def trigger(self): from MDSplus.mdsExceptions import DevTRIGGER_FAILED if self.debugging(): print("starting trigger") try: boardip = self.getBoardIp() trig_src = self.trig_src.record.getOriginalPartName().getString( )[1:] if self.debugging(): print("executing trigger on board %s, trig_src is %s." % ( boardip, trig_src, )) trig_src = trig_src[2:] UUT = acq200.ACQ200(transport.factory(boardip)) route = UUT.uut.acq2sh('get.route D%s' % (trig_src, )) d1 = UUT.uut.acq2sh('set.route d%s in fpga out' % (trig_src, )) d2 = UUT.uut.acq2sh('set.dtacq dio_bit %s P' % (trig_src, )) d3 = UUT.uut.acq2sh('set.route %s' % (route, )) d4 = UUT.uut.acq2sh('set.dtacq dio_bit %s -' % (trig_src, )) if self.debugging(): print("got back: %s" % (route, )) print(" and: %s" % (d1, )) print(" and: %s" % (d2, )) print(" and: %s" % (d3, )) print(" and: %s" % (d4, )) except Exception as e: print("Error doing Trigger method") raise DevTRIGGER_FAILED(str(e)) return 1
def trigger(self, arg): if self.debugging(): print "starting trigger" boardip = self.getBoardIp() try: trig_src=self.trig_src.record.getOriginalPartName().getString()[1:] except: print "could not read trigger source" return 0 if self.debugging() : print "executing trigger on board %s, trig_src is %s."% (boardip, trig_src,) trig_src = trig_src[2:] try: UUT = acq200.Acq200(transport.factory(boardip)) except: print "could not connect to the board %s"% (boardip,) try: route = UUT.uut.acq2sh('get.route D%s'%(trig_src,)) d1 = UUT.uut.acq2sh('set.route d%s in fpga out'%(trig_src,)) d2 = UUT.uut.acq2sh('set.dtacq dio_bit %s P'%(trig_src,)) d3 = UUT.uut.acq2sh('set.route %s' %(route,)) d4 = UUT.uut.acq2sh('set.dtacq dio_bit %s -'%(trig_src,)) except: print "could not send command to the board" if self.debugging(): print "got back: %s\n" % (route,) print " and: %s\n" % (d1,) print " and: %s\n" % (d2,) print " and: %s\n" % (d3,) print " and: %s\n" % (d4,) return 1
def trigger(self, arg): boardip = self.getBoardIp() try: trig_src=str(self.trig_src.record.getOriginalPartName())[1:] except: print("could not read trigger source") return 0 if self.debugging() : print("executing trigger on board %s, trig_src is %s."% (boardip, trig_src,)) trig_src = trig_src[2:] cmd = "set.dtacq dio_bit %s P" % (trig_src,) if self.debugging() : print("sending command %s."%(cmd,)) try: UUT = acq200.ACQ200(transport.factory(boardip)) except: print("could not connect to the board %s"% (boardip,)) try: a = UUT.uut.acq2sh(cmd) b = UUT.uut.acqcmd('-- setDIO -------') except: print("could not send %s to the board" %(cmd,)) if self.debugging(): print("got back: %s\n" % (a,)) print(" and: %s\n" % (b,)) return 1
def acq2sh(self, arg): from MDSplus.mdsExceptions import DevACQ2SH_FAILED boardip = self.getBoardIp() try: UUT = acq200.ACQ200(transport.factory(boardip)) a = UUT.uut.acq2sh(str(arg)) except Exception as e: print("could not connect to the board %s" % (boardip,)) raise DevACQ2SH_FAILED(str(e)) print("%s %s -> %s" % (boardip, arg, a,)) return 1
def acq2sh(self, arg): boardip = self.getBoardIp() try: UUT = acq200.Acq200(transport.factory(boardip)) except: print "could not connect to the board %s"% (boardip,) try: a = UUT.uut.acq2sh(str(arg)) except: print "could not send %s to the board" %(str(arg),) return 0 print "%s %s -> %s"%(boardip, arg, a,) return 1
def acq2sh(self, arg): boardip = self.getBoardIp() try: UUT = acq200.ACQ200(transport.factory(boardip)) except: print("could not connect to the board %s"% (boardip,)) try: a = UUT.uut.acq2sh(str(arg)) except: print("could not send %s to the board" %(str(arg),)) return 0 print("%s %s -> %s"%(boardip, arg, a,)) return 1
def getBoardState(self): from MDSplus.mdsExceptions import DevCANNOT_GET_BOARD_STATE boardip = self.getBoardIp() last_error = None for t in range(10): try: UUT = acq200.ACQ200(transport.factory(boardip)) except Exception as e: print("could not connect to the board %s" % (boardip, )) last_error = e try: if not UUT == None: a = UUT.uut.acqcmd('getState') return "ACQ32:%s" % a except Exception as e: print("could not send getState to the board try %d" % t) last_error = e if not last_error == None: raise DevCANNOT_GET_BOARD_STATE(str(last_error)) else: return 'unkown'
def trigger(self, arg): if self.debugging(): print "starting trigger" boardip = self.getBoardIp() try: trig_src = self.trig_src.record.getOriginalPartName().getString( )[1:] except: print "could not read trigger source" return 0 if self.debugging(): print "executing trigger on board %s, trig_src is %s." % ( boardip, trig_src, ) trig_src = trig_src[2:] try: UUT = acq200.Acq200(transport.factory(boardip)) except: print "could not connect to the board %s" % (boardip, ) try: route = UUT.uut.acq2sh('get.route D%s' % (trig_src, )) d1 = UUT.uut.acq2sh('set.route d%s in fpga out' % (trig_src, )) d2 = UUT.uut.acq2sh('set.dtacq dio_bit %s P' % (trig_src, )) d3 = UUT.uut.acq2sh('set.route %s' % (route, )) d4 = UUT.uut.acq2sh('set.dtacq dio_bit %s -' % (trig_src, )) except: print "could not send command to the board" if self.debugging(): print "got back: %s\n" % (route, ) print " and: %s\n" % (d1, ) print " and: %s\n" % (d2, ) print " and: %s\n" % (d3, ) print " and: %s\n" % (d4, ) return 1
