712 lines
21 KiB
Python
Executable File
712 lines
21 KiB
Python
Executable File
#!/usr/bin/env python
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# *-----------------------------------------------------------------------*
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# | |
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# | Copyright (c) 2024 by Paul Scherrer Institute (http://www.psi.ch) |
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# | |
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# | Author Thierry Zamofing (thierry.zamofing@psi.ch) |
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# *-----------------------------------------------------------------------*
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"""
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Furka ARES chamber visualization
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For simulated motor IOC:
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/home/zamofing_t/Documents/prj/SwissFEL/test_ioc/MotorSim/iocBoot/ARESvis/ARESvis.cmd
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For motor ui:
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caQtDM ~/Documents/prj/SwissFEL/test_ioc/MotorSim/iocBoot/ARESvis/ARESvis.ui&
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self.pv_angles = [epics.PV("SATES30-ARES:MOT_SRY.RBV"), epics.PV("SATES30-ARES:MOT_DRY.RBV"), epics.PV("SATES30-ARES:MOT_2TRY.RBV")]
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SATES30-RIXS:MOT_RY.RBV # sliding seal
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SATES30-ARES:MOT_JFRY.RBV # jungfrau detector angle:
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SATES30-ARES:MOT_2TRY.RBV # 2thetha angle: foc.mirror Diode2 Diode3
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SATES30-ARES:MOT_DRY.RBV # detector angle: Diode1 Mirror
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SATES30-ARES:MOT_SRY.RBV # sample rotation
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bitmask for simulation:
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0x01: EPICS motors
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0x02:
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0x04:
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0x08:
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0x10:
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0x20:
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0x40:
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0x80:
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"""
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from PyQt5.QtWidgets import QApplication, QWidget, QLabel, QPushButton, QSlider, QLineEdit,\
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QCheckBox, QHBoxLayout, QVBoxLayout, QGroupBox, QGridLayout, QComboBox
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from PyQt5.QtGui import QPainter, QColor, QPen, QBrush, QPolygon, QTransform
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from PyQt5.QtCore import QPoint, QPointF, Qt,pyqtSignal
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import PyQt5.QtGui as QtGui
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import PyQt5.QtCore as QtCore
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import PyQt5.QtWidgets as QtW
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from PyQt5.uic import loadUiType
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import numpy as np
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import sys, logging, copy
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import epics
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if sys.version_info[0] < 3 or sys.version_info[1] < 6:
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print(f"Must be using Python 3.6 or newer. Try e.g. /opt/gfa/python-3.8/latest/bin/python /sf/furka/bin/ARESvis")
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_log=logging.getLogger(__name__)
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import logging
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class col:
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d = '\033[0m' #default
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r = '\033[31m' #red
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g = '\033[32m' #green
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y = '\033[33m' #yellow
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rr= '\033[91m' #red(bright)
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gg= '\033[92m' #green(bright)
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yy= '\033[93m' #yellow(bright)
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b = '\033[1m' #bold
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u = '\033[4m' #underline
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R = '\033[1;31m' #bold, red
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G = '\033[1;32m' #bold, green
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Y = '\033[1;33m' #bold, yellow
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class logHandler(logging.StreamHandler):
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def __init__(self):
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logging.StreamHandler.__init__(self)
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def emit(self, record):
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'''override function of base class'''
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try:
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msg=self.format(record)
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# print(record.__dict__)
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if record.levelno<=10:
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c=col.g
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elif record.levelno<=20:
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c=col.y
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elif record.levelno<=30:
