From: buliabyak <buliabyak@users.sourceforge.net>
Date: Thu, 23 Nov 2006 20:29:45 +0000 (+0000)
Subject: add Pattern on Path (patch 1594529)
X-Git-Url: https://git.tokkee.org/?a=commitdiff_plain;h=9e9083d5b1ba585665bf2f97eb2fba6a6e4d11eb;p=inkscape.git

add Pattern on Path (patch 1594529)
---

diff --git a/share/extensions/Makefile.am b/share/extensions/Makefile.am
index cbcba7f89..8a6ad980d 100644
--- a/share/extensions/Makefile.am
+++ b/share/extensions/Makefile.am
@@ -80,7 +80,10 @@ extensions = \
 	color_morelight.py\
 	color_lesslight.py\
 	color_morehue.py\
-	color_lesshue.py
+	color_lesshue.py\
+	pathalongpath.py\
+	rubberstretch.py\
+	pathmodifier.py
 
 
 otherstuff = \
@@ -158,7 +161,8 @@ modules = \
 	color_morelight.inx\
 	color_lesslight.inx\
 	color_morehue.inx\
-	color_lesshue.inx
+	color_lesshue.inx\
+	pathalongpath.inx
 
 
 extension_SCRIPTS = \
diff --git a/share/extensions/pathalongpath.inx b/share/extensions/pathalongpath.inx
new file mode 100644
index 000000000..303427a82
--- /dev/null
+++ b/share/extensions/pathalongpath.inx
@@ -0,0 +1,38 @@
+<inkscape-extension>
+    <_name>Pattern along Path</_name>
+    <id>math.univ-lille1.barraud.pathdeform</id>
+	<dependency type="executable" location="extensions">pathmodifier.py</dependency>
+	<dependency type="executable" location="extensions">pathalongpath.py</dependency>
+	<dependency type="executable" location="extensions">inkex.py</dependency>
+	<param name="title" type="description">This effect bends a pattern object along an arbitrary "skeleton" path. The pattern can be a path or a group of paths. First, select the pattern object; then add to selection the skeleton path; then call this effect.</param>
+
+	<param name="copymode" type="enum" _gui-text="Copies of the pattern:">
+	       <item>Single</item>
+	       <item>Single, stretched</item>
+	       <item>Repeated</item>
+	       <item>Repeated, stretched</item>
+	</param>
+
+	<param name="kind" type="enum" _gui-text="Deformation type:">
+	       <item>Snake</item>
+	       <item>Wave</item>
+	</param>
+
+	<param name="space"     type="float"   _gui-text="Space between copies:" min="-10000.0" max="10000.0" >0.0</param>
+
+	<param name="noffset"   type="float"   _gui-text="Normal offset" min="-10000.0" max="10000.0">0.0</param>
+	<param name="toffset"   type="float"   _gui-text="Tangential offset"  min="-10000.0" max="10000.0" >0.0</param>
+
+	<param name="vertical"  type="boolean" _gui-text="Pattern is vertical">false</param>
+	<param name="duplicate" type="boolean" _gui-text="Duplicate the pattern before deformation">true</param>
+    <effect>
+	<effects-menu>
+		<submenu _name="Generate from Path"/>
+	</effects-menu>
+    </effect>
+    <script>
+        <command reldir="extensions" interpreter="python">pathalongpath.py</command>
+    </script>
+</inkscape-extension>
+
+ 	  	 
diff --git a/share/extensions/pathalongpath.py b/share/extensions/pathalongpath.py
new file mode 100644
index 000000000..598f3c817
--- /dev/null
+++ b/share/extensions/pathalongpath.py
@@ -0,0 +1,266 @@
+#!/usr/bin/env python
+'''
+Copyright (C) 2006 Jean-Francois Barraud, barraud@math.univ-lille1.fr
+
+This program is free software; you can redistribute it and/or modify
+it under the terms of the GNU General Public License as published by
+the Free Software Foundation; either version 2 of the License, or
+(at your option) any later version.
+
+This program is distributed in the hope that it will be useful,
+but WITHOUT ANY WARRANTY; without even the implied warranty of
+MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+GNU General Public License for more details.
+
+You should have received a copy of the GNU General Public License
+along with this program; if not, write to the Free Software
+Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
+barraud@math.univ-lille1.fr
+
+Quick description:
+This script deforms an object (the pattern) along other paths (skeletons)...
