def makeROC(fpr, tpr, thresholds, AUC, outfile, signal_label, background_label): c = TCanvas("c", "c", 700, 600) gPad.SetMargin(0.15, 0.07, 0.15, 0.05) gPad.SetLogy(0) gPad.SetGrid(1, 1) gStyle.SetGridColor(15) roc = TGraph(len(fpr), tpr, fpr) roc.SetLineColor(2) roc.SetLineWidth(2) roc.SetTitle(";Signal efficiency (%s); Background efficiency (%s)" % (signal_label, background_label)) roc.GetXaxis().SetTitleOffset(1.4) roc.GetXaxis().SetTitleSize(0.045) roc.GetYaxis().SetTitleOffset(1.4) roc.GetYaxis().SetTitleSize(0.045) roc.GetXaxis().SetRangeUser(0, 1) roc.GetYaxis().SetRangeUser(0.000, 1) roc.Draw("AL") latex = TLatex() latex.SetTextFont(42) latex.SetTextSize(0.05) latex.DrawLatexNDC(0.2, 0.88, 'AUC = %.3f' % AUC) c.SaveAs(outfile)
def main(): cc.cd() cc.SetBorderMode(0) cc.SetFixedAspectRatio(1) cc.FeedbackMode(1) gStyle.SetOptStat(0) gStyle.SetGridStyle(1) gStyle.SetGridColor(11) hh = TH2D('hh', ';Y;X', 2, 2, 4, 14, 2, 16) hi = TH2I('hi', ';Y;X', 2, 2, 4, 14, 2, 16) setupHists([hh, hi]) xax, yax = hh.GetXaxis(), hh.GetYaxis() hh.Draw('COLZ') hi.Draw('TEXTSAME') gPad.SetLogz() gPad.SetGrid(1, 1) gPad.SetLeftMargin(0.05) gPad.SetRightMargin(0.12) tt1 = TPaveText(0.05, 0.94, 0.22, 1.0, 'NDC') ttL = TPaveText(0.05, 0.905, 0.2, 0.93, 'NDC') ttR = TPaveText(0.75, 0.905, 0.9, 0.93, 'NDC') ttLM = TPaveText(2, 0.5, 2.5, 1) ttRM = TPaveText(3.5, 0.5, 4, 1) ttM = TPaveText(0.6, 0.94, 0.9, 1, 'NDC') ttime = TPaveText(2.8, 1.5, 3.3, 1.9) tchan = TPaveText(0, 0, 0.9, 1) setupPaveTexts([tt1, ttM, ttime, tchan, ttL, ttR, ttLM, ttRM]) ttM.SetTextColor(2) tarrow = TText(2.9, 0.25, 'Beam Left') arrow = TArrow(2.85, 0.5, 2.75, 0.5, 0.02, '|>') arrow.SetAngle(40) arrow.SetFillColor(1) arrow.SetLineWidth(2) tt = TText() tt.SetTextColor(1) tt.SetTextAngle(90) tt.SetTextSize(0.04) tt.DrawText(4.07, 9, 'kHz') tt.SetTextAngle(0) tt.SetTextColor(2) tt.DrawTextNDC(0.23, 0.905, 'SHMS PCAL FADC SCALERS') ttL.AddText('Left+') ttR.AddText('-Right') cc.cd() for xx in [ttM, tt1, ttL, ttR, arrow, tarrow, ttime, ttLM, ttRM]: xx.Draw() cc2.cd() tchan.Draw('NDC') cc.cd() xmin, xmax = xax.GetXmin(), xax.GetXmax() ymin, ymax = yax.GetXmin(), yax.GetXmax() gPad.SetEditable(0) while True: zvals = getScalars() for ii in range(len(zvals)): hh.SetBinContent(xax.FindBin(XVALS[ii] + 1), yax.FindBin(16 - YVALS[ii]), zvals[ii]) hi.SetBinContent(xax.FindBin(XVALS[ii] + 1), yax.FindBin(16 - YVALS[ii]), zvals[ii]) for xx in [ttime, ttM, tt1, ttLM, ttRM]: xx.Clear() [left, right, maximum] = calcRates(zvals) tt1.AddText('Total: %.1f MHz' % ((left + right) / 1000)) ttLM.AddText('Left total: %.1f MHz' % (left / 1000)) ttRM.AddText('Right total: %.1f MHz' % (right / 1000)) ttM.AddText('MAX SINGLE CRYSTAL = %.0f kHz' % (maximum)) ttime.AddText(makeTime()) if not gPad: sys.exit() #if gPad.GetEvent()==11: # xy=pix2xy(gPad) #ee=ECAL.findChannelXY(xy[0],xy[1]) #if ee: # tchan.Clear() #tchan.AddText(printChannel(ee)) # cc2.Modified() # cc2.Update() #elif gPad.GetEvent()==12: # tchan.Clear() # cc2.Modified() # cc2.Update() cc.Modified() cc.Update() time.sleep(1)
#dKeys = dir.GetListOfKeys() #for key in dKeys : # print key # print key.GetName() # print key.GetTitle() hists = loadHists(rateFile, ratesMap) effHists = loadHists(effFile, effMap) xrange = [0., 50.] c1 = ROOT.TCanvas('c1', 'c1', 800, 600) c1.SetLogy(1) c1.SetGridx(1) c1.SetGridy(1) gStyle.SetGridStyle(2) gStyle.SetGridColor(ROOT.kGray + 1) ''' RATE SECTION ''' c1.SetName('dyncrystalEG_rate') c1.SetTitle('') toDraw = [hists['L1EGamma_Crystal'], hists['Phase 1 TDR']] drawRates(toDraw, c1, 40000., xrange) c1.SetName('dyncrystalEG_rate_UW') c1.SetTitle('EG Rates (UW only)') toDraw = [ hists['L1EGamma_Crystal'], hists['Phase 1 TDR'], hists['LLR Alg.'] ] drawRates(toDraw, c1, 40000., xrange) ''' EFFICIENCY SECTION ''' c1.SetLogy(0) c1.SetName("dyncrystalEG_efficiency_eta")
def main(): cc.cd() cc.SetBorderMode(0) cc.SetFixedAspectRatio(1) cc.FeedbackMode(1) gStyle.SetOptStat(0) gStyle.SetGridStyle(0) gStyle.SetGridColor(18) nbinsX = 0 for ix in range(len(SECTORSPERREGION)): nbinsX += SECTORSPERREGION[ix] hh = TH2D('hh', ';Strip;Sector', STRIPSPERSECTOR, 0, STRIPSPERSECTOR, nbinsX, 0, nbinsX) setupHists([hh]) hh.Draw('COLZ') gPad.SetLogz() gPad.SetLeftMargin(0.09) gPad.SetRightMargin(0.11) tt2 = TPaveText(240, 43, 500, 45) ttime = TPaveText(100, -5.5, 412, -3) setupPaveTexts([tt2, ttime]) tt2.SetTextSize(0.03) lll = TLine() lll.SetLineColor(15) y1 = SECTORSPERREGION[0] y2 = SECTORSPERREGION[0] + SECTORSPERREGION[1] lll.DrawLine(0, y1, STRIPSPERSECTOR, y1) lll.DrawLine(0, y2, STRIPSPERSECTOR, y2) tt = TText() tt.SetTextColor(1) tt.SetTextAngle(90) tt.SetTextSize(0.04) tt.DrawText(532, 22, 'Hz') tt.SetTextSize(0.06) tt.SetTextAngle(0) tt.SetTextColor(1) tt.DrawTextNDC(0.1, 0.93, 'SVT Scalers') tt.SetTextSize(0.03) tt.DrawText(-42, 4, 'R1') tt.DrawText(-42, 