From: Alvin Penner Date: Thu, 16 Sep 2010 00:27:36 +0000 (-0400) Subject: option to add endpoints on x-axis (Bug 628266) X-Git-Url: https://git.tokkee.org/?a=commitdiff_plain;h=2db300164334e95c7b73b6f2b12ea12be5db2142;p=inkscape.git option to add endpoints on x-axis (Bug 628266) --- diff --git a/share/extensions/funcplot.inx b/share/extensions/funcplot.inx index 3867cab82..8eaf33f01 100644 --- a/share/extensions/funcplot.inx +++ b/share/extensions/funcplot.inx @@ -1,33 +1,33 @@ - <_name>Function Plotter - org.inkscape.effect.funcplot - funcplot.py - inkex.py - - - 0.0 - 1.0 - false - 0.0 - 1.0 - 8 - false - <_param name="isoscaledesc" type="description">When set, Isotropic scaling uses smallest of width/xrange or height/yrange - true - - - <_param name="funcplotuse" type="description" xml:space="preserve">Select a rectangle before calling the extension, -it will determine X and Y scales. + <_name>Function Plotter + org.inkscape.effect.funcplot + funcplot.py + inkex.py + + + 0.0 + 1.0 + false + 0.0 + 1.0 + 8 + false + <_param name="isoscaledesc" type="description">When set, Isotropic scaling uses smallest of width/xrange or height/yrange + true + + + <_param name="funcplotuse" type="description" xml:space="preserve">Select a rectangle before calling the extension, +it will determine X and Y scales. If you wish to fill the area, then add x-axis endpoints. With polar coordinates: Start and end X values define the angle range in radians. X scale is set so that left and right edges of rectangle are at +/-1. Isotropic scaling is disabled. First derivative is always determined numerically. - - - <_param name="pythonfunctions" type="description" xml:space="preserve">Standard Python math functions are available: + + + <_param name="pythonfunctions" type="description" xml:space="preserve">Standard Python math functions are available: 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); @@ -36,20 +36,21 @@ cos(x); sin(x); tan(x); degrees(x); radians(x); cosh(x); sinh(x); tanh(x). The constants pi and e are also available. - - - exp(-x*x) - true - x - true - false - - rect - - - - - + + + exp(-x*x) + true + x + true + false + false + + rect + + + + + diff --git a/share/extensions/funcplot.py b/share/extensions/funcplot.py index 126429853..b94fda278 100644 --- a/share/extensions/funcplot.py +++ b/share/extensions/funcplot.py @@ -30,7 +30,7 @@ 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, polar = False, isoscale = True, drawaxis = True): + fx = "sin(x)", fpx = "cos(x)", fponum = True, times2pi = False, polar = False, isoscale = True, drawaxis = True, endpts = False): if times2pi == True: xstart = 2 * pi * xstart @@ -122,7 +122,11 @@ def drawfunction(xstart, xend, ybottom, ytop, samples, width, height, left, bott dy0 = fp(xstart) # Start curve - a.append([' M ',[coordx(x0), coordy(y0)]]) # initial moveto + if endpts: + a.append([' M ',[left, coordy(0)]]) + a.append([' L ',[coordx(x0), coordy(y0)]]) + else: + a.append([' M ',[coordx(x0), coordy(y0)]]) # initial moveto for i in range(int(samples-1)): x1 = (i+1) * step + xstart @@ -153,7 +157,9 @@ def drawfunction(xstart, xend, ybottom, ytop, samples, width, height, left, bott x0 = x1 # Next segment's start is this segments end y0 = y1 dx0 = dx1 # Assume the function is smooth everywhere, so carry over the derivative too - dy0 = dy1 + dy0 = dy1 + if endpts: + a.append([' L ',[left + width, coordy(0)]]) return a class FuncPlot(inkex.Effect): @@ -211,6 +217,10 @@ class FuncPlot(inkex.Effect): action="store", type="inkbool", dest="drawaxis", default=True, help="If True, axis are drawn") + self.OptionParser.add_option("--endpts", + action="store", type="inkbool", + dest="endpts", default=False, + help="If True, end points are added") self.OptionParser.add_option("--tab", action="store", type="string", dest="tab", default="sampling", @@ -257,7 +267,8 @@ class FuncPlot(inkex.Effect): self.options.times2pi, self.options.polar, self.options.isoscale, - self.options.drawaxis))) + self.options.drawaxis, + self.options.endpts))) newpath.set('title', self.options.fofx) #newpath.setAttribute('desc', '!func;' + self.options.fofx + ';'