+The first selected object is the pattern
+the last selected ones are the skeletons.
+
+Imagine a straight horizontal line L in the middle of the bounding box of the pattern.
+Consider the normal bundle of L: the collection of all the vertical lines meeting L.
+Consider this as the initial state of the plane; in particular, think of the pattern
+as painted on these lines.
+
+Now move and bend L to make it fit a skeleton, and see what happens to the normals:
+they move and rotate, deforming the pattern.
+'''
+
+import inkex, cubicsuperpath, bezmisc
+import pathmodifier 
+
+import copy, math, re, random, xml.xpath
+
+def flipxy(path):
+    for pathcomp in path:
+	for ctl in pathcomp:
+	    for pt in ctl:
+		tmp=pt[0]
+		pt[0]=-pt[1]
+		pt[1]=-tmp
+
+def offset(pathcomp,dx,dy):
+    for ctl in pathcomp:
+        for pt in ctl:
+            pt[0]+=dx
+            pt[1]+=dy
+
+def stretch(pathcomp,xscale,yscale,org):
+    for ctl in pathcomp:
+        for pt in ctl:
+            pt[0]=org[0]+(pt[0]-org[0])*xscale
+            pt[1]=org[1]+(pt[1]-org[1])*yscale
+
+def linearize(p,tolerance=0.001):
+    '''
+    This function recieves a component of a 'cubicsuperpath' and returns two things:
+    The path subdivided in many straight segments, and an array containing the length of each segment.
+    
+    We could work with bezier path as well, but bezier arc lengths are (re)computed for each point 
+    in the deformed object. For complex paths, this might take a while.
+    '''
+    zero=0.000001
+    i=0
+    d=0
+    lengths=[]
+    while i<len(p)-1:
+	box  = bezmisc.pointdistance(p[i  ][1],p[i  ][2])
+	box += bezmisc.pointdistance(p[i  ][2],p[i+1][0])
+	box += bezmisc.pointdistance(p[i+1][0],p[i+1][1])
+	chord = bezmisc.pointdistance(p[i][1], p[i+1][1])
+	if (box - chord) > tolerance:
+	    b1, b2 = bezmisc.beziersplitatt([p[i][1],p[i][2],p[i+1][0],p[i+1][1]], 0.5)
+	    p[i  ][2][0],p[i  ][2][1]=b1[1]
+	    p[i+1][0][0],p[i+1][0][1]=b2[2]
+	    p.insert(i+1,[[b1[2][0],b1[2][1]],[b1[3][0],b1[3][1]],[b2[1][0],b2[1][1]]])
+	else:
+	    d=(box+chord)/2
+	    lengths.append(d)
+	    i+=1
+    new=[p[i][1] for i in range(0,len(p)-1) if lengths[i]>zero]
+    new.append(p[-1][1])
+    lengths=[l for l in lengths if l>zero]
+    return(new,lengths)
+
+class PathAlongPath(pathmodifier.Diffeo):
+    def __init__(self):
+        pathmodifier.Diffeo.__init__(self)
+        self.OptionParser.add_option("--title")
+        self.OptionParser.add_option("-n", "--noffset",
+                        action="store", type="float", 
+                        dest="noffset", default=0.0, help="normal offset")
+        self.OptionParser.add_option("-t", "--toffset",
+                        action="store", type="float", 
+                        dest="toffset", default=0.0, help="tangential offset")
+        self.OptionParser.add_option("-k", "--kind",
+                        action="store", type="string", 
+                        dest="kind", default=True,
+                        help="choose between wave or snake effect")
+        self.OptionParser.add_option("-c", "--copymode",
+                        action="store", type="string", 
+                        dest="copymode", default=True,
+                        help="repeat the path to fit deformer's length")
+        self.OptionParser.add_option("-p", "--space",
+                        action="store", type="float", 
+                        dest="space", default=0.0)
+        self.OptionParser.add_option("-v", "--vertical",
+                        action="store", type="inkbool", 
+                        dest="vertical", default=False,
+                        help="reference path is vertical")
+        self.OptionParser.add_option("-d", "--duplicate",
+                        action="store", type="inkbool", 
+                        dest="duplicate", default=False,
+                        help="duplicate pattern before deformation")
+
+    def prepareSelectionList(self):
+##first selected->pattern, all but first selected-> skeletons
+        id = self.options.ids[-1]
+	self.patterns={id:self.selected[id]}
+	if self.options.duplicate:
+	    self.patterns=self.duplicateNodes(self.patterns)
+        self.expandGroupsUnlinkClones(self.patterns, True, True)
+	self.objectsToPaths(self.patterns)
+	del self.selected[id]
+
+        self.skeletons=self.selected
+        self.expandGroupsUnlinkClones(self.skeletons, True, False)
+	self.objectsToPaths(self.skeletons)
+
+    def lengthtotime(self,l):
+	'''
+	Recieves an arc length l, and returns the index of the segment in self.skelcomp 
+	containing the coresponding point, to gether with the position of the point on this segment.