16, 'R2') tt.DrawText(-42, 32, 'R3') cc.cd() for xx in [ttime, tt2]: xx.Draw() cc.cd() gPad.SetEditable(0) while True: iy = 0 for ch in SVT.chans: loadPV(ch) ch = ch.vals data = ch['PVVAL'] time2 = ch['PVTIMEVAL'] if time2 > 10: print 'More than 10 seconds since message: ' + ch['PVNAME'] for ii in range(512): data[ii] = 0 if iy < SECTORSPERREGION[0]: region = 1 sector = iy elif iy < SECTORSPERREGION[0] + SECTORSPERREGION[1]: region = 2 sector = iy - SECTORSPERREGION[0] else: region = 3 sector = iy - SECTORSPERREGION[0] - SECTORSPERREGION[1] if data == None or len(data) != STRIPSPERSECTOR: print 'Error Reading ' + ch['PVNAME'] continue for ix in range(STRIPSPERSECTOR): hh.SetBinContent(ix, iy + 1, data[ix]) iy += 1 for xx in [ttime, tt2]: xx.Clear() [r1, r2, r3] = calcRates(SVT.chans) tt2.AddText('Sums: R1 / R2 / R3 = %.2E / %.2E / %.2E Hz' % (r1, r2, r3)) ttime.AddText(makeTime()) if not gPad: sys.exit() cc.Modified() cc.Update() time.sleep(POLLPERIOD)
def setStyle(): gStyle.SetPadBorderMode(0) gStyle.SetFrameBorderMode(0) gStyle.SetPadBottomMargin(0.12) gStyle.SetPadLeftMargin(0.12) gStyle.SetCanvasColor(ROOT.kWhite) gStyle.SetCanvasDefH(600) #Height of canvas gStyle.SetCanvasDefW(600) #Width of canvas gStyle.SetCanvasDefX(0) #POsition on screen gStyle.SetCanvasDefY(0) gStyle.SetPadTopMargin(0.05) gStyle.SetPadBottomMargin(0.15) #0.13); gStyle.SetPadLeftMargin(0.11) #0.16); gStyle.SetPadRightMargin(0.05) #0.02); # For the Pad: gStyle.SetPadBorderMode(0) gStyle.SetPadColor(ROOT.kWhite) gStyle.SetPadGridX(ROOT.kFALSE) gStyle.SetPadGridY(ROOT.kFALSE) gStyle.SetGridColor(0) gStyle.SetGridStyle(3) gStyle.SetGridWidth(1) # For the frame: gStyle.SetFrameBorderMode(0) gStyle.SetFrameBorderSize(1) gStyle.SetFrameFillColor(0) gStyle.SetFrameFillStyle(0) gStyle.SetFrameLineColor(1) gStyle.SetFrameLineStyle(1) gStyle.SetFrameLineWidth(1) gStyle.SetAxisColor(1, "XYZ") gStyle.SetStripDecimals(ROOT.kTRUE) gStyle.SetTickLength(0.03, "XYZ") gStyle.SetNdivisions(505, "XYZ") gStyle.SetPadTickX(1) # To get tick marks on the opposite side of the frame gStyle.SetPadTickY(1) gStyle.SetGridColor(0) gStyle.SetGridStyle(3) gStyle.SetGridWidth(1) gStyle.SetTitleColor(1, "XYZ") gStyle.SetTitleFont(42, "XYZ") gStyle.SetTitleSize(0.05, "XYZ") gStyle.SetTitleXOffset(1.15) #0.9); gStyle.SetTitleYOffset(1.3) # => 1.15 if exponents gStyle.SetLabelColor(1, "XYZ") gStyle.SetLabelFont(42, "XYZ") gStyle.SetLabelOffset(0.007, "XYZ") gStyle.SetLabelSize(0.045, "XYZ") gStyle.SetPadBorderMode(0) gStyle.SetFrameBorderMode(0) gStyle.SetTitleTextColor(1) gStyle.SetTitleFillColor(10) gStyle.SetTitleFontSize(0.05) gStyle.SetOptStat(0) gStyle.SetOptTitle(0) gStyle.SetOptFit(1) NRGBs = 5 NCont = 255 stops = [0.00, 0.34, 0.61, 0.84, 1.00] red = [0.00, 0.00, 0.87, 1.00, 0.51] green = [0.00, 0.81, 1.00, 0.20, 0.00] blue = [0.51, 1.00, 0.12, 0.00, 0.00] stopsArray = array('d', stops) redArray = array('d', red) greenArray = array('d', green) blueArray = array('d', blue) TColor.CreateGradientColorTable(NRGBs, stopsArray, redArray, greenArray, blueArray, NCont) gStyle.SetNumberContours(NCont)
def drawTrainingCurve(input,output): hist = pickle.load(open(input,"rb")) tr_acc = hist["acc"] tr_loss = hist["loss"] val_acc = hist["val_acc"] val_loss = hist["val_loss"] epochs = range(len(tr_acc)) c = TCanvas("c","c",800,500) #c.SetFillStyle(4000) #c.SetFrameFillStyle(4000) gStyle.SetOptStat(0) uppad = TPad("u","u",0.,0.55,1.,1.) downpad = TPad("d","d",0.,0.,1.,0.55) uppad.Draw() #uppad.SetFillStyle(4000) #uppad.SetFrameFillStyle(4000) downpad.Draw() #downpad.SetFillStyle(4000) #downpad.SetFrameFillStyle(4000) uppad.cd() gPad.SetMargin(0.15,0.05,0.02,0.15) gPad.SetGrid(1,1) gStyle.SetGridColor(13) gr_acc_train = TGraph(len(epochs),array('d',epochs),array('d',tr_acc)) gr_acc_train.SetLineColor(2) gr_acc_train.SetLineWidth(2) gr_acc_test = TGraph(len(epochs),array('d',epochs),array('d',val_acc)) gr_acc_test.SetLineColor(4) gr_acc_test.SetLineWidth(2) mgup = TMultiGraph("mgup",";number of epochs;accuracy") mgup.Add(gr_acc_train,"l") mgup.Add(gr_acc_test,"l") mgup.Draw("AL") mgup.GetXaxis().SetRangeUser(min(epochs),max(epochs)) mgup.GetXaxis().SetLabelSize(0) mgup.GetYaxis().CenterTitle() mgup.GetYaxis().SetTitleSize(0.12) mgup.GetYaxis().SetTitleOffset(0.5) mgup.GetYaxis().SetLabelSize(0.105) mgup.GetYaxis().SetNdivisions(8) l = TLegend(0.6,0.15,0.88,0.6) l.SetTextSize(0.14) l.AddEntry(gr_acc_train,"training","l") l.AddEntry(gr_acc_test,"validation","l") l.Draw("same") downpad.cd() gPad.SetMargin(0.15,0.05,0.25,0.02) gPad.SetGrid(1,1) gStyle.SetGridColor(13) gr_loss_train = TGraph(len(epochs),array('d',epochs),array('d',tr_loss)) gr_loss_train.SetLineColor(2) gr_loss_train.SetLineWidth(2) gr_loss_test = TGraph(len(epochs),array('d',epochs),array('d',val_loss)) gr_loss_test.SetLineColor(4) gr_loss_test.SetLineWidth(2) mgdown = TMultiGraph("mgdown",";number of epochs;loss") mgdown.Add(gr_loss_train,"l") mgdown.Add(gr_loss_test,"l") mgdown.Draw("AL") mgdown.GetXaxis().SetRangeUser(min(epochs),max(epochs)) mgdown.GetXaxis().SetLabelSize(0.085) mgdown.GetXaxis().SetTitleSize(0.11) mgdown.GetXaxis().SetTitleOffset(0.9) mgdown.GetXaxis().CenterTitle() mgdown.GetYaxis().CenterTitle() mgdown.GetYaxis().SetTitleSize(0.11) mgdown.GetYaxis().SetTitleOffset(0.55) mgdown.GetYaxis().SetLabelSize(0.085) mgdown.GetYaxis().SetNdivisions(8) c.SaveAs(output)
