Added center check button on lineview

fluents/lib/blmplots.py

@@ -5,13 +5,39 @@ fixme:
         colorbar, but when adding colors the colorbar shoud be created.
 """
 
-from matplotlib import cm
+from matplotlib import cm,patches
 import gtk
 import fluents
-from fluents import plots
+from fluents import plots, main
 import scipy
-from scipy import dot,sum,diag,arange,log,mean,newaxis,sqrt,apply_along_axis
+from scipy import dot,sum,diag,arange,log,mean,newaxis,sqrt,apply_along_axis,empty
+from scipy.stats import corrcoef
 
+def correlation_loadings(data, T, test=True):
+    """ Returns correlation loadings.
+
+    :input:
+        - D: [nsamps, nvars], data (non-centered data)
+        - T: [nsamps, a_max], Scores
+    :ouput:
+        - R: [nvars, a_max], Correlation loadings
+
+    :notes:
+    
+    """
+    nsamps, nvars = data.shape
+    nsampsT, a_max = T.shape
+    
+    if nsamps!=nsampsT: raise IOError("D/T mismatch")
+    
+    # center
+    data = data - data.mean(0)
+    R = empty((nvars, a_max),'d')
+    for a in range(a_max):
+        for k in range(nvars):
+            R[k,a] = corrcoef(data[:,k], T[:,a])[0,1]
+    
+    return R
 
 class BlmScatterPlot(plots.ScatterPlot):
     """Scatter plot used for scores and loadings in bilinear models."""
@@ -31,13 +57,10 @@ class BlmScatterPlot(plots.ScatterPlot):
         sel_dim = dataset_1.get_dim_name(1)
         id_1, = dataset_1.get_identifiers(sel_dim, [absi])
         id_2, = dataset_1.get_identifiers(sel_dim, [ordi])
-
         col = 'b'
         if model.model.has_key(color_by):
             col = model.model[color_by].ravel()
-            
         plots.ScatterPlot.__init__(self, dataset_1, dataset_1, id_dim, sel_dim, id_1, id_2 ,c=col ,s=40 , name=title)
-        
         self._mappable.set_cmap(self._cmap)
         self.sc = self._mappable
         self.add_pc_spin_buttons(self._T.shape[1], absi, ordi)
@@ -200,19 +223,95 @@ class LplsZLoadingPlot(BlmScatterPlot):
         title = "Lpls z-loadings (%s)" %model._dataset['Z'].get_name()
         BlmScatterPlot.__init__(self, title, model, absi, ordi, part_name='L', color_by='tsqz')
 
+class LplsXCorrelationPlot(BlmScatterPlot):
+    def __init__(self, model, absi=0, ordi=1):
+        title = "Lpls x-corr. loads (%s)" %model._dataset['X'].get_name()
+        if not model.model.has_key('Rx'):
+            R = correlation_loadings(model._data['X'], model.model['T'])
+            model.model['Rx'] = R
+        BlmScatterPlot.__init__(self, title, model, absi, ordi, part_name='Rx')
+        radius = 1
+        center = (0,0)
+        c100 = patches.Circle(center,radius=radius,
+                              facecolor='gray',
+                              alpha=.1,
+                              zorder=1)
+        c50 = patches.Circle(center, radius=radius/2.0,
+                             facecolor='gray',
+                             alpha=.1,
+                             zorder=2)
+        self.axes.add_patch(c100)
+        self.axes.add_patch(c50)
+        self.axes.axhline(lw=1.5,color='k')
+        self.axes.axvline(lw=1.5,color='k')
+        self.axes.set_xlim([-1.05,1.05])
+        self.axes.set_ylim([-1.05, 1.05])
+        self.canvas.show()
+        
+class LplsZCorrelationPlot(BlmScatterPlot):
+    def __init__(self, model, absi=0, ordi=1):
+        title = "Lpls z-corr. loads (%s)" %model._dataset['Z'].get_name()
+        if not model.model.has_key('Rz'):
+            R = correlation_loadings(model._data['Z'].T, model.model['W'])
+            model.model['Rz'] = R
+        BlmScatterPlot.__init__(self, title, model, absi, ordi, part_name='Rz')
+        radius = 1
+        center = (0,0)
+        c100 = patches.Circle(center,radius=radius,
+                              facecolor='gray',
+                              alpha=.1,
+                              zorder=1)
+        c50 = patches.Circle(center, radius=radius/2.0,
+                             facecolor='gray',
+                             alpha=.1,
+                             zorder=2)
+        self.axes.add_patch(c100)
+        self.axes.add_patch(c50)
+        self.axes.axhline(lw=1.5,color='k')
+        self.axes.axvline(lw=1.5,color='k')
+        self.axes.set_xlim([-1.05,1.05])
+        self.axes.set_ylim([-1.05, 1.05])
+        self.canvas.show()
+
+
 class LplsHypoidCorrelationPlot(BlmScatterPlot):
     def __init__(self, model, absi=0, ordi=1):
         title = "Hypoid correlations(%s)" %model._dataset['X'].get_name()
         BlmScatterPlot.__init__(self, title, model, absi, ordi, part_name='W')
 