+
+	If the deformer is closed, do computations modulo the toal length.
+	'''
+	if self.skelcompIsClosed:
+	    l=l % sum(self.lengths)
+	if l<=0:
+	    return 0,l/self.lengths[0]
+	i=0
+	while (i<len(self.lengths)) and (self.lengths[i]<=l):
+	    l-=self.lengths[i]
+	    i+=1
+	t=l/self.lengths[min(i,len(self.lengths)-1)]
+	return i, t
+
+    def applyDiffeo(self,bpt,vects=()):
+	'''
+	The kernel of this stuff:
+	bpt is a base point and for v in vectors, v'=v-p is a tangent vector at bpt.
+	'''
+        s=bpt[0]-self.skelcomp[0][0]
+	i,t=self.lengthtotime(s)
+        if i==len(self.skelcomp)-1:
+            x,y=bezmisc.tpoint(self.skelcomp[i-1],self.skelcomp[i],1+t)
+	    dx=(self.skelcomp[i][0]-self.skelcomp[i-1][0])/self.lengths[-1]
+	    dy=(self.skelcomp[i][1]-self.skelcomp[i-1][1])/self.lengths[-1]
+        else:
+            x,y=bezmisc.tpoint(self.skelcomp[i],self.skelcomp[i+1],t)
+            dx=(self.skelcomp[i+1][0]-self.skelcomp[i][0])/self.lengths[i]
+	    dy=(self.skelcomp[i+1][1]-self.skelcomp[i][1])/self.lengths[i]
+
+	vx=0
+	vy=bpt[1]-self.skelcomp[0][1]
+	if self.options.wave:
+	    bpt[0]=x+vx*dx
+	    bpt[1]=y+vy+vx*dy
+	else:
+	    bpt[0]=x+vx*dx-vy*dy
+	    bpt[1]=y+vx*dy+vy*dx
+
+	for v in vects:
+	    vx=v[0]-self.skelcomp[0][0]-s
+	    vy=v[1]-self.skelcomp[0][1]
+	    if self.options.wave:
+		v[0]=x+vx*dx
+		v[1]=y+vy+vx*dy
+	    else:
+		v[0]=x+vx*dx-vy*dy
+		v[1]=y+vx*dy+vy*dx
+
+    def effect(self):
+	self.prepareSelectionList()
+	self.options.wave = (self.options.kind=="Wave")
+	if self.options.copymode=="Single":
+	    self.options.repeat =False
+	    self.options.stretch=False
+	elif self.options.copymode=="Repeated":
+	    self.options.repeat =True
+	    self.options.stretch=False
+	elif self.options.copymode=="Single, stretched":
+	    self.options.repeat =False
+	    self.options.stretch=True
+	elif self.options.copymode=="Repeated, stretched":
+	    self.options.repeat =True
+	    self.options.stretch=True
+
+	bbox=self.computeBBox(self.patterns)
+	if self.options.vertical:
+	    #flipxy(bbox)...
+	    bbox=(-bbox[3],-bbox[2],-bbox[1],-bbox[0])
+	    
+	width=bbox[1]-bbox[0]
+	dx=width+self.options.space
+
+        for id, node in self.patterns.iteritems():
+            if node.tagName == 'path':
+                d = node.attributes.getNamedItem('d')
+                p0 = cubicsuperpath.parsePath(d.value)
+                if self.options.vertical:
+		    flipxy(p0)
+
+		newp=[]
+		for skelnode in self.skeletons.itervalues(): 
+		    self.curSekeleton=cubicsuperpath.parsePath(skelnode.getAttribute('d'))
+		    if self.options.vertical:
+			flipxy(self.curSekeleton)
+		    for comp in self.curSekeleton:
+			p=copy.deepcopy(p0)
+			self.skelcomp,self.lengths=linearize(comp)
+	#!!!!>----> TODO: really test if path is closed! end point==start point is not enough!