def setgstyle(): # Zero horizontal error bars gStyle.SetErrorX(0) # For the canvas gStyle.SetCanvasBorderMode(0) gStyle.SetCanvasColor(0) gStyle.SetCanvasDefH(800) # Height of canvas gStyle.SetCanvasDefW(800) # Width of canvas gStyle.SetCanvasDefX(0) # Position on screen gStyle.SetCanvasDefY(0) # For the frame gStyle.SetFrameBorderMode(0) gStyle.SetFrameBorderSize(1) gStyle.SetFrameFillColor(1) gStyle.SetFrameFillStyle(0) gStyle.SetFrameLineColor(1) gStyle.SetFrameLineStyle(0) gStyle.SetFrameLineWidth(1) # For the Pad gStyle.SetPadBorderMode(0) gStyle.SetPadColor(0) gStyle.SetPadGridX(False) gStyle.SetPadGridY(False) gStyle.SetGridColor(0) gStyle.SetGridStyle(3) gStyle.SetGridWidth(1) # Margins gStyle.SetPadTopMargin(0.08) gStyle.SetPadBottomMargin(0.19) gStyle.SetPadLeftMargin(0.17) #gStyle.SetPadRightMargin(0.07) # For the histo: gStyle.SetHistLineColor(1) gStyle.SetHistLineStyle(0) gStyle.SetHistLineWidth(2) gStyle.SetMarkerSize(1.4) gStyle.SetEndErrorSize(4) # For the statistics box: gStyle.SetOptStat(0) # For the axis gStyle.SetAxisColor(1, "XYZ") gStyle.SetTickLength(0.03, "XYZ") gStyle.SetNdivisions(510, "XYZ") gStyle.SetPadTickX(1) gStyle.SetPadTickY(1) gStyle.SetStripDecimals(False) # For the axis labels and titles gStyle.SetTitleColor(1, "XYZ") gStyle.SetLabelColor(1, "XYZ") gStyle.SetLabelFont(42, "XYZ") gStyle.SetLabelOffset(0.007, "XYZ") gStyle.SetLabelSize(0.045, "XYZ") gStyle.SetTitleFont(42, "XYZ") gStyle.SetTitleSize(0.06, "XYZ") # For the legend gStyle.SetLegendBorderSize(0)
def tdrGrid(gridOn=True): gStyle.SetPadGridX(gridOn) gStyle.SetPadGridY(gridOn) gStyle.SetGridColor(TStyle.kGray)
def main(): cc.cd() cc.SetBorderMode(0) cc.SetFixedAspectRatio(1) cc.FeedbackMode(1) gStyle.SetOptStat(0) gStyle.SetGridStyle(1) gStyle.SetGridColor(11) hh=TH2D('hh',';X;Y',22,-10.5,11.5,22,-10.5,11.5) hi=TH2I('hi',';X;Y',22,-10.5,11.5,22,-10.5,11.5) setupHists([hh,hi]) xax,yax=hh.GetXaxis(),hh.GetYaxis() hh.Draw('COLZ') hi.Draw('TEXTSAME') gPad.SetLogz() gPad.SetGrid(1,1) gPad.SetLeftMargin(0.09) gPad.SetRightMargin(0.11) #tt2=TPaveText(0.7,0.96,0.9,0.99,'NDC') ttM=TPaveText(-3+0.05, 7-4.45, 4.0, 8-4.51) tt2=TPaveText(-3+0.05, 7-5.45, 4.0, 8-5.51) ttX=TPaveText(-2, 7-8.00, 3, 8-8.00) ttY=TPaveText(-2, 7-9.00, 3, 8-9.00) ttZ=TPaveText(-2, 6-8.80, 3, 8-9.30) ttZ.AddText("positive = beam top/right") ttime=TPaveText(-10,-12.5,10,-11.8) tchan=TPaveText(0,0,0.9,1) setupPaveTexts([tt2,ttM,ttime,tchan,ttX,ttY,ttZ]) ttM.SetTextColor(2) ttM.SetFillStyle(0) ttZ.SetFillStyle(0) tt2.SetFillStyle(0) tarrow=TText(-0.9,0.7,'Beam Right') tarrow.SetTextSizePixels(15) arrow=TArrow(-1.4,0.5,2.4,0.5,0.02,'|>') arrow.SetAngle(40) arrow.SetFillColor(1) arrow.SetLineWidth(2) tt=TText() tt.SetTextColor(1) tt.SetTextAngle(90) tt.SetTextSize(0.04) tt.DrawText(12.4,0,'kHz') tt.SetTextAngle(0) tt.SetTextColor(1) tt.DrawTextNDC(0.3,0.92,'FTC FADC SCALERS') bb=TBox() bb.SetFillStyle(1001) bb.SetFillColor(0) bb.SetLineWidth(1) bb.SetLineColor(1) bb.DrawBox(-3.47,-1.47,4.47,2.46) bb.DrawBox(-1.47,-3.47,2.49,4.47) bb.DrawBox(-2.47,-2.47,3.49,3.47) cc.cd() for xx in [ttM,tt2,ttime,arrow,tarrow,ttX,ttY,ttZ]: xx.Draw() cc2.cd() tchan.Draw('NDC') cc.cd() gPad.SetEditable(0) while True: for ch in ECAL.chans: loadPV(ch) ch=ch.vals xx,yy=ch['X'],ch['Y'] #if (ch['PVVAL']>10): # print xx,yy,ch['PVVAL'] # swap x to make it downstream view: xx=-xx #after, fix the fact x=0 / y=0 don't exists if xx<0: xx+=1 if yy<0: yy+=1 hh.SetBinContent(xax.FindBin(xx),yax.FindBin(yy),ch['PVVAL']) hi.SetBinContent(xax.FindBin(xx),yax.FindBin(yy),ch['PVVAL']) for xx in [ttime,tt2,ttM,ttX,ttY]: xx.Clear() [total,maximum,top,bottom,left,right]=calcRates(ECAL.chans) tt2.AddText('Total: %.1f MHz'%(total/1000)) ttM.AddText('Max: %.0f kHz'%(maximum)) if total>1e2: xasy = (right-left)/total yasy = (top-bottom)/total ttX.AddText('X-Asy: %+.1f%%'%(100*xasy)) ttY.AddText('Y-Asy: %+.1f%%'%(100*yasy)) else: ttX.AddText('X-Asy: N/A') ttY.AddText('Y-Asy: N/A') ttime.AddText(makeTime()) if not gPad: sys.exit() if gPad.GetEvent()==11: xy=pix2xy(gPad) ee=ECAL.findChannelXY(xy[0],xy[1]) if ee: tchan.Clear() tchan.AddText(printChannel(ee)) cc2.Modified() cc2.Update() elif gPad.GetEvent()==12: tchan.Clear() cc2.Modified() cc2.Update() cc.Modified() cc.Update() time.sleep(2)
