From: devicerandom <devnull@localhost>
Date: Sun, 14 Sep 2008 18:48:16 +0000 (+0000)
Subject: (generalvclamp.py, hooke.conf) automated and half-automated baseline for autopeak
X-Git-Tag: 0.9.0~73
X-Git-Url: http://git.tremily.us/?a=commitdiff_plain;h=4613bd97764c4f0d16d5ae2a3bc6b5d5b155178e;p=hooke.git

(generalvclamp.py, hooke.conf) automated and half-automated baseline for autopeak
---

diff --git a/generalvclamp.py b/generalvclamp.py
index 78ee849..5ec7171 100644
--- a/generalvclamp.py
+++ b/generalvclamp.py
@@ -324,13 +324,49 @@ class generalvclampCommands:
         of an existing file, autopeak will resume it and append measurements to it. If you are giving
         a new filename, it will create the file and append to it until you close Hooke.
         
-        Useful variables (to set with SET command):
         
+        Useful variables (to set with SET command):
+        ---
         temperature= temperature of the system for wlc fit (in K)
-        auto_fit_points = number of points to fit before the peak maximum, for wlc
+        
         auto_slope_span = number of points on which measure the slope, for slope
+        
+        auto_fit_nm = number of nm to fit before the peak maximum, for WLC (if usepoints false)
+        auto_fit_points = number of points to fit before the peak maximum, for WLC (if usepoints true)
+        
+        baseline_clicks = 0: automatic baseline
+                          1: decide baseline with a single click and length defined in auto_left_baseline
+                          2: let user click points of baseline
+        auto_left_baseline = length in nm to use as baseline from the right point (if baseline_clicks=0 , 1)
+        auto_right_baseline = distance in nm of peak-most baseline point from last peak (if baseline_clicks = 0)
         '''
         
+        def fit_interval_nm(start_index,plot,nm,backwards):
+            '''
+            Calculates the number of points to fit, given a fit interval in nm
+            start_index: index of point
+            plot: plot to use
+            backwards: if true, finds a point backwards.
+            '''
+            x_vect=plot.vectors[1][0]
+            
+            c=0
+            i=start_index
+            start=x_vect[start_index]
+            maxlen=len(x_vect)
+            while abs(x_vect[i]-x_vect[start_index])*(10**9) < nm:
+                
+                if i==0 or i==maxlen: #we reached boundaries of vector!
+                    return c
+                
+                if backwards:
+                    i-=1
+                else:
+                    i+=1
+                c+=1
+            return c
+            
+        
         pl_value=None
         T=self.config['temperature']
         
@@ -393,27 +429,50 @@ class generalvclampCommands:
             contact_point.is_marker=True
         
         
+        #Find peaks.
+        defplot=self.current.curve.default_plots()[0]
+        flatten=self._find_plotmanip('flatten') #Extract flatten plotmanip
+        defplot=flatten(defplot, self.current, customvalue=1) #Flatten curve before feeding it to has_peaks
+        peak_location,peak_size=self.has_peaks(defplot, self.convfilt_config['mindeviation'])
+        
+        #Create a new plot to send
+        fitplot=copy.deepcopy(displayed_plot)
+        
         #Pick up force baseline
         whatset=1 #fixme: for all sets
         if 'rebase' in args or (self.basecurrent != self.current.path):
             rebase=True               
         if rebase:
-            print 'Select baseline'
-            self.basepoints=self._measure_N_points(N=2, whatset=whatset)
+            clicks=self.config['baseline_clicks']
+            if clicks==0:
+                self.basepoints=[]
+                self.basepoints.append(ClickedPoint())
+                self.basepoints.append(ClickedPoint())
+                self.basepoints[0].index=peak_location[-1]+fit_interval_nm(peak_location[-1], displayed_plot, self.config['auto_right_baseline'],False)
+                self.basepoints[1].index=self.basepoints[0].index+fit_interval_nm(self.basepoints[0].index, displayed_plot, self.config['auto_left_baseline'],False)
+                for point in self.basepoints:
+                    #for graphing etc. purposes, fill-in with coordinates
+                    point.absolute_coords=displayed_plot.vectors[1][0][point.index], displayed_plot.vectors[1][1][point.index]
+                    point.find_graph_coords(displayed_plot.vectors[1][0], displayed_plot.vectors[1][1])
+            elif clicks>0:
+                print 'Select baseline'
+                if clicks==1:
+                    self.basepoints=self._measure_N_points(N=1, whatset=whatset)
+                    self.basepoints.append(ClickedPoint())
+                    self.basepoints[1].index=self.basepoints[0].index+fit_interval_nm(self.basepoints[0].index, displayed_plot, self.config['auto_left_baseline'], False)
+                    #for graphing etc. purposes, fill-in with coordinates
+                    self.basepoints[1].absolute_coords=displayed_plot.vectors[1][0][self.basepoints[1].index], displayed_plot.vectors[1][1][self.basepoints[1].index]
+                    self.basepoints[1].find_graph_coords(displayed_plot.vectors[1][0], displayed_plot.vectors[1][1])
+                else:
+                    self.basepoints=self._measure_N_points(N=2, whatset=whatset)
+            
             self.basecurrent=self.current.path
+        
         boundaries=[self.basepoints[0].index, self.basepoints[1].index]
         boundaries.sort()
         to_average=displayed_plot.vectors[1][1][boundaries[0]:boundaries[1]] #y points to average
         avg=np.mean(to_average)
         