+			self.skelcompIsClosed = (self.skelcomp[0]==self.skelcomp[-1])
+
+			length=sum(self.lengths)
+			xoffset=self.skelcomp[0][0]-bbox[0]+self.options.toffset
+			yoffset=self.skelcomp[0][1]-(bbox[2]+bbox[3])/2-self.options.noffset
+
+			if self.options.repeat:
+			    NbCopies=max(1,int(round((length+self.options.space)/dx)))
+			    width=dx*NbCopies
+			    if not self.skelcompIsClosed:
+				width-=self.options.space
+			    bbox=bbox[0],bbox[0]+width,bbox[2],bbox[3]
+			    new=[]
+			    for sub in p:
+				for i in range(0,NbCopies,1):
+				    new.append(copy.deepcopy(sub))
+				    offset(sub,dx,0)
+			    p=new
+
+			for sub in p:
+			    offset(sub,xoffset,yoffset)
+
+			if self.options.stretch:
+			    for sub in p:
+				stretch(sub,length/width,1,self.skelcomp[0])
+
+			for sub in p:
+			    for ctlpt in sub:
+				self.applyDiffeo(ctlpt[1],(ctlpt[0],ctlpt[2]))
+
+			if self.options.vertical:
+			    flipxy(p)
+			newp+=p
+
+		d.value = cubicsuperpath.formatPath(newp)
+
+e = PathAlongPath()
+e.affect()
+
+ 	  	 
diff --git a/share/extensions/pathmodifier.py b/share/extensions/pathmodifier.py
new file mode 100644
index 000000000..a27c547c1
--- /dev/null
+++ b/share/extensions/pathmodifier.py
@@ -0,0 +1,376 @@
+#!/usr/bin/env python
+'''
+Copyright (C) 2006 Jean-Francois Barraud, barraud@math.univ-lille1.fr
+
+This program is free software; you can redistribute it and/or modify
+it under the terms of the GNU General Public License as published by
+the Free Software Foundation; either version 2 of the License, or
+(at your option) any later version.
+
+This program is distributed in the hope that it will be useful,
+but WITHOUT ANY WARRANTY; without even the implied warranty of
+MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+GNU General Public License for more details.
+
+You should have received a copy of the GNU General Public License
+along with this program; if not, write to the Free Software
+Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
+barraud@math.univ-lille1.fr
+'''
+import inkex, cubicsuperpath, bezmisc, simplestyle
+import copy, math, re, random, xml.xpath
+
+def parseTransform(transf,mat=[[1.0,0.0,0.0],[0.0,1.0,0.0]]):
+    if transf=="":
+        return(mat)
+    result=re.match("(translate|scale|rotate|skewX|skewY|matrix)\(([^)]*)\)",transf)
+#-- translate --
+    if result.group(1)=="translate":
+        args=result.group(2).split(",")
+        dx=float(args[0])
+        if len(args)==1:
+            dy=0.0
+        else:
+            dy=float(args[1])
+        matrix=[[1,0,dx],[0,1,dy]]
+#-- scale --
+    if result.groups(1)=="scale":
+        args=result.group(2).split(",")
+        sx=float(args[0])
+        if len(args)==1:
+            sy=sx
+        else:
+            sy=float(args[1])
+        matrix=[[sx,0,0],[0,sy,0]]
+#-- rotate --
+    if result.groups(1)=="rotate":
+        args=result.group(2).split(",")
+        a=float(args[0])*math.pi/180
+        if len(args)==1:
+            cx,cy=(0.0,0.0)
+        else:
+            cx,cy=args[1:]
+        matrix=[[math.cos(a),-math.sin(a),cx],[math.sin(a),math.cos(a),cy]]
+#-- skewX --
