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source: branches/mergetest/python/interactivemask.py @ 1779

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Last change on this file since 1779 was 1779, checked in by Kana Sugimoto, 14 years ago

New Development: Yes

JIRA Issue: No (test merging alma branch)

Ready for Test: Yes

Interface Changes: Yes

What Interface Changed:

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Put in Release Notes: No

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File size: 10.3 KB

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[1460]	1	from asap import rcParams
	2	from asap import _n_bools, mask_and, mask_or
	3	from asap.scantable import scantable
	4
	5	class interactivemask:
	6	"""
	7	The class for interactive mask selection.
	8
	9	Example:
[1621]	10	my_mask=interactivemask(plotter,scan)
	11	my_mask.set_basemask(masklist=[[0,10],[90,100]],invert=False)
	12	# Do interactive mask selection
	13	my_mask.select_mask()
	14	finish=raw_input('Press return to finish selection.\n')
	15	my_mask.finish_selection(callback=func)
	16	mask=my_mask.get_mask()
[1460]	17
	18	Modify mask region by selecting a region on a plot with mouse.
	19	"""
	20
[1621]	21	def __init__(self,plotter=None, scan=None):
[1460]	22	"""
[1621]	23	Create a interactive masking object.
	24	Either or both 'plotter' or/and 'scan' should be defined.
	25
	26	Parameters:
	27	plotter: an ASAP plotter object for interactive selection
	28	scan: a scantable to create a mask interactively
[1460]	29	"""
[1621]	30	# Return if GUI is not active
	31	if not rcParams['plotter.gui']:
	32	print 'GUI plotter is disabled.\n'
	33	print 'Exit interactive mode.'
	34	return
	35	# Verify input parameters
	36	if scan is None and plotter is None:
	37	msg = "Either scantable or plotter should be defined."
	38	raise TypeError(msg)
	39
[1460]	40	self.scan=None
[1621]	41	self.p=None
	42	self.newplot=False
	43	if scan and isinstance(scan, scantable):
	44	self.scan=scan
	45	from asap.asapplotter import asapplotter
	46	if plotter and isinstance(plotter,asapplotter):
	47	self.p = plotter
	48	if self.scan is None and isinstance(self.p._data,scantable):
	49	self.scan=self.p._data
	50	if self.scan is None:
	51	msg = "Invalid scantable."
	52	raise TypeError(msg)
	53
	54	self.mask=_n_bools(self.scan.nchan(),True)
	55	self.callback=None
	56	self.event=None
	57	self.once=False
	58	self.showmask=True
[1460]	59	self.rect={}
	60	self.xold=None
	61	self.yold=None
	62	self.xdataold=None
	63	self.ydataold=None
	64	self._polygons=[]
	65
[1621]	66
	67	def set_basemask(self,masklist=[],invert=False):
[1460]	68	"""
[1621]	69	Set initial channel mask.
	70
[1460]	71	Parameters:
	72	masklist: [[min, max], [min2, max2], ...]
	73	A list of pairs of start/end points (inclusive)
	74	specifying the regions to be masked
	75	invert: optional argument. If specified as True,
	76	return an inverted mask, i.e. the regions
	77	specified are excluded
[1621]	78	You can reset the mask selection by running this method with
	79	the default parameters.
[1460]	80	"""
	81	# Verify input parameters
	82	if not (isinstance(masklist, list) or isinstance(masklist, tuple)) \
	83	or not isinstance(invert, bool):
	84	msg = 'Invalid mask definition'
	85	raise TypeError(msg)
	86
[1621]	87	# Create base mask
[1460]	88	if ( len(masklist) > 0 ):
	89	self.mask=self.scan.create_mask(masklist,invert=invert)
[1621]	90	elif invert==True:
	91	self.mask=_n_bools(self.scan.nchan(),False)
	92	else:
[1460]	93	self.mask=_n_bools(self.scan.nchan(),True)
	94
[1621]	95
	96	def set_startevent(self,event):
	97	"""
	98	Inherit an event from the parent function.
	99
	100	Parameters:
	101	event: 'button_press_event' object to be inherited to
	102	start interactive region selection .
	103	"""
	104	from matplotlib.backend_bases import MouseEvent
	105	if isinstance(event,MouseEvent) and event.name=='button_press_event':
	106	self.event=event
	107	else:
	108	msg="Invalid event."
	109	raise TypeError(msg)
	110
	111	def set_callback(self,callback):
