From 64050a2e0850fe6f4fd76c5e2e2eeed638baa6e4 Mon Sep 17 00:00:00 2001
From: luca_bruno <luca_bruno@users.sourceforge.net>
Date: Tue, 6 Feb 2007 19:24:32 +0000
Subject: [PATCH] wrong commit reverted

---
 share/extensions/funcplot.py | 266 +++++++++++++++++++++++++++++------
 1 file changed, 224 insertions(+), 42 deletions(-)

diff --git a/share/extensions/funcplot.py b/share/extensions/funcplot.py
index a093a3ff2..fb0a9ecb6 100644
--- a/share/extensions/funcplot.py
+++ b/share/extensions/funcplot.py
@@ -1,42 +1,224 @@
-<inkscape-extension>
-    <_name>Function Plotter</_name>
-    <id>org.inkscape.effect.funcplot</id>
-	<dependency type="executable" location="extensions">funcplot.py</dependency>
-	<dependency type="executable" location="extensions">inkex.py</dependency>
-	<param name="tab" type="notebook">
-	    <page name="sampling" _gui-text="Range and Sampling">
-	        <param name="xstart" type="float" min="-1000.0" max="1000.0" _gui-text="Start x-value">0.0</param>
-	        <param name="xend" type="float" min="-1000.0" max="1000.0" _gui-text="End x-value">1.0</param>
-         	<param name="times2pi" type="boolean" _gui-text="Multiply x-range by 2*pi">false</param>
-	        <param name="ybottom" type="float" min="-1000.0" max="1000.0" _gui-text="y-value of rectangle's bottom">0.0</param>
-	        <param name="ytop" type="float" min="-1000.0" max="1000.0" _gui-text="y-value of rectangle's top">1.0</param>
-	        <param name="samples" type="int" min="2" max="1000" _gui-text="Samples">8</param>
-            <param name="isoscale" type="boolean" _gui-text="Isotropic scaling (uses smallest: width/xrange or height/yrange)">false</param>
-	    </page>
-	    <page name="desc" _gui-text="Help">
-        	<_param name="pythonfunctions" type="description">The following functions are available:
-(the available functions are the standard python math functions)
-ceil(x); fabs(x); floor(x); fmod(x,y); frexp(x); ldexp(x,i); 
-modf(x); exp(x); log(x [, base]); log10(x); pow(x,y); sqrt(x); 
-acos(x); asin(x); atan(x); atan2(y,x); hypot(x,y); 
-cos(x); sin(x); tan(x); degrees(x); radians(x); 
-cosh(x); sinh(x); tanh(x).
-
-The constants pi and e are also available. </_param>
-	    </page>
-	</param>
-	<param name="fofx" type="string" _gui-text="Function">exp(-x*x)</param>
-	<param name="fponum" type="boolean" _gui-text="Calculate first derivative numerically">true</param>
-	<param name="fpofx" type="string" _gui-text="First derivative">x</param>
-	<param name="remove" type="boolean" _gui-text="Remove rectangle">true</param>
-    <param name="drawaxis" type="boolean" _gui-text="Draw Axes">false</param>
-    <effect>
-		<object-type>rect</object-type>
-                <effects-menu>
-                        <submenu _name="Render"/>
-                </effects-menu>
-    </effect>
-    <script>
-        <command reldir="extensions" interpreter="python">funcplot.py</command>
-    </script>
-</inkscape-extension>
+#!/usr/bin/env python 
+'''
+Copyright (C) 2006 Georg Wiora, xorx@quarkbox.de
+Copyright (C) 2006 Johan Engelen, johan@shouraizou.nl
+Copyright (C) 2005 Aaron Spike, aaron@ekips.org
+
+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
+
+Changes:
+ * This program is a modified version of wavy.py by Aaron Spike.
