source: branches/alma/python/interactivemask.py@ 2694

from asap import rcParams
from asap import _n_bools, mask_and, mask_or
from asap.scantable import scantable

class interactivemask:
        """
        The class for interactive mask selection.

        Example:
           my_mask=interactivemask(plotter,scan)
           my_mask.set_basemask(masklist=[[0,10],[90,100]],invert=False)
           # Do interactive mask selection
           my_mask.select_mask()
           finish=raw_input('Press return to finish selection.\n')
           my_mask.finish_selection(callback=func)
           mask=my_mask.get_mask()
           
        Modify mask region by selecting a region on a plot with mouse. 
        """

        def __init__(self,plotter=None, scan=None):
                """
                Create a interactive masking object.
                Either or both 'plotter' or/and 'scan' should be defined. 

                Parameters:
                   plotter: an ASAP plotter object for interactive selection
                   scan: a scantable to create a mask interactively
                """
                # Return if GUI is not active
                if not rcParams['plotter.gui']:
                        print 'GUI plotter is disabled.\n'
                        print 'Exit interactive mode.'
                        return
                # Verify input parameters
                if scan is None and plotter is None:
                        msg = "Either scantable or plotter should be defined."
                        raise TypeError(msg)

                self.scan=None
                self.p=None
                self.newplot=False
                if scan and isinstance(scan, scantable):
                        self.scan=scan
                from asap.asapplotter import asapplotter
                if plotter and isinstance(plotter,asapplotter):
                        self.p = plotter
                        if self.scan is None and isinstance(self.p._data,scantable):
                                self.scan=self.p._data
                if self.scan is None:
                        msg = "Invalid scantable."
                        raise TypeError(msg)

                self.mask=_n_bools(self.scan.nchan(),True)
                self.callback=None
                self.event=None
                self.once=False
                self.showmask=True
                self.rect={}
                self.xold=None
                self.yold=None
                self.xdataold=None
                self.ydataold=None
                self._polygons=[]
        

        def set_basemask(self,masklist=[],invert=False):
                """
                Set initial channel mask.
                
                Parameters:
                    masklist:  [[min, max], [min2, max2], ...]
                               A list of pairs of start/end points (inclusive) 
                               specifying the regions to be masked
                    invert:    optional argument. If specified as True,
                               return an inverted mask, i.e. the regions
                               specified are excluded
                You can reset the mask selection by running this method with
                the default parameters. 
                """
                # Verify input parameters
                if not (isinstance(masklist, list) or isinstance(masklist, tuple)) \
                   or not isinstance(invert, bool):
                        msg = 'Invalid mask definition'
                        raise TypeError(msg)

                # Create base mask
                if ( len(masklist) > 0 ):
                        self.mask=self.scan.create_mask(masklist,invert=invert)
                elif invert==True:
                        self.mask=_n_bools(self.scan.nchan(),False)
                else:
                        self.mask=_n_bools(self.scan.nchan(),True)


        def set_startevent(self,event):
                """
                Inherit an event from the parent function.
                
                Parameters:
                    event: 'button_press_event' object to be inherited to
                           start interactive region selection . 
                """
                from matplotlib.backend_bases import MouseEvent
                if isinstance(event,MouseEvent) and event.name=='button_press_event': 
                        self.event=event
                else:
                        msg="Invalid event."
                        raise TypeError(msg)    

        def set_callback(self,callback):
                """
                Set callback function to run when finish_selection() is executed. 
                    callback: The post processing function to run after
                              the mask selections are completed.
                              This will be overwritten if callback is defined in
                              finish_selection(callback=func)
                """
                self.callback=callback

        def select_mask(self,once=False,showmask=True):
                """
                Do interactive mask selection.
                Modify masks interactively by adding/deleting regions with
                mouse drawing.(left-button: mask; right-button: UNmask) 
                Note that the interactive region selection is available only 
                when GUI plotter is active. 

                Parameters:
                    once:     If specified as True, you can modify masks only
                              once. Else if False, you can modify them repeatedly. 
                    showmask: If specified as True, the masked regions are plotted
                              on the plotter.
                              Note this parameter is valid only when once=True.
                              Otherwise, maskes are forced to be plotted for reference. 
                """
                # Return if GUI is not active
                if not rcParams['plotter.gui']:
                        print 'GUI plotter is disabled.\n'
                        print 'Exit interactive mode.'
                        return

                self.once = once
                if self.once:
                        self.showmask=showmask
                else:
                        if not showmask: print 'Warning: showmask spcification is ignored. Mask regions are plotted anyway.'
                        self.showmask=True

                #if not self.p._plotter or self.p._plotter.is_dead:
                if not self.p or self.p._plotter.is_dead:
                        print 'A new ASAP plotter will be loaded'
                        from asap.asapplotter import asapplotter
                        self.p=asapplotter()
                        self.newplot=True

                # Plot selected spectra if needed
                if self.scan != self.p._data:
                        # Need replot
                        self.p.plot(self.scan)
                        # disable casa toolbar
                        if self.p._plotter.figmgr.casabar:  self.p._plotter.figmgr.casabar.disable_button()
                        for panel in self.p._plotter.subplots:
                                xmin, xmax = panel['axes'].get_xlim()
                                marg = 0.05*abs(xmax-xmin)
                                panel['axes'].set_xlim(xmin-marg, xmax+marg)
                                if rcParams['plotter.ganged']: break
                        self.p._plotter.show()

                # Plot initial mask region
                #if self.showmask or not self.once:
                if self.showmask:
                        self._plot_mask()
                        print ''
                        print 'Selected regions are shaded with yellow. (gray: projections)'
                        print 'Now you can modify the selection.'
                        print 'Draw rectangles with Left-mouse to add the regions,'
                        print 'or with Right-mouse to exclude the regions.'


