2]*pw[2] + fTnorm[3]; pn[1] = fTnorm[4]*pw[0] + fTnorm[5]*pw[1] + fTnorm[6]*pw[2] + fTnorm[7]; pn[2] = fTnorm[8]*pw[0] + fTnorm[9]*pw[1] + fTnorm[10]*pw[2] + fTnorm[11]; } //______________________________________________________________________________ void TView3D::AdjustPad(TVirtualPad *pad) { // Force the current pad to be updated TVirtualPad *thisPad = pad; if (!thisPad) thisPad = gPad; if (thisPad) { thisPad->Modified(); thisPad->Update(); } } //______________________________________________________________________________ void TView3D::RotateView(Double_t phi, Double_t theta, TVirtualPad *pad) { // API to rotate view and adjust the pad provided it the current one. Int_t iret; Double_t p = phi; Double_t t = theta; SetView(p, t, 0, iret); // Adjust current pad too TVirtualPad *thisPad = pad; if (!thisPad) thisPad = gPad; if (thisPad) { thisPad->SetPhi(-90-p); thisPad->SetTheta(90-t); thisPad->Modified(); thisPad->Update(); } } //______________________________________________________________________________ void TView3D::SideView(TVirtualPad *pad) { // Set to side view. RotateView(0,90.0,pad); } //______________________________________________________________________________ void TView3D::FrontView(TVirtualPad *pad) { // Set to front view. RotateView(270.0,90.0,pad); } //______________________________________________________________________________ void TView3D::TopView(TVirtualPad *pad) { // Set to top view. RotateView(270.0,0.0,pad); } //______________________________________________________________________________ void TView3D::ToggleRulers(TVirtualPad *pad) { // Turn on /off 3D axis TAxis3D::ToggleRulers(pad); } //______________________________________________________________________________ void TView3D::ToggleZoom(TVirtualPad *pad) { // Turn on /off the interactive option to // Zoom / Move / Change attributes of 3D axis correspond this view TAxis3D::ToggleZoom(pad); } //______________________________________________________________________________ void TView3D::AdjustScales(TVirtualPad *pad) { // Adjust all sides of view in respect of the biggest one Double_t min[3],max[3]; GetRange(min,max); int i; Double_t maxSide = 0; // Find the largest side for (i=0;i<3; i++) maxSide = TMath::Max(maxSide,max[i]-min[i]); //Adjust scales: for (i=0;i<3; i++) max[i] += maxSide - (max[i]-min[i]); SetRange(min,max); AdjustPad(pad); } //______________________________________________________________________________ void TView3D::Centered3DImages(TVirtualPad *pad) { // Move view into the center of the scene Double_t min[3],max[3]; GetRange(min,max); int i; for (i=0;i<3; i++) { if (max[i] > 0) min[i] = -max[i]; else max[i] = -min[i]; } SetRange(min,max); AdjustPad(pad); } //______________________________________________________________________________ void TView3D::UnzoomView(TVirtualPad *pad,Double_t unZoomFactor ) { // unZOOM this view if (TMath::Abs(unZoomFactor) < 0.001) return; ZoomView(pad,1./unZoomFactor); } //______________________________________________________________________________ void TView3D::ZoomView(TVirtualPad *pad,Double_t zoomFactor) { // ZOOM this view if (TMath::Abs(zoomFactor) < 0.001) return; Double_t min[3],max[3]; GetRange(min,max); int i; for (i=0;i<3; i++) { // Find center Double_t c = (max[i]+min[i])/2; // Find a new size Double_t s = (max[i]-min[i])/(2*zoomFactor); // Set a new size max[i] = c + s; min[i] = c - s; } SetRange(min,max); AdjustPad(pad); } //______________________________________________________________________________ void TView3D::MoveFocus(Double_t *cov, Double_t dx, Double_t dy, Double_t dz, Int_t nsteps, Double_t dlong, Double_t dlat, Double_t dpsi) { // Move focus to a different box position and extent in nsteps. Perform rotation // with dlat,dlong,dpsi at each step. if (!IsPerspective()) return; if (nsteps<1) return; Double_t fc = 1./Double_t(nsteps); Double_t oc[3], od[3], dir[3]; dir[0] = 0; dir[1] = 0; dir[2] = 1.; Int_t i, j; for (i=0; i<3; i++) { oc[i] = 0.5*(fRmin[i]+fRmax[i]); od[i] = 0.5*(fRmax[i]-fRmin[i]); } Double_t dox = cov[0]-oc[0]; Double_t doy = cov[1]-oc[1]; Double_t doz = cov[2]-oc[2]; Double_t dd = TMath::Sqrt(dox*dox+doy*doy+doz*doz); if (dd!