// @(#)root/graf:$Id: TCurlyArc.cxx 20882 2007-11-19 11:31:26Z rdm $ // Author: Otto Schaile 20/11/99 /************************************************************************* * 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. * *************************************************************************/ //______________________________________________________________________________ // // This class implements curly or wavy arcs typically used to draw Feynman diagrams. // Amplitudes and wavelengths may be specified in the constructors, // via commands or interactively from popup menus. // The class make use of TCurlyLine by inheritance, ExecuteEvent methods // are highly inspired from the methods used in TPolyLine and TArc. // The picture below has been generated by the tutorial feynman. //Begin_Html /* <img src="gif/feynman.gif"> */ //End_Html //______________________________________________________________________________ #include "Riostream.h" #include "TCurlyArc.h" #include "TROOT.h" #include "TVirtualPad.h" #include "TVirtualX.h" #include "TMath.h" Double_t TCurlyArc::fgDefaultWaveLength = 0.02; Double_t TCurlyArc::fgDefaultAmplitude = 0.01; Bool_t TCurlyArc::fgDefaultIsCurly = kTRUE; ClassImp(TCurlyArc) //______________________________________________________________________________ TCurlyArc::TCurlyArc(Double_t x1, Double_t y1, Double_t rad, Double_t phimin, Double_t phimax, Double_t wl, Double_t amp) : fR1(rad), fPhimin(phimin),fPhimax(phimax) { // create a new TCurlyarc with center (x1, y1) and radius rad. // The wavelength and amplitude are given in percent of the line length // phimin and phimax are given in degrees. fX1 = x1; fY1 = y1; fIsCurly = fgDefaultIsCurly; fAmplitude = amp; fWaveLength = wl; fTheta = 0; Build(); } //______________________________________________________________________________ void TCurlyArc::Build() { // Create a curly (Gluon) or wavy (Gamma) arc. Double_t pixeltoX = 1; Double_t pixeltoY = 1; Double_t rPix = fR1; if (gPad) { Double_t ww = (Double_t)gPad->GetWw(); Double_t wh = (Double_t)gPad->GetWh(); Double_t pxrange = gPad->GetAbsWNDC()*ww; Double_t pyrange = - gPad->GetAbsHNDC()*wh; Double_t xrange = gPad->GetX2() - gPad->GetX1(); Double_t yrange = gPad->GetY2() - gPad->GetY1(); pixeltoX = xrange / pxrange; pixeltoY = yrange/pyrange; rPix = fR1 / pixeltoX; } Double_t dang = fPhimax - fPhimin; if(dang < 0) dang += 360; Double_t length = TMath::Pi() * fR1 * dang/180; Double_t x1sav = fX1; Double_t y1sav = fY1; fX1 = fY1 = 0; fX2 = length; fY2 = 0; TCurlyLine::Build(); fX1 = x1sav; fY1 = y1sav; Double_t *xv= GetX(); Double_t *yv= GetY(); Double_t xx, yy, angle; for(Int_t i = 0; i < fNsteps; i++){ angle = xv[i] / rPix + fPhimin * TMath::Pi()/180; xx = (yv[i] + rPix) * cos(angle); yy = (yv[i] + rPix) * sin(angle); xx *= pixeltoX; yy *= TMath::Abs(pixeltoY); xv[i] = xx + fX1; yv[i] = yy + fY1; } if (gPad) gPad->Modified(); } //______________________________________________________________________________ Int_t TCurlyArc::DistancetoPrimitive(Int_t px, Int_t py) { // Compute distance from point px,py to an arc. // // Compute the closest distance of approach from point px,py to this arc. // The distance is computed in pixels