+    if result.groups(1)=="skewX":
+        a=float(result.group(2))*math.pi/180
+        matrix=[[1,math.tan(a),0],[0,1,0]]
+#-- skewX --
+    if result.groups(1)=="skewX":
+        a=float(result.group(2))*math.pi/180
+        matrix=[[1,0,0],[math.tan(a),1,0]]
+#-- matrix --
+    if result.group(1)=="matrix":
+        a11,a21,a12,a22,v1,v2=result.group(2).split(",")
+        matrix=[[float(a11),float(a12),float(v1)],[float(a21),float(a22),float(v2)]]
+    
+    matrix=composeTransform(mat,matrix)
+    if result.end()<len(transf):
+        return(parseTransform(transf[result.end():],matrix))
+    else:
+        return matrix
+
+def formatTransform(mat):
+    return("matrix(%f,%f,%f,%f,%f,%f)"%(mat[0][0],mat[1][0],mat[0][1],mat[1][1],mat[0][2],mat[1][2]))
+
+def composeTransform(M1,M2):
+    a11=M1[0][0]*M2[0][0]+M1[0][1]*M2[1][0]
+    a12=M1[0][0]*M2[0][1]+M1[0][1]*M2[1][1]
+    a21=M1[1][0]*M2[0][0]+M1[1][1]*M2[1][0]
+    a22=M1[1][0]*M2[0][1]+M1[1][1]*M2[1][1]
+
+    v1=M1[0][0]*M2[0][2]+M1[0][1]*M2[1][2]+M1[0][2]
+    v2=M1[1][0]*M2[0][2]+M1[1][1]*M2[1][2]+M1[1][2]
+    return [[a11,a12,v1],[a21,a22,v2]]
+
+def applyTransformToNode(mat,node):
+    m=parseTransform(node.getAttributeNS(None,"transform"))
+    newtransf=formatTransform(composeTransform(mat,m))
+    node.setAttributeNS(None,"transform", newtransf)
+
+def applyTransformToPoint(mat,pt):
+    x=mat[0][0]*pt[0]+mat[0][1]*pt[1]+mat[0][2]
+    y=mat[1][0]*pt[0]+mat[1][1]*pt[1]+mat[1][2]
+    pt[0]=x
+    pt[1]=y
+
+def fuseTransform(node):
+    m=parseTransform(node.getAttributeNS(None,"transform"))
+    d = node.getAttributeNS(None,'d')
+    p=cubicsuperpath.parsePath(d)
+    for comp in p:
+        for ctl in comp:
+            for pt in ctl:
+                applyTransformToPoint(m,pt)
+    node.setAttributeNS(None,'d', cubicsuperpath.formatPath(p))
+    node.removeAttributeNS(None,"transform")
+
+
+def boxunion(b1,b2):
+    if b1 is None:
+        return b2
+    elif b2 is None:
+        return b1    
+    else:
+        return((min(b1[0],b2[0]),max(b1[1],b2[1]),min(b1[2],b2[2]),max(b1[3],b2[3])))
+
+def roughBBox(path):
+    xmin,xMax,ymin,yMax=path[0][0][0][0],path[0][0][0][0],path[0][0][0][1],path[0][0][0][1]
+    for pathcomp in path:
+        for ctl in pathcomp:
+           for pt in ctl:
+               xmin=min(xmin,pt[0])
+               xMax=max(xMax,pt[0])
+               ymin=min(ymin,pt[1])
+               yMax=max(yMax,pt[1])
+    return xmin,xMax,ymin,yMax
+
+
+class PathModifier(inkex.Effect):
+    def __init__(self):
+        inkex.Effect.__init__(self)
+
+##################################
+#-- Selectionlists manipulation --
+##################################
+    def computeBBox(self, aList):
+	bbox=None
+	for id, node in aList.iteritems():
+	    if node.tagName == 'path':
+		d = node.attributes.getNamedItem('d')
+		p = cubicsuperpath.parsePath(d.value)
+		bbox=boxunion(roughBBox(p),bbox)
+	return bbox
+
+    def duplicateNodes(self, aList):
+        clones={}
+        for id,node in aList.iteritems():
+            clone=node.cloneNode(True)
+    #!!!--> should it be given an id?
+    #seems to work without this!?!
