def openTunePlot(self):
mach, lat = self.getCurrentMachLattice()
nu = lat.getElementList('tune')
pvs = [(e.pv(field="x",
handle="readback")[0], e.pv(field="y",
handle="readback")[0])
for e in nu]
labels = [e.name for e in nu]
twiss = lat.getElementList("VA")
pvs.extend([(e.pv(field="nux", handle="readback")[0],
e.pv(field="nuy", handle="readback")[0]) for e in twiss])
labels.extend([e.name for e in twiss])
p = ApMdiSubPlot(pvs=pvs, labels=labels, dtype="Tunes")
#QObject.installEventFilter(p.aplot)
#p.data = ManagedPvData(pvm, s, pvs, element=elemnames,
# label="{0}.{1}".format(elem,field))
p.setAttribute(Qt.WA_DeleteOnClose)
p.setWindowTitle("[%s.%s] Tunes" % (mach, lat.name))
self.connect(p, SIGNAL("elementSelected(PyQt_PyObject)"),
self.elementSelected)
self.connect(p, SIGNAL("destroyed()"), self.subPlotDestroyed)
#p.updatePlot()
# set the zoom stack
#p.aplot.setErrorBar(self.error_bar)
#p.wid.autoScaleXY()
#p.aplot.replot()
self.mdiarea.addSubWindow(p)
#print "Show"
p.show()
def openTunePlot(self):
mach, lat = self.getCurrentMachLattice()
nu = lat.getElementList('tune')
pvs = [(e.pv(field="x", handle="readback")[0],
e.pv(field="y", handle="readback")[0])
for e in nu]
labels = [e.name for e in nu]
twiss = lat.getElementList("VA")
pvs.extend([(e.pv(field="nux", handle="readback")[0],
e.pv(field="nuy", handle="readback")[0])
for e in twiss])
labels.extend([e.name for e in twiss])
p = ApMdiSubPlot(pvs=pvs, labels=labels, dtype = "Tunes")
#QObject.installEventFilter(p.aplot)
#p.data = ManagedPvData(pvm, s, pvs, element=elemnames,
# label="{0}.{1}".format(elem,field))
p.setAttribute(Qt.WA_DeleteOnClose)
p.setWindowTitle("[%s.%s] Tunes" % (mach, lat.name))
self.connect(p, SIGNAL("elementSelected(PyQt_PyObject)"),
self.elementSelected)
self.connect(p, SIGNAL("destroyed()"), self.subPlotDestroyed)
#p.updatePlot()
# set the zoom stack
#p.aplot.setErrorBar(self.error_bar)
#p.wid.autoScaleXY()
#p.aplot.replot()
self.mdiarea.addSubWindow(p)
#print "Show"
p.show()
def measDispersion(self):
p = ApMdiSubPlot(live=False)
p.setAttribute(Qt.WA_DeleteOnClose)
curves = [
p.aplot.curve1,
p.aplot.addCurve(), # x and xref
p.aplot.addCurve(),
p.aplot.addCurve() # y and yref
]
for curv in curves:
curv.setStyle(Qwt.QwtPlotCurve.Lines)
curves[0].setPen(QPen(Qt.red, 1.3, Qt.DashLine))
curves[1].setPen(QPen(Qt.red, 1.5))
curves[2].setPen(QPen(Qt.blue, 1.3, Qt.DashLine))
curves[3].setPen(QPen(Qt.blue, 1.5))
curves[2].setSymbol(
Qwt.QwtSymbol(Qwt.QwtSymbol.Triangle, QBrush(Qt.blue),
QPen(Qt.black, 1), QSize(8, 8)))
#p.aplot.curve1.setStyle(Qwt.QwtPlotCurve.)