units. // // Compute distance of point to center of arc Int_t pxc = gPad->XtoAbsPixel(fX1); Int_t pyc = gPad->YtoAbsPixel(fY1); Double_t dist = TMath::Sqrt(Double_t((pxc-px)*(pxc-px)+(pyc-py)*(pyc-py))); Double_t cosa = (px - pxc)/dist; Double_t sina = (pyc - py)/dist; Double_t phi = TMath::ATan2(sina,cosa); if(phi < 0) phi += 2 * TMath::Pi(); phi = phi * 180 / TMath::Pi(); if(fPhimax > fPhimin){ if(phi < fPhimin || phi > fPhimax) return 9999; } else { if(phi > fPhimin && phi < fPhimax) return 9999; } Int_t pxr = gPad->XtoPixel(fR1)- gPad->XtoPixel(0); Double_t distr = TMath::Abs(dist-pxr); return Int_t(distr); } //______________________________________________________________________________ void TCurlyArc::ExecuteEvent(Int_t event, Int_t px, Int_t py) { // Execute action corresponding to one event. // // This member function is called when a TCurlyArc is clicked with the locator // // If Left button clicked on one of the line end points, this point // follows the cursor until button is released. // // if Middle button clicked, the line is moved parallel to itself // until the button is released. Int_t kMaxDiff = 10; const Int_t np = 10; const Double_t pi = 3.141592; static Int_t x[np+3], y[np+3]; static Int_t px1,py1,npe,r1; static Int_t pxold, pyold; Int_t i, dpx, dpy; Double_t angle,dx,dy,dphi,rTy,rBy,rLx,rRx; Double_t phi0; static Bool_t pTop, pL, pR, pBot, pINSIDE; static Int_t pTx,pTy,pLx,pLy,pRx,pRy,pBx,pBy; switch (event) { case kButton1Down: gVirtualX->SetLineColor(-1); TAttLine::Modify(); dphi = (fPhimax-fPhimin) * pi / 180; if(dphi<0) dphi += 2 * pi; dphi /= np; phi0 = fPhimin * pi / 180; for (i=0;i<=np;i++) { angle = Double_t(i)*dphi + phi0; dx = fR1*TMath::Cos(angle); dy = fR1*TMath::Sin(angle); Int_t rpixY = gPad->XtoAbsPixel(dy) - gPad->XtoAbsPixel(0); x[i] = gPad->XtoAbsPixel(fX1 + dx); y[i] = gPad->YtoAbsPixel(fY1) + rpixY; } if (fPhimax-fPhimin >= 360 ) { x[np+1] = x[0]; y[np+1] = y[0]; npe = np; } else { x[np+1] = gPad->XtoAbsPixel(fX1); y[np+1] = gPad->YtoAbsPixel(fY1); x[np+2] = x[0]; y[np+2] = y[0]; npe = np + 2; } px1 = gPad->XtoAbsPixel(fX1); py1 = gPad->YtoAbsPixel(fY1); pTx = pBx = px1; pLy = pRy = py1; pLx = gPad->XtoAbsPixel(-fR1+fX1); pRx = gPad->XtoAbsPixel( fR1+fX1); r1 = TMath::Abs(pLx-pRx)/2; // a circle in pixels, radius measured along X pTy = gPad->YtoAbsPixel(fY1) + r1; pBy = gPad->YtoAbsPixel(fY1) - r1; gVirtualX->DrawLine(pRx+4, py1+4, pRx-4, py1+4); gVirtualX->DrawLine(pRx-4, py1+4, pRx-4, py1-4); gVirtualX->DrawLine(pRx-4, py1-4, pRx+4, py1-4); gVirtualX->DrawLine(pRx+4, py1-4, pRx+4, py1+4); gVirtualX->DrawLine(pLx+4, py1+4, pLx-4, py1+4); gVirtualX->DrawLine(pLx-4, py1+4, pLx-4, py1-4); gVirtualX->DrawLine(pLx-4, py1-4, pLx+4, py1-4); gVirtualX->DrawLine(pLx+4, py1-4, pLx+4, py1+4); gVirtualX->DrawLine(px1+4, pBy+4, px1-4, pBy+4); gVirtualX->DrawLine(px1-4, pBy+4, px1-4, pBy-4); gVirtualX->DrawLine(px1-4, pBy-4, px1+4, pBy-4); gVirtualX->DrawLine(px1+4, pBy-4, px1+4, pBy+4); gVirtualX->DrawLine(px1+4, pTy+4, px1-4, pTy+4); gVirtualX->DrawLine(px1-4, pTy+4, px1-4, pTy-4); gVirtualX->DrawLine(px1-4, pTy-4, px1+4, pTy-4); gVirtualX->DrawLine(px1+4, pTy-4, px1+4, pTy+4); // No break !!! case kMouseMotion: px1 = gPad->XtoAbsPixel(fX1); py1 = gPad->YtoAbsPixel(fY1); pTx = pBx = px1; pLy = pRy = py1; pLx = gPad->XtoAbsPixel(-fR1+fX1); pRx = gPad->XtoAbsPixel( fR1+fX1); pTy = gPad->YtoAbsPixel(fY1) + TMath::Abs(pLx-pRx)/2; pBy = gPad->YtoAbsPixel(fY1) - TMath::Abs(pLx-pRx)/2; pTop = pL = pR = pBot = pINSIDE = kFALSE; if ((TMath::Abs(px - pTx) < kMaxDiff) && (TMath::Abs(py - pTy) < kMaxDiff)) { // top edge pTop = kTRUE; gPad->SetCursor(kTopSide); } else if ((TMath::Abs(px - pBx) < kMaxDiff) && (TMath::Abs(py - pBy) < kMaxDiff)) { // bottom edge pBot = kTRUE; gPad->SetCursor(kBottomSide); } else if ((TMath::Abs(py - pLy) < kMaxDiff) && (TMath::Abs(px - pLx) < kMaxDiff)) { // left edge pL = kTRUE; gPad->SetCursor(kLeftSide); } else if ((TMath::Abs(py - pRy) < kMaxDiff) && (TMath::Abs(px - pRx) < kMaxDiff)) { // right edge pR = kTRUE; gPad->SetCursor(kRightSide); } else {pINSIDE= kTRUE; gPad->SetCursor(kMove); } pxold = px; pyold = py; break; case kButton1Motion: gVirtualX->DrawLine(pRx+4, py1+4, pRx-4, py1+4); gVirtualX->DrawLine(pRx-4, py1+4, pRx-4, py1-4); gVirtualX->DrawLine(pRx-4, py1-4, pRx+4, py1-4); gVirtualX->DrawLine(pRx+4, py1-4, pRx+4, py1+4); gVirtualX->DrawLine(pLx+4, py1+4, pLx-4, py1+4); gVirtualX->DrawLine(pLx-4, py1+4, pLx-4, py1-4); gVirtualX->DrawLine(pLx-4, py1-4, pLx+4, py1-4); gVirtualX->DrawLine(pLx+4, py1-4, pLx+4, py1+4); gVirtualX->DrawLine(px1+4, pBy+4, px1-4, pBy+4); gVirtualX->DrawLine(px1-4, pBy+4, px1-4, pBy-4); gVirtualX->DrawLine(px1-4, pBy-4, px1+4, pBy-4); gVirtualX->DrawLine(px1+4, pBy-4, px1+4, pBy+4); gVirtualX->DrawLine(px1+4, pTy+4, px1-4, pTy+4); gVirtualX->DrawLine(px1-4, pTy+4, px1-4, pTy-4); gVirtualX->DrawLine(px1-4, pTy-4, px1+4, pTy-4); gVirtualX->DrawLine(px1+4, pTy-4, px1+4, pTy+4); for (i=0;i<npe;i++) gVirtualX->DrawLine(x[i], y[i], x[i+1], y[i+1]); if (pTop) { r1 -= (py - pyold); } if (pBot) { r1 += (py - pyold); } if (pL) { r1 -= (px - pxold); } if (pR) { r1 += (px - pxold); } if (pTop || pBot || pL || pR) { gVirtualX->SetLineColor(-1); TAttLine::Modify(); dphi = (fPhimax-fPhimin) * pi / 180; if(dphi<0) dphi += 2 * pi; dphi /= np; phi0 = fPhimin * pi / 180; Double_t ur1 = r1; Int_t pX1 = gPad->XtoAbsPixel(fX1); Int_t pY1 = gPad->YtoAbsPixel(fY1); for (i=0;i<=np;i++) { angle = Double_t(i)*dphi + phi0; dx = ur1 * TMath::Cos(angle); dy = ur1 * TMath::Sin(angle); x[i] = pX1 + (Int_t)dx; y[i] = pY1 + (Int_t)dy; } if (fPhimax-fPhimin >= 360 ) { x[np+1] = x[0]; y[np+1] = y[0]; npe = np; } else { x[np+1] = pX1; y[np+1] = pY1; x[np+2] = x[0]; y[np+2] = y[0]; npe = np + 2; } for (i=0;i<npe;i++) { gVirtualX->DrawLine(x[i], y[i], x[i+1], y[i+1]); } } if (pINSIDE) { dpx = px-pxold; dpy = py-pyold; px1 += dpx; py1 += dpy; for (i=0;i<=npe;i++) { x[i] += dpx; y[i] += dpy;} for (i=0;i<npe;i++) gVirtualX->DrawLine(x[i], y[i], x[i+1], y[i+1]); } pTx = pBx = px1; pRx = px1+r1; pLx = px1-r1; pRy = pLy = py1; pTy = py1-r1; pBy = py1+r1; gVirtualX->DrawLine(pRx+4, py1+4, pRx-4, py1+4); gVirtualX->DrawLine(pRx-4, py1+4, pRx-4, py1-4); gVirtualX->DrawLine(pRx-4, py1-4, pRx+4, py1-4); gVirtualX->DrawLine(pRx+4, py1-4, pRx+4, py1+4); gVirtualX->DrawLine(pLx+4, py1+4, pLx-4, py1+4); gVirtualX->DrawLine(pLx-4, py1+4, pLx-4, py1-4); gVirtualX->DrawLine(pLx-4, py1-4, pLx+4, py1-4); gVirtualX->DrawLine(pLx+4, py1-4, pLx+4, py1+4); gVirtualX->DrawLine(px1+4, pBy+4, px1-4, pBy+4); gVirtualX->DrawLine(px1-4, pBy+4, px1-4, pBy-4); gVirtualX->DrawLine(px1-4, pBy-4, px1+4, pBy-4); gVirtualX->DrawLine(px1+4, pBy-4, px1+4, pBy+4); gVirtualX->DrawLine(px1+4, pTy+4, px1-4, pTy+4); gVirtualX->DrawLine(px1-4, pTy+4, px1-4, pTy-4); gVirtualX->DrawLine(px1-4, pTy-4, px1+4, pTy-4); gVirtualX->DrawLine(px1+4, pTy-4, px1+4, pTy+4); pxold = px; pyold = py; break; case kButton1Up: fX1 = gPad->AbsPixeltoX(px1); fY1 = gPad->AbsPixeltoY(py1); rBy = gPad->AbsPixeltoY(py1+r1); rTy = gPad->AbsPixeltoY(py1-r1); rLx = gPad->AbsPixeltoX(px1+r1); rRx = gPad->AbsPixeltoX(px1-r1); fR1 = TMath::Abs(rRx-rLx)/2; Build(); gPad->Modified(kTRUE); gVirtualX->SetLineColor(-1); } } //______________________________________________________________________________ void TCurlyArc::SavePrimitive(ostream &out, Option_t * /*= ""*/) { // Save primitive as a C++ statement(s) on output stream out if (gROOT->ClassSaved(TCurlyArc::Class())) { out<<" "; } else { out<<" TCurlyArc *"; } out<<"curlyarc = new TCurlyArc(" <<fX1<<","<<fY1<<","<<fR1<<","<<fPhimin<<","<<fPhimax<<"," <<fWaveLength<<","<<fAmplitude<<");"<<endl; if (!fIsCurly) { out<<" curlyarc->SetWavy();"<<endl; } SaveLineAttributes(out,"curlyarc",1,1,1); out<<" curlyarc->Draw();"<<endl; } //______________________________________________________________________________ void TCurlyArc::SetCenter(Double_t x, Double_t y) { // Set Curly Arc center. fX1 = x; fY1 = y; Build(); } //______________________________________________________________________________ void TCurlyArc::SetRadius(Double_t x) { // Set Curly Arc radius. fR1 = x; Build(); } //______________________________________________________________________________ void TCurlyArc::SetPhimin(Double_t x) { // Set Curly Arc minimum Phi. fPhimin = x; Build(); } //______________________________________________________________________________ void TCurlyArc::SetPhimax(Double_t x) { // Set Curly Arc maximum Phi. fPhimax = x; Build(); } //______________________________________________________________________________ void TCurlyArc::SetDefaultWaveLength(Double_t WaveLength) { // Set default wave length. fgDefaultWaveLength = WaveLength; } //______________________________________________________________________________ void TCurlyArc::SetDefaultAmplitude(Double_t Amplitude) { // Set default wave amplitude. fgDefaultAmplitude = Amplitude ; } //______________________________________________________________________________ void TCurlyArc::SetDefaultIsCurly(Bool_t IsCurly) { // Set default "IsCurly". fgDefaultIsCurly = IsCurly; } //______________________________________________________________________________ Double_t TCurlyArc::GetDefaultWaveLength() { // Get default wave length. return fgDefaultWaveLength; } //______________________________________________________________________________ Double_t TCurlyArc::GetDefaultAmplitude() { // Get default wave amplitude. return fgDefaultAmplitude; } //______________________________________________________________________________ Bool_t TCurlyArc::GetDefaultIsCurly() { // Get default "IsCurly". return fgDefaultIsCurly; }
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