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mightyscape-1.1-deprecated/extensions/fablabchemnitz_travel.py
2020-08-20 13:12:34 +02:00

273 lines
9.1 KiB
Python

#!/usr/bin/env python3
"""
Copyright (C) 2018 Rich Pang, rpang.contact@gmail.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.
"""
from __future__ import division
from copy import deepcopy
import inkex
from inkex.paths import Path, CubicSuperPath
import simplepath
from inkex.transforms import Transform
import numpy as np
from lxml import etree
# rename common numpy operations
abs = np.abs
sin = np.sin
cos = np.cos
tan = np.tan
exp = np.exp
log = np.log
log10 = np.log10
pi = np.pi
__version__ = '0.1'
def split(l, sizes):
"""Split a list into sublists of specific sizes."""
if not sum(sizes) == len(l):
raise ValueError('sum(sizes) must equal len(l)')
sub_lists = []
ctr = 0
for size in sizes:
sub_lists.append(l[ctr:ctr+size])
ctr += size
return sub_lists
class Travel(inkex.Effect):
def __init__(self):
# initialize parent class
inkex.Effect.__init__(self)
# get params entered by user
self.arg_parser.add_argument('--x_scale', type=float, default=0, help='x scale')
self.arg_parser.add_argument('--y_scale', type=float, default=0, help='y scale')
self.arg_parser.add_argument('--t_start', type=float, default=0, help='t start')
self.arg_parser.add_argument('--t_end', type=float, default=1, help='t_end')
self.arg_parser.add_argument('--n_steps', type=int, default=10, help='num steps')
self.arg_parser.add_argument('--fps', type=float, default=0, help='fps')
self.arg_parser.add_argument('--dt', type=float, default=0, help='dt')
self.arg_parser.add_argument('--x_eqn', default='', help='x')
self.arg_parser.add_argument('--y_eqn', default='', help='y')
self.arg_parser.add_argument('--x_size_eqn', default='', help='x size')
self.arg_parser.add_argument('--y_size_eqn', default='', help='y size')
self.arg_parser.add_argument('--theta_eqn', default='', help='theta')
self.arg_parser.add_argument('--active-tab', default='options', help='active tab')
def effect(self):
x_scale = self.options.x_scale
y_scale = self.options.y_scale
t_start = self.options.t_start
t_end = self.options.t_end
n_steps = self.options.n_steps
fps = self.options.fps
dt = self.options.dt
x_eqn = self.options.x_eqn
y_eqn = self.options.y_eqn
x_size_eqn = self.options.x_size_eqn
y_size_eqn = self.options.y_size_eqn
theta_eqn = self.options.theta_eqn
# get doc root
svg = self.document.getroot()
doc_w = self.svg.unittouu(svg.get('width'))
doc_h = self.svg.unittouu(svg.get('height'))
# get selected items and validate
selected = self.svg.get_z_selected()
if not selected:
inkex.errormsg('Exactly two objects must be selected: a rect and a template. See "help" for details.')
return
elif len(selected) != 2:
inkex.errormsg('Exactly two objects must be selected: a rect and a template. See "help" for details.')
return
# rect
rect = self.svg.selected[self.options.ids[0]]
if not rect.tag.endswith('rect'):
inkex.errormsg('Bottom object must be rect. See "help" for usage.')
return
# object
obj = self.svg.selected[self.options.ids[1]]
if not (obj.tag.endswith('path') or obj.tag.endswith('g')):
inkex.errormsg('Template object must be path or group of paths. See "help" for usage.')
