source: trunk/python/asapplotter.py@ 210

Last change on this file since 210 was 203, checked in by mar637, 20 years ago

The "final" asap plotter user interface

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[203]1from asap.asaplot import ASAPlot
2
3class asapplotter:
4 def __init__(self):
5 """
6 The ASAP plotter.
7 By default the plotter is set up to plot polarisations
8 'colour stacked' and scantables across panels.
9 The defaul plotter is called 'plotter'.
10 Note:
11 Currenly it only plots 'spectra' not Tsys or
12 other variables.
13
14 """
15 self._plotter = ASAPlot()
16
17 self._tdict = {'Time':'t','time':'t','t':'t','T':'t'}
18 self._bdict = {'Beam':'b','beam':'b','b':'b','B':'b'}
19 self._idict = {'IF':'i','if':'i','i':'i','I':'i'}
20 self._pdict = {'Pol':'p','pol':'p','p':'p'}
21 self._sdict = {'scan':'s','Scan':'s','s':'s','S':'s'}
22 self._cdict = {'t':'scan.nrow()',
23 'b':'scan.nbeam()',
24 'i':'scan.nif()',
25 'p':'scan.npol()',
26 's':'len(scans)'}
27 self._ldict = {'b':'Beam',
28 'i':'IF',
29 'p':'Pol',
30 's':'Scan'}
31 self._dicts = [self._tdict,self._bdict,
32 self._idict,self._pdict,
33 self._sdict]
34 self._panels = 's'
35 self._stacking = 'p'
36 self._autoplot = False
37 self._minmax = None
38 self._data = None
39 self._lmap = []
40
41 def _translate(self, name):
42 for d in self._dicts:
43 if d.has_key(name):
44 return d[name]
45 return None
46
47 def plot(self,*args):
48 """
49 Plot a (list of) scantables.
50 Parameters:
51 one or more comma separated scantables
52 Note:
53 If a (list) of scantables was specified in a previous call
54 to plot, no argument has to be given to 'replot'
55 NO checking is done that the abscissas of the scantables
56 are consistent e.g. all 'channel' or all 'velocity' etc.
57 """
58 if self._plotter.is_dead:
59 self._plotter = ASAPlot()
60 self._plotter.clear()
61 self._plotter.hold()
62 if len(args) > 0:
63 self._data = tuple(args)
64 if self._panels == 't':
65 if self._data[0].nrow() > 25:
66 print "Scan to be plotted contains more than 25 rows.\nCan't plot that many panels..."
67 return
68 self._plot_time(self._data[0], self._stacking)
69 elif self._panels == 's':
70 self._plot_scans(self._data, self._stacking)
71 else:
72 self._plot_other(self._data, self._stacking)
73 if self._minmax is not None:
74 self._plotter.set_limits(xlim=self._minmax)
75 self._plotter.release()
76 return
77
78 def _plot_time(self, scan, colmode):
79 if colmode == 't':
80 return
81 n = scan.nrow()
82 cdict = {'b':'scan.setbeam(j)',
83 'i':'scan.setif(j)',
84 'p':'scan.setpol(j)'}
85 if self._stacking is not None:
86 ncol = eval(self._cdict.get(colmode))
87 self._plotter.set_panels()
88 if n > 1:
89 self._plotter.set_panels(rows=n)
90 for i in range(n):
91 if n > 1:
92 self._plotter.palette(0)
93 self._plotter.subplot(i)
94 for j in range(ncol):
95 eval(cdict.get(colmode))
96 x = None
97 y = None
98 m = None
99 tlab = scan._getsourcename(i)
100 x,xlab = scan.get_abcissa(i)
101 y = scan.getspectrum(i)
102 ylab = 'Flux ('+scan.get_fluxunit()+')'
103 m = scan.getmask(i)
104 if len(self._lmap) > 0:
105 llab = self._lmap[j]
106 else:
107 llab = self._ldict.get(colmode)+' '+str(j)
108 self._plotter.set_line(label=llab)
109 self._plotter.plot(x,y,m)
110 xlim=[min(x),max(x)]
111 self._plotter.axes.set_xlim(xlim)
112 self._plotter.set_axes('xlabel',xlab)
113 self._plotter.set_axes('ylabel',ylab)
114 self._plotter.set_axes('title',tlab)
115 return
116
117 def _plot_scans(self, scans, colmode):
118 if colmode == 's':
119 return
120 cdict = {'b':'scan.setbeam(j)',
121 'i':'scan.setif(j)',
122 'p':'scan.setpol(j)'}
123 n = len(scans)
124 if self._stacking is not None:
125 scan = scans[0]
126 ncol = eval(self._cdict.get(colmode))
127 self._plotter.set_panels()
128 if n > 1:
129 self._plotter.set_panels(rows=n)
130 i = 0
131 for scan in scans:
132 if n > 1:
133 self._plotter.subplot(i)
134 self._plotter.palette(0)
135 for j in range(ncol):
136 eval(cdict.get(colmode))
137 x = None
138 y = None
139 m = None
140 tlab = scan._getsourcename()