=0) {; dir[0] = dox/dd; dir[1] = doy/dd; dir[2] = doz/dd; } dd *= fc; dox = fc*(dx-od[0]); doy = fc*(dy-od[1]); doz = fc*(dz-od[2]); for (i=0; i<nsteps; i++) { oc[0] += dd*dir[0]; oc[1] += dd*dir[1]; oc[2] += dd*dir[2]; od[0] += dox; od[1] += doy; od[2] += doz; for (j=0; j<3; j++) { fRmin[j] = oc[j]-od[j]; fRmax[j] = oc[j]+od[j]; } SetDefaultWindow(); fLatitude += dlat; fLongitude += dlong; fPsi += dpsi; DefinePerspectiveView(); if (gPad) { gPad->Modified(); gPad->Update(); } } } //______________________________________________________________________________ void TView3D::MoveViewCommand(Char_t option, Int_t count) { // 'a' increase scale factor (clip cube borders) // 's' decrease scale factor (clip cube borders) if (count <= 0) count = 1; switch (option) { case '+': ZoomView(); break; case '-': UnzoomView(); break; case 's': case 'S': UnzoomView(); break; case 'a': case 'A': ZoomView(); break; case 'l': case 'L': case 'h': case 'H': case 'u': case 'U': case 'i': case 'I': MoveWindow(option); break; case 'j': case 'J': ZoomIn(); break; case 'k': case 'K': ZoomOut(); break; default: break; } } //______________________________________________________________________________ void TView3D::MoveWindow(Char_t option) { // Move view window : // l,L - left // h,H - right // u,U - down // i,I - up if (!IsPerspective()) return; Double_t shiftu = 0.1*fUVcoord[2]; Double_t shiftv = 0.1*fUVcoord[3]; switch (option) { case 'l': case 'L': fUVcoord[0] += shiftu; break; case 'h': case 'H': fUVcoord[0] -= shiftu; break; case 'u': case 'U': fUVcoord[1] += shiftv; break; case 'i': case 'I': fUVcoord[1] -= shiftv; break; default: return; } DefinePerspectiveView(); if (gPad) { gPad->Modified(); gPad->Update(); } } //______________________________________________________________________________ void TView3D::ZoomIn() { // Zoom in. if (!IsPerspective()) return; Double_t extent = GetExtent(); Double_t fc = 0.1; if (fDview<extent) { fDview -= fc*extent; } else { fDview /= 1.25; } DefinePerspectiveView(); if (gPad) { gPad->Modified(); gPad->Update(); } } //______________________________________________________________________________ void TView3D::ZoomOut() { // Zoom out. if (!IsPerspective()) return; Double_t extent = GetExtent(); Double_t fc = 0.1; if (fDview<extent) { fDview += fc*extent; } else { fDview *= 1.25; } DefinePerspectiveView(); if (gPad) { gPad->Modified(); gPad->Update(); } } //______________________________________________________________________________ void TView3D::Streamer(TBuffer &R__b) { // Stream an object of class TView3D. if (R__b.IsReading()) { UInt_t R__s, R__c; Version_t R__v = R__b.ReadVersion(&R__s, &R__c); if (R__v > 1) { R__b.ReadClassBuffer(TView3D::Class(), this, R__v, R__s, R__c); return; } //====process old versions before automatic schema evolution //unfortunately we forgot to increment the TView3D version number //when the class was upgraded to double precision in version 2.25. //we are forced to use the file version number to recognize old files. if (R__b.GetParent() && R__b.GetVersionOwner() < 22500) { //old version in single precision TObject::Streamer(R__b); TAttLine::Streamer(R__b); Float_t single, sa[12]; Int_t i; R__b >> fSystem; R__b >> single; fLatitude = single; R__b >> single; fLongitude = single; R__b >> single; fPsi = single; R__b.ReadStaticArray(sa); for (i=0;i<12;i++) fTN[i] = sa[i]; R__b.ReadStaticArray(sa); for (i=0;i<12;i++) fTB[i] = sa[i]; R__b.ReadStaticArray(sa); for (i=0;i<3;i++) fRmax[i] = sa[i]; R__b.ReadStaticArray(sa); for (i=0;i<3;i++) fRmin[i] = sa[i]; R__b.ReadStaticArray(sa); for (i=0;i<12;i++) fTnorm[i] = sa[i]; R__b.ReadStaticArray(sa); for (i=0;i<12;i++) fTback[i] = sa[i]; R__b.ReadStaticArray(sa); for (i=0;i<3;i++) fX1[i] = sa[i]; R__b.ReadStaticArray(sa); for (i=0;i<3;i++) fX2[i] = sa[i]; R__b.ReadStaticArray(sa); for (i=0;i<3;i++) fY1[i] = sa[i]; R__b.ReadStaticArray(sa); for (i=0;i<3;i++) fY2[i] = sa[i]; R__b.ReadStaticArray(sa); for (i=0;i<3;i++) fZ1[i] = sa[i]; R__b.ReadStaticArray(sa); for (i=0;i<3;i++) fZ2[i] = sa[i]; R__b >> fOutline; R__b >> fDefaultOutline; R__b >> fAutoRange; } else { TObject::Streamer(R__b); TAttLine::Streamer(R__b); R__b >> fLatitude; R__b >> fLongitude; R__b >> fPsi; R__b.ReadStaticArray(fTN); R__b.ReadStaticArray(fTB); R__b.ReadStaticArray(fRmax); R__b.ReadStaticArray(fRmin); R__b.ReadStaticArray(fTnorm); R__b.ReadStaticArray(fTback); R__b.ReadStaticArray(fX1); R__b.ReadStaticArray(fX2); R__b.ReadStaticArray(fY1); R__b.ReadStaticArray(fY2); R__b.ReadStaticArray(fZ1); R__b.ReadStaticArray(fZ2); R__b >> fSystem; R__b >> fOutline; R__b >> fDefaultOutline; R__b >> fAutoRange; } //====end of old versions } else { R__b.WriteClassBuffer(TView3D::Class(),this); } } // Shortcuts for menus void TView3D::Centered(){Centered3DImages();} void TView3D::Front() {FrontView();} void TView3D::ShowAxis(){ToggleRulers(); } void TView3D::Side() {SideView();} void TView3D::Top() {TopView();} void TView3D::ZoomMove(){ToggleZoom();} void TView3D::Zoom() {ZoomView();} void TView3D::UnZoom() {UnzoomView();}
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