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c=col.yy
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elif record.levelno<=40:
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c=col.r
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else:
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c=col.rr+col.b
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msg=c+msg+col.d
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stream=self.stream
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stream.write(msg+self.terminator)
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self.flush()
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except RecursionError:
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raise
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except Exception:
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self.handleError(record)
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class ARESdevice():
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_lutDifrBeamPaint=( # (number of difr beam,draw mode,alpha,width)
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(4, 2, 190, 0),
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(4, 1, 200, 0),
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(32, 1, 120, 0),
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(8, 1, 196, 0),
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(32, 0, 120, 3),
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(32, 2, 255, 0),
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)
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def __init__(self,name,**kwargs):
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self._name=name
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self._paint=p={
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'ofs':(500, 500), # location of device
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'rArm':3*62, # radius of chamber (RIXS arm)
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'rJFr':3*52, # radius of Jungfrau
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'r2Th':3*48, # radius 2Theta platfform
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'rDet':3*23, # radius of detector table
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'rTrg':3*20, # radius of target
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'szArm':(20, 50),
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'aArm':100, # angle RIXS arm
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'aJFr':140, # angle detector
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'a2Th':30, # angle 2thetha
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'aDet':-20, # angle detector
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'aTrg':10, # angle target
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'mode':4, #difraction beam paint mode
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'szG':(200, 5), # size VLS grating
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'szD':(150, 5), # size detector
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'sclTrf':(2**(6/2), 2**(0/2)), # scaling transfformation [angle, distance]
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}
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# 2thetha angle SATES30-ARES:MOT_2TRY
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# detector angle SATES30-ARES:MOT_DRY
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# sliding seal SATES30-RIXS:MOT_RY
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p.update(kwargs)
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self._geo=g={
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'r1':2000, # distance probe grating
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'r2':3500, # distance grating detector
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'aa':88, # grating angle
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'bb':87, # reflection angle
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'cc':22, # detector angle
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}
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self.setGeometry(g)
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def setGeometry(self,geo):
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self._geo=geo
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p=self._paint
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sclA,sclD=p['sclTrf']
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p.update({
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'r1':int(geo['r1']*sclD),
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'r2':int(geo['r2']*sclD),
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'aa':int((90-geo['aa'])*sclA),
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'bb':int((90-geo['bb'])*sclA),
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'cc':int(geo['cc']),
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})
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def geometry2motor(self):
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# returns raw motor positions
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# offset detector plane to deflected beam: 34deg
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geo=self._geo
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r1,r2,aa,bb,cc=geo['r1'],geo['r2'],geo['aa'],geo['bb'],geo['cc']
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mt=gtz=gty1=gty2=grx=gtx=dtz=dty1=dty2=drx=None
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degArm=90-aa+90-bb
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radArm=np.deg2rad(degArm)
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gtz=r1
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grx=90-aa
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dtz=np.cos(radArm)*r2
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dty1=dty2=np.sin(radArm)*r2
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drx=90-aa+90-bb+cc-34
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dd=cc-34 # angle of bellow to detector
