def __init__(self, model, fitter):
self._container = []
self.model = model
self.fitter = fitter
ColorBase.kBird()
gStyle.SetOptStat(0)
TGMainFrame.__init__(self, 0, 300, 300)
self.SetLayoutManager(TGHorizontalLayout(self))
self._fitCol = TGVerticalFrame(self, 250, 500)
self._fitPars = {}
for par in self.model.parameters():
if par.is_formula() or match('^[xy]0[12][12]$', par.GetName()) or (
par.isConstant() and not par.GetName().endswith('VtxRes')
):
continue
row = TGHorizontalFrame(self._fitCol, 250, 50)
label = TGLabel(row, par.GetName())
entry = TGNumberEntry(row, par.val(), 10, kNESRealThree)
row.AddFrame(label, TGLayoutHints(kLHintsExpandX, 5, 5, 5, 5))
row.AddFrame(entry)
self._fitCol.AddFrame(row, TGLayoutHints(kLHintsExpandX))
self._container.append(row)
self._container.append(label)
self._fitPars[par.GetName()] = entry
self.AddFrame(self._fitCol)
self._physCol = TGVerticalFrame(self, 250, 500)
self._physPars = {}
for par in self.model.parameters():
if (
not par.is_formula() and
not match('^[xy]0[12][12]$', par.GetName()) and
(not par.isConstant() or par.GetName().endswith('VtxRes'))
):
continue
row = TGHorizontalFrame(self._physCol, 250, 50)
label = TGLabel(row, par.GetName())
entry = TGNumberEntry(row, par.val(), 10, kNESRealThree)
entry.SetState(False)
row.AddFrame(label, TGLayoutHints(kLHintsExpandX, 5, 5, 5, 5))
row.AddFrame(entry)
self._physCol.AddFrame(row, TGLayoutHints(kLHintsExpandX))
self._container.append(row)
self._container.append(label)
self._physPars[par.GetName()] = entry
self.AddFrame(self._physCol)
self._metaCol = TGVerticalFrame(self, 250, 500)
self._metaPars = {}
for par in ['chi2/dof', 'nll']:
row = TGHorizontalFrame(self._metaCol, 250, 50)
label = TGLabel(row, par)
entry = TGNumberEntry(row, 0.0, 10, kNESRealThree)
entry.SetState(False)
row.AddFrame(label, TGLayoutHints(kLHintsExpandX, 5, 5, 5, 5))
row.AddFrame(entry)
self._metaCol.AddFrame(row, TGLayoutHints(kLHintsExpandX))
self._container.append(row)
self._container.append(label)
self._metaPars[par] = entry
self._computeBtn = TGTextButton(self._metaCol, 'Compute', 10)
self._fitBtn = TGTextButton(self._metaCol, 'Fit data', 10)
self._drawBtn = TGTextButton(self._metaCol, 'Draw model', 10)
for btn in [self._computeBtn, self._fitBtn, self._drawBtn]:
self._metaCol.AddFrame(btn, TGLayoutHints(kLHintsExpandX, 5,5,5,5))
self.AddFrame(self._metaCol)
self._canvCol = [TGVerticalFrame(self, 250, 500) for i in range(2)]
self._canvas = [TRootEmbeddedCanvas(
'ce{0}'.format(i), self._canvCol[i%2], 250, 250
) for i in range(4)]
for i in range(2):
self.AddFrame(self._canvCol[i], TGLayoutHints(
kLHintsExpandX | kLHintsExpandY
))
self._canvCol[i].AddFrame(self._canvas[i], TGLayoutHints(
kLHintsExpandX | kLHintsExpandY
))
self._canvCol[i].AddFrame(self._canvas[i+2], TGLayoutHints(
kLHintsExpandX | kLHintsExpandY
))
self._computeBtnDisp = TPyDispatcher(self.computeBtnClicked)
self._computeBtn.Connect(
'Clicked()', 'TPyDispatcher', self._computeBtnDisp, 'Dispatch()'
)
self._fitBtnDisp = TPyDispatcher(self.fitBtnClicked)
self._fitBtn.Connect(
'Clicked()', 'TPyDispatcher', self._fitBtnDisp, 'Dispatch()'
)
self._drawBtnDisp = TPyDispatcher(self.drawBtnClicked)
self._drawBtn.Connect(
'Clicked()', 'TPyDispatcher', self._drawBtnDisp, 'Dispatch()'
)
self.SetWindowName('{0} Parameters'.format(self.model.name()))
self.MapSubwindows()
self.Resize(self.GetDefaultSize())
self.MapWindow()
for par in self.model.parameters():
if match('^[xy]0[12][12]$', par.GetName()) or par.is_formula():
continue
par.setConstant()
def setupPaveTexts(pts):
for pt in pts:
pt.SetTextColor(1)
pt.SetTextAngle(0)
pt.SetFillColor(0)
pt.SetBorderSize(0)
pt.SetLineWidth(0)
#mf=ROOT.TGMainFrame(gClient.GetRoot(),1500,475)
mf = ROOT.TGMainFrame(0, 900, 925)
gvf = TGVerticalFrame(mf, 900, 925)
rec = TRootEmbeddedCanvas("ccc", gvf, 800, 800)
rec2 = TRootEmbeddedCanvas("ccc2", gvf, 800, 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('SHMS PCAL FADC SCALERS')
mf.MapSubwindows()
mf.Resize(901, 926) # resize to get proper frame placement
mf.MapWindow()
mf.SetCleanup(ROOT.kDeepCleanup)
def __atexit__():
del cc2
del cc
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)