+
 class LineViewXc(plots.LineViewPlot):
     """A line view of centered raw data
     """
     def __init__(self, model, name='Profiles'):
-        # copy, center, plot
-        x = model._dataset['X'].copy()
-        x._array = x._array - mean(x._array,0)[newaxis]
-        plots.LineViewPlot.__init__(self, x, 1, None, name)
+        dx = model._dataset['X']
+        plots.LineViewPlot.__init__(self, dx, 1, None, False,name)
+        self.add_center_check_button(self.data_is_centered)
+    
+    def add_center_check_button(self, ticked):
+        """Add a checker button for centerd view of data."""
+        cb = gtk.CheckButton("Center")
+        cb.set_active(ticked)
+        cb.connect('toggled', self._toggle_center)
+        toolitem = gtk.ToolItem()   
+        toolitem.set_expand(False)
+        toolitem.set_border_width(2)
+        toolitem.add(cb)
+        self._toolbar.insert(toolitem, -1)
+        toolitem.set_tooltip(self._toolbar.tooltips, "Column center the line view")
+        self._toolbar.show_all() #do i need this?
+
+    def _toggle_center(self, active):
+        if self.data_is_centered:
+            self._data = self._data + self._mn_data
+            self.data_is_centered = False
+        else:
+            self._mn_data = self._data.mean(0)
+            self._data = self._data - self._mn_data
+            self.data_is_centered = True
+        self.make_lines()
+        self.set_background()
+        self.set_current_selection(main.project.get_selection())
 
 
 class ParalellCoordinates(plots.Plot):

fluents/plots.py

@@ -171,7 +171,7 @@ class LineViewPlot(Plot):
     fixme: slow
     """
     @plotlogger
-    def __init__(self, dataset, major_axis=1, minor_axis=None, name="Line view"):
+    def __init__(self, dataset, major_axis=1, minor_axis=None, center=True,name="Line view"):
         Plot.__init__(self, name)
         self.dataset = dataset
         self._data = dataset.asarray()
@@ -180,28 +180,48 @@ class LineViewPlot(Plot):
         self.major_axis = major_axis
         self.minor_axis = minor_axis
         self.current_dim = self.dataset.get_dim_name(major_axis)
-        
-        #initial draw
+        self.data_is_centered = False
+        self._mn_data = 0
+        if center and len(self._data.shape)==2:
+            if minor_axis==0:
+                self._mn_data = self._data.mean(minor_axis)
+            else:
+                self._mn_data = self._data.mean(minor_axis)[:,newaxis]
+            self._data = self._data - self._mn_data 
+            self.data_is_centered = True
+        #initial line collection
         self.line_coll = None
-        self.line_segs = []
-        x_axis = scipy.arange(self._data.shape[minor_axis])
-        for xi in range(self._data.shape[major_axis]):
-            yi = self._data.take([xi], major_axis).ravel()
-            self.line_segs.append([(xx,yy) for xx,yy in zip(x_axis, yi)])
-        
+        self.make_lines()
         # draw background
-        self._set_background(self.axes)
+        self.set_background()
         
         # Disable selection modes
         self._toolbar.freeze_button.set_sensitive(False)
         self._toolbar.set_mode_sensitive('select', False)
         self._toolbar.set_mode_sensitive('lassoselect', False)
 
-    def _set_background(self, ax):
+    def make_lines(self):
+        """Creates one line for each item along major axis."""
+        if self.line_coll: # remove any previous selection lines, if any
+            self.axes.collections.remove(self.line_coll)
+        self.line_coll = None
+        self.line_segs = []
+        x_axis = scipy.arange(self._data.shape[self.minor_axis])
+        for xi in range(self._data.shape[self.major_axis]):
+            yi = self._data.take([xi], self.major_axis).ravel()
+            self.line_segs.append([(xx,yy) for xx,yy in zip(x_axis, yi)])
+        
+    def set_background(self):
         """Add three patches representing [min max],[5,95] and [25,75] percentiles, and a line at the median.
         """
         if self._data.shape[self.minor_axis]<6:
             return
+        # clean old patches if any
+        if len(self.axes.patches)>0:
+            self.axes.patches = []
+        # clean old lines (median) if any
+        if len(self.axes.lines)>0:
+            self.axes.lines = []
         # settings
         patch_color = 'b' #blue
         patch_lw = 0 #no edges
@@ -240,12 +260,15 @@ class LineViewPlot(Plot):
                        facecolor=patch_color)
 
         # add polygons to axes
-        ax.add_patch(bck0)
-        ax.add_patch(bck1)
-        ax.add_patch(bck2)
+        self.axes.add_patch(bck0)
+        self.axes.add_patch(bck1)
+        self.axes.add_patch(bck2)
         # median line
-        ax.plot(xax, med, median_color, linewidth=median_width)
+        self.axes.plot(xax, med, median_color, linewidth=median_width)
 
+        # set y-limits
+        padding = 0.1
+        self.axes.set_ylim([self._data.min() - padding, self._data.max() + padding])
                           
     def set_current_selection(self, selection):
         """Draws the current selection.