def initialize(fitresults=True, grid=False): gROOT.SetStyle("Plain") gStyle.SetOptFit() gStyle.SetOptStat(0) # For the canvas: gStyle.SetCanvasBorderMode(0) gStyle.SetCanvasColor(kWhite) gStyle.SetCanvasDefH(600) #Height of canvas gStyle.SetCanvasDefW(600) #Width of canvas gStyle.SetCanvasDefX(0) #POsition on screen gStyle.SetCanvasDefY(0) # For the Pad: gStyle.SetPadBorderMode(0) gStyle.SetPadColor(kWhite) gStyle.SetPadGridX(False) gStyle.SetPadGridY(False) gStyle.SetGridColor(0) gStyle.SetGridStyle(3) gStyle.SetGridWidth(1) # For the frame: gStyle.SetFrameBorderMode(0) gStyle.SetFrameBorderSize(1) gStyle.SetFrameFillColor(kWhite) gStyle.SetFrameFillStyle(1000) gStyle.SetFrameLineColor(1) gStyle.SetFrameLineStyle(1) gStyle.SetFrameLineWidth(1) # For the histo: gStyle.SetHistLineColor(1) gStyle.SetHistLineStyle(0) gStyle.SetHistLineWidth(2) gStyle.SetEndErrorSize(2) gStyle.SetErrorX(0.) gStyle.SetMarkerStyle(20) #For the fit/function: gStyle.SetOptFit(1) gStyle.SetFitFormat("5.4g") gStyle.SetFuncColor(2) gStyle.SetFuncStyle(1) gStyle.SetFuncWidth(1) #For the date: gStyle.SetOptDate(0) # For the statistics box: gStyle.SetOptFile(0) gStyle.SetOptStat(0) # To display the mean and RMS: SetOptStat("mr") gStyle.SetStatColor(kWhite) gStyle.SetStatFont(42) gStyle.SetStatFontSize(0.025) gStyle.SetStatTextColor(1) gStyle.SetStatFormat("6.4g") gStyle.SetStatBorderSize(1) gStyle.SetStatH(0.1) gStyle.SetStatW(0.15) # Margins: gStyle.SetPadTopMargin(0.05) gStyle.SetPadLeftMargin(0.16) gStyle.SetPadRightMargin(0.04) # top group adaption, original is 0.02 gStyle.SetPadBottomMargin(0.13) # For the Global title: gStyle.SetOptTitle(0) gStyle.SetTitleFont(42) gStyle.SetTitleColor(1) gStyle.SetTitleTextColor(1) gStyle.SetTitleFillColor(10) gStyle.SetTitleFontSize(0.05) # For the axis titles: gStyle.SetTitleColor(1, "XYZ") gStyle.SetTitleFont(42, "XYZ") gStyle.SetTitleSize(0.06, "XYZ") gStyle.SetTitleXOffset(0.9) gStyle.SetTitleYOffset(1.25) # For the axis labels: gStyle.SetLabelColor(1, "XYZ") gStyle.SetLabelFont(42, "XYZ") gStyle.SetLabelOffset(0.007, "XYZ") gStyle.SetLabelSize(0.05, "XYZ") #gStyle.SetLabelSize(0.04, "XYZ") # For the axis: gStyle.SetAxisColor(1, "XYZ") gStyle.SetStripDecimals(True) gStyle.SetTickLength(0.03, "XYZ") gStyle.SetNdivisions(510, "XYZ") gStyle.SetPadTickX(1) # To get tick marks on the opposite side of the frame gStyle.SetPadTickY(1) # Change for log plots: gStyle.SetOptLogx(0) gStyle.SetOptLogy(0) gStyle.SetOptLogz(0) gStyle.SetPalette(1) #(1,0) # another top group addition gStyle.SetHatchesSpacing(1.0) # Postscript options: gStyle.SetPaperSize(20., 20.) # For graphs gStyle.SetErrorX(0) # suppress error along x if grid: gStyle.SetPadGridX(gridOn) gStyle.SetPadGridY(gridOn) gStyle.SetGridColor(kGray)
gStyle.SetPadTickX(1) gStyle.SetPadTickY(1) #gStyle.SetTickLength(0.03, 'x') #gStyle.SetTickLength(0.03, 'y') #gStyle.SetTickLength(0.03, 'z') #gStyle.SetLineWidth(3) # set tick width gStyle.SetMarkerStyle(20) gStyle.SetMarkerSize(1.2) #----------------------------------------------------------------------------- # hist lines #----------------------------------------------------------------------------- gStyle.SetHistLineWidth(2) gStyle.SetGridWidth(1) gStyle.SetGridColor(kGray + 1) #----------------------------------------------------------------------------- # color palette #----------------------------------------------------------------------------- #gStyle.SetPalette(1) def set_palette(name='default', ncontours=200): """Set a color palette from a given RGB list stops, red, green and blue should all be lists of the same length see set_decent_colors for an example""" if name == 'gray' or name == 'grayscale': stops = [0.00, 0.34, 0.61, 0.84, 1.00] red = [1.00, 0.84, 0.61, 0.34, 0.00]
def tdrstyle(): gROOT.SetStyle("Plain") gStyle.SetAxisColor(1, "XYZ") gStyle.SetCanvasColor(0) #gStyle.SetCanvasBorderSize(10) gStyle.SetCanvasBorderMode(0) gStyle.SetCanvasDefH(700) gStyle.SetCanvasDefW(700) gStyle.SetCanvasDefX(0) gStyle.SetCanvasDefY(0) gStyle.SetFitFormat("5.4g") gStyle.SetFuncColor(2) gStyle.SetFuncStyle(1) gStyle.SetFuncWidth(1) gStyle.SetFrameBorderMode(0) gStyle.SetFrameBorderSize(1) gStyle.SetFrameFillStyle(0) gStyle.SetFrameFillColor(0) gStyle.SetFrameLineColor(1) gStyle.SetFrameLineStyle(1) # 0? gStyle.SetFrameLineWidth(1) # 1? gStyle.SetGridColor(0) gStyle.SetGridStyle(3) gStyle.SetGridWidth(1) #gStyle.SetHistFillColor(1) #gStyle.SetHistFillStyle(0) gStyle.SetHistLineColor(1) gStyle.SetHistLineStyle(0) gStyle.SetHistLineWidth(1) gStyle.SetLabelColor(1, "XYZ") gStyle.SetLabelFont(42,"XYZ") gStyle.SetLabelOffset(0.007,"XYZ") # 0.010? gStyle.SetLabelSize(0.05,"XYZ") # 