#p.setWindowTitle("[%s.%s] %s %s" % (mach, lat, title, fld))
self.mdiarea.addSubWindow(p)
#print "Show"
p.show()
#plots.append(p)
#bpms = ap.getGroupMembers(['C20', 'BPM']) + \
# ap.getGroupMembers(['C21', 'BPM'])
bpms = ap.getElements('BPM')
xl = min([q.sb for q in bpms])
xr = max([q.se for q in bpms])
s, btx, bty = [], [], []
try:
etaref = ap.getEta([q.name for q in bpms], spos=True)
curves[1].setData(etaref[:, -1], etaref[:, 0], None)
curves[3].setData(etaref[:, -1], etaref[:, 1], None)
fullmagprof = ap.machines.getLattice().getBeamlineProfile()
magprof = [v for v in fullmagprof if max(v[0]) > xl \
and min(v[0]) < xr]
p.aplot.setMagnetProfile(magprof)
#p.wid.autoScaleXY()
p.aplot.replot()
disp = ap.measDispersion(bpms, verbose=2)
curves[0].setData(disp[:, -1], disp[:, 0], None)
curves[2].setData(disp[:, -1], disp[:, 1], None)
p.wid.autoScaleXY()
p.aplot.replot()
_logger.info("dispersion eta measured")
except:
_logger.error("error at measEta")
raise
_logger.info("finished eta measurement.")
def measDispersion(self):
p = ApMdiSubPlot(live=False)
p.setAttribute(Qt.WA_DeleteOnClose)
curves = [p.aplot.curve1, p.aplot.addCurve(), # x and xref
p.aplot.addCurve(), p.aplot.addCurve() # y and yref
]
for curv in curves: curv.setStyle(Qwt.QwtPlotCurve.Lines)
curves[0].setPen(QPen(Qt.red, 1.3, Qt.DashLine))
curves[1].setPen(QPen(Qt.red, 1.5))
curves[2].setPen(QPen(Qt.blue, 1.3, Qt.DashLine))
curves[3].setPen(QPen(Qt.blue, 1.5))
curves[2].setSymbol(Qwt.QwtSymbol(Qwt.QwtSymbol.Triangle,
QBrush(Qt.blue),
QPen(Qt.black, 1),
QSize(8, 8)))
#p.aplot.curve1.setStyle(Qwt.QwtPlotCurve.)
#p.setWindowTitle("[%s.%s] %s %s" % (mach, lat, title, fld))
self.mdiarea.addSubWindow(p)
#print "Show"
p.show()
#plots.append(p)
#bpms = ap.getGroupMembers(['C20', 'BPM']) + \
# ap.getGroupMembers(['C21', 'BPM'])
bpms = ap.getElements('BPM')
xl = min([q.sb for q in bpms])
xr = max([q.se for q in bpms])
s, btx, bty = [], [], []
try:
etaref = ap.getEta([q.name for q in bpms], spos=True)
curves[1].setData(etaref[:,-1], etaref[:,0], None)
curves[3].setData(etaref[:,-1], etaref[:,1], None)
fullmagprof = ap.machines.getLattice().getBeamlineProfile()
magprof = [v for v in fullmagprof if max(v[0]) > xl \
and min(v[0]) < xr]
p.aplot.setMagnetProfile(magprof)
#p.wid.autoScaleXY()
p.aplot.replot()
disp = ap.measDispersion(bpms, verbose=2)
curves[0].setData(disp[:,-1], disp[:,0], None)
curves[2].setData(disp[:,-1], disp[:,1], None)
p.wid.autoScaleXY()
p.aplot.replot()
_logger.info("dispersion eta measured")
except:
_logger.error("error at measEta")
raise
_logger.info("finished eta measurement.")
def newElementPlots(self, elem, fields, **kw):
self.logger.info("new plots: %s %s" % (elem, fields))
_mach, _lat, _pvm = self.getCurrentMachLattice(cadata=True)
mach, lat = kw.get("machlat", (_mach, _lat))
handle = kw.get("handle", "readback")
elems = lat.getElementList(elem)
x, pvs = [], []
field_list = re.findall(r'[^ ,]+', fields)
for fld in field_list:
si, pvsi = [], []
for e in elems:
if not e.isEnabled(): continue
epv = e.pv(field=fld, handle=handle)
if not epv: continue
pvsi.append(epv[0])
si.append(e.sb)
x.append(si)
pvs.append(pvsi)
if not pvs:
self.logger.error("no data found for elements '{0}' "
"and field '{1}'".format(elem, field))
return
p = ApMdiSubPlot(pvs=pvs,
x=x,
labels=["%s.%s" % (elem, fld) for fld in field_list],
magprof=lat.getBeamlineProfile(),
iqt=self.iqtApp,
**kw)
#QObject.installEventFilter(p.aplot)
#p.data = ManagedPvData(pvm, s, pvs, element=elemnames,
# label="{0}.{1}".format(elem,field))
p.setAttribute(Qt.WA_DeleteOnClose)
str_elem = "{0}".format(elem)
if len(str_elem) > 12: str_elem = str_elem[:9] + "..."