def store(self, arg): """ Store the data from the device Fetch and store the device status (firmware etc) If the device is finished For each channel that is on and active in the mask read the data store the data into the raw nodes store the expression into the data nodes """ debug = os.getenv("DEBUG_DEVICES") try: error = "Must specify a board ipaddress" boardip = str(self.boardip.record) error = None UUT = acq200.ACQ200(transport.factory(boardip)) try: ans = [] cmds = self.status_cmds.record for cmd in cmds: print cmd a = UUT.uut.acq2sh(cmd) ans.append(a) self.board_status.record = Signal(makeArray(ans), None, makeArray(cmds)) except Exception, e: pass complete = 0 tries = 0 while not complete and tries < 60: if UUT.get_state().split()[-1] == "ST_POSTPROCESS": tries += 1 sleep(1) else: complete = 1 if UUT.get_state().split()[-1] != "ST_STOP": raise Exception, "Device not Triggered \n device returned -%s-" % UUT.get_state( ).split()[-1] if debug: print "about to get the vins\n" vins = self.getVins(UUT) self.ranges.record = vins (tot, pre, post, run) = UUT.get_numSamples() pre = int(pre) * -1 post = int(post) - 1 mask = UUT.uut.acqcmd('getChannelMask').split('=')[-1] error = "Clock source must be a string" clock_src = self.clock_src.record.getOriginalPartName().getString( )[1:] error = None if clock_src == 'INT_CLOCK': self.clock.record = Range(delta=1. / self.getInternalClock(UUT)) else: self.clock.record = self.clock_src clock = self.clock.record if debug: print "about to ask it to mdsconnect" UUT.uut.acq2sh("mdsConnect %s" % str(self.hostip.record)) if debug: print "about to ask it to mdsopen" UUT.uut.acq2sh('mdsOpen %s %d' % ( self.boardip.tree.name, self.boardip.tree.shot, )) for chan in range(32): if debug: print "working on channel %d" % chan chan_node = self.__getattr__('input_%2.2d' % (chan + 1, )) chan_raw_node = self.__getattr__('input_%2.2d_raw' % (chan + 1, )) if chan_node.on: if debug: print "it is on so ..." if mask[chan:chan + 1] == '1': try: start = max( int( self.__getattr__('input_%2.2d_start_idx' % (chan + 1))), pre) print "start = %d" % start except: start = pre try: end = min( int( self.__getattr__('input_%2.2d_end_idx' % (chan + 1))), post) print "end = %d" % end except: end = post try: inc = int( self.__getattr__('input_%2.2d_inc' % (chan + 1))) print "inc = %d" % inc except: inc = 1 if debug: print "build the command" command = "mdsPutCh --field %s:raw --expr %%calsig --timebase %d,%d,%d %d" % ( chan_node.getFullPath(), int(start - pre), int(end - pre), int(inc), chan + 1) command = command.replace('\\', '\\\\') if debug: print "about to execute %s" % command UUT.uut.acq2sh(command) if inc > 1: clk = '' delta = '' begin = '' end = '' try: clk = self.clock.evaluate() delta = clk.delta begin = clk.begin ending = clk.end except: pass if delta: axis = Range(begin, ending, delta / inc) window = Window(start / inc, end / inc, trigger) dim = Dimension(window, axis) else: dim = Data.Compile( 'Map($,$)', Dimension( Window(start / inc, end / inc, trigger), clock), Range(start, end, inc)) raw = Data.compile('data($)', chan_raw_node) chan_node.record = Signal(raw, None, dim) else: raw = Data.compile('data($)', chan_raw_node) chan_node.record = Signal( raw, None, Dimension(Window(start, end, self.trig_src), clock)) UUT.uut.acq2sh('mdsClose %s' % (self.boardip.tree.name, ))
def store(self, arg): """ Store the data from the device Fetch and store the device status (firmware etc) If the device is finished For each channel that is on and active in the mask read the data store the data into the raw nodes store the expression into the data nodes """ debug=os.getenv("DEBUG_DEVICES") try: boardip=self.check( 'str(self.boardip.record)', "Must specify a board ipaddress") UUT = acq200.Acq200(transport.factory(boardip)) try: ans = [] cmds = self.status_cmds.record for cmd in cmds: print cmd a = UUT.uut.acq2sh(cmd) ans.append(a) self.board_status.record = Data.compile('build_signal($,*, $)', a, cmds) except Exception, e: pass complete = 0 tries = 0 while not complete and tries < 60 : if UUT.get_state().split()[-1] == "ST_POSTPROCESS" : tries +=1 sleep(1) else: complete=1 if UUT.get_state().split()[-1] != "ST_STOP" : raise Exception, "Device not Triggered \n device returned -%s-" % UUT.get_state().split()[-1] if debug: print "about to get the vins\n" vins = self.getVins(UUT) self.ranges.record = vins (tot, pre, post, run) = UUT.get_numSamples() pre = int(pre) post = int(post) mask = UUT.uut.acqcmd('getChannelMask').split('=')[-1] clock_src=self.check('self.clock_src.record.getOriginalPartName().getString()[1:]', "Clock source must be a string") if clock_src == 'INT_CLOCK' : self.clock.record = Range(delta=1./self.getInternalClock(UUT)) else: self.clock.record = self.clock_src clock = self.clock.record if debug: print "about to ask it to mdsconnect" UUT.uut.acq2sh("mdsConnect %s" % str(self.hostip.record)) if debug: print "about to ask it to mdsopen" UUT.uut.acq2sh('mdsOpen %s %d' % (self.boardip.tree.name, self.boardip.tree.shot,)) for chan in range(32): if debug: print "working on channel %d" % chan chan_node = eval('self.input_%2.2d' % (chan+1,)) chan_raw_node = eval('self.input_%2.2d_raw' % (chan+1,)) if chan_node.on : if debug: print "it is on so ..." if mask[chan:chan+1] == '1' : try: start = eval('int(self.input_%2.2d:start_idx)'%chan+1) except: start = pre try: end = eval('int(self.input_%2.2d:end_idx)'%chan+1) except: end = post try: inc = eval('int(self.input_%2.2d:inc)'%chan+1) except: inc = 1 if debug: print "build the command" command = "mdsPutCh --field %s:raw --expr %%calsig --timebase %d,%d,%d %d" % (chan_node.getFullPath(), int(start), int(end), int(inc), chan+1) command = command.replace('\\','\\\\') if debug: print "about to execute %s" % command UUT.uut.acq2sh(command) if inc > 1 : clk='' delta='' begin='' end='' try : clk = self.clock.evaluate() delta = clk.delta begin = clk.begin ending = clk.end except: pass if delta : axis = Range(begin, ending, delta/inc) window = Window(start/inc, end/inc, trigger) dim = Dimension(window, axis) else: dim = Data.Compile('Map($,$)', Dimension(Window(start/inc, end/inc, trigger), clock), Range(start, end, inc)) raw = Data.compile('data($)', chan_raw_node) chan_node.record = eval('Signal(raw, "", dim)' % chan_node.getPath()) else: raw = Data.compile('data($)', chan_raw_node) chan_node.record = Signal(raw, "", Dimension(Window(start, end, self.trig_src), clock)) UUT.uut.acq2sh('mdsClose %s' % (self.boardip.tree.name,))
def store(self, arg): """ Store the data from the device Fetch and store the device status (firmware etc) If the device is finished For each channel that is on and active in the mask read the data store the data into the raw nodes store the expression into the data nodes """ debug = os.getenv("DEBUG_DEVICES") try: boardip = self.check('str(self.boardip.record)', "Must specify a board ipaddress") UUT = acq200.Acq200(transport.factory(boardip)) try: ans = [] cmds = self.status_cmds.record for cmd in cmds: print(cmd) a = UUT.uut.acq2sh(cmd) ans.append(a) self.board_status.record = Data.compile( 'build_signal($,*, $)', ans, cmds) except Exception: pass complete = 0 tries = 0 if UUT.get_state().split()[-1] == "ST_RUN": raise Exception( "Device not Triggered \n device returned -%s-" % UUT.get_state().split()[-1]) if debug: print("about to get the vins\n") vins = self.getVins(UUT) self.ranges.record = vins (tot, pre, post, run) = UUT.get_numSamples() pre = int(pre) post = int(post) if pre == 0 and post == 0: return 662480266 # DT196B$_NO_SAMPLES mask = UUT.uut.acqcmd('getChannelMask').split('=')[-1] if debug: print("pre = %d, post = %d" % ( pre, post, )) clock_src = self.check( 'str(self.clock_src.record.getOriginalPartName())[1:]', "Clock source must be a string") if clock_src == 'INT_CLOCK': self.clock.record = Range(delta=1. / self.getInternalClock(UUT)) else: self.clock.record = self.clock_src clock = self.clock.record if debug: print("about to start the script") (fd, fname) = mkstemp('.sh') f = open(fname, 'w') f.write("#!/bin/sh\n") f.write("touch /tmp/starting_%d\n" % self.boardip.tree.shot) f.write("acqcmd --until ST_STOP\n") f.write("mdsConnect %s\n" % str(self.hostip.record)) cmd = "mdsValue \"job_start('%s', %d)\"" % (self.path, self.tree.shot) cmd = cmd.replace('\\', '\\\\\\\\\\\\\\') f.write("%s\n" % (cmd, )) f.write("mdsOpen %s %d\n" % ( self.boardip.tree.name, self.boardip.tree.shot, )) for chan in range(96): chan_node = eval('self.input_%2.2d' % (chan + 1, )) chan_raw_node = eval('self.input_%2.2d_raw' % (chan + 1, )) if chan_node.on: if debug: print("it is on so ...") if mask[chan:chan + 1] == '1': try: start = eval("int(self.input_%2.2d_start_idx)" % (chan + 1)) except: start = pre try: end = eval("int(self.input_%2.2d_end_idx" % (chan + 1)) except: end = post - 1 try: inc = eval("int(self.input_%2.2d_inc)" % (chan + 1)) except: inc = 1 if debug: print("build the command") command = "mdsPutCh --field %s:raw --expr %%calsig --timebase %d,%d,%d %d\n" % ( chan_node.getFullPath(), int(start), int(end), int(inc), chan + 1) command = command.replace('\\', '\\\\') if debug: print("about to execute %s" % command) f.write(command) if inc > 1: clk = None delta = None begin = None ending = None try: clk = self.clock.evaluate() delta = clk.delta begin = clk.begin ending = clk.ending except: pass if delta: axis = Range(begin, ending, delta * inc) window = Window(start / inc, end / inc, self.trig_src) dim = Dimension(window, axis) else: dim = Data.compile( 'Map($,$)', Dimension( Window(start / inc, end / inc, trig_src), clock), Range(start, end, inc)) raw = Data.compile('data($)', chan_raw_node) chan_node.record = eval('Signal(raw, "", dim)') else: raw = Data.compile('data($)', chan_raw_node) chan_node.record = Signal( raw, "", Dimension( Window(start, end - 1, self.trig_src), clock)) f.write('mdsClose %s\n' % (self.boardip.tree.name, )) f.write("touch /tmp/finished_%d\n" % self.boardip.tree.shot) cmd = "mdsValue \"job_finish('%s', %d)\"" % (self.path, self.tree.shot) cmd = cmd.replace('\\', '\\\\\\\\\\\\\\') f.write("%s\n" % (cmd, )) f.write("rm $0\n") f.close() cmd = 'curl -s -T %s ftp://%s/%s' % (fname, boardip, 'post_shot.sh') pipe = os.popen(cmd) pipe.close() UUT.uut.acq2sh("chmod a+rx /home/ftp/post_shot.sh") UUT.uut.acq2sh("/home/ftp/post_shot.sh&") except Exception as e: print("Error storing DT196B Device\n%s" % (str(e), )) return 0 return 1