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geo.update({
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'mt':mt,
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'gtz':gtz,
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'gty1':gty1,
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'gty2': gty2,
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'grx':grx,
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'gtx':gtx,
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'dtz':dtz,
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'dty1':dty1,
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'dty2':dty2,
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'drx':drx})
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if degArm>10:
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raise(ValueError('angle arm > 10deg'))
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elif degArm<1:
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raise(ValueError('angle arm < 1deg'))
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elif abs(dd)>15:
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raise(ValueError('angle bellow to detector > 15deg'))
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def containsPoint(self,point):
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try:
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pg=self._polygon
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except AttributeError:
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return False
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return pg.containsPoint(point,Qt.OddEvenFill)
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@staticmethod
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def plotOrig(qp):
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penR=QPen(QtCore.Qt.red, 2, QtCore.Qt.SolidLine)
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penG=QPen(QtCore.Qt.green, 2, QtCore.Qt.SolidLine)
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pOrig=qp.pen()
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qp.setPen(penR)
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qp.drawLine(-20, 0, 20, 0)
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qp.drawLine( 20, 0, 16, 2)
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qp.setPen(penG)
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qp.drawLine(0, -20, 0, 20)
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qp.drawLine(0, 20, 2, 16)
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qp.setPen(pOrig)
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def paint(self,qp):
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# qp QPainter to paint on
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# ofs caanter to draw
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# scl scaling for x and y translation of coordinate systems
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# paintMode: mode how to paint the diffraction beam
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p=self._paint
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ofs=p['ofs']
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rArm=p['rArm']
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rJFr=p['rJFr']
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r2Th=p['r2Th']
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rDet=p['rDet']
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rTrg=p['rTrg']
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aArm=p['aArm']
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aJFr=p['aJFr']
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a2Th=p['a2Th']
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aDet=p['aDet']
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aTrg=p['aTrg']
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sclTrf=p['sclTrf']
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# --- prepare transformations ---
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# tf0: target not rotated
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# tfArm: target center rotated angle aaArm
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# tf2Th: target center rotated angle tf2Th
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# tfDet: target center rotated angle aaDet
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# tfTrg: target center rotated angle aaTrg
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tf0=QTransform()
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tf0.translate(ofs[0], ofs[1])
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tf0.scale(sclTrf[1],sclTrf[1])
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tfArm=copy.copy(tf0) # center
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tfArm.rotate(-aArm)
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tfJFr=copy.copy(tf0)
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tfJFr.rotate(-aJFr)
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tf2Th=copy.copy(tf0)
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tf2Th.rotate(-a2Th)
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tfDet=copy.copy(tf0)
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tfDet.rotate(-aDet)
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tfTrg=copy.copy(tf0)
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tfTrg.rotate(-aTrg)
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#tfd.translate(r2,0).rotate(-cc)
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penBk=QPen(QtCore.Qt.black, 0, QtCore.Qt.SolidLine)
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penWt=QPen(QtCore.Qt.white, 1, QtCore.Qt.SolidLine)
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penYl=QPen(QtCore.Qt.yellow, 1, QtCore.Qt.SolidLine)
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penBl=QPen(QtCore.Qt.blue, 1, QtCore.Qt.SolidLine)
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penRd=QPen(QtCore.Qt.red, 1, QtCore.Qt.SolidLine)