str_field = "{0}".format(fields)
if len(str_field) > 12: str_field = str_field[:9] + "..."
p.setWindowTitle("[%s.%s] %s %s" %
(mach, lat.name, str_elem, str_field))
self.connect(p, SIGNAL("elementSelected(PyQt_PyObject)"),
self.elementSelected)
self.connect(p, SIGNAL("destroyed()"), self.subPlotDestroyed)
#p.updatePlot()
# set the zoom stack
#p.aplot.setErrorBar(self.error_bar)
#p.wid.autoScaleXY()
#p.aplot.replot()
self.mdiarea.addSubWindow(p)
#print "Show"
p.show()
def newElementPlots(self, elem, fields, **kw):
self.logger.info("new plots: %s %s" % (elem, fields))
_mach, _lat, _pvm = self.getCurrentMachLattice(cadata=True)
mach, lat = kw.get("machlat", (_mach, _lat))
handle = kw.get("handle", "readback")
elems = lat.getElementList(elem)
x, pvs = [], []
field_list = re.findall(r'[^ ,]+', fields)
for fld in field_list:
si, pvsi = [], []
for e in elems:
if not e.isEnabled(): continue
epv = e.pv(field=fld, handle=handle)
if not epv: continue
pvsi.append(epv[0])
si.append(e.sb)
x.append(si)
pvs.append(pvsi)
if not pvs:
self.logger.error("no data found for elements '{0}' "
"and field '{1}'".format(elem, field))
return
p = ApMdiSubPlot(pvs=pvs, x = x,
labels=["%s.%s" % (elem,fld) for fld in field_list],
magprof = lat.getBeamlineProfile(),
iqt = self.iqtApp,
**kw)
#QObject.installEventFilter(p.aplot)
#p.data = ManagedPvData(pvm, s, pvs, element=elemnames,
# label="{0}.{1}".format(elem,field))
p.setAttribute(Qt.WA_DeleteOnClose)
str_elem = "{0}".format(elem)
if len(str_elem) > 12: str_elem = str_elem[:9] + "..."
str_field = "{0}".format(fields)
if len(str_field) > 12: str_field = str_field[:9] + "..."
p.setWindowTitle("[%s.%s] %s %s" % (
mach, lat.name, str_elem, str_field))
self.connect(p, SIGNAL("elementSelected(PyQt_PyObject)"),
self.elementSelected)
self.connect(p, SIGNAL("destroyed()"), self.subPlotDestroyed)
#p.updatePlot()
# set the zoom stack
#p.aplot.setErrorBar(self.error_bar)
#p.wid.autoScaleXY()
#p.aplot.replot()
self.mdiarea.addSubWindow(p)
#print "Show"
p.show()
def measBeta(self):
p = ApMdiSubPlot(live=False)
p.setAttribute(Qt.WA_DeleteOnClose)
curves = [p.aplot.curve1, p.aplot.addCurve(), # x and xref
p.aplot.addCurve(), p.aplot.addCurve() # y and yref
]
for curv in curves: curv.setStyle(Qwt.QwtPlotCurve.Lines)
curves[0].setPen(QPen(Qt.red, 1.3, Qt.DashLine))
curves[0].setZ(curves[1].z() + 2)
curves[1].setPen(QPen(Qt.red, 1.5))
curves[2].setPen(QPen(Qt.blue, 1.3, Qt.DashLine))
curves[2].setZ(curves[3].z() + 2)
curves[2].setSymbol(Qwt.QwtSymbol(Qwt.QwtSymbol.Triangle,
QBrush(Qt.blue),
QPen(Qt.black, 1),
QSize(8, 8)))
curves[3].setPen(QPen(Qt.blue, 1.5))
#p.aplot.curve1.setStyle(Qwt.QwtPlotCurve.)