def init(self, arg): """ Initialize the device Send parameters Arm hardware """ debug = os.getenv("DEBUG_DEVICES") try: boardip = self.check('str(self.boardip.record)', "Must specify a board ipaddress") UUT = acq200.Acq200(transport.factory(boardip)) active_chans = self.check( "int(self.active_chans)", "Must specify active chans as int in (32,64,96)") if active_chans not in (32, 64, 96): print("active chans must be in (32, 64, 96 )") active_chans = 96 trig_src = self.check( 'str(self.trig_src.record.getOriginalPartName())[1:]', "Trig source must be a string") print("trig_src is %s\n" % trig_src) if not trig_src in self.trig_sources: raise Exception("Trig_src must be in %s" % str(self.trig_sources)) trig_edge = self.check('self.trig_edge.record.getString()', 'Trig edge must be a string') clock_src = self.check( 'str(self.clock_src.record.getOriginalPartName())[1:]', "Clock source must be a string") if debug: print("clock_src is %s\n" % clock_src) if not clock_src in self.clock_sources: raise Exception("Clock_src must be in %s" % str(self.clock_sources)) if clock_src == 'INT_CLOCK' or clock_src == 'MASTER': clock_freq = self.check( 'int(self.clock_freq)', "Must specify a frequency for internal clock") else: clock_freq = self.check( 'int(self.clock_freq)', "Must specify a frequency for external clock") clock_div = self.check( 'int(self.clock_div)', "Must specify a divisor for external clock") pre_trig = self.check('int(self.pre_trig.data()*1024)', "Must specify pre trigger samples") post_trig = self.check('int(self.post_trig.data()*1024)', "Must specify post trigger samples") UUT.set_abort() UUT.clear_routes() for i in range(6): line = 'd%1.1d' % i try: wire = eval('str(self.di%1.1d_wire.record)' % i) if wire not in self.wires: print("DI%d:wire must be in %s" % ( i, str(self.wires), )) wire = 'fpga' except: wire = 'fpga' try: bus = eval('str(self.di%1.1d_bus.record)' % i) if bus not in self.wires: print("DI%d:bus must be in %s" % ( i, str(self.wires), )) bus = '' except: bus = '' UUT.set_route(line, 'in %s out %s' % ( wire, bus, )) UUT.setChannelCount(active_chans) if clock_src == 'INT_CLOCK' or clock_src == 'MASTER': UUT.uut.acqcmd("setInternalClock %d" % clock_freq) if clock_src == 'MASTER': UUT.uut.acqcmd('-- setDIO -1-----') else: if (clock_div != 1): UUT.uut.acqcmd("setExternalClock %s %d D02" % ( clock_src, clock_div, )) # # the following is not generic # the clock is output on d2 and comes from DI0 # UUT.set_route('d2', 'in fpga out pxi') UUT.uut.acqcmd('-- setDIO --1-----') UUT.uut.acq2sh('set.ext_clk DI0') else: UUT.uut.acqcmd("setExternalClock %s" % clock_src) UUT.setPrePostMode(pre_trig, post_trig, trig_src, trig_edge) mask = UUT.uut.acqcmd('getChannelMask').split('=')[-1] UUT.set_arm() return 1 except Exception as e: print("%s\n" % (str(e), )) return 0
def store(self, arg): """ Store the data from the device Fetch and store the device status (firmware etc) If the device is finished For each channel that is on and active in the mask read the data store the data into the raw nodes store the expression into the data nodes """ print "=========== ANUDEVICES SH edited dt132.py 13/06/2012 ===========" stall=os.getenv("Shaun_Stall") debug=os.getenv("DEBUG_DEVICES") try: error="Must specify a board ipaddress" boardip=str(self.boardip.record) error=None UUT = acq200.Acq200(transport.factory(boardip)) try: ans = [] cmds = self.status_cmds.record for cmd in cmds: print cmd a = UUT.uut.acq2sh(cmd) ans.append(a) self.board_status.record = Signal(makeArray(ans),None,makeArray(cmds)) except Exception, e: pass complete = 0 tries = 0 complete2=0 tries2 = 0 #SHAUN MODIFICATION SO THAT IT CAN BE RUN IN A LOOP AND WILL STALL HERE UNTIL CARD GOES TO POSTPROCESS if stall=="YES": print "stall is yes" while complete2==0: if UUT.get_state().split()[-1] != "ST_STOP" : tries2 +=1 sleep(1) #print 'Still in run state' else: complete2=1 print 'Finished' #End Shaun Modification while not complete and tries < 60 : if UUT.get_state().split()[-1] == "ST_POSTPROCESS" : tries +=1 sleep(1) else: complete=1 if UUT.get_state().split()[-1] != "ST_STOP" : raise Exception, "Device not Triggered \n device returned -%s-" % UUT.get_state().split()[-1] if debug: print "about to get the vins\n" vins = self.getVins(UUT) self.ranges.record = vins (tot, pre, post, run) = UUT.get_numSamples() pre = int(pre)*-1 post = int(post)-1 mask = UUT.uut.acqcmd('getChannelMask').split('=')[-1] print mask error="Clock source must be a string" #clock_src=self.clock_src.record.getOriginalPartName().getString()[1:] clock_src=str(self.clock_src.record)[-3:] #edit!! #print "clock_src:", clock_src error=None if clock_src == 'INT_CLOCK' : self.clock.record = Range(delta=1./self.getInternalClock(UUT)) else: self.clock.record = Range(delta=1./self.getInternalClock(UUT)) #TEST FOR 32MHZ clock!!! - getInternalCock is deceptively named - it also works for external clock and is the second value that is given when setting it #self.clock.record = Range(delta=1./self.clock_src.data()) #SHAUN EDIT!!!!! #SHAUN FAST DTACQ EDIT # if