                if self.event != None:
                        self._region_start(self.event)
                else: 
                        self.p._plotter.register('button_press',None)
                        self.p._plotter.register('button_press',self._region_start)


        def _region_start(self,event):
                # Do not fire event when in zooming/panning mode
                mode = self.p._plotter.figmgr.toolbar.mode
                if not mode =='':
                        return
                # Return if selected point is out of panel
                if event.inaxes == None: return
                # Select mask/unmask region with mask
                self.rect = {'button': event.button, 'axes': event.inaxes,
                             'x': event.x, 'y': event.y,
                             'world': [event.xdata, event.ydata,
                                       event.xdata, event.ydata],
                             'pixel': [event.x, event.y,
                                       event.x, event.y]}
                self.p._plotter.register('motion_notify', self._region_draw)
                self.p._plotter.register('button_release', self._region_end)

        def _region_draw(self,event):
                sameaxes=(event.inaxes == self.rect['axes'])
                if sameaxes: 
                        xnow=event.x
                        ynow=event.y
                        self.xold=xnow
                        self.yold=ynow
                        self.xdataold=event.xdata
                        self.ydataold=event.ydata
                else:
                        xnow=self.xold
                        ynow=self.yold

                self.p._plotter.figmgr.toolbar.draw_rubberband(event, xnow, ynow, self.rect['x'], self.rect['y'])

        def _region_end(self,event):
                self.p._plotter.register('motion_notify', None)
                self.p._plotter.register('button_release', None)

                # Delete the rubber band
                self.p._plotter.figmgr.toolbar.release(event)
                
                if event.inaxes == self.rect['axes']: 
                        xend=event.x
                        yend=event.y
                        xdataend=event.xdata
                        ydataend=event.ydata
                else:
                        xend=self.xold
                        yend=self.yold
                        xdataend=self.xdataold
                        ydataend=self.ydataold
                        
                self.rect['world'][2:4] = [xdataend, ydataend]
                self.rect['pixel'][2:4] = [xend, yend]
                self._update_mask()
                # Clear up region selection
                self.rect={}
                self.xold=None
                self.yold=None
                self.xdataold=None
                self.ydataold=None
                if self.once: self.finish_selection(callback=self.callback)

        def _update_mask(self):
                # Min and Max for new mask
                xstart=self.rect['world'][0]
                xend=self.rect['world'][2]
                if xstart <= xend: newlist=[xstart,xend]
                else: newlist=[xend,xstart]
                # Mask or unmask
                invmask=None
                if self.rect['button'] == 1:
                        invmask=False
                        mflg='Mask'
                elif self.rect['button'] == 3:
                        invmask=True
                        mflg='UNmask'
                print mflg+': ',newlist
                newmask=self.scan.create_mask(newlist,invert=invmask)
                # Logic operation to update mask
                if invmask:
                        self.mask=mask_and(self.mask,newmask)
                else:
                        self.mask=mask_or(self.mask,newmask)
                # Plot masked regions
                #if self.showmask or not self.once: self._plot_mask()
                if self.showmask: self._plot_mask()

        # Plot masked regions
        def _plot_mask(self):
                msks = []
                msks = self.scan.get_masklist(self.mask,row=0)
                # Get projection masks for multi-IF
                ifs=self.scan.getifnos()
                projs = []
                if len(ifs) > 1:
                        row0if=self.scan.getif(0)
                        for ifno in ifs:
                                if ifno == row0if: continue
                                for row in xrange(self.scan.nrow()):
                                        if self.scan.getif(row) == ifno:
                                                projs.append(self.scan.get_masklist(self.mask,row=row))
                                                break
                if len(self._polygons)>0:
                        # Remove old polygons
                        for polygon in self._polygons: polygon.remove()
                        self._polygons=[]
                # Plot new polygons
                if len(msks) > 0:
                        npanel=len(self.p._plotter.subplots)
                        j=-1
                        for iloop in range(len(msks)*npanel):
                                i = iloop % len(msks)
                                if  i == 0 : j += 1
                                if len(ifs) > 1:
                                        for k in xrange(len(ifs)-1):
                                                self._polygons.append(self.p._plotter.subplots[j]['axes'].axvspan(projs[k][i][0],projs[k][i][1],facecolor='#aaaaaa'))                   
                                self._polygons.append(self.p._plotter.subplots[j]['axes'].axvspan(msks[i][0],msks[i][1],facecolor='yellow'))
                self.p._plotter.canvas.draw()

        def finish_selection(self, callback=None):
                """
                Execute callback function, reset or close plotter window as
                necessary.

                Parameters:
                    callback: The post processing function to run after
                              the mask selections are completed.
                              Specifying the callback function here will overwrite
                              the one set by set_callback(func)
                
                Note this function is automatically called at the end of
                select_mask() if once=True. 
                """
                if callback: self.callback=callback
                if self.callback: self.callback()
                if not self.event: self.p._plotter.register('button_press',None)
                # Finish the plot
                if not self.newplot:
                        self.clear_polygon()
                else: 
                        self.p._plotter.unmap()
                        self.p._plotter = None
                        del self.p
                        self.p=None
                        self._polygons=[]


        def clear_polygon(self):
                """
                Erase masks plots from the plotter. 
                """
                if len(self._polygons)>0:
                        # Remove old polygons
                        for polygon in self._polygons: polygon.remove()
                        self.p._plotter.show()
                        self._polygons=[]


        def get_mask(self):
                """
                Get the interactively selected channel mask.
                Returns:
                    A list of channel mask. 
                """
                return self.mask