#p.setWindowTitle("[%s.%s] %s %s" % (mach, lat, title, fld))
self.mdiarea.addSubWindow(p)
#print "Show"
p.show()
#plots.append(p)
qs = ap.getGroupMembers(['C20', 'QUAD']) + \
ap.getGroupMembers(['C21', 'QUAD'])
xl = min([q.sb for q in qs])
xr = max([q.se for q in qs])
s, btx, bty = [], [], []
try:
betaref = ap.getBeta([q.name for q in qs], spos=True)
curves[1].setData(betaref[:,-1], betaref[:,0], None)
curves[3].setData(betaref[:,-1], betaref[:,1], None)
fullmagprof = ap.machines.getLattice().getBeamlineProfile()
magprof = [v for v in fullmagprof if max(v[0]) > xl \
and min(v[0]) < xr]
p.aplot.setMagnetProfile(magprof)
p.wid.autoScaleXY()
p.aplot.replot()
for q in qs[:3]:
tbeta, tk1, tnu = ap.measBeta(q, full=True)
#print tk1, tnu, tbeta
QApplication.processEvents()
s.append(tbeta[0,-1])
btx.append(tbeta[0,0])
bty.append(tbeta[0,1])
curves[0].setData(s, btx, None)
curves[2].setData(s, bty, None)
p.wid.autoScaleXY()
p.aplot.replot()
_logger.info("beta measured for {0} " \
"(s={1}, btx={2}, bty={3})".format(
q.name, s[-1], btx[-1], bty[-1]))
except:
_logger.error("error at measBeta")
raise
_logger.info("finished beta measurement.")
def measBeta(self):
p = ApMdiSubPlot(live=False)
p.setAttribute(Qt.WA_DeleteOnClose)
curves = [
p.aplot.curve1,
p.aplot.addCurve(), # x and xref
p.aplot.addCurve(),
p.aplot.addCurve() # y and yref
]
for curv in curves:
curv.setStyle(Qwt.QwtPlotCurve.Lines)
curves[0].setPen(QPen(Qt.red, 1.3, Qt.DashLine))
curves[0].setZ(curves[1].z() + 2)
curves[1].setPen(QPen(Qt.red, 1.5))
curves[2].setPen(QPen(Qt.blue, 1.3, Qt.DashLine))
curves[2].setZ(curves[3].z() + 2)
curves[2].setSymbol(
Qwt.QwtSymbol(Qwt.QwtSymbol.Triangle, QBrush(Qt.blue),
QPen(Qt.black, 1), QSize(8, 8)))
curves[3].setPen(QPen(Qt.blue, 1.5))
#p.aplot.curve1.setStyle(Qwt.QwtPlotCurve.)
#p.setWindowTitle("[%s.%s] %s %s" % (mach, lat, title, fld))
self.mdiarea.addSubWindow(p)
#print "Show"
p.show()
#plots.append(p)
qs = ap.getGroupMembers(['C20', 'QUAD']) + \
ap.getGroupMembers(['C21', 'QUAD'])
xl = min([q.sb for q in qs])
xr = max([q.se for q in qs])
s, btx, bty = [], [], []
try:
betaref = ap.getBeta([q.name for q in qs], spos=True)
curves[1].setData(betaref[:, -1], betaref[:, 0], None)
curves[3].setData(betaref[:, -1], betaref[:, 1], None)
fullmagprof = ap.machines.getLattice().getBeamlineProfile()
magprof = [v for v in fullmagprof if max(v[0]) > xl \
and min(v[0]) < xr]
p.aplot.setMagnetProfile(magprof)
p.wid.autoScaleXY()
p.aplot.replot()
for q in qs[:3]:
tbeta, tk1, tnu = ap.measBeta(q, full=True)
#print tk1, tnu, tbeta
QApplication.processEvents()
s.append(tbeta[0, -1])
btx.append(tbeta[0, 0])
bty.append(tbeta[0, 1])
curves[0].setData(s, btx, None)
curves[2].setData(s, bty, None)
p.wid.autoScaleXY()
p.aplot.replot()
_logger.info("beta measured for {0} " \
"(s={1}, btx={2}, bty={3})".format(
q.name, s[-1], btx[-1], bty[-1]))
except:
_logger.error("error at measBeta")
raise
_logger.info("finished beta measurement.")