os.getenv('DTACQFAST')=='YES16' and boardip=='192.168.1.9': # self.clock.record = Range(delta=1./(16000000)) #SHAUN EDIT!!!!! # if os.getenv('DTACQFAST')=='YES32' and boardip=='192.168.1.9': # self.clock.record = Range(delta=1./(32000000)) #SHAUN EDIT!!!!! #print self.clock_src.data() #self.clock.record = self.clock_src clock = self.clock.record #print 'clock record being used is : '#SHAUN EDIT if debug: print "about to ask it to mdsconnect" #print "mdsConnect %s" % str(self.hostip.record) UUT.uut.acq2sh("mdsConnect %s" % str(self.hostip.record)) if debug: print "about to ask it to mdsopen" #print 'mdsOpen %s %d' % (self.boardip.tree.name, self.boardip.tree.shot,) UUT.uut.acq2sh('mdsOpen %s %d' % (self.boardip.tree.name, self.boardip.tree.shot,)) #SHAUN EDIT START mdsputchsent=0 #Remember if command has been sent - initialise to be 0 listofchannels="" #Initialise list of channels to be used by bulk command for spot in range(32):#Build list of channels to be used chan_node = self.__getattr__('input_%2.2d' % (spot+1,)) if chan_node.on: listofchannels=listofchannels + str(spot+1) + "," if listofchannels[len(listofchannels)-1]==",": #remove the last comma listofchannels=listofchannels[:len(listofchannels)-1] #Shaun edit for DTACQ Fast Sampling if os.getenv('DTACQFAST')=='YES16' and boardip=='192.168.1.9': listofchannels='1,5,17,21' if os.getenv('DTACQFAST')=='YES32' and boardip=='192.168.1.9': listofchannels='1,17' mdsputchbulkcommand=1 #switch to use bulk mdsputch or not #SHAUN EDIT END for chan in range(32): if debug: print "working on channel %d" % chan chan_node = self.__getattr__('input_%2.2d' % (chan+1,)) chan_raw_node = self.__getattr__('input_%2.2d_raw' % (chan+1,)) if chan_node.on : if debug: print "it is on so ..." if mask[chan:chan+1] == '1' : try: start = max(int(self.__getattr__('input_%2.2d_start_idx'%(chan+1))), pre) print "start = %d" %start except: start = pre try: end = min(int(self.__getattr__('input_%2.2d_end_idx'%(chan+1))), post) except: end = post try: inc = int(self.__getattr__('input_%2.2d_inc'%(chan+1))) print "inc = %d" % inc except: inc = 1 if debug: print "build the command" #!!!!!!!!!!!!!!! SHAUN MODIFIED THE FOLLOWING LINE (ADDED the +1 on the third argument to fix 1 more sample in time/data - ORIGINALLY WASN"T THERE - also replaced %%calsig with %%CAL to reduce complexity of the created tree - Boyd???) command = "mdsPutCh --field %s:raw --expr %%CAL --timebase %d,%d,%d %d" % (chan_node.getFullPath(), int(start-pre), int(end-pre)+1, int(inc), chan+1) command = command.replace('\\','\\\\') if debug: print "about to execute %s" % command #START Shaun EDIT TO USE MDSPUTCH TO DO LOTS OF CHANNELS (mdsputchbulkcommand decides if it is used) if mdsputchbulkcommand==1: if mdsputchsent==0: #Check to see if command has already been sent fieldstring=str(chan_node.getFullPath()) #building the string fieldstring=fieldstring[0:len(fieldstring)-2]+"%02d" #building the string bulkcommand = "mdsPutCh --field %s:raw --expr %%CAL --timebase %d,%d,%d %s" % (fieldstring, int(start-pre), int(end-pre)+1, int(inc), listofchannels) bulkcommand = bulkcommand.replace('\\','\\\\') print bulkcommand UUT.uut.acq2sh(bulkcommand) #send command mdsputchsent=1 #Remember the command has been sent else: UUT.uut.acq2sh(command) #ORIGINAL COMMAND #END SHAUN EDIT if inc > 1 : clk='' delta='' begin='' end='' try : clk = self.clock.evaluate() delta = clk.delta begin = clk.begin ending = clk.end except: pass if delta : axis = Range(begin, ending, delta/inc) window = Window(start/inc, end/inc, trigger) dim = Dimension(window, axis) else: dim = Data.Compile('Map($,$)', Dimension(Window(start/inc, end/inc, trigger), clock), Range(start, end, inc)) raw = Data.compile('data($)', chan_raw_node) chan_node.record = Signal(raw, None, dim) else: raw = Data.compile('data($)', chan_raw_node) chan_node.record = Signal(raw, None, Dimension(Window(start, end, self.trig_src), clock)) UUT.uut.acq2sh('mdsClose %s' % (self.boardip.tree.name,))
def init(self, arg): """ Initialize the device Send parameters Arm hardware """ print "ANUDEVICES : this is the edited one2 13/06/2012" debug=os.getenv("DEBUG_DEVICES") try: error="Must specify a board ipaddress" boardip=str(self.boardip.record) error=None error="Must specify active chans as int in (8,16,32)" active_chans = int(self.active_chans) error=None if active_chans not in (8,16,32) : print "active chans must be in (8, 16, 32)" active_chans = 32 error="Trig source must be a string" trig_src = str(self.trig_src.record)[-3:] #NEW #print "trig_src :", trig_src #trig_src=self.trig_src.record.getOriginalPartName().getString()[1:] error=None if debug: print "trig_src is %s\n" % trig_src if not trig_src in self.trig_sources: raise Exception, "Trig_src must be in %s" % str(self.trig_sources) error='Trig edge must be a string' trig_edge=self.trig_edge.record.getString() #print "trig_edge:", trig_edge error=None error="Clock source must be a string" #clock_src=self.clock_src.record.getOriginalPartName().getString()[1:] clock_src = str(self.clock_src.record)[-3:] #NEW #print "clock_src:",clock_src error=None if debug: print "clock_src is %s\n" % clock_src if not clock_src