0.04? gStyle.SetLegendBorderSize(0) gStyle.SetLegendFillColor(0) gStyle.SetLegendFont(42) gStyle.SetMarkerSize(1.0) gStyle.SetMarkerStyle(20) gStyle.SetLineColor(1) gStyle.SetLineWidth(2) #gStyle.SetLineScalePS(2) gStyle.SetOptDate(0) gStyle.SetOptFile(0) gStyle.SetOptFit(1) gStyle.SetOptStat(0) gStyle.SetOptTitle(0) #gStyle.SetOptLogx(0) #gStyle.SetOptLogy(0) #gStyle.SetOptLogz(0) gStyle.SetPadColor(0) gStyle.SetPadBorderMode(0) gStyle.SetPadBorderSize(10) gStyle.SetPadTopMargin(0.05) # 0.08? gStyle.SetPadBottomMargin(0.13) gStyle.SetPadLeftMargin(0.16) gStyle.SetPadRightMargin(0.03) # 0.05? gStyle.SetPadGridX(0) gStyle.SetPadGridY(0) gStyle.SetPadTickX(1) gStyle.SetPadTickY(1) gStyle.SetStatColor(0) gStyle.SetStatFont(42) gStyle.SetStatFontSize(0.025) gStyle.SetStatTextColor(1) gStyle.SetStatFormat("6.4g") gStyle.SetStatBorderSize(1) gStyle.SetStatH(0.1) gStyle.SetStatW(0.15) #gStyle.SetStatX(0) #gStyle.SetStatY(0) #gStyle.SetTextSize(0.055) gStyle.SetTextFont(42) gStyle.SetTitleBorderSize(0) gStyle.SetTitleColor(1) gStyle.SetTitleFont(42) gStyle.SetTitleColor(1,"XYZ") gStyle.SetTitleFont(42,"XYZ") gStyle.SetTitleSize(0.06,"XYZ") # 0.05? #gStyle.SetTitleOffset(1.4,"XYZ") gStyle.SetTitleOffset(0.9,"X") gStyle.SetTitleOffset(1.20,"Y") gStyle.SetTitleFillColor(10) gStyle.SetTitleFontSize(0.05) gStyle.SetTitleTextColor(1) #gStyle.SetTitleH(0) #gStyle.SetTitleW(0) #gStyle.SetTitleX(0) #gStyle.SetTitleY(0.985) #gStyle.SetTitleStyle(1001) gStyle.SetPalette(1) #gStyle.SetNdivisions(510, "XYZ") # 505? gStyle.SetNdivisions(505, "XYZ") gStyle.SetEndErrorSize(2) # 2? #gStyle.SetErrorMarker(20) #gStyle.SetErrorX(0.) #gStyle.SetPaperSize(20.,20.) gStyle.SetStripDecimals(1) gStyle.SetTickLength(0.03, "XYZ") return 1
def setStyle(): gStyle.SetPadBorderMode(0) gStyle.SetFrameBorderMode(0) gStyle.SetPadBottomMargin(0.12) gStyle.SetPadLeftMargin(0.12) gStyle.SetCanvasColor(ROOT.kWhite) gStyle.SetCanvasDefH(600) #Height of canvas gStyle.SetCanvasDefW(600) #Width of canvas gStyle.SetCanvasDefX(0) #POsition on screen gStyle.SetCanvasDefY(0) gStyle.SetPadTopMargin(0.05) gStyle.SetPadBottomMargin(0.15) #0.13); gStyle.SetPadLeftMargin(0.15) #0.16); gStyle.SetPadRightMargin(0.05) #0.02); # For the Pad: gStyle.SetPadBorderMode(0) # gStyle.SetPadBorderSize(Width_t size = 1); gStyle.SetPadColor(ROOT.kWhite) gStyle.SetPadGridX(ROOT.kFALSE) gStyle.SetPadGridY(ROOT.kFALSE) gStyle.SetGridColor(0) gStyle.SetGridStyle(3) gStyle.SetGridWidth(1) # For the frame: gStyle.SetFrameBorderMode(0) gStyle.SetFrameBorderSize(1) gStyle.SetFrameFillColor(0) gStyle.SetFrameFillStyle(0) gStyle.SetFrameLineColor(1) gStyle.SetFrameLineStyle(1) gStyle.SetFrameLineWidth(1) gStyle.SetAxisColor(1, "XYZ") gStyle.SetStripDecimals(ROOT.kTRUE) gStyle.SetTickLength(0.03, "XYZ") gStyle.SetNdivisions(505, "XYZ") gStyle.SetPadTickX(1) # To get tick marks on the opposite side of the frame gStyle.SetPadTickY(1) gStyle.SetGridColor(0) gStyle.SetGridStyle(3) gStyle.SetGridWidth(1) gStyle.SetTitleColor(1, "XYZ") gStyle.SetTitleFont(42, "XYZ") gStyle.SetTitleSize(0.05, "XYZ") # gStyle.SetTitleXSize(Float_t size = 0.02); # Another way to set the size? # gStyle.SetTitleYSize(Float_t size = 0.02); gStyle.SetTitleXOffset(1.15) #0.9); gStyle.SetTitleYOffset(1.3) # => 1.15 if exponents gStyle.SetLabelColor(1, "XYZ") gStyle.SetLabelFont(42, "XYZ") gStyle.SetLabelOffset(0.007, "XYZ") gStyle.SetLabelSize(0.045, "XYZ") gStyle.SetPadBorderMode(0) gStyle.SetFrameBorderMode(0) gStyle.SetTitleTextColor(1) gStyle.SetTitleFillColor(10) gStyle.SetTitleFontSize(0.05)
import os from os.path import join, getsize from ROOT import TFile, TProfile, TF1, TMath, TH1F, TCanvas, TPostScript, TGraphErrors from ROOT import gDirectory from math import fabs from os import path import sys from ROOT import * from ROOT import gROOT, gRandom, gStyle from ROOT import TCanvas, TF1, TH1F, TH2F, TGLabel gROOT.Reset() gROOT.SetStyle("Pub") gStyle.SetPadColor(10) gStyle.SetGridColor(16) gStyle.SetFrameFillColor(10) gStyle.SetFillColor(10) gStyle.SetTitleFillColor(10) gStyle.SetTitleBorderSize(0) gStyle.SetCanvasColor(10) gStyle.SetStatColor(10) gStyle.SetLabelSize(0.08, "xyz") gStyle.SetTitleSize(0.08, "xyz") gStyle.SetFrameLineWidth(1) gStyle.SetHistLineWidth(1) gStyle.SetNdivisions(510, "x") gStyle.SetNdivisions(508, "y") gStyle.SetNdivisions(8, "z") gStyle.SetTickLength(0.03, "x") gStyle.SetTickLength(0.03, "y")
