source: fact/tools/PyDimCtrl/event_viewer.py@ 17893

Last change on this file since 17893 was 14256, checked in by neise, 12 years ago
factdimserver has more timeouts and the eventviewer is coming
  • Property svn:executable set to *
File size: 6.0 KB
Line 
1#!/usr/bin/python -tti
2
3from pylab import *
4import numpy as np
5from scipy import *
6from matplotlib.patches import RegularPolygon
7from factdimserver import *
8
9
10class EventBrowser:
11
12 def __init__(self, run, filename):
13
14 self.LoadDetector("")
15 self.run = run
16 self.event = run.next()
17 self.nevents = run.nevents
18 self.fig = figure(figsize =(10, 8))
19 self.ax = self.fig.add_subplot(111)
20 self.ax.set_axis_off()
21 self.axz, kk = mpl.colorbar.make_axes(self.ax, orientation='vertical')
22 self.Plot()
23 # Create a new timer object. Set the interval 1000 milliseconds (1000 is default)
24 # and tell the timer what function should be called.
25 self.timer = fig.canvas.new_timer(interval=1000)
26 self.timer.add_callback(self.timer_callback)
27 self.timer.start()
28 self.fig.canvas.mpl_connect('pick_event', self.onpick)
29 self.fig.canvas.mpl_connect('key_press_event', self.onpress)
30
31 def timer_callback(self):
32 self.adc_data = get_fad_adc()
33 self.cam_data = get_fad_cams()
34
35 def LoadDetector(self,filename):
36 if filename == "":
37 filename = "FACTmap111030.txt"
38 file = open(filename)
39 xpixel = []
40 ypixel = []
41 idpixel = []
42
43 for lines in file:
44 if lines[0] != '#':
45 softid = int(lines.split()[0])
46 idpixel.append(softid)
47 x = -1*float(lines.split()[9])
48 y = float(lines.split()[8])
49 if softid == 1438 or softid == 1439:
50 x = -1 * x
51 xpixel.append(x)
52 ypixel.append(y)
53
54
55 self.xpixel = xpixel
56 self.ypixel = ypixel
57 self.idpixel = idpixel
58
59 def Plot(self):
60 ww, dummy = self.max_finder(self.despiker(self.event['data']))
61 print ww
62 self.ww = ww
63 wmax = ww.max()
64 cmap = plt.cm.spectral
65 for x, y, w in zip(self.xpixel, self.ypixel, ww):
66 self.ax.add_artist(RegularPolygon([x, y], 6, 0.6, 0, facecolor=cmap(w),edgecolor='black',linewidth=0.2))
67 self.ax.plot(self.xpixel, self.ypixel, 'h', color="white", ms=12, visible=False, picker=10)
68 self.ax.set_xlim(-21, 21)
69 self.ax.set_ylim(-21, 21)
70 self.axz.cla()
71
72 #Create axes for the color bar
73 norm = mpl.colors.Normalize(vmin=0, vmax=wmax)
74 cb1 = mpl.colorbar.ColorbarBase(self.axz, cmap=cmap,
75 norm=norm,
76 orientation='vertical')
77 text = "Event Browser, press 'n' in this window to iterate over the events."
78 text = text + "\nEvent id: " + str(self.event["event_id"])
79 text = text + "\nTrigger type: " + str(self.event["trigger_type"])
80 self.ax.annotate(text, (0.05, 0.05),
81 xycoords="figure fraction", va="center", ha="left",
82 bbox=dict(boxstyle="round, pad=1", fc="w"))
83
84 def onpress(self, event):
85 'define some key press events'
86 if event.key in ('q','Q'): sys.exit()
87 if event.key not in ('n', 'p'): return
88 if event.key=='n':
89 self.event = self.run.next()
90 else:
91 print "Sorry I cannot go back!"
92 return
93 self.ax.cla()
94 self.ax.set_axis_off()
95 self.Plot()
96 self.update()
97
98 def onpick(self, event):
99
100 N = len(event.ind)
101 if not N: return True
102
103 if N > 1:
104 print '%i points found!' % N
105 self.pixelID = event.ind[0]
106
107 # the click locations
108 x = event.mouseevent.xdata
109 y = event.mouseevent.ydata
110 print x, y
111 self.update()
112
113
114 def update(self):
115
116 dataind = self.pixelID
117
118 # put a user function in here!
119 self.userfunc(dataind)
120
121 self.fig.canvas.draw()
122 show()
123
124 def userfunc(self,dataind):
125 print 'No userfunc defined'
126 pass
127
128
129# *blocking* function to get the FAD ADC data in a nice format
130def get_fad_adc():
131 # a large large tuple:
132 # 1650 elements carrying header information
133 offset = 1650
134 # (1440+160)*Roi floats of real ADC data (DRS calibrated,
135 # if fad_control has the constants)
136 raw_data = fad_control.raw_data()
137 if raw_data == None:
138 print "fad_control.raw_data() .. timed out"
139 return None
140 Roi = int(raw_data[0])
141 rd = np.array(raw_data[offset:offset+1440*Roi])
142 rd = raw_data.reshape(1440,Roi)
143 return rd
144
145
146def get_fad_cams():
147
148 cd = fad_control.event_data()
149 if cd == None:
150 print "fad_control.event_data() ... timed out"
151 return None
152 cd = np.array(cd)
153 cd = cd.reshape(1440,4)
154
155 return cd
156
157if __name__ == '__main__':
158
159
160 eb = EventBrowser(run, "")
161
162 def PlotFFT(pixelID):
163
164 fig2 = figure(2, figsize=(10, 8))
165
166 ax1= fig2.add_subplot(311)
167 ax2 = fig2.add_subplot(312)
168 ax3 = fig2.add_subplot(313, sharey=ax1, sharex=ax1)
169
170 ax1.cla()
171 ax2.cla()
172 ax3.cla()
173
174 ax1.set_title("PixelID "+str(pixelID))
175
176 ax1.grid()
177 ax2.grid()
178 ax3.grid()
179
180 x_drs = np.arange(0, 300, 1)
181
182 truncated_x_drs = x_drs[20:-10]
183
184 data = eb.event['data']
185
186 drsdata = data[pixelID]
187 ax1.plot(x_drs, drsdata, '.:')
188
189 step = zeros(300)
190 step[:100] = 1
191 ft = fft(drsdata)
192
193 new_drs = np.arange(-150, 150, 1)
194
195 ftdom = ft.copy()
196 for i in range(10,290):
197 ftdom[i]=0
198 ax2.plot(new_drs, abs(concatenate((ftdom[150:],ftdom[:150]))), marker='o')
199 invdata = ifft(ftdom)
200 ax3.plot(x_drs, invdata, '.:')
201 ax3.plot(x_drs, drsdata, '.:')
202 ax3.set_xlabel("DRS counts")
203 fig2.canvas.draw()
204
205
206 eb.userfunc = PlotFFT
207
208 show()
209
210
211
212
213
214
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