	112	"""
	113	Set callback function to run when finish_selection() is executed.
	114	callback: The post processing function to run after
	115	the mask selections are completed.
	116	This will be overwritten if callback is defined in
	117	finish_selection(callback=func)
	118	"""
	119	self.callback=callback
	120
	121	def select_mask(self,once=False,showmask=True):
	122	"""
	123	Do interactive mask selection.
	124	Modify masks interactively by adding/deleting regions with
	125	mouse drawing.(left-button: mask; right-button: UNmask)
	126	Note that the interactive region selection is available only
	127	when GUI plotter is active.
	128
	129	Parameters:
	130	once: If specified as True, you can modify masks only
	131	once. Else if False, you can modify them repeatedly.
	132	showmask: If specified as True, the masked regions are plotted
	133	on the plotter.
	134	Note this parameter is valid only when once=True.
	135	Otherwise, maskes are forced to be plotted for reference.
	136	"""
[1460]	137	# Return if GUI is not active
	138	if not rcParams['plotter.gui']:
	139	print 'GUI plotter is disabled.\n'
	140	print 'Exit interactive mode.'
	141	return
	142
[1621]	143	self.once = once
	144	if self.once:
	145	self.showmask=showmask
	146	else:
	147	if not showmask: print 'Warning: showmask spcification is ignored. Mask regions are plotted anyway.'
	148	self.showmask=True
	149
	150	#if not self.p._plotter or self.p._plotter.is_dead:
	151	if not self.p or self.p._plotter.is_dead:
	152	print 'A new ASAP plotter will be loaded'
[1460]	153	from asap.asapplotter import asapplotter
[1621]	154	self.p=asapplotter()
	155	self.newplot=True
[1460]	156
[1621]	157	# Plot selected spectra if needed
	158	if self.scan != self.p._data:
	159	# Need replot
	160	self.p.plot(self.scan)
[1724]	161	# disable casa toolbar
	162	if self.p._plotter.figmgr.casabar: self.p._plotter.figmgr.casabar.disable_button()
[1621]	163	for panel in self.p._plotter.subplots:
	164	xmin, xmax = panel['axes'].get_xlim()
[1667]	165	marg = 0.05*abs(xmax-xmin)
[1621]	166	panel['axes'].set_xlim(xmin-marg, xmax+marg)
[1667]	167	if rcParams['plotter.ganged']: break
[1621]	168	self.p._plotter.show()
[1460]	169
[1621]	170	# Plot initial mask region
	171	#if self.showmask or not self.once:
	172	if self.showmask:
	173	self._plot_mask()
	174	print ''
	175	print 'Selected regions are shaded with yellow. (gray: projections)'
	176	print 'Now you can modify the selection.'
	177	print 'Draw rectangles with Left-mouse to add the regions,'
	178	print 'or with Right-mouse to exclude the regions.'
[1460]	179
[1621]	180
	181	if self.event != None:
	182	self._region_start(self.event)
	183	else:
	184	self.p._plotter.register('button_press',None)
	185	self.p._plotter.register('button_press',self._region_start)
	186
	187
[1460]	188	def _region_start(self,event):
	189	# Do not fire event when in zooming/panning mode
[1621]	190	mode = self.p._plotter.figmgr.toolbar.mode
[1460]	191	if not mode =='':
	192	return
	193	# Return if selected point is out of panel
	194	if event.inaxes == None: return
	195	# Select mask/unmask region with mask
	196	self.rect = {'button': event.button, 'axes': event.inaxes,
[1621]	197	'x': event.x, 'y': event.y,
[1460]	198	'world': [event.xdata, event.ydata,
	199	event.xdata, event.ydata],
[1621]	200	'pixel': [event.x, event.y,
	201	event.x, event.y]}
	202	self.p._plotter.register('motion_notify', self._region_draw)
	203	self.p._plotter.register('button_release', self._region_end)
[1460]	204
	205	def _region_draw(self,event):
	206	sameaxes=(event.inaxes == self.rect['axes'])
	207	if sameaxes:
	208	xnow=event.x
	209	ynow=event.y
	210	self.xold=xnow
	211	self.yold=ynow
	212	self.xdataold=event.xdata
	213	self.ydataold=event.ydata
	214	else:
	215	xnow=self.xold
	216	ynow=self.yold
	217
[1621]	218	self.p._plotter.figmgr.toolbar.draw_rubberband(event, xnow, ynow, self.rect['x'], self.rect['y'])
	219
[1460]	220	def _region_end(self,event):
[1621]	221	self.p._plotter.register('motion_notify', None)