+            clone.setAttributeNS(None,"id", self.uniqueId(node.tagName))
+            node.parentNode.appendChild(clone)
+            clones[clone.getAttributeNS(None,"id")]=clone
+        return(clones)
+
+    def uniqueId(self, prefix):
+        id="%s%04i"%(prefix,random.randint(0,9999))
+        while len(xml.xpath.Evaluate('//*[@id="%s"]' % id,self.document)):
+            id="%s%04i"%(prefix,random.randint(0,9999))
+        return(id)
+
+    def expandGroups(self,aList,transferTransform=True):
+        for id, node in aList.items():      
+            if node.tagName == 'g':
+                mat=parseTransform(node.getAttributeNS(None,"transform"))
+                for child in node.childNodes:
+                    if child.nodeType==child.ELEMENT_NODE:
+                        if transferTransform:
+                            applyTransformToNode(mat,child)
+                        aList.update(self.expandGroups({child.getAttribute('id'):child}))
+                if transferTransform:
+                    node.removeAttribute("transform")
+                del aList[id]
+	return(aList)
+
+    def expandGroupsUnlinkClones(self,aList,transferTransform=True,doReplace=True):
+        for id in aList.keys()[:]:     
+            node=aList[id]
+            if node.tagName == 'g':
+                self.expandGroups(aList,transferTransform)
+                self.expandGroupsUnlinkClones(aList,transferTransform,doReplace)
+		#Hum... not very efficient if there are many clones of groups...
+            elif node.tagName == 'use':
+                refid=node.getAttributeNS(inkex.NSS[u'xlink'],'href')
+                path = '//*[@id="%s"]' % refid[1:]
+                refnode = xml.xpath.Evaluate(path,self.document)[0]
+                newnode=refnode.cloneNode(True)
+		self.recursNewIds(newnode)
+
+		if node.hasAttributeNS(None,u'style'):
+		    style=simplestyle.parseStyle(node.getAttributeNS(None,u'style'))
+		    refstyle=simplestyle.parseStyle(refnode.getAttributeNS(None,u'style'))
+		    style.update(refstyle)
+		    newnode.setAttributeNS(None,'style',simplestyle.formatStyle(style))
+                applyTransformToNode(parseTransform(node.getAttributeNS(None,'transform')),newnode)
+                if doReplace:
+                    parent=node.parentNode
+                    parent.insertBefore(newnode,node)
+                    parent.removeChild(node)
+                del aList[id]
+		newid=newnode.getAttributeNS(None,'id')
+                aList.update(self.expandGroupsUnlinkClones({newid:newnode},transferTransform,doReplace))
+        return aList
+    
+    def recursNewIds(self,node):
+	if node.nodeType==node.ELEMENT_NODE and node.hasAttributeNS(None,u'id'):
+	    node.setAttributeNS(None,u'id',self.uniqueId(node.tagName))
+	for child in node.childNodes:
+	    self.recursNewIds(child)
+		
+
+	
+
+#     def makeClonesReal(self,aList,doReplace=True,recursivelytransferTransform=True):
+#         for id in aList.keys():     
+#             node=aList[id]
+#             if node.tagName == 'g':
+#                 childs={}
+#                 for child in node.childNodes:
+#                     if child.nodeType==child.ELEMENT_NODE:
+# 			childid=child.getAttributeNS(None,'id')
+# 			del aList[childid]
+#                         aList.update(self.makeClonesReal({childid:child},doReplace))
+#             elif node.tagName == 'use':
+#                 refid=node.getAttributeNS(inkex.NSS[u'xlink'],'href')
+#                 path = '//*[@id="%s"]' % refid[1:]
+#                 refnode = xml.xpath.Evaluate(path,document)[0]
+#                 clone=refnode.cloneNode(True)
+# 		cloneid=self.uniqueId(clone.tagName)
+#                 clone.setAttributeNS(None,'id', cloneid)
+#                 style=simplestyle.parseStyle(node.getAttributeNS(None,u'style'))
+#                 refstyle=simplestyle.parseStyle(refnode.getAttributeNS(None,u'style'))
+#                 style.update(refstyle)
+#                 clone.setAttributeNS(None,'style',simplestyle.formatStyle(style))
+#                 applyTransformToNode(parseTransform(node.getAttributeNS(None,'transform')),clone)
+#                 if doReplace:
+#                     parent=node.parentNode