def initStyle(): gROOT.SetStyle("Plain") # For the canvas: gStyle.SetCanvasBorderMode(0) gStyle.SetCanvasColor(kWhite) gStyle.SetCanvasDefH(700) #Height of canvas gStyle.SetCanvasDefW(700) #Width of canvas gStyle.SetCanvasDefX(0) #Position on screen gStyle.SetCanvasDefY(0) # For the line: gStyle.SetLineWidth(2) # For the Pad: gStyle.SetPadBorderMode(0) # gStyle.SetPadBorderSize(Width_t size = 1) gStyle.SetPadColor(kWhite) gStyle.SetPadGridX(True) gStyle.SetPadGridY(True) gStyle.SetGridColor(0) gStyle.SetGridStyle(3) gStyle.SetGridWidth(1) # For the frame: gStyle.SetFrameBorderMode(0) gStyle.SetFrameBorderSize(1) gStyle.SetFrameFillColor(0) gStyle.SetFrameFillStyle(0) gStyle.SetFrameLineColor(1) gStyle.SetFrameLineStyle(1) gStyle.SetFrameLineWidth(1) # For the histo: # gStyle.SetHistFillColor(1) # gStyle.SetHistFillStyle(0) gStyle.SetHistLineColor(1) gStyle.SetHistLineStyle(0) gStyle.SetHistLineWidth(2) # gStyle.SetLegoInnerR(Float_t rad = 0.5) # gStyle.SetNumberContours(Int_t number = 20) gStyle.SetEndErrorSize(2) #gStyle.SetErrorMarker(20) gStyle.SetErrorX(0.) gStyle.SetMarkerStyle(8) gStyle.SetMarkerSize(1) #For the fit/function: gStyle.SetOptFit(0) gStyle.SetFitFormat("5.4g") gStyle.SetFuncColor(2) gStyle.SetFuncStyle(1) gStyle.SetFuncWidth(1) #For the date: gStyle.SetOptDate(0) # gStyle.SetDateX(Float_t x = 0.01) # gStyle.SetDateY(Float_t y = 0.01) # For the statistics box: gStyle.SetOptFile(0) gStyle.SetOptStat(0) # To display the mean and RMS: SetOptStat("mr") gStyle.SetStatColor(kWhite) gStyle.SetStatFont(42) gStyle.SetStatFontSize(0.025) gStyle.SetStatTextColor(1) gStyle.SetStatFormat("6.4g") gStyle.SetStatBorderSize(1) gStyle.SetStatH(0.1) gStyle.SetStatW(0.15) # gStyle.SetStatStyle(Style_t style = 1001) # gStyle.SetStatX(Float_t x = 0) # gStyle.SetStatY(Float_t y = 0) # Margins: gStyle.SetPadTopMargin(0.11) gStyle.SetPadBottomMargin(0.13) gStyle.SetPadLeftMargin(0.17) gStyle.SetPadRightMargin(0.07) # For the Global title: gStyle.SetOptTitle(0) gStyle.SetTitleFont(42) gStyle.SetTitleColor(1) gStyle.SetTitleTextColor(1) gStyle.SetTitleFillColor(10) gStyle.SetTitleFontSize(0.04) # gStyle.SetTitleH(0) # Set the height of the title box # gStyle.SetTitleW(0) # Set the width of the title box #gStyle.SetTitleX(0.35) # Set the position of the title box #gStyle.SetTitleY(0.986) # Set the position of the title box # gStyle.SetTitleStyle(Style_t style = 1001) #gStyle.SetTitleBorderSize(0) # For the axis titles: gStyle.SetTitleColor(1, "XYZ") gStyle.SetTitleFont(42, "XYZ") gStyle.SetTitleSize(0.05, "XYZ") # gStyle.SetTitleXSize(Float_t size = 0.02) # Another way to set the size? # gStyle.SetTitleYSize(Float_t size = 0.02) gStyle.SetTitleXOffset(1.) gStyle.SetTitleYOffset(1.3) #gStyle.SetTitleOffset(1.1, "Y") # Another way to set the Offset # For the axis labels: gStyle.SetLabelColor(1, "XYZ") gStyle.SetLabelFont(42, "XYZ") gStyle.SetLabelOffset(0.007, "XYZ") gStyle.SetLabelSize(0.035, "XYZ") # For the axis: gStyle.SetAxisColor(1, "XYZ") gStyle.SetStripDecimals(True) gStyle.SetTickLength(0.03, "XYZ") gStyle.SetNdivisions(510, "XYZ") gStyle.SetPadTickX( 1) # To get tick marks on the opposite side of the frame gStyle.SetPadTickY(1) # Change for log plots: gStyle.SetOptLogx(0) gStyle.SetOptLogy(0) gStyle.SetOptLogz(0) gStyle.SetPalette(1) #(1,0) # another top group addition gStyle.SetHatchesSpacing(1.0) # Postscript options: gStyle.SetPaperSize(20., 20.) #gStyle.SetPaperSize(TStyle.kA4) #gStyle.SetPaperSize(27., 29.7) #TGaxis.SetMaxDigits(3) # gStyle.SetLineScalePS(Float_t scale = 3) # gStyle.SetLineStyleString(Int_t i, const char* text) # gStyle.SetHeaderPS(const char* header) # gStyle.SetTitlePS(const char* pstitle) #gStyle.SetColorModelPS(1) # gStyle.SetBarOffset(Float_t baroff = 0.5) # gStyle.SetBarWidth(Float_t barwidth = 0.5) # gStyle.SetPaintTextFormat(const char* format = "g") # gStyle.SetPalette(Int_t ncolors = 0, Int_t* colors = 0) # gStyle.SetTimeOffset(Double_t toffset) # gStyle.SetHistMinimumZero(kTRUE) #gStyle.cd() print "TDR Style initialized"
def setTDRStyle(force): gStyle.SetCanvasBorderMode(0) gStyle.SetCanvasColor(kWhite) gStyle.SetCanvasDefH(600) gStyle.SetCanvasDefW(600) gStyle.SetCanvasDefX(0) gStyle.SetCanvasDefY(0) gStyle.SetPadBorderMode(0) gStyle.SetPadColor(kWhite) gStyle.SetPadGridX(False) gStyle.SetPadGridY(False) gStyle.SetGridColor(0) gStyle.SetGridStyle(3) gStyle.SetGridWidth(1) gStyle.SetFrameBorderMode(0) gStyle.SetFrameBorderSize(1) gStyle.SetFrameFillColor(0) gStyle.SetFrameFillStyle(0) gStyle.SetFrameLineColor(1) gStyle.SetFrameLineStyle(1) gStyle.SetFrameLineWidth(1) if force: gStyle.SetHistLineColor(1) gStyle.SetHistLineStyle(0) gStyle.SetHistLineWidth(1) gStyle.SetEndErrorSize(2) gStyle.SetErrorX(0.) gStyle.SetMarkerStyle(20) gStyle.SetOptFit(1) gStyle.SetFitFormat("5.4g") gStyle.SetFuncColor(2) gStyle.SetFuncStyle(1) gStyle.SetFuncWidth(1) gStyle.SetOptDate(0) gStyle.SetOptFile(0) gStyle.SetOptStat(0) gStyle.SetStatColor(kWhite) gStyle.SetStatFont(42) gStyle.SetStatFontSize(0.04) gStyle.SetStatTextColor(1) gStyle.SetStatFormat("6.4g") gStyle.SetStatBorderSize(1) gStyle.SetStatH(0.1) gStyle.SetStatW(0.2) gStyle.SetPadTopMargin(0.05) gStyle.SetPadBottomMargin(0.13) gStyle.SetPadLeftMargin(0.16) gStyle.SetPadRightMargin(0.04) gStyle.SetOptTitle(0) gStyle.SetTitleFont(42) gStyle.SetTitleColor(1) gStyle.SetTitleTextColor(1) gStyle.SetTitleFillColor(10) gStyle.SetTitleFontSize(0.05) gStyle.SetTitleColor(1, "XYZ") gStyle.SetTitleFont(42, "XYZ") gStyle.SetTitleSize(0.06, "XYZ") gStyle.SetTitleXOffset(0.9) gStyle.SetTitleYOffset(1.25) gStyle.SetLabelColor(1, "XYZ") gStyle.SetLabelFont(42, "XYZ") gStyle.SetLabelOffset(0.007, "XYZ") gStyle.SetLabelSize(0.05, "XYZ") gStyle.SetAxisColor(1, "XYZ") gStyle.SetStripDecimals(True) gStyle.SetTickLength(0.03, "XYZ") gStyle.SetNdivisions(510, "XYZ") gStyle.SetPadTickX(1) gStyle.SetPadTickY(1) gStyle.SetOptLogx(0) gStyle.SetOptLogy(0) gStyle.SetOptLogz(0) gStyle.SetPaperSize(20.,20.) gROOT.ForceStyle()