141 x,xlab = scan.get_abcissa()
142 y = scan.getspectrum()
143 ylab = 'Flux ('+scan.get_fluxunit()+')'
144 m = scan.getmask()
145 if len(self._lmap) > 0:
146 llab = self._lmap[j]
147 else:
148 llab = self._ldict.get(colmode)+' '+str(j)
149 self._plotter.set_line(label=llab)
150 self._plotter.plot(x,y,m)
151 xlim=[min(x),max(x)]
152 self._plotter.axes.set_xlim(xlim)
153
154 self._plotter.set_axes('xlabel',xlab)
155 self._plotter.set_axes('ylabel',ylab)
156 self._plotter.set_axes('title',tlab)
157 i += 1
158 return
159
160 def _plot_other(self,scans,colmode):
161 if colmode == self._panels:
162 return
163 cdict = {'b':'scan.setbeam(j)',
164 'i':'scan.setif(j)',
165 'p':'scan.setpol(j)',
166 's':'scans[j]'}
167 scan = scans[0]
168 n = eval(self._cdict.get(self._panels))
169 if self._stacking is not None:
170 ncol = eval(self._cdict.get(colmode))
171 self._plotter.set_panels()
172 if n > 1:
173 self._plotter.set_panels(rows=n)
174 for i in range(n):
175 if n>1:
176 self._plotter.subplot(i)
177 self._plotter.palette(0)
178 k=0
179 j=i
180 eval(cdict.get(self._panels))
181 for j in range(ncol):
182 if colmode == 's':
183 scan = eval(cdict.get(colmode))
184 elif colmode == 't':
185 k = j
186 else:
187 eval(cdict.get(colmode))
188 x = None
189 y = None
190 m = None
191 x,xlab = scan.get_abcissa(k)
192 y = scan.getspectrum(k)
193 ylab = 'Flux ('+scan.get_fluxunit()+')'
194 m = scan.getmask(k)
195 if colmode == 's' or colmode == 't':
196 tlab = self._ldict.get(self._panels)+' '+str(i)
197 llab = scan._getsourcename(k)
198 else:
199 tlab = scan._getsourcename(k)
200 if len(self._lmap) > 0:
201 llab = self._lmap[j]
202 else:
203 llab = self._ldict.get(colmode)+' '+str(j)
204 self._plotter.set_line(label=llab)
205 self._plotter.plot(x,y,m)
206 xlim=[min(x),max(x)]
207 self._plotter.axes.set_xlim(xlim)
208
209 self._plotter.set_axes('xlabel',xlab)
210 self._plotter.set_axes('ylabel',ylab)
211 self._plotter.set_axes('title',tlab)
212
213 return
214
215
216 def set_mode(self, stacking='pol', panelling='scan'):
217 """
218 Parameters:
219 stacking: tell the plotter which variable to plot
220 as line colour overlays (default 'pol')
221 panelling: tell the plotter which variable to plot
222 across multiple panels (default 'scan'
223 Note:
224 Valid modes are:
225 'beam' 'Beam' 'b': Beams
226 'if' 'IF' 'i': IFs
227 'pol' 'Pol' 'p': Polarisations
228 'scan' 'Scan' 's': Scans
229 'time' 'Time' 't': Times
230 """
231 if not self.set_panels(panelling):
232 print "Invalid mode"
233 if not self.set_stacking(stacking):
234 print "Invalid mode"
235 return
236
237 def set_panels(self, what='scan'):
238 md = self._translate(what)
239 if md:
240 self._panels = md
241 return True
242 return False
243
244 def set_stacking(self, what='pol'):
245 md = self._translate(what)
246 if md:
247 self._stacking = md
248 return True
249 return False
250
251 def set_range(self,start=None,end=None):
252 """
253 Set the range of interest on the abcissa of the plot
254 Parameters:
255 start,end: The start an end point of the 'zoom' window
256 Note:
257 These become non-sensical when the unit changes.
258 use plotter.set_range() without parameters to reset
259
260 """
261 if start is None and end is None:
262 self._minmax = None
263 if self._data is not None:
264 self.plot()
265 else:
266 self._minmax = [start,end]
267 if self._data is not None:
268 self.plot()
269 return
270
271 def set_legend_map(self,mp=[]):
272 """
273 Specify a mapping for the legend instead of using the default
274 indices:
275 Parameters:
276 mp: a list of 'strings'. This should have the same length
277 as the number of elements on the legend and then maps
278 to the indeces in order
279
280 Example:
281 If the data has to IFs/rest frequencies with index 0 and 1
282 for CO and SiO:
283 plotter.set_stacking('i')
284 plotter.set_legend_map(['CO','SiO'])
285 plotter.plot()
286 """
287 self._lmap = mp
288
289if __name__ == '__main__':
290 plotter = asapplotter()
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