From cca66b9ec4e494c1d919bff0f71a820d8afab1fa Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sun, 7 Apr 2024 20:24:48 +0200 Subject: Adding upstream version 1.2.2. Signed-off-by: Daniel Baumann --- share/extensions/pathmodifier.py | 226 +++++++++++++++++++++++++++++++++++++++ 1 file changed, 226 insertions(+) create mode 100755 share/extensions/pathmodifier.py (limited to 'share/extensions/pathmodifier.py') diff --git a/share/extensions/pathmodifier.py b/share/extensions/pathmodifier.py new file mode 100755 index 0000000..e99b4b5 --- /dev/null +++ b/share/extensions/pathmodifier.py @@ -0,0 +1,226 @@ +#!/usr/bin/env python +# coding=utf-8 +# +# Copyright (C) 2006 Jean-Francois Barraud, barraud@math.univ-lille1.fr +# 2021 Jonathan Neuhauser, jonathan.neuhauser@outlook.com +# +# 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. +# barraud@math.univ-lille1.fr +# +""" +This code defines a basic class (PathModifier) of effects whose purpose is +to somehow deform given objects: one common tasks for all such effect is to +convert shapes, groups, clones to paths. The class has several functions to +make this (more or less!) easy. +As an example, a second class (Diffeo) is derived from it, +to implement deformations of the form X=f(x,y), Y=g(x,y)... +""" + +import inkex +from inkex import PathElement, Group, Use +from inkex.bezier import pointdistance, beziersplitatt + +# This deprecated API is used by some external extensions. +from inkex.deprecated import zSort # pylint: disable=unused-import + + +class PathModifier(inkex.EffectExtension): + """Select list manipulation""" + + def expand_groups(self, elements, transferTransform=True): + for node_id, node in list(elements.items()): + if isinstance(node, inkex.Group): + mat = node.transform + for child in node: + if transferTransform: + child.transform = mat @ child.transform + elements.update(self.expand_groups({child.get("id"): child})) + if transferTransform and node.get("transform"): + del node.attrib["transform"] + # Group is now replaced, so remove it. + elements.pop(node_id) + return elements + + def expand_clones(self, elements, transferTransform=True, replace=True): + for node_id, node in list(elements.items()): + if isinstance(node, Group): + self.expand_groups(elements, transferTransform) + self.expand_clones(elements, transferTransform, replace) + # Hum... not very efficient if there are many clones of groups... + + elif isinstance(node, Use): + newnode = node.unlink() + elements.pop(node_id) + newid = newnode.get("id") + elements.update( + self.expand_clones({newid: newnode}, transferTransform, replace) + ) + return elements + + def objects_to_paths(self, elements, replace=True): + """Replace all non-paths with path objects""" + for node in list(elements.values()): + elem = node.to_path_element() + if replace: + node.replace_with(elem) + elem.set("id", node.get("id")) + elements[elem.get("id")] = elem + + def effect(self): + raise NotImplementedError("overwrite this method in subclasses") + self.objects_to_paths(self.svg.selection, True) + self.bbox = self.svg.selection.bounding_box() + for node in self.svg.selection.filter(PathElement): + path = node.path.to_superpath() + # do what ever you want with "path"! + node.path = path + + @staticmethod + def lengthtotime(l, lengths, isclosed): + """ + Receives an arc length l, and returns the index of the segment in skelcomp + containing the corresponding point, to gether with the position of the point on this segment. + + If the deformer is closed, do computations modulo the toal length. + """ + if isclosed: + l = l % sum(lengths) + if l <= 0: + return 0, l / lengths[0] + i = 0 + while (i < len(lengths)) and (lengths[i] <= l): + l -= lengths[i] + i += 1 + t = l / lengths[min(i, len(lengths) - 1)] + return i, t + + @staticmethod + def flipxy(path): + """Swaps x and y coordinate of all path vertices""" + for pathcomp in path: + for ctl in pathcomp: + for pt in ctl: + tmp = pt[0] + pt[0] = -pt[1] + pt[1] = -tmp + + @staticmethod + def offset(pathcomp, dx, dy): + """Shifts a subpath by (dx, dy)""" + for ctl in pathcomp: + for pt in ctl: + pt[0] += dx + pt[1] += dy + + @staticmethod + def stretch(pathcomp, xscale, yscale, org): + """Stretches a subpath by (xscale, yscale) relative to origin 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 + + @staticmethod + def linearize(p, tolerance=0.001): + """ + This function receives 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 = pointdistance(p[i][1], p[i][2]) + box += pointdistance(p[i][2], p[i + 1][0]) + box += pointdistance(p[i + 1][0], p[i + 1][1]) + chord = pointdistance(p[i][1], p[i + 1][1]) + if (box - chord) > tolerance: + b1, b2 = 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 + + def get_patterns_and_skeletons(self, expand_patterns=False, duplicate=False): + """Gets the pattern node and skeleton (with applied transforms) from selection""" + # first selected->pattern, all but first selected-> skeletons + skeletons = self.svg.selection.rendering_order() + + elem = skeletons.pop() + if duplicate: + elem = elem.duplicate() + + if expand_patterns: + patterns = {elem.get_id(): elem} + self.expand_clones(patterns, True, False) + self.objects_to_paths(patterns) + else: + patterns = elem + + self.expand_clones(skeletons, True, False) + self.objects_to_paths(skeletons) + return patterns, skeletons.id_dict() + + +class Diffeo(PathModifier): + 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.expand_clones(self.svg.selection, True) + self.expand_groups(self.svg.selection, True) + self.objects_to_paths(self.svg.selection, True) + self.bbox = self.svg.selection.bounding_box() + for node in self.svg.selection.filter(PathElement): + path = node.path.to_superpath() + for sub in path: + for ctlpt in sub: + self.applyDiffeo(ctlpt[1], (ctlpt[0], ctlpt[2])) + node.path = path -- cgit v1.2.3