def main(): if True: mf=TGMainFrame(gClient.GetRoot(),1500,475) gvf=TGVerticalFrame(mf,1500,475) rec=TRootEmbeddedCanvas("ccc",gvf,1500,450) rec2=TRootEmbeddedCanvas("ccc2",gvf,1500,25) gvf.AddFrame(rec,TGLayoutHints(ROOT.kLHintsExpandX|ROOT.kLHintsTop)) gvf.AddFrame(rec2,TGLayoutHints(ROOT.kLHintsExpandX|ROOT.kLHintsBottom)) mf.AddFrame(gvf,TGLayoutHints(ROOT.kLHintsExpandX)) cc=rec.GetCanvas() cc2=rec2.GetCanvas() mf.SetEditable(0) mf.SetWindowName('HPS ECAL FADC SCALERS') mf.MapSubwindows() mf.Resize(1501,476)# resize to get proper frame placement mf.MapWindow() else: cc=TCanvas('cc','',1500,450) cc.cd() cc.SetBorderMode(0) cc.SetFixedAspectRatio(1) cc.FeedbackMode(1) gStyle.SetOptStat(0) gStyle.SetGridStyle(1) gStyle.SetGridColor(11) hh=TH2D('hh',';X;Y',46,-22,24,11,-5,6) hi=TH2I('hi',';X;Y',46,-22,24,11,-5,6) setupHists([hh,hi]) xax,yax=hh.GetXaxis(),hh.GetYaxis() hh.Draw('COLZ') hi.Draw('TEXTSAME') gPad.SetLogz() gPad.SetGrid(1,1) gPad.SetLeftMargin(0.05) tt1=TPaveText(0.1,0.9,0.3,1.0,'NDC') tt2=TPaveText(0.7,0.91,0.9,0.99,'NDC') ttT=TPaveText(-22+13+0.05,6-5,-22+22,7-5-0.05) ttB=TPaveText(-22+13+0.05,4-5+0.05,-22+22,5-5) ttM=TPaveText(-22+0+0.05,5-5+0.05,-22+13,6-5.01) ttime=TPaveText(-10,-6.5,10,-5.8) tchan=TPaveText(0,0,0.9,1) setupPaveTexts([tt1,tt2,ttT,ttB,ttM,ttime,tchan]) ttM.SetTextColor(2) bb=TBox() bb.SetFillStyle(1001) bb.SetFillColor(0) bb.SetLineWidth(1) bb.SetLineColor(1) bb.DrawBox(-9+0.05,-1,0,1.97) bb.DrawBox(-24,0,24.05,0.97) tarrow=TText(14.5,0.3,'Beam Left') arrow=TArrow(19,0.5,23,0.5,0.02,'|>') arrow.SetAngle(40) arrow.SetFillColor(1) arrow.SetLineWidth(2) tt=TText() tt.SetTextColor(1) tt.SetTextAngle(90) tt.SetTextSize(0.08) tt.DrawText(25.4,0,'kHz') tt.SetTextAngle(0) tt.SetTextColor(2) tt.DrawTextNDC(0.3,0.92,'ECAL FADC SCALERS') cc.cd() for xx in [tt2,ttT,ttB,ttM,arrow,tarrow,ttime]: xx.Draw() cc2.cd() tchan.Draw('NDC') cc.cd() ll=TLine() ll.DrawLine(xax.GetXmin(),yax.GetXmin(),xax.GetXmax(),yax.GetXmin()) ll.DrawLine(xax.GetXmin(),yax.GetXmax(),xax.GetXmax(),yax.GetXmax()) ll.DrawLine(xax.GetXmin(),yax.GetXmin(),xax.GetXmin(),0) ll.DrawLine(xax.GetXmax(),yax.GetXmin(),xax.GetXmax(),0) ll.DrawLine(xax.GetXmin(),yax.GetXmax(),xax.GetXmin(),1) ll.DrawLine(xax.GetXmax(),yax.GetXmax(),xax.GetXmax(),1) ll.DrawLine(xax.GetXmax(),0,0,0) ll.DrawLine(xax.GetXmax(),1,0,1) ll.DrawLine(xax.GetXmin(),0,-9,0) ll.DrawLine(xax.GetXmin(),1,-9,1) ll.DrawLine(-9,-1,0,-1) ll.DrawLine(-9,2,0,2) ll.DrawLine(-9,1,-9,2) ll.DrawLine(-9,-1,-9,0) ll.DrawLine(0,-1,0,0) ll.DrawLine(0,1,0,2) gPad.SetEditable(0) while True: # try: zvals=getPVS() for ii in range(len(zvals)): hh.SetBinContent(xax.FindBin(XVALS[ii]),yax.FindBin(YVALS[ii]),zvals[ii]) hi.SetBinContent(xax.FindBin(XVALS[ii]),yax.FindBin(YVALS[ii]),zvals[ii]) for xx in [ttime,tt2,ttT,ttB,ttM]: xx.Clear() [top,bottom,maximum]=calcRates(zvals) tt2.AddText('Total: %.1f MHz'%((top+bottom)/1000)) ttT.AddText('%.1f MHz'%(top/1000)) ttB.AddText('%.1f MHz'%(bottom/1000)) ttM.AddText('MAX SINGLE CRYSTAL = %.0f kHz'%(maximum)) ttime.AddText(makeTime()) if gPad.GetEvent()==11: xy=pix2xy(gPad) ee=ECAL.findChannelXY(xy[0],xy[1]) if ee: tchan.Clear() tchan.AddText(printChannel(ee)) cc2.Modified() cc2.Update() elif gPad.GetEvent()==12: tchan.Clear() cc2.Modified() cc2.Update() cc.Modified() cc.Update() time.sleep(1)
def initialize2(self): # For the canvas: gStyle.SetCanvasBorderMode(0) gStyle.SetCanvasColor(kWhite) gStyle.SetCanvasDefH(600) #Height of canvas gStyle.SetCanvasDefW(600) #Width of canvas gStyle.SetCanvasDefX(0) #POsition on screen gStyle.SetCanvasDefY(0) # For the Pad: gStyle.SetPadBorderMode(0) # gStyle.SetPadBorderSize(Width_t size = 1) gStyle.SetPadColor(kWhite) gStyle.SetPadGridX(False) gStyle.SetPadGridY(False) gStyle.SetGridColor(0) gStyle.SetGridStyle(3) gStyle.SetGridWidth(1) # For the frame: gStyle.SetFrameBorderMode(0) gStyle.SetFrameBorderSize(1) gStyle.SetFrameFillStyle(1000) gStyle.SetFrameFillColor(0) gStyle.SetFrameFillStyle(0) gStyle.SetFrameLineColor(1) gStyle.SetFrameLineStyle(1) gStyle.SetFrameLineWidth(1) # For the histo: # gStyle.SetHistFillColor(1) # gStyle.SetHistFillStyle(0) gStyle.SetHistLineColor(1) gStyle.SetHistLineStyle(0) gStyle.SetHistLineWidth(1) # gStyle.SetLegoInnerR(Float_t rad = 0.5) # gStyle.SetNumberContours(Int_t number = 