[Bf-extensions-cvs] SVN commit: /data/svn/bf-extensions [2450] branches/geodesic_domes/vefm_259 .py: dbg = True not needed at this moment vertex does its job

Sat Oct 15 10:39:14 CEST 2011

Revision: 2450
          http://projects.blender.org/scm/viewvc.php?view=rev&root=bf-extensions&revision=2450
Author:   pkhg
Date:     2011-10-15 08:39:13 +0000 (Sat, 15 Oct 2011)
Log Message:
-----------
dbg = True not needed at this moment vertex does its job

for futurur debug more clear text in print statements done
(in vefm and which line)

Modified Paths:
--------------
    branches/geodesic_domes/vefm_259.py

Modified: branches/geodesic_domes/vefm_259.py
===================================================================

--- branches/geodesic_domes/vefm_259.py	2011-10-15 07:06:58 UTC (rev 2449)
+++ branches/geodesic_domes/vefm_259.py	2011-10-15 08:39:13 UTC (rev 2450)
@@ -4,7 +4,7 @@
 from math import sqrt,acos,pi,sin,cos,atan,tan,fabs
 #from Blender import NMesh
 from mathutils import Vector
-dbg = True
+#dbg = True
 sgn = lambda x : (x>0) - (x<0) #missing signum functin in Python
 try:
     breakpoint = bpy.types.bp.bp
@@ -41,8 +41,8 @@
         self.edges = []
         self.faces = []
         self.boundary = 0
-        if dbg:
-            print("dbg: vertex generate with  length = ",self.length)
+#PKHG is ok  not needed anymore        if dbg:
+#            print("dbg: vertex generate with  length = ",self.length)
         
 
     def findlength(self):
@@ -223,7 +223,7 @@
 ##        different classes for 3,4,> sides??
 class face:
     def __init__(self,vertices=[]):
-        print("\ndbg face vertices = ",vertices)
+        print("\n ========= vefm L226======dbg face vertices = ",vertices)
         self.vertices=vertices    ##   List of vertex instances.
         self.edges=[]            ##   Will be filled with the sides of the face.
         self.boundary=0        ##   When set will have bool and id of edge concerned.
@@ -249,11 +249,11 @@
         costheta=dot/(v1.length*v2.length)
         pkhgtmp = v1.vector.dot(v2.vector)
         tmp = acos(costheta)
-        print("dbg 204 dotprod in face",dot,pkhgtmp,tmp)
+        print("dbg ======vefm L 252=========  dotprod in face",dot,pkhgtmp,tmp)
         return tmp
     
     def orderedges(self):
-        print("\n-----------------dbg 212 orderedeges called")
+        print("\n----vefm L256-------------dbg 212 orderedeges called")
         temp=[]
         finish=len(self.vertices)
         for i in range(finish):
@@ -315,7 +315,7 @@
                 previous=self.vertices[i-1]
             corner=[current]
             #corner = current
-            print("dbg current = ", current,self.edges[:])
+            print("dbg =======vefm L318====== current =  and edges", current,self.edges[:])
             rightedge = None
             leftedge = None
             teller = -1
@@ -372,7 +372,7 @@
         self.normal.normalize()
 
     def dospokes(self):
-        print("\n==========================dbg 275, dospokes called corners =", self.corners[:])
+        print("\n============vefm L375==============dbg, dospokes called corners =", self.corners[:])
         for corner in self.corners:
             vert=corner[0]
             right=corner[1]
@@ -390,7 +390,7 @@
             two.normalize()
             spoke=one+two
             spoke.normalize()
-            print("dbg dospokes 292",spoke.vector)
+            print("dbg =========vefm L393====== dospokes 293",spoke.vector)
             self.spokes.append(spoke)
     def artspokes(self):
         centre=average(self.vertices).centroid()
@@ -428,8 +428,8 @@
         e = [[edge.a.index,edge.b.index] for edge in self.edges]
         #faces = thisfaces #PKHG have to find out how a mesh is generated?!
         #f = [[vert.index for vert in face.vertices] for face in self.faces]
-        for el in self.faces:
-            print("dbg pkhg",len(el.vertices), el.vertices[:])
+#        for el in self.faces:
+#            print("dbg=======vefm L432======= a pkhg",len(el.vertices), el.vertices[:])
         #breakpoint(locals())
         m = bpy.data.meshes.new(name= self.name)
         m.from_pydata(v, e, [])
@@ -934,7 +934,7 @@
         impmesh = bpy.data.objects[meshname]
 #        for v in impmesh.verts:       
         #print("\n check vector of 
-#        breakpoint(locals()) #PKHG test
+        #breakpoint(locals()) #PKHG test
         for v in impmesh.data.vertices:
 #            x=v.co[0]
 #            y=v.co[1]
@@ -1291,6 +1291,6 @@
     mymesh.hexify()
     mymesh.add_object()
 
-    print(mymesh.edges[:])
+#    print(mymesh.edges[:])
     #breakpoint(globals())                
 #mytest()