in self.clock_sources: raise Exception, "Clock_src must be in %s" % str(self.clock_sources) if (clock_src == 'INT_CLOCK'): error="Must specify a frequency for internal clock" clock_freq = int(self.clock_freq) error=None else: error="Must specify a frequency for external clock" clock_freq = int(self.clock_freq) error="Must specify a divisor for external clock" clock_div = int(self.clock_div) error=None error="Must specify pre trigger samples" pre_trig=int(self.pre_trig.data()*1024) error="Must specify post trigger samples" post_trig=int(self.post_trig.data()*1024) #print "connecting to board ip:", boardip error="Unable to connect to digitiser - is it on??" start_time = time.time() UUT = acq200.Acq200(transport.factory(boardip)) UUT.set_abort() UUT.clear_routes() #print 'make UUT :', time.time() - start_time #start_time = time.time() error=None #print "connected" for i in range(6): line = 'd%1.1d' % i try: wire = str(self.__getattr__('di%1.1d_wire'%i).record) if wire not in self.wires : print "DI%d:wire must be in %s" % (i, str(self.wires), ) wire = 'fpga' except: wire = 'fpga' try: bus = str(self.__getattr__('di%1.1d_bus'%i).record) if bus not in self.wires : print "DI%d:bus must be in %s" % (i, str(self.wires),) bus = '' except: bus = '' UUT.set_route(line, 'in %s out %s' % (wire, bus,)) #print 'set_route', line, wire, bus #print 'make setup lines :', time.time() - start_time #start_time = time.time() UUT.setChannelCount(active_chans) #print "set active channels:", active_chans #SHAUN EDIT FOR FAST DTACQ if os.getenv('DTACQFAST')=='YES16' and boardip=='192.168.1.9': UUT.uut.acq2sh('set.channelSpeedMask 80008000000000008000800000000000') print 'FAST SPEED MASK 1' if os.getenv('DTACQFAST')=='YES32' and boardip=='192.168.1.9': UUT.uut.acq2sh('set.channelSpeedMask G000000000000000G000000000000000') print 'FAST SPEED MASK 2' if clock_src == 'INT_CLOCK' : print "INT_CLOCK" #UUT.uut.acqcmd("setInternalClock %d" % clock_freq) - SHAUN ALTERATION (two commands below) UUT.uut.acqcmd("setInternalClock %d DO1" % clock_freq) UUT.uut.acqcmd("-- setDIO -1-----") #SHAUN EDIT FOR FAST DTACQ elif os.getenv('DTACQFAST')=='YES16' and boardip=='192.168.1.9': UUT.uut.acqcmd("-- setExternalClock --fin %d --fout %d DI0" % (1000, 16000,)) #SHAUN TEMPORARY EXT CLOCK TEST!!! elif os.getenv('DTACQFAST')=='YES32' and boardip=='192.168.1.9': UUT.uut.acqcmd("-- setExternalClock --fin %d --fout %d DI0" % (1000, 32000,)) #SHAUN TEMPORARY EXT CLOCK TEST!!! else: print 'clock external' #UUT.uut.acqcmd("-- setExternalClock --fin %d --fout %d DI0" % (clock_freq/1000, clock_freq/1000,))- SHAUN ALTERATION #UUT.uut.acqcmd("-- setExternalClock --fin %d --fout %d DI1" % (clock_freq/1000, clock_freq/1000,)) UUT.uut.acqcmd("-- setExternalClock --fin %d --fout %d DI0" % (1000, 2000,)) #SHAUN TEMPORARY EXT CLOCK TEST!!! print "-- setExternalClock --fin %d --fout %d DI0" % (1000, 2000,) if os.getenv('DTACQFAST')=='YES16' and boardip=='192.168.1.9': pre_trig=pre_trig*8 post_trig=post_trig*8 if os.getenv('DTACQFAST')=='YES32' and boardip=='192.168.1.9': pre_trig=pre_trig*16 post_trig=post_trig*16 #print "prePostMode:", pre_trig, post_trig, trig_src,trig_edge UUT.setPrePostMode(pre_trig, post_trig, trig_src, trig_edge) #print 'everything else :', time.time() - start_time #start_time = time.time() UUT.set_arm() #print 'arm :', time.time() - start_time #start_time = time.time() print 'armed' # UUT.uut.acq.p.sendline('bye') # UUT.uut.sh.p.sendline('bye') # UUT.uut.statemon.sendline('bye') # print 'hello' # print UUT.uut.acq.p.isalive() # print 'blah' # UUT.uut.acq.p.close() # print 'finished 1' # time_mod.sleep(10) # UUT.uut.sh.p.close() # print 'finished 2' # time_mod.sleep(10) # UUT.uut.statemon.close() # UUT.uut.acq.p.sendline('bye') # UUT.uut.sh.p.sendline('bye') # UUT.uut.statemon.sendline('bye') # print 'sleeping' # import time as time_mod # time_mod.sleep(10) # print 'blah' # import pexpect # UUT.uut.acq.p.expect(pexpect.EOF) # print 'blah2' # #UUT.uut.acq.p.flush() # print 'close acq' # print 'close acq' # del UUT.uut.acq.p # #UUT.uut.acq.p.close(False) # print 'close acq' # #UUT.uut.sh.p.close() # print 'close sh' # #UUT.uut.statemon.close() # print 'close statemon' return 1 except Exception,e: print 'some kind of error' if error is not None: e=error print "%s\n" % (str(e),) raise RuntimeError('!!! EXCEPTION - %s'%(str(e))) return 0
def init(self, arg): """ Initialize the device Send parameters Arm hardware """ debug=os.getenv("DEBUG_DEVICES") try: boardip=self.check( 'str(self.boardip.record)', "Must specify a board ipaddress") UUT = acq200.Acq200(transport.factory(boardip)) active_chans = self.check("int(self.active_chans)", "Must specify active chans as int in (2, 4, 8, 16)") if active_chans not in (2,4,8,16) : print "active chans must be in (2, 4,8, 16 )" active_chans = 16 trig_src=self.check('self.trig_src.record.getOriginalPartName().getString()[1:]', "Trig source must be a string") print "trig_src is %s\n" % trig_src if not trig_src in self.trig_sources: raise Exception, "Trig_src must be in %s" % str(self.trig_sources) trig_edge=self.check('self.trig_edge.record.getString()', 'Trig edge must be a