+ * 22-Dec-2006: Wiora : Added axis and isotropic scaling
+
+'''
+import inkex, simplepath, simplestyle
+from math import *
+from random import *
+
+def drawfunction(xstart, xend, ybottom, ytop, samples, width, height, left, bottom, 
+    fx = "sin(x)", fpx = "cos(x)", fponum = True, times2pi = False, isoscale = True, drawaxis = True):
+    
+    if times2pi == True:
+        xstart = 2 * pi * xstart
+        xend   = 2 * pi * xend   
+      
+    # coords and scales based on the source rect
+    scalex = width / (xend - xstart)
+    xoff = left
+    coordx = lambda x: (x - xstart) * scalex + xoff  #convert x-value to coordinate
+    scaley = height / (ytop - ybottom)
+    yoff = bottom
+    coordy = lambda y: (ybottom - y) * scaley + yoff  #convert y-value to coordinate
+    
+    # Check for isotropic scaling and use smaller of the two scales, correct ranges
+    if isoscale:
+      if scaley<scalex:
+        # compute zero location
+        xzero = coordx(0)
+        # set scale
+        scalex = scaley
+        # correct x-offset
+        xstart = (left-xzero)/scalex
+        xend = (left+width-xzero)/scalex
+      else :
+        # compute zero location
+        yzero = coordy(0)
+        # set scale
+        scaley = scalex
+        # correct x-offset
+        ybottom = (yzero-bottom)/scaley
+        ytop = (bottom+height-yzero)/scaley
+
+    # functions specified by the user
+    if fx != "":
+        f = eval('lambda x: ' + fx)
+    if fpx != "":
+        fp = eval('lambda x: ' + fpx)
+
+    # step is the distance between nodes on x
+    step = (xend - xstart) / (samples-1)
+    third = step / 3.0
+
+    a = [] # path array 
+    # add axis
+    if drawaxis :
+      # check for visibility of x-axis
+      if ybottom<=0 and ytop>=0:
+        # xaxis
+        a.append(['M ',[left, coordy(0)]])
+        a.append([' l ',[width, 0]])
+      # check for visibility of y-axis
+      if xstart<=0 and xend>=0:
+        # xaxis
+        a.append([' M ',[coordx(0),bottom]])
+        a.append([' l ',[0, -height]])
+
+    # initialize function and derivative for 0;
+    # they are carried over from one iteration to the next, to avoid extra function calculations. 
+    y0 = f(xstart) 
+    if fponum == True: # numerical derivative, using 0.001*step as the small differential
+        d0 = (f(xstart + 0.001*step) - y0)/(0.001*step)
+    else: # derivative given by the user
+        d0 = fp(xstart)
+
+    # Start curve
+    a.append([' M ',[coordx(xstart), coordy(y0)]]) # initial moveto
+
+    for i in range(int(samples-1)):
+        x = (i+1) * step + xstart
+        y1 = f(x)
+        if fponum == True: # numerical derivative
+            d1 = (y1 - f(x - 0.001*step))/(0.001*step)
+        else: # derivative given by the user
+            d1 = fp(x)
+        # create curve
+        a.append([' C ',[coordx(x - step + third), coordy(y0 + (d0 * third)), 
+            coordx(x - third), coordy(y1 - (d1 * third)),
+            coordx(x), coordy(y1)]])
+        y0 = y1 # next segment's y0 is this segment's y1
+        d0 = d1 # we assume the function is smooth everywhere, so carry over the derivative too
+            
+    return a
+
+class FuncPlot(inkex.Effect):
+    def __init__(self):
+        inkex.Effect.__init__(self)
+        self.OptionParser.add_option("--xstart",
+                        action="store", type="float", 
+                        dest="xstart", default=0.0,
+                        help="Start x-value")
+        self.OptionParser.add_option("--xend",
+                        action="store", type="float", 
+                        dest="xend", default=1.0,
+                        help="End x-value")
+        self.OptionParser.add_option("--times2pi",
+                        action="store", type="inkbool", 
+                        dest="times2pi", default=True,
+                        help="Multiply x-range by 2*pi")    
+        self.OptionParser.add_option("--ybottom",
+                        action="store", type="float", 
+                        dest="ybottom", default=-1.0,
+                        help="y-value of rectangle's bottom")
+        self.OptionParser.add_option("--ytop",
+                        action="store", type="float", 
+                        dest="ytop", default=1.0,
+                        help="y-value of rectangle's top")
+        self.OptionParser.add_option("-s", "--samples",
+                        action="store", type="int", 
+                        dest="samples", default=8,