+#                     parent.insertBefore(clone,node)
+#                     parent.removeChild(node)
+#                 del aList[id]
+#                 aList.update(self.expandGroupsUnlinkClones({cloneid:clone}))
+#         return aList
+
+################################
+#-- Object conversion ----------
+################################
+
+    def rectToPath(self,node,doReplace=True):
+        if node.tagName == 'rect':
+            x =float(node.getAttributeNS(None,u'x'))
+            y =float(node.getAttributeNS(None,u'y'))
+            try:
+                rx=float(node.getAttributeNS(None,u'rx'))
+                ry=float(node.getAttributeNS(None,u'ry'))
+            except:
+                rx=0
+                ry=0
+            w =float(node.getAttributeNS(None,u'width' ))
+            h =float(node.getAttributeNS(None,u'height'))
+            d ='M %f,%f '%(x+rx,y)
+            d+='L %f,%f '%(x+w-rx,y)
+            d+='A %f,%f,%i,%i,%i,%f,%f '%(rx,ry,0,0,1,x+w,y+ry)
+            d+='L %f,%f '%(x+w,y+h-ry)
+            d+='A %f,%f,%i,%i,%i,%f,%f '%(rx,ry,0,0,1,x+w-rx,y+h)
+            d+='L %f,%f '%(x+rx,y+h)
+            d+='A %f,%f,%i,%i,%i,%f,%f '%(rx,ry,0,0,1,x,y+h-ry)
+            d+='L %f,%f '%(x,y+ry)
+            d+='A %f,%f,%i,%i,%i,%f,%f '%(rx,ry,0,0,1,x+rx,y)
+
+            newnode=self.document.createElement('path')
+            newnode.setAttributeNS(None,'d',d)
+            newnode.setAttributeNS(None,'id', self.uniqueId('path'))
+            newnode.setAttributeNS(None,'style',node.getAttributeNS(None,u'style'))
+            newnode.setAttributeNS(None,'transform',node.getAttributeNS(None,u'transform'))
+            fuseTransform(newnode)
+            if doReplace:
+                parent=node.parentNode
+                parent.insertBefore(newnode,node)
+                parent.removeChild(node)
+            return newnode
+
+    def objectToPath(self,node,doReplace=True):
+    #--TODO: support other object types!!!!
+    #--TODO: make sure cubicsuperpath supports A and Q commands... 
+        if node.tagName == 'rect':
+	    return(self.rectToPath(node,doReplace))
+        elif node.tagName == 'path':
+            attributes = node.attributes.keys()
+            for uri,attName in attributes:
+		if uri in [inkex.NSS[u'sodipodi'],inkex.NSS[u'inkscape']]:
+#                if attName not in ["d","id","style","transform"]:
+                    node.removeAttributeNS(uri,attName)
+            fuseTransform(node)
+            return node
+        else:
+            inkex.debug("Please first convert objects to paths!...(got '%s')"%node.tagName)
+            return None
+
+    def objectsToPaths(self,aList,doReplace=True):
+        newSelection={}
+        for id,node in aList.items():
+            newnode=self.objectToPath(node,self.document)
+            del aList[id]
+	    aList[newnode.getAttributeNS(None,u'id')]=newnode
+
+
+################################
+#-- Action ----------
+################################
+	    
+    #-- overwrite this method in subclasses...
+    def effect(self):
+        #self.duplicateNodes(self.selected)
+        self.expandGroupsUnlinkClones(self.selected, True)
+	self.objectsToPaths(self.selected, True)
+        self.bbox=self.computeBBox(self.selected)
+        for id, node in self.selected.iteritems():
+            if node.tagName == 'path':
+                d = node.attributes.getNamedItem('d')
+                p = cubicsuperpath.parsePath(d.value)
+
+		#do what ever you want with p!
+
+		d.value = cubicsuperpath.formatPath(p)
+
+
+class Diffeo(PathModifier):
+    def __init__(self):
+        inkex.Effect.__init__(self)
+
+    def applyDiffeo(self,bpt,vects=()):
+        '''
+        bpt is a base point and for v in vectors, v'=v-p is a tangent vector at bpt. 
+        Defaults to identity!
+        '''
+        for v in vects:
+            v[0]-=bpt[0]
+            v[1]-=bpt[1]
+
+        #-- your transformations go here:
+        #x,y=bpt
+        #bpt[0]=f(x,y)
+        #bpt[1]=g(x,y)
+        #for v in vects:
+        #    vx,vy=v
+        #    v[0]=df/dx(x,y)*vx+df/dy(x,y)*vy
+        #    v[1]=dg/dx(x,y)*vx+dg/dy(x,y)*vy
+        #
+        #-- !caution! y-axis is pointing downward!