string') clock_src=self.check('self.clock_src.record.getOriginalPartName().getString()[1:]', "Clock source must be a string") if debug: print "clock_src is %s\n" % clock_src if not clock_src in self.clock_sources: raise Exception, "Clock_src must be in %s" % str(self.clock_sources) if clock_src == 'INT_CLOCK' or clock_src == 'MASTER': clock_freq = self.check('int(self.clock_freq)', "Must specify a frequency for internal clock") else: clock_freq = self.check('int(self.clock_freq)', "Must specify a frequency for external clock") clock_div = self.check('int(self.clock_div)', "Must specify a divisor for external clock") pre_trig=self.check('int(self.pre_trig.data()*1024)', "Must specify pre trigger samples") post_trig=self.check('int(self.post_trig.data()*1024)', "Must specify post trigger samples") UUT.set_abort() UUT.clear_routes() for i in range(6): line = 'd%1.1d' % i try: wire = eval('str(self.di%1.1d_wire.record)' %i) if wire not in self.wires : print "DI%d:wire must be in %s" % (i, str(self.wires), ) wire = 'fpga' except: wire = 'fpga' try: bus = eval('str(self.di%1.1d_bus.record)' % i) if bus not in self.wires : print "DI%d:bus must be in %s" % (i, str(self.wires),) bus = '' except: bus = '' UUT.set_route(line, 'in %s out %s' % (wire, bus,)) UUT.setChannelCount(active_chans) if clock_src == 'INT_CLOCK' or clock_src == 'MASTER' : UUT.uut.acqcmd("setInternalClock %d DO1" % clock_freq) if clock_src == 'MASTER' : UUT.uut.acqcmd('-- setDIO -1-----') else: UUT.uut.acqcmd("setExternalClock %s" % clock_src) UUT.setPrePostMode(pre_trig, post_trig) mask = UUT.uut.acqcmd('getChannelMask').split('=')[-1] UUT.set_arm() return 1 except Exception,e: print "%s\n" % (str(e),) return 0
def init(self, arg): """ Initialize the device Send parameters Arm hardware """ debug = os.getenv("DEBUG_DEVICES") try: error = "Must specify a board ipaddress" boardip = str(self.boardip.record) error = None error = "Must specify active chans as int in (8,16,32)" active_chans = int(self.active_chans) error = None if active_chans not in (8, 16, 32): print "active chans must be in (8, 16, 32)" active_chans = 32 error = "Trig source must be a string" trig_src = self.trig_src.record.getOriginalPartName().getString( )[1:] error = None if debug: print "trig_src is %s\n" % trig_src if not trig_src in self.trig_sources: raise Exception, "Trig_src must be in %s" % str( self.trig_sources) error = 'Trig edge must be a string' trig_edge = self.trig_edge.record.getString() error = None error = "Clock source must be a string" clock_src = self.clock_src.record.getOriginalPartName().getString( )[1:] error = None if debug: print "clock_src is %s\n" % clock_src if not clock_src in self.clock_sources: raise Exception, "Clock_src must be in %s" % str( self.clock_sources) if (clock_src == 'INT_CLOCK'): error = "Must specify a frequency for internal clock" clock_freq = int(self.clock_freq) error = None else: error = "Must specify a frequency for external clock" clock_freq = int(self.clock_freq) error = "Must specify a divisor for external clock" clock_div = int(self.clock_div) error = None error = "Must specify pre trigger samples" pre_trig = int(self.pre_trig.data() * 1024) error = "Must specify post trigger samples" post_trig = int(self.post_trig.data() * 1024) UUT = acq200.ACQ200(transport.factory(boardip)) UUT.set_abort() UUT.clear_routes() for i in range(6): line = 'd%1.1d' % i try: wire = str(self.__getattr__('di%1.1d_wire' % i).record) if wire not in self.wires: print "DI%d:wire must be in %s" % ( i, str(self.wires), ) wire = 'fpga' except: wire = 'fpga' try: bus = str(self.__getattr__('di%1.1d_bus' % i).record) if bus not in self.wires: print "DI%d:bus must be in %s" % ( i, str(self.wires), ) bus = '' except: bus = '' UUT.set_route(line, 'in %s out %s' % ( wire, bus, )) UUT.setChannelCount(active_chans) if clock_src == 'INT_CLOCK': UUT.uut.acqcmd("setInternalClock %d" % clock_freq) else: UUT.uut.acqcmd("-- setExternalClock --fin %d --fout %d DI0" % ( clock_freq / 1000, clock_freq / 1000, )) UUT.setPrePostMode(pre_trig, post_trig, trig_src, trig_edge) UUT.set_arm() return 1 except Exception, e: if error is not None: e = error print "%s\n" % (str(e), ) return 0
def store(self, arg): """ Store the data from the device Fetch and store the device status (firmware etc) If the device is finished For each channel that is on and active in the mask read the data store the data into the raw nodes store the expression into the data nodes """ debug=os.getenv("DEBUG_DEVICES") try: boardip=self.check( 'str(self.boardip.record)', "Must specify a board ipaddress") UUT = acq200.Acq200(transport.factory(boardip)) try: ans = [] cmds = self.status_cmds.record for cmd in cmds: print cmd a = UUT.uut.acq2sh(cmd) ans.append(a) self.board_status.record = Data.compile('build_signal($,*, $)', ans, cmds) except Exception, e: pass complete = 0 tries = 0 if UUT.get_state().split()[-1] == "ST_RUN" : raise Exception, "Device not Triggered \n device returned -%s-" % UUT.get_state().split()[-1] if debug: print "about to get the vins\n" vins = self.getVins(UUT) self.ranges.record = vins (tot, pre, post, run) = UUT.get_numSamples() pre = int(pre) post = int(post) mask = UUT.uut.acqcmd('getChannelMask').split('=')[-1] if debug: print "pre = %d, post = %d" % (pre, post, ) clock_src=self.check('self.clock_src.record.getOriginalPartName().getString()[1:]', "Clock source must be a string") if clock_src == 'INT_CLOCK' or clock_src == 'MASTER' : self.clock.record = Range(delta=1./self.getInternalClock(UUT)) else: self.clock.record = self.clock_src clock = self.clock.record if debug: print "about to start the script" (fd,fname) = mkstemp('.sh') f=open(fname, 'w') f.write("#!