+                        help="Samples")    
+        self.OptionParser.add_option("--fofx",
+                        action="store", type="string", 
+                        dest="fofx", default="sin(x)",
+                        help="f(x) for plotting")    
+        self.OptionParser.add_option("--fponum",
+                        action="store", type="inkbool", 
+                        dest="fponum", default=True,
+                        help="Calculate the first derivative numerically")    
+        self.OptionParser.add_option("--fpofx",
+                        action="store", type="string", 
+                        dest="fpofx", default="cos(x)",
+                        help="f'(x) for plotting") 
+        self.OptionParser.add_option("--remove",
+                        action="store", type="inkbool", 
+                        dest="remove", default=True,
+                        help="If True, source rectangle is removed") 
+        self.OptionParser.add_option("--isoscale",
+                        action="store", type="inkbool", 
+                        dest="isoscale", default=True,
+                        help="If True, isotropic scaling is used") 
+        self.OptionParser.add_option("--drawaxis",
+                        action="store", type="inkbool", 
+                        dest="drawaxis", default=True,
+                        help="If True, axis are drawn") 
+        self.OptionParser.add_option("--tab",
+                        action="store", type="string", 
+                        dest="tab", default="sampling",
+                        help="The selected UI-tab when OK was pressed") 
+        self.OptionParser.add_option("--pythonfunctions",
+                        action="store", type="string", 
+                        dest="pythonfunctions", default="",
+                        help="dummy") 
+
+    def effect(self):
+        for id, node in self.selected.iteritems():
+            if node.tagName == 'rect':
+                # create new path with basic dimensions of selected rectangle
+                newpath = self.document.createElement('svg:path')
+                x = float(node.attributes.getNamedItem('x').value)
+                y = float(node.attributes.getNamedItem('y').value)
+                w = float(node.attributes.getNamedItem('width').value)
+                h = float(node.attributes.getNamedItem('height').value)
+
+                #copy attributes of rect
+                s = node.attributes.getNamedItem('style').value
+                newpath.setAttribute('style', s)
+                try:
+                    t = node.attributes.getNamedItem('transform').value
+                    newpath.setAttribute('transform', t)
+                except AttributeError:
+                    pass
+                    
+                # top and bottom where exchanhged
+                newpath.setAttribute('d', simplepath.formatPath(
+                            drawfunction(self.options.xstart,
+                                self.options.xend,
+                                self.options.ybottom,
+                                self.options.ytop,
+                                self.options.samples, 
+                                w,h,x,y+h,
+                                self.options.fofx, 
+                                self.options.fpofx,
+                                self.options.fponum,
+                                self.options.times2pi,
+                                self.options.isoscale,
+                                self.options.drawaxis)))
+                newpath.setAttribute('title', self.options.fofx)
+                
+                #newpath.setAttribute('desc', '!func;' + self.options.fofx + ';' 
+                #                                      + self.options.fpofx + ';'
+                #                                      + `self.options.fponum` + ';'
+                #                                      + `self.options.xstart` + ';'
+                #                                      + `self.options.xend` + ';'
+                #                                      + `self.options.samples`)
+                                
+                # add path into SVG structure
+                node.parentNode.appendChild(newpath)
+                # option wether to remove the rectangle or not.
+                if self.options.remove:
+                  node.parentNode.removeChild(node)
+                
+e = FuncPlot()
+e.affect()
-- 
2.30.2