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# --- visualize ---
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#qp.setRenderHints(QPainter.HighQualityAntialiasing)
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# setup and plot dragable region
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#pl=[QPoint(*tf0.map (-rArm , -rArm)),QPoint(*tf0.map (-rArm , +rArm+50)),QPoint(*tf0.map (+rArm+50+aaArm, +rArm+50+aa2Th)),QPoint(*tf0.map(+rArm+50+aaDet , -rArm-50)),]
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self._polygon=QPolygon([
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QPoint(*tf0.map(-rArm ,-rArm)),
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QPoint(*tf0.map(-rArm ,+rArm+100)),
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QPoint(*tf0.map(+rArm,+rArm+100)),
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QPoint(*tf0.map(+rArm,-rArm)),])
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qp.setBrush(QColor(0, 0, 0,64))
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qp.drawPolygon(self._polygon)
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# plot beam path
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qp.setTransform(tf0)
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qp.setPen(penBk)
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qp.setBrush(QColor(128, 128, 128, 128)) #r,g,b,a
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#circles of rtation
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qp.drawEllipse(-rArm, -rArm, 2*rArm, 2*rArm) # ARES chamber
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qp.drawEllipse(-rJFr, -rJFr, 2*rJFr, 2*rJFr) # Jungfrau
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qp.drawEllipse(-r2Th, -r2Th, 2*r2Th, 2*r2Th) # 2theta
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qp.drawEllipse(-rDet, -rDet, 2*rDet, 2*rDet) # detector
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qp.drawEllipse(-rTrg, -rTrg, 2*rTrg, 2*rTrg) # target
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#beam arrow
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qp.setPen(QPen(QtCore.Qt.black, 3, QtCore.Qt.SolidLine))
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qp.drawLine(0,+rArm+100,0,rArm)
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qp.drawPolygon(QPolygon([QPoint(0,rArm),QPoint(-5,rArm+20),QPoint(+5,rArm+20),]))
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#self.plotOrig(qp)
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#qp.setPen(penRd)
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#qp.drawRect(-10, -10+rArm, 20, 20)
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#RIXS-arm devices
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qp.setTransform(tfArm)
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qp.setPen(QPen(QtCore.Qt.red, 3, QtCore.Qt.SolidLine))
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qp.drawLine(0,-rArm,0,-rArm+10)
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qp.setPen(penBk)
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qp.setBrush(QColor(255,0,0,128))
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qp.drawRect(-20, -50-rArm, 40, 50) # 2th mount sample
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qp.drawRect(-100, -200-rArm, 200, 150) # 2th mount sample
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#Jungfrau devices
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qp.setTransform(tfJFr)
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qp.setPen(QPen(QtCore.Qt.magenta, 3, QtCore.Qt.SolidLine))
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qp.drawLine(0,-rJFr,0,-rJFr+10)
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qp.setPen(penBk)
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qp.setBrush(QColor(255,0,255,128))
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qp.drawRect(-50, -20-rJFr, 100, 15) # detector mount sample
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#2-theta devices
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qp.setTransform(tf2Th)
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qp.setPen(QPen(QtCore.Qt.green, 3, QtCore.Qt.SolidLine))
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qp.drawLine(0,-r2Th,0,-r2Th+10)
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qp.setPen(penBk)
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qp.setBrush(QColor(0,255,0,128))
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qp.drawRect(-15, -30-r2Th, 5, 3*29) # foc. mirror 1
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qp.drawRect(+10, -30-r2Th, 5, 3*29) # foc. mirror 2
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qp.rotate(20)
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qp.drawRect(-10, -r2Th, 20, 20) # diode2
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qp.setTransform(tf2Th);qp.rotate(120)
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qp.drawRect(-10, -r2Th, 20, 20) # diode3
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#detector devices
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qp.setTransform(tfDet)
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qp.setPen(QPen(QtCore.Qt.blue, 3, QtCore.Qt.SolidLine))
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qp.drawLine(0,-rDet,0,-rDet+10)
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qp.setPen(penBk)
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qp.setBrush(QColor(0,0,255,128))
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qp.drawRect(-10, -rDet, 20, 10) # diode1
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qp.rotate(30);qp.translate(0,-rDet);qp.rotate(45)
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qp.drawRect(-10, 0, 30, 5) # mirror1
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#target devices
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qp.setTransform(tfTrg)
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qp.setPen(QPen(QtCore.Qt.cyan, 3, QtCore.Qt.SolidLine))
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qp.drawLine(0,-rTrg,0,-rTrg+10)