/bin/sh\n") f.write("touch /tmp/starting_%d\n" % self.boardip.tree.shot) f.write("acqcmd --until ST_STOP\n") f.write("mdsConnect %s\n" %str(self.hostip.record)) cmd = "mdsValue \"job_start('%s', %d)\"" % (self.path, self.tree.shot) cmd = cmd.replace('\\', '\\\\\\\\\\\\\\') f.write("%s\n"%( cmd,)) f.write("mdsOpen %s %d\n" % (self.boardip.tree.name, self.boardip.tree.shot,)) for chan in range(16) : chan_node = eval('self.input_%2.2d' % (chan+1,)) chan_raw_node = eval('self.input_%2.2d_raw' % (chan+1,)) if chan_node.on : if debug: print "it is on so ..." if mask[chan:chan+1] == '1' : try: start = eval("int(self.input_%2.2d_start_idx)"%(chan+1)) except: start = pre try: end = eval("int(self.input_%2.2d_end_idx)"%(chan+1)) except: end = post try: inc = eval("int(self.input_%2.2d_inc)"%(chan+1)) except: inc = 1 if debug: print "build the command" command = "mdsPutCh --field %s:raw --expr %%calsig --timebase %d,%d,%d %d\n" % (chan_node.getFullPath(), int(start), int(end-start+1), int(inc), chan+1) command = command.replace('\\','\\\\') if debug: print "about to execute %s" % command f.write(command) if inc > 1 : clk=None delta=None begin=None ending=None try : clk = self.clock.evaluate() delta = clk.delta begin = clk.begin ending = clk.ending except: pass if delta : axis = Range(begin, ending, delta*inc) window = Window(start/inc, end/inc, self.trig_src) dim = Dimension(window, axis) else: dim = Data.compile('Map($,$)', Dimension(Window(start/inc, end/inc, trig_src), clock), Range(start, end, inc)) raw = Data.compile('data($)', chan_raw_node) chan_node.record = eval('Signal(raw, "", dim)') else: raw = Data.compile('data($)', chan_raw_node) chan_node.record = Signal(raw, "", Dimension(Window(start, end, self.trig_src), clock)) f.write('mdsClose %s\n' % (self.boardip.tree.name,)) f.write("touch /tmp/finished_%d\n" % self.boardip.tree.shot) cmd = "mdsValue \"job_finish('%s', %d)\"" % (self.path, self.tree.shot) cmd = cmd.replace('\\', '\\\\\\\\\\\\\\') f.write("%s\n"%( cmd,)) f.write("rm $0\n") f.close() cmd = 'curl -s -T %s ftp://%s/%s' %(fname, boardip, 'post_shot.sh') pipe = os.popen(cmd) pipe.close() UUT.uut.acq2sh("chmod a+rx /home/ftp/post_shot.sh") UUT.uut.acq2sh("/home/ftp/post_shot.sh&")
def init(self, arg): """ Initialize the device Send parameters Arm hardware """ debug=os.getenv("DEBUG_DEVICES") try: error="Must specify a board ipaddress" boardip=str(self.boardip.record) error=None error="Must specify active chans as int in (8,16,32)" active_chans = int(self.active_chans) error=None if active_chans not in (8,16,32) : print "active chans must be in (8, 16, 32)" active_chans = 32 error="Trig source must be a string" trig_src=self.trig_src.record.getOriginalPartName().getString()[1:] error=None if debug: print "trig_src is %s\n" % trig_src if not trig_src in self.trig_sources: raise Exception, "Trig_src must be in %s" % str(self.trig_sources) error='Trig edge must be a string' trig_edge=self.trig_edge.record.getString() error=None error="Clock source must be a string" clock_src=self.clock_src.record.getOriginalPartName().getString()[1:] error=None if debug: print "clock_src is %s\n" % clock_src if not clock_src in self.clock_sources: raise Exception, "Clock_src must be in %s" % str(self.clock_sources) if (clock_src == 'INT_CLOCK'): error="Must specify a frequency for internal clock" clock_freq = int(self.clock_freq) error=None else: error="Must specify a frequency for external clock" clock_freq = int(self.clock_freq) error="Must specify a divisor for external clock" clock_div = int(self.clock_div) error=None error="Must specify pre trigger samples" pre_trig=int(self.pre_trig.data()*1024) error="Must specify post trigger samples" post_trig=int(self.post_trig.data()*1024) UUT = acq200.Acq200(transport.factory(boardip)) UUT.set_abort() UUT.clear_routes() for i in range(6): line = 'd%1.1d' % i try: wire = str(self.__getattr__('di%1.1d_wire'%i).record) if wire not in self.wires : print "DI%d:wire must be in %s" % (i, str(self.wires), ) wire = 'fpga' except: wire = 'fpga' try: bus = str(self.__getattr__('di%1.1d_bus'%i).record) if bus not in self.wires : print "DI%d:bus must be in %s" % (i, str(self.wires),) bus = '' except: bus = '' UUT.set_route(line, 'in %s out %s' % (wire, bus,)) UUT.setChannelCount(active_chans) if clock_src == 'INT_CLOCK' : UUT.uut.acqcmd("setInternalClock %d" % clock_freq) else: UUT.uut.acqcmd("-- setExternalClock --fin %d --fout %d DI0" % (clock_freq/1000, clock_freq/1000,)) UUT.setPrePostMode(pre_trig, post_trig, trig_src, trig_edge) UUT.set_arm() return 1 except Exception,e: if error is not None: e=error print "%s\n" % (str(e),) return 0