return
if obj.tag.endswith('g'):
children = obj.getchildren()
if not all([ch.tag.endswith('path') for ch in children]):
msg = 'All elements of group must be paths, but they are: '
msg += ', '.join(['{}'.format(ch) for ch in children])
inkex.errormsg(msg)
return
objs = children
is_group = True
else:
objs = [obj]
is_group = False
# get rect params
w = float(rect.get('width'))
h = float(rect.get('height'))
x_rect = float(rect.get('x'))
y_rect = float(rect.get('y'))
# lower left corner
x_0 = x_rect
y_0 = y_rect + h
# get object path(s)
obj_ps = [Path(obj_.get('d')) for obj_ in objs]
n_segs = [len(obj_p_) for obj_p_ in obj_ps]
obj_p = sum(obj_ps, [])
# compute travel parameters
if not n_steps:
# compute dt
if dt == 0:
dt = 1./fps
ts = np.arange(t_start, t_end, dt)
else:
ts = np.linspace(t_start, t_end, n_steps)
# compute xs, ys, stretches, and rotations in arbitrary coordinates
xs = np.nan * np.zeros(len(ts))
ys = np.nan * np.zeros(len(ts))
x_sizes = np.nan * np.zeros(len(ts))
y_sizes = np.nan * np.zeros(len(ts))
thetas = np.nan * np.zeros(len(ts))
for ctr, t in enumerate(ts):
xs[ctr] = eval(x_eqn)
ys[ctr] = eval(y_eqn)
x_sizes[ctr] = eval(x_size_eqn)
y_sizes[ctr] = eval(y_size_eqn)
thetas[ctr] = eval(theta_eqn) * pi / 180
# ensure no Infs
if np.any(np.isinf(xs)):
raise Exception('Inf detected in x(t), please remove.')
return
if np.any(np.isinf(ys)):
raise Exception('Inf detected in y(t), please remove.')
return
if np.any(np.isinf(x_sizes)):
raise Exception('Inf detected in x_size(t), please remove.')
return
if np.any(np.isinf(y_sizes)):
raise Exception('Inf detected in y_size(t), please remove.')
return
if np.any(np.isinf(thetas)):
raise Exception('Inf detected in theta(t), please remove.')
return
# convert to screen coordinates
xs *= (w/x_scale)
xs += x_0
ys *= (-h/y_scale) # neg sign to invert y for inkscape screen
ys += y_0
# get obj center
b_box = Path(Path(obj_p)).bounding_box()
c_x = 0.5 * (b_box.left + b_box.right)
c_y = 0.5 * (b_box.top + b_box.bottom)
# get rotation anchor
if any([k.endswith('transform-center-x') for k in obj.keys()]):
k_r_x = [k for k in obj.keys() if k.endswith('transform-center-x')][0]
k_r_y = [k for k in obj.keys() if k.endswith('transform-center-y')][0]
r_x = c_x + float(obj.get(k_r_x))
r_y = c_y - float(obj.get(k_r_y))
else:
r_x, r_y = c_x, c_y
paths = []
# compute new paths
for x, y, x_size, y_size, theta in zip(xs, ys, x_sizes, y_sizes, thetas):
path = deepcopy(obj_p)
# move to origin
#Path(path).translate(-x_0, -y_0)
simplepath.translatePath(path, -x_0, -y_0)
# move rotation anchor accordingly
r_x_1 = r_x - x_0
r_y_1 = r_y - y_0
# scale
#Path(path).scale(x_size, y_size)
simplepath.scalePath(path, x_size, y_size)
# scale rotation anchor accordingly
r_x_2 = r_x_1 * x_size
r_y_2 = r_y_1 * y_size
# move to final location
#Path(path).translate(x, y)
simplepath.translatePath(path, x, y)
# move rotation anchor accordingly
r_x_3 = r_x_2 + x
r_y_3 = r_y_2 + y
# rotate
#simplepath.rotatePath(path, -theta, cx=r_x_3, cy=r_y_3)
Path(path).rotate(-theta, (r_x_3, r_y_3))
paths.append(path)
parent = self.svg.get_current_layer()
group = etree.SubElement(parent, inkex.addNS('g', 'svg'), {})
for path in paths:
if is_group:
group_ = etree.SubElement(group, inkex.addNS('g', 'svg'), {})
path_components = split(path, n_segs)
for path_component, child in zip(path_components, children):
attribs = {
k: child.get(k) for k in child.keys()
}
attribs['d'] = str(Path(path_component))
child_copy = etree.SubElement(group_, child.tag, attribs)
else:
attribs = {
k: obj.get(k) for k in obj.keys()
}
attribs['d'] = str(Path(path))
obj_copy = etree.SubElement(group, obj.tag, attribs)
Travel().run()