+
+        for v in vects:
+            v[0]+=bpt[0]
+            v[1]+=bpt[1]
+
+
+    def effect(self):
+        #self.duplicateNodes(self.selected)
+	self.expandGroupsUnlinkClones(self.selected, True)
+        self.expandGroups(self.selected, True)
+	self.objectsToPaths(self.selected, True)
+        self.bbox=self.computeBBox(self.selected)
+        for id, node in self.selected.iteritems():
+            if node.tagName == 'path':
+                d = node.attributes.getNamedItem('d')
+                p = cubicsuperpath.parsePath(d.value)
+
+                for sub in p:
+                    for ctlpt in sub:
+                        self.applyDiffeo(ctlpt[1],(ctlpt[0],ctlpt[2]))
+
+		d.value = cubicsuperpath.formatPath(p)
+
+#e = Diffeo()
+#e.affect()
+
+ 	  	 
diff --git a/share/extensions/rubberstretch.py b/share/extensions/rubberstretch.py
new file mode 100644
index 000000000..ae52d1c84
--- /dev/null
+++ b/share/extensions/rubberstretch.py
@@ -0,0 +1,79 @@
+#!/usr/bin/env python
+'''
+Copyright (C) 2006 Jean-Francois Barraud, barraud@math.univ-lille1.fr
+
+This program is free software; you can redistribute it and/or modify
+it under the terms of the GNU General Public License as published by
+the Free Software Foundation; either version 2 of the License, or
+(at your option) any later version.
+
+This program is distributed in the hope that it will be useful,
+but WITHOUT ANY WARRANTY; without even the implied warranty of
+MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+GNU General Public License for more details.
+
+You should have received a copy of the GNU General Public License
+along with this program; if not, write to the Free Software
+Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
+barraud@math.univ-lille1.fr
+
+'''
+
+import inkex, cubicsuperpath, bezmisc, pathmodifier
+import copy, math, re, random, xml.xpath
+
+class RubberStretch(pathmodifier.Diffeo):
+    def __init__(self):
+        pathmodifier.Diffeo.__init__(self)
+        self.OptionParser.add_option("-r", "--ratio",
+                        action="store", type="float", 
+                        dest="ratio", default=0.5)
+        self.OptionParser.add_option("-c", "--curve",
+                        action="store", type="float", 
+                        dest="curve", default=0.5)
+
+    def applyDiffeo(self,bpt,vects=()):
+	for v in vects:
+	    v[0]-=bpt[0]
+	    v[1]-=bpt[1]
+	    v[1]*=-1
+	bpt[1]*=-1
+	a=self.options.ratio/100
+	b=min(self.options.curve/100,0.99)
+	x0= (self.bbox[0]+self.bbox[1])/2
+	y0=-(self.bbox[2]+self.bbox[3])/2
+	w,h=(self.bbox[1]-self.bbox[0])/2,(self.bbox[3]-self.bbox[2])/2
+	
+	x,y=(bpt[0]-x0),(bpt[1]-y0)
+      	sx=(1+b*(x/w+1)*(x/w-1))*2**(-a)
+	sy=(1+b*(y/h+1)*(y/h-1))*2**(-a)
+	bpt[0]=x0+x*sy
+	bpt[1]=y0+y/sx
+	for v in vects:
+	    dx,dy=v
+	    dXdx=sy
+	    dXdy= x*2*b*y/h/h*2**(-a)
+	    dYdx=-y*2*b*x/w/w*2**(-a)/sx/sx
+	    dYdy=1/sx
+	    v[0]=dXdx*dx+dXdy*dy
+	    v[1]=dYdx*dx+dYdy*dy
+
+	#--spherify
+#	s=((x*x+y*y)/(w*w+h*h))**(-a/2)
+#	bpt[0]=x0+s*x
+#	bpt[1]=y0+s*y
+#	for v in vects:
+#	    dx,dy=v
+#	    v[0]=(1-a/2/(x*x+y*y)*2*x*x)*s*dx+( -a/2/(x*x+y*y)*2*y*x)*s*dy
+#	    v[1]=( -a/2/(x*x+y*y)*2*x*y)*s*dx+(1-a/2/(x*x+y*y)*2*y*y)*s*dy
+
+	for v in vects:
+	    v[0]+=bpt[0]
+	    v[1]+=bpt[1]
+	    v[1]*=-1
+	bpt[1]*=-1
+
+e = RubberStretch()
+e.affect()
+
+