	222	self.p._plotter.register('button_release', None)
	223
[1767]	224	# Delete the rubber band
[1621]	225	self.p._plotter.figmgr.toolbar.release(event)
[1460]	226
	227	if event.inaxes == self.rect['axes']:
	228	xend=event.x
	229	yend=event.y
	230	xdataend=event.xdata
	231	ydataend=event.ydata
	232	else:
	233	xend=self.xold
	234	yend=self.yold
	235	xdataend=self.xdataold
	236	ydataend=self.ydataold
	237
	238	self.rect['world'][2:4] = [xdataend, ydataend]
[1621]	239	self.rect['pixel'][2:4] = [xend, yend]
[1460]	240	self._update_mask()
[1623]	241	# Clear up region selection
	242	self.rect={}
	243	self.xold=None
	244	self.yold=None
	245	self.xdataold=None
	246	self.ydataold=None
[1621]	247	if self.once: self.finish_selection(callback=self.callback)
[1460]	248
	249	def _update_mask(self):
	250	# Min and Max for new mask
	251	xstart=self.rect['world'][0]
	252	xend=self.rect['world'][2]
	253	if xstart <= xend: newlist=[xstart,xend]
	254	else: newlist=[xend,xstart]
	255	# Mask or unmask
	256	invmask=None
	257	if self.rect['button'] == 1:
	258	invmask=False
	259	mflg='Mask'
	260	elif self.rect['button'] == 3:
	261	invmask=True
	262	mflg='UNmask'
	263	print mflg+': ',newlist
	264	newmask=self.scan.create_mask(newlist,invert=invmask)
	265	# Logic operation to update mask
	266	if invmask:
	267	self.mask=mask_and(self.mask,newmask)
	268	else:
	269	self.mask=mask_or(self.mask,newmask)
	270	# Plot masked regions
[1621]	271	#if self.showmask or not self.once: self._plot_mask()
	272	if self.showmask: self._plot_mask()
[1460]	273
	274	# Plot masked regions
	275	def _plot_mask(self):
	276	msks = []
	277	msks = self.scan.get_masklist(self.mask,row=0)
	278	# Get projection masks for multi-IF
	279	ifs=self.scan.getifnos()
	280	projs = []
	281	if len(ifs) > 1:
	282	row0if=self.scan.getif(0)
	283	for ifno in ifs:
	284	if ifno == row0if: continue
	285	for row in xrange(self.scan.nrow()):
	286	if self.scan.getif(row) == ifno:
	287	projs.append(self.scan.get_masklist(self.mask,row=row))
	288	break
	289	if len(self._polygons)>0:
	290	# Remove old polygons
	291	for polygon in self._polygons: polygon.remove()
	292	self._polygons=[]
	293	# Plot new polygons
[1498]	294	if len(msks) > 0:
[1621]	295	npanel=len(self.p._plotter.subplots)
[1498]	296	j=-1
	297	for iloop in range(len(msks)*npanel):
	298	i = iloop % len(msks)
	299	if i == 0 : j += 1
	300	if len(ifs) > 1:
	301	for k in xrange(len(ifs)-1):
[1621]	302	self._polygons.append(self.p._plotter.subplots[j]['axes'].axvspan(projs[k][i][0],projs[k][i][1],facecolor='#aaaaaa'))
	303	self._polygons.append(self.p._plotter.subplots[j]['axes'].axvspan(msks[i][0],msks[i][1],facecolor='yellow'))
	304	self.p._plotter.canvas.draw()
[1460]	305
[1621]	306	def finish_selection(self, callback=None):
[1623]	307	"""
	308	Execute callback function, reset or close plotter window as
	309	necessary.
	310
	311	Parameters:
	312	callback: The post processing function to run after
	313	the mask selections are completed.
	314	Specifying the callback function here will overwrite
	315	the one set by set_callback(func)
	316
	317	Note this function is automatically called at the end of
	318	select_mask() if once=True.
	319	"""
[1621]	320	if callback: self.callback=callback
	321	if self.callback: self.callback()
[1622]	322	if not self.event: self.p._plotter.register('button_press',None)
[1621]	323	# Finish the plot
	324	if not self.newplot:
	325	self.clear_polygon()
	326	else:
	327	self.p._plotter.unmap()
	328	self.p._plotter = None
	329	del self.p
	330	self.p=None
[1623]	331	self._polygons=[]
[1621]	332
	333
	334	def clear_polygon(self):
	335	"""
	336	Erase masks plots from the plotter.
	337	"""
	338	if len(self._polygons)>0:
	339	# Remove old polygons
	340	for polygon in self._polygons: polygon.remove()
	341	self.p._plotter.show()
	342	self._polygons=[]
	343
	344
[1460]	345	def get_mask(self):
	346	"""
	347	Get the interactively selected channel mask.
	348	Returns:
	349	A list of channel mask.
	350	"""
	351	return self.mask
	352
[1621]	353

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