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qp.setPen(penBk)
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qp.setBrush(QColor(0,255,255,128))
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qp.drawRect(-30, -20, 60, 20) # target mount sample
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#parabola mirror
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qp.setTransform(tf0)
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qp.setPen(penBk)
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qp.setBrush(QColor(80,80,80,128))
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qp.drawPolygon(QPolygon([QPoint(-15,30),QPoint(-15,60),QPoint(15,60),]))
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#qp.setPen(penBk)
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#qp.drawRect(-10, -10+rArm, 20, 20)
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#self.plotOrig(qp)
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#qp.setTransform(tf2Th)
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#qp.setPen(penYl)
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#qp.drawRect(-10, -10+r2Th, 20, 20)
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#self.plotOrig(qp)
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#qp.setTransform(tfDet)
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#qp.setPen(penBl)
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#qp.drawRect(-10, -10+r2Th+20, 20, 20)
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#qp.setTransform(tfTrg)
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#qp.setPen(penBl)
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#qp.drawRect(-10, -10+r2Th+20, 20, 20)
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#self.plotOrig(qp)
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#qp.setCompositionMode(QtGui.QPainter.CompositionMode_Lighten)
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#qp.setCompositionMode(QtGui.QPainter.CompositionMode_SourceOver)
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#mouse move polygon
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#qp.setTransform(QTransform())
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#qp.setPen(penRd)
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#qp.drawPolygon(self._polygon)
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#origin crosses
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#for tf in (tf0,tfa,tfab,tfc):#,tfg,tfs):#,tfc,tfs):
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# qp.setTransform(tf);self.plotOrig(qp)
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class WndVisualize(QWidget):
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_pv2key={
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'SATES30-RIXS:MOT_RY.RBV' :'aArm',
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'SATES30-ARES:MOT_JFRY.RBV':'aJFr',
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'SATES30-ARES:MOT_2TRY.RBV':'a2Th',
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'SATES30-ARES:MOT_DRY.RBV' :'aDet',
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'SATES30-ARES:MOT_SRY.RBV' :'aTrg'
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}
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def __init__(self):
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super().__init__()
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self.initUI()
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self.connectEPICS()
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def initUI(self):
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self.setGeometry(560, 100, 1300, 800)
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self.setWindowTitle('Visualize')
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app=QApplication.instance()
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dev=app._dev
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self._wdGrpDraw=w=QGroupBox(dev._name,self)
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w.move(10,10)
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row=0
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lg=QGridLayout(w)
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pDev=dev._paint
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for key, rng, tk in (
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('aArm',(0,360,), 30), # angle ARES sliding seal
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('aJFr' ,(0,360,), 30), # angle Jungfrau
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('a2Th',(0,360,), 30), # angle 2thetha
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('aDet',(0,360,), 30), # angle detector
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('aTrg',(0,360,), 30), # angle target
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('sclA', ( -8, 8), 1),
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('sclD', (-8, 8), 1),):
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wLb=QLabel(f"<font>{key}</font>",objectName=key) #MOST BE with <font> as it is changed later and else creates a seg fault
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wSl=QSlider(QtCore.Qt.Horizontal,objectName=key)
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wSl.setFixedWidth(200);wSl.setMinimum(rng[0]);wSl.setMaximum(rng[1])
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if key.startswith('scl'):
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if key[-1]=='A':
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v=pDev['sclTrf'][0]
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else:
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v=pDev['sclTrf'][1]
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v=int(round(np.log2(v)*2))
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else:
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v=pDev[key]
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wSl.setValue(v)
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wSl.setTickPosition(QSlider.TicksBelow);wSl.setTickInterval(tk)