-        #Find peaks.
-        defplot=self.current.curve.default_plots()[0]
-        flatten=self._find_plotmanip('flatten') #Extract flatten plotmanip
-        defplot=flatten(defplot, self.current, customvalue=1) #Flatten curve before feeding it to has_peaks
-        peak_location,peak_size=self.has_peaks(defplot, self.convfilt_config['mindeviation'])
-        
-        #Create a new plot to send
-        fitplot=copy.deepcopy(displayed_plot)
         
         #Initialize data vectors
         c_lengths=[]
@@ -421,21 +480,7 @@ class generalvclampCommands:
         forces=[]
         slopes=[]
         
-        def fit_interval_nm(start_index,plot):
-            '''
-            Calculates the number of points to fit, given a fit interval in nm
-            '''
-            nm=self.config['auto_fit_nm']
-            x_vect=plot.vectors[1][0]
-            
-            c=0
-            i=start_index
-            start=x_vect[start_index]
-            while abs(x_vect[i]-x_vect[start_index])*(10**9) < nm:
-                i-=1
-                c+=1
-            
-            return c
+        
         
         #Cycle between peaks and do analysis.
         for peak in peak_location:
@@ -447,7 +492,7 @@ class generalvclampCommands:
             peak_point.find_graph_coords(displayed_plot.vectors[1][0], displayed_plot.vectors[1][1])    
             
             if not usepoints:
-                fit_points=fit_interval_nm(peak, displayed_plot)
+                fit_points=fit_interval_nm(peak, displayed_plot, self.config['auto_fit_nm'], True)
             
             #-create a clicked point for the other fit point
             other_fit_point=ClickedPoint()
@@ -464,10 +509,14 @@ class generalvclampCommands:
                 p_lengths.append(pl_value)
             #Add WLC fit lines to plot
             fitplot.add_set(xfit,yfit)
+            
             if len(fitplot.styles)==0:
                 fitplot.styles=[]
             else:
                 fitplot.styles.append(None)
+                
+            
+            
 
             #Measure forces
             delta_to_measure=displayed_plot.vectors[1][1][peak-delta_force:peak+delta_force]
@@ -478,7 +527,11 @@ class generalvclampCommands:
             #Measure slopes
             slope=self.linefit_between(peak-slope_span,peak)[0]
             slopes.append(slope)
-                            
+        
+        #--DEBUG STUFF--
+        fitplot.add_set([self.basepoints[0].graph_coords[0],self.basepoints[1].graph_coords[0]],[self.basepoints[0].graph_coords[1],self.basepoints[1].graph_coords[1]]) 
+        fitplot.styles.append('scatter')
+        
         #Show wlc fits and peak locations
         self._send_plot([fitplot])
         self.do_peaks('')
diff --git a/hooke.conf b/hooke.conf
index 3626aec..ca3f713 100755
--- a/hooke.conf
+++ b/hooke.conf
@@ -2,7 +2,7 @@
 <!-- To comment something, put dashes and ! like here -->
 <config>
 <!-- Internal variabls. -->
-    <display ext="1" colour_ext="None" ret="1" colour_ret="None" correct="1" colour_correct="None" contact_point="0" medfilt="0" xaxes="0" yaxes="0" flatten="1" temperature="293" auto_fit_points="50" auto_slope_span="20" auto_delta_force="10" auto_fit_nm="5" fc_showphase="0" fc_showimposed="0" fc_interesting="0"/>
+    <display ext="1" colour_ext="None" ret="1" colour_ret="None" correct="1" colour_correct="None" contact_point="0" medfilt="0" xaxes="0" yaxes="0" flatten="1" temperature="293" auto_fit_points="50" auto_slope_span="20" auto_delta_force="10" auto_fit_nm="5" baseline_clicks="0" auto_left_baseline="20" auto_right_baseline="20" fc_showphase="0" fc_showimposed="0" fc_interesting="0"/>
 
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