20) gStyle.SetEndErrorSize(2) # gStyle.SetErrorMarker(20) gStyle.SetErrorX(0.) gStyle.SetMarkerStyle(20) #For the fit/function: gStyle.SetOptFit(1) gStyle.SetFitFormat("5.4g") gStyle.SetFuncColor(2) gStyle.SetFuncStyle(1) gStyle.SetFuncWidth(1) #For the date: gStyle.SetOptDate(0) # gStyle.SetDateX(Float_t x = 0.01) # gStyle.SetDateY(Float_t y = 0.01) # For the statistics box: gStyle.SetOptFile(0) gStyle.SetOptStat( 0) # To display the mean and RMS: SetOptStat("mr") gStyle.SetStatColor(kWhite) gStyle.SetStatFont(42) gStyle.SetStatFontSize(0.025) gStyle.SetStatTextColor(1) gStyle.SetStatFormat("6.4g") gStyle.SetStatBorderSize(1) gStyle.SetStatH(0.1) gStyle.SetStatW(0.15) # gStyle.SetStatStyle(Style_t style = 1001) # gStyle.SetStatX(Float_t x = 0) # gStyle.SetStatY(Float_t y = 0) # Margins: gStyle.SetPadTopMargin(0.05) gStyle.SetPadBottomMargin(0.13) gStyle.SetPadLeftMargin(0.16) gStyle.SetPadRightMargin(0.02) # For the Global title: gStyle.SetOptTitle(0) gStyle.SetTitleFont(42) gStyle.SetTitleColor(1) gStyle.SetTitleTextColor(1) gStyle.SetTitleFillColor(10) gStyle.SetTitleFontSize(0.05) # gStyle.SetTitleH(0) # Set the height of the title box # gStyle.SetTitleW(0) # Set the width of the title box # gStyle.SetTitleX(0) # Set the position of the title box # gStyle.SetTitleY(0.985) # Set the position of the title box # gStyle.SetTitleStyle(Style_t style = 1001) # gStyle.SetTitleBorderSize(2) # For the axis titles: gStyle.SetTitleColor(1, "XYZ") gStyle.SetTitleFont(42, "XYZ") gStyle.SetTitleSize(0.06, "XYZ") # gStyle.SetTitleXSize(Float_t size = 0.02) # Another way to set the size? # gStyle.SetTitleYSize(Float_t size = 0.02) gStyle.SetTitleXOffset(0.9) gStyle.SetTitleYOffset(1.25) # gStyle.SetTitleOffset(1.1, "Y") # Another way to set the Offset # For the axis labels: gStyle.SetLabelColor(1, "XYZ") gStyle.SetLabelFont(42, "XYZ") gStyle.SetLabelOffset(0.007, "XYZ") gStyle.SetLabelSize(0.05, "XYZ") # For the axis: gStyle.SetAxisColor(1, "XYZ") gStyle.SetStripDecimals(True) gStyle.SetTickLength(0.03, "XYZ") gStyle.SetNdivisions(510, "XYZ") gStyle.SetPadTickX( 1) # To get tick marks on the opposite side of the frame gStyle.SetPadTickY(1) # Change for log plots: gStyle.SetOptLogx(0) gStyle.SetOptLogy(0) gStyle.SetOptLogz(0) # Postscript options: gStyle.SetPaperSize(20., 20.)
def main(): cc.cd() cc.SetBorderMode(0) cc.SetFixedAspectRatio(1) cc.FeedbackMode(1) gStyle.SetOptStat(0) gStyle.SetGridStyle(1) gStyle.SetGridColor(18) hh = TH2D('hh', ';X;Y', 8 * 28, 0, 28, 8 * 23, 0, 23) hi = TH2I('hi', ';X;Y', 8 * 28, 0, 28, 8 * 23, 0, 23) setupHists([hh, hi]) xax, yax = hh.GetXaxis(), hh.GetYaxis() hh.Draw('COLZ') hh.SetMinimum(1) hh.SetMaximum(1.5e3) #hi.Draw('TEXTSAME') gPad.SetLogz() gPad.SetGrid(1, 1) gPad.SetLeftMargin(0.09) gPad.SetRightMargin(0.11) #tt2=TPaveText(0.7,0.96,0.9,0.99,'NDC') ttM = TPaveText(-3 + 0.05, 7 - 4.45, 4.0, 8 - 4.51) tt2 = TPaveText(-3 + 0.05, 7 - 5.45, 4.0, 8 - 5.51) ttX = TPaveText(-2, 7 - 8.00, 3, 8 - 8.00) ttY = TPaveText(-2, 7 - 9.00, 3, 8 - 9.00) ttime = TPaveText(8, -2, 20, -1) tchan = TPaveText(0, 0, 0.9, 1) setupPaveTexts([tt2, ttM, ttime, tchan, ttX, ttY]) ttM.SetTextColor(2) ttM.SetFillStyle(0) tt2.SetFillStyle(0) tt = TText() tt.SetTextColor(1) tt.SetTextAngle(90) tt.SetTextSize(0.04) tt.DrawText(29.5, 10, 'kHz') tt.SetTextAngle(0) tt.SetTextColor(1) tt.DrawTextNDC(0.3, 0.92, 'RICH SSP Scalers') # bb=TBox() # bb.SetFillStyle(1001) # bb.SetFillColor(0) # bb.SetLineWidth(1) # bb.SetLineColor(1) # bb.DrawBox(-3.47,-1.47,4.47,2.46) # bb.DrawBox(-1.47,-3.47,2.49,4.47) # bb.DrawBox(-2.47,-2.47,3.49,3.47) cc.cd() for xx in [ttime]: xx.Draw() #ttM,tt2,ttime,ttX,ttY]: xx.Draw() cc2.cd() tchan.Draw('NDC') cc.cd() gPad.SetEditable(0) while True: for ch in ECAL.chans: loadPV(ch) ch = ch.vals xx, yy = ch['X'], ch['Y'] data = ch['PVVAL'] for ix in range(8): for iy in range(8): ii = ix * 8 + iy #print ch['PVNAME'],data[ii] xoff = float(ix) / 8 yoff = float(iy) / 8 hh.SetBinContent(xax.FindBin(xx + xoff), yax.FindBin(yy + yoff), data[ii]) # hi.SetBinContent(xax.FindBin(xx+xoff),yax.FindBin(yy+yoff),data[ii]) # for xx in [ttime]: ttime.Clear() # xx.,tt2,ttM,ttX,ttY]: xx.Clear() # [total,maximum,top,bottom,left,right]=calcRates(ECAL.chans) # tt2.AddText('Total: %.1f MHz'%(total/1000)) # ttM.AddText('Max: %.0f kHz'%(maximum)) # if total>1e2: # xasy = (right-left)/total # yasy = (top-bottom)/total # ttX.AddText('X-Asy: %+.1f%%'%(100*xasy)) # ttY.AddText('Y-Asy: %+.1f%%'%(100*yasy)) # else: # ttX.AddText('X-Asy: N/A') # ttY.AddText('Y-Asy: N/A') ttime.AddText(makeTime()) if not gPad: sys.exit() # if gPad.GetEvent()==11: # xy=pix2xy(gPad) # ee=ECAL.findChannelXY(xy[0],xy[1]) # if ee: # tchan.Clear() # tchan.AddText(printChannel(ee)) # cc2.Modified() # cc2.Update() # elif gPad.GetEvent()==12: # tchan.Clear() # cc2.Modified() # cc2.Update() cc.Modified() cc.Update() time.sleep(1)