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wSl.valueChanged.connect(lambda val,key=key: self.sldChanged(key,val))
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lg.addWidget(wLb, row, 0)
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lg.addWidget(wSl, row, 1);row+=1
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#self.event_update.connect(self.cb_update)
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self.show()
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def cb_update(self,*args,**kwargs):
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_log.debug(f'{args} {kwargs}')
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def connectEPICS(self):
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_log.info('connect PVs')
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self._pvDict=pvd=dict()
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self._pvConnected=0
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for pvn in self._pv2key.keys():
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pv=epics.get_pv(pvn,connection_callback=self.OnConnectionChange,callback=self.OnValueChange)
|
|
pvd[pvn]=pv
|
|
_log.info(f'{pv}')
|
|
#epics.Motor checks the record type and will fail if the record is not online
|
|
#therefore use epics.Device
|
|
#epics.Device will force to connect the PV in Device.add_callback
|
|
#therefore use epics.PV.add_callback to acc callback
|
|
#as soon as the devices are online, they are connected
|
|
#but with epics.Device creating PV is not fully flexible. epics.get_pv proviles connection and value change callbacks that is way more flexible.
|
|
#therefore the lowest level of the library (only pvs is the best suited
|
|
#m=epics.Motor(rec_name)
|
|
#m=epics.Device(rec_name, delim='.',with_poll=False,attrs=('VAL', 'RBV', 'DESC', 'RVAL','LVIO', 'HLS', 'LLS'))
|
|
#m.add_callback('RBV', self.OnChangedRBV)
|
|
#pv=m.PV('RBV',connect=False)
|
|
#pv.add_callback(self.OnChangedRBV)
|
|
#pv.connection_callbacks
|
|
#if not pv.connected:
|
|
# disconnected.add(rec_name)
|
|
#print(pv.connected)
|
|
#devs.add(m)
|
|
|
|
def OnConnectionChange(self, pvname=None, conn=None, **kws):
|
|
pvc=self._pvConnected
|
|
if conn:
|
|
pvc+=1
|
|
else:
|
|
if pvc>0: pvc-=1
|
|
_log.info(f'PV connection {pvc}/{len(self._pvDict)}: {pvname} {conn}')
|
|
self._pvConnected=pvc
|
|
|
|
app=QApplication.instance()
|
|
wGrp=app._wndVisualize._wdGrpDraw
|
|
key=self._pv2key[pvname]
|
|
wLb=wGrp.findChild(QLabel, key)
|
|
if not conn:
|
|
v=f"<font color='#a00000'>{key}</font>"
|
|
wLb.setText(v)
|
|
else:
|
|
v=f"<font color='#00a000'>{key}</font>"
|
|
wLb.setText(v)
|
|
|
|
def OnValueChange(self, pvname, value, **kw):
|
|
#def OnChangedRBV(self, **kw):
|
|
#_log.info(kw)
|
|
#{
|
|
# 'pvname': 'SATES30-ARES:MOT_2TRY.RBV',
|
|
# 'value': 102.507,
|
|
# 'char_value': '102.5070',
|
|
# 'status': 0,
|
|
# 'ftype': 20,
|
|
# 'chid': 26100744,
|
|
# 'host': 'localhost:5064',
|
|
# 'count': 1,
|
|
# 'access': 'read-only',
|
|
# 'write_access': False,
|
|
# 'read_access': True,
|
|
# 'severity': 0,
|
|
# 'timestamp': 1724915455.46745,
|
|
# 'posixseconds': 1724915455.0,
|
|
# 'nanoseconds': 467450100,
|
|
# 'precision': 4,
|
|
# 'units': 'deg',
|
|
# 'enum_strs': None,
|
|
# 'upper_disp_limit': 0.0,
|
|
# 'lower_disp_limit': 0.0,
|
|
# 'upper_alarm_limit': nan,
|
|
# 'lower_alarm_limit': nan,
|
|
# 'lower_warning_limit': nan,
|
|
# 'upper_warning_limit': nan,
|
|
# 'upper_ctrl_limit': 0.0,
|
|
# 'lower_ctrl_limit': 0.0,
|
|
# 'nelm': 1,
|
|
# 'type': 'time_double',
|
|
# 'typefull': 'time_double',
|
|
# 'cb_info': (1, <PV 'SATES30-ARES:MOT_2TRY.RBV', count=1, type=time_double, access=read-only>)
|
|
#}
|
|
#_log.info(f"{kw['pvname']}:{kw['value']}")
|
|
_log.info(f"PV val:{pvname}:{value}")
|
|
|
|
try:
|
|
key=self._pv2key[pvname]
|
|
except KeyError as e:
|
|
_log.warning(f"can't handle PV: {pvname}:{value}")
|
|
return
|
|
self.vis_update(key,value,'008000')
|
|
|
|
def vis_update(self,key,value,col='000000'):
|
|
app=QApplication.instance()
|
|
wGrp=app._wndVisualize._wdGrpDraw
|
|
wSl=wGrp.findChild(QSlider, key)
|
|
wSl.blockSignals(True)
|
|
wSl.setValue(int(value)) # move the slider without emiting a signal
|
|
wSl.blockSignals(False)
|
|
self.sldChanged(key,value) # emit the signal
|
|
#self.event_update.emit(pvname=pvname, value=None)
|
|
wLb=wGrp.findChild(QLabel, key)
|
|
v=f"<font color='#{col}'>{key}</font>"
|
|
wLb.setText(v)
|
|
|
|
def liveView(self):
|
|
# try to live update all PVs
|
|
_log.info('')
|
|
p2k=self._pv2key
|
|
for pv in self._pvDict.values():
|
|
pvn=pv.pvname
|
|
key=p2k[pvn]
|
|
if pv.connected:
|
|
value=pv.get()
|
|
self.vis_update(key,value,'008000')
|
|
print (pvn,key,value)
|
|
else:
|
|
print (pvn,key)
|
|
pass
|
|
|
|
|
|
def destroy(self, destroyWindow, destroySubWindows): #overloaded function
|
|
_log.info('destroy')
|
|
|
|
def closeEvent(self, event): #overloaded function
|
|
_log.info('closeEvent')
|
|
|
|
def sldChanged(self,key,val,*args,**kwargs):
|
|
app=QApplication.instance()
|
|
dev=app._dev
|
|
p=dev._paint
|
|
if key.startswith('scl'):
|
|
wGrp=self._wdGrpDraw
|
|
if key[-1]=='A':
|
|
p['sclTrf']=(2**(val/2),p['sclTrf'][1])
|
|
else:
|
|
p['sclTrf']=(p['sclTrf'][0],2**(val/2))
|
|
print(p['sclTrf'])
|
|
dev.setGeometry(dev._geo)
|
|
else:
|
|
p[key]=val
|
|
g=dev._geo
|
|
if key in ('r1','r2'):
|
|
sclD=p['sclTrf'][1]
|
|
g[key]=val/sclD
|
|
elif key in ('aa', 'bb'):
|
|
sclA=p['sclTrf'][0]
|
|
g[key]=90-val/sclA
|
|
else:
|
|
g[key]=val
|
|
wGrp=app._wndVisualize._wdGrpDraw
|
|
wLb=wGrp.findChild(QLabel, key)
|
|
v=f"<font color='#0000ff'>{key}</font>"
|
|
wLb.setText(v)#print(wLb,v)
|
|
|
|
self.update()
|
|
|
|
def mouseReleaseEvent(self, a0):
|
|
try:
|
|
del self._mouseDrag
|
|
except AttributeError:
|
|
pass
|
|
|
|
def mousePressEvent(self, a0):
|
|
app=QApplication.instance()
|
|
mousePos=a0.pos()
|
|
print(a0.type)
|
|
if a0.type()!=QtGui.QMouseEvent.MouseButtonPress:
|
|
return
|
|
wGrp=self._wdGrpDraw
|
|
#if wGrp.underMouse(): #draging sliders?
|
|
if wGrp.geometry().contains(mousePos):
|
|
self.liveView()
|
|
self._mouseDrag={'obj':wGrp, 'start':mousePos}
|
|
return
|
|
dev=app._dev
|
|
if dev.containsPoint(mousePos):
|
|
self._devSel=dev
|
|
wGrp=self._wdGrpDraw
|
|
wGrp.setTitle(dev._name)
|
|
devP=dev._paint
|
|
for wSl in wGrp.findChildren(QSlider):
|
|
#_log.info(wSl)
|
|
key=wSl.objectName()
|
|
if key.startswith('scl'):
|
|
if key[-1]=='A':
|
|
v=devP['sclTrf'][0]
|
|
else:
|
|
v=devP['sclTrf'][1]
|
|
v=int(round(np.log2(v)*2))
|
|
else:
|
|
v=devP[key]
|
|
wSl.setValue(int(v))
|
|
|
|
self._mouseDrag={'obj':dev,'start':(mousePos,dev._paint['ofs'])}
|
|
try:
|
|
_log.info(f'{self._mouseDrag}')
|
|
except AttributeError:
|
|
_log.info(f'no object to drag')
|
|
|
|
|
|
def mouseMoveEvent(self, a0):
|
|
try:
|
|
md=self._mouseDrag
|
|
except AttributeError:
|
|
return
|
|
obj=md['obj']
|
|
s=md['start']
|
|
if obj==self._wdGrpDraw:
|
|
p=a0.pos()
|
|
md['start']=p
|
|
p=obj.geometry().topLeft()+p-s
|
|
obj.move(p)
|
|
return
|
|
p=a0.pos()
|
|
ofs=QPoint(*s[1])+p-s[0]
|
|
_log.info(f'{p} {ofs}')
|
|
obj._paint['ofs']=(ofs.x(),ofs.y())
|
|
self.update()
|
|
|
|
def paintEvent(self, e):
|
|
qp = QPainter()
|
|
qp.begin(self)
|
|
qp.setRenderHints(QPainter.HighQualityAntialiasing)
|
|
app=QApplication.instance()
|
|
dev=app._dev
|
|
app._dev.paint(qp)
|
|
qp.end()
|
|
|
|
def updateDevice(self, dev):
|
|
self._devSel=dev
|
|
devP=dev._paint
|
|
wGrp=self._wdGrpDraw
|
|
wGrp.setTitle(dev._name)
|
|
for wSl in wGrp.findChildren(QSlider):
|
|
# _log.info(wSl)
|
|
key=wSl.objectName()
|
|
if key.startswith('scl'):
|
|
if key[-1]=='A':
|
|
v=devP['sclTrf'][0]
|
|
else:
|
|
v=devP['sclTrf'][1]
|
|
v=int(round(np.log2(v)*2))
|
|
else:
|
|
v=devP[key]
|
|
wSl.blockSignals(True)
|
|
wSl.setValue(v)
|
|
wSl.blockSignals(False)
|
|
self.update()
|
|
|
|
def OnEvent(self,*args,**kwargs):
|
|
#test event
|
|
print(f'OnEvent: {args} ,{kwargs}')
|
|
|
|
|
|
if __name__ == '__main__':
|
|
import argparse
|
|
logging.basicConfig(level=logging.DEBUG, handlers=[logHandler()], format='%(levelname)s:%(module)s:%(lineno)d:%(funcName)s:%(message)s ')
|
|
|
|
|
|
def main():
|
|
epilog=__doc__ # +'\nExamples:'+''.join(map(lambda s:cmd+s, exampleCmd))+'\n'
|
|
parser=argparse.ArgumentParser(epilog=epilog, formatter_class=argparse.RawDescriptionHelpFormatter)
|
|
parser.add_argument('--mode', '-m', type=lambda x:int(x, 0), help='mode (see bitmasks) default=0x%(default)x', default=1)
|
|
parser.add_argument("--sim", "-s", type=lambda x: int(x,0), help="simulate devices (see bitmasks) default=0x%(default)x", default=0x01)
|
|
args=parser.parse_args()
|
|
_log.info('Arguments:{}'.format(args.__dict__))
|
|
|
|
app=QApplication(sys.argv)
|
|
app._args=args
|
|
app._dev=dev=ARESdevice('Furka-ARES')
|
|
|
|
if args.mode&0x01:
|
|
app._wndVisualize=wnd=WndVisualize()
|
|
wnd.show()
|
|
sys.exit(app.exec_())
|
|
|
|
main() |