467 lines
20 KiB
Python
467 lines
20 KiB
Python
#!/usr/bin/env python3
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#
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# Copyright (C) [2021] [Matt Cottam], [mpcottam@raincloud.co.uk]
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#
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 2 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program; if not, write to the Free Software
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# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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#
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##############################################################################
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# Simple Registration - Registration Marks Across Objects
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##############################################################################
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import inkex
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from inkex import command, Group
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# Python Standard Library
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import tempfile
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from lxml import etree
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import random
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unit_conversions = {
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'in': 96.0,
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'pt': 1.3333333333333333,
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'px': 1.0,
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'mm': 3.779527559055118,
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'cm': 37.79527559055118,
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'm': 3779.527559055118,
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'km': 3779527.559055118,
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'Q': 0.94488188976378,
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'pc': 16.0,
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'yd': 3456.0,
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'ft': 1152.0,
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'': 1.0, # Default px
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}
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crosshair_path = "m 1.0583333,3.0583334 h 4.0000001 m -2,-2.0000001 v 4.0000001 m 0.25,-2 a 0.25,0.25 0 0 1 -0.25," \
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"0.25 0.25,0.25 0 0 1 -0.25,-0.25 0.25,0.25 0 0 1 0.25,-0.25 0.25,0.25 0 0 1 0.25,0.25 z m 0.75," \
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"0 a 1,1 0 0 1 -1,1 1,1 0 0 1 -1,-1 1,1 0 0 1 1,-1 1,1 0 0 1 1,1 z m 0.5,0 a 1.5,1.5 0 0 1 -1.5," \
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"1.5 1.5,1.5 0 0 1 -1.5,-1.5 1.5,1.5 0 0 1 1.5,-1.5 1.5,1.5 0 0 1 1.5,1.5 z "
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spiral_path = "m 2.8602054,2.8871104 c 0.0099,0.108862 -0.155578,0.06596 -0.197873,0.0151 -0.11462,-0.137812 0.0156," \
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"-0.320651 0.164837,-0.376975 0.266943,-0.100751 0.549334,0.08169 0.626652,0.316559 0.113468," \
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"0.344685 -0.163181,0.687127 -0.527545,0.769055 -0.485643,0.109197 -0.954879,-0.216671 -1.055435," \
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"-0.648222 -0.126538,-0.543064 0.310663,-1.059761 0.890257,-1.161135 0.701965,-0.122775 1.363419," \
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"0.351433 1.484214,0.979887 0.142351,0.740611 -0.457969,1.433888 -1.252965,1.553212 -0.917855," \
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"0.137765 -1.7729561,-0.486089 -1.9129951,-1.311549 -0.15912096,-0.93794 0.6052021,-1.8086111 " \
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"1.6156751,-1.9452921 1.133598,-0.15333396 2.182944,0.6207011 2.341774,1.6432131 0.176331," \
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"1.135182 -0.752397,2.183635 -1.978384,2.33737 "
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star_path = "m 4.2951254,5.0575354 -1.236268,-0.682814 -1.235872,0.683612 0.235648,-1.447143 -1.0002991,-1.024496 1.3819041,-0.211573 0.617649,-1.3167881 0.618418,1.3163901 1.382026,0.210678 -0.999698,1.025144 z"
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circle_path = "m 5.0583334,3.0583334 a 2,2 0 0 1 -2,2 2,2 0 0 1 -2.0000001,-2 2,2 0 0 1 2.0000001,-2.0000001 2,2 0 0 1 2,2.0000001 z"
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square_path = "M 1.0583333,1.0583333 H 5.0583334 V 5.0583334 H 1.0583333 Z"
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chevron_path = "m 1.0583333,1.0583333 3.9999999,2 -3.9999999,1.9999999"
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def add_reg_object(self, reg_path):
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# parent = self.svg.get_current_layer()
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parent = self.svg
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my_reg_object = etree.SubElement(parent, inkex.addNS('path', 'svg'))
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reg_path = eval(reg_path)
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my_reg_object.path = reg_path
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my_reg_object.attrib['id'] = 'my_reg_object'
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my_reg_object.style['fill'] = 'none'
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# my_reg_object.style['stroke-width'] = '0.1'
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my_reg_object.style['stroke-width'] = '0.05'
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my_reg_object.style['stroke'] = self.options.color_picker_reg_object
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my_reg_object.transform.add_scale(self.options.reg_mark_scale)
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return my_reg_object
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def add_tick_labels(self):
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my_objects = self.svg.selected.rendering_order()
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parent = self.svg.get_current_layer()
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object_count = 1
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for my_object in my_objects:
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text_label = etree.SubElement(parent, inkex.addNS('text', 'svg'))
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text_label.text = str(object_count)
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text_label.style['font-size'] = self.options.tick_text_label_font_size
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text_label.attrib['id'] = 'tick_label_temp' + str(object_count)
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text_label.style['text-anchor'] = 'middle'
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text_label.style['dominant-baseline'] = 'middle'
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object_count += 1
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def create_new_group(self, prefix, mode):
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group_id = str(prefix) + '_' + str(random.randrange(100000, 999999))
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new_group = self.svg.add(Group.new('#' + group_id))
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new_group.set('inkscape:groupmode', str(mode))
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new_group.attrib['id'] = group_id
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return new_group
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def apply_translate(self, parent, my_object, my_transform):
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bodge_group = create_new_group(self, 'bodge_group', 'group')
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bodge_group.append(my_object)
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bodge_group.transform = bodge_group.transform @ my_transform
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my_inherited_object_transform = my_object.composed_transform()
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parent.append(my_object)
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my_object.transform = my_inherited_object_transform
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bodge_group.delete()
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def random_rgb(self):
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random_red = random.randrange(0, 255)
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random_green = random.randrange(0, 255)
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random_blue = random.randrange(0, 255)
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return f'rgb({random_red}, {random_green}, {random_blue})'
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def query_all_bbox(self):
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my_file_path = self.options.input_file
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with tempfile.NamedTemporaryFile(mode='r+', suffix='.svg') as temp_svg_file:
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# Write the contents of the updated svg to a tempfile to use with command line
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my_svg_string = self.svg.root.tostring().decode("utf-8")
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temp_svg_file.write(my_svg_string)
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temp_svg_file.read()
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my_query = inkex.command.inkscape(temp_svg_file.name, '--query-all')
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# Account for versions of inkey.py which return query as bytes
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if type(my_query) != str:
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my_query = my_query.decode("utf-8")
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# --query-all produces multiline output of the following format
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# path853,172.491,468.905,192.11,166.525 - as string
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# ElementId, Top, Left, Width, Height
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# Make a list splitting by each new line
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my_query_items = my_query.split('\n')
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my_element_bbox_dict = {}
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for my_query_item in my_query_items:
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# Create a comma separated list item for each line
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my_element = my_query_item.split(',')
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# Make a dictionary for all elements, rejected malformed elements.
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if len(my_element) > 4:
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my_element_bbox_dict[my_element[0]] = {}
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# Create Dictionary entry in anticlockwise format
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# x1 = TopLeft, x2 = BottomLeft, x3 = BottomRight, x4 = TopRight, mid_x and mid_y
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# First convert all values to float, skipping element id ( first entry )
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my_element_bbox = [float(x) for x in my_element[1:]]
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width = my_element_bbox[2]
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height = my_element_bbox[3]
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x1 = my_element_bbox[0]
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y1 = my_element_bbox[1]
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x2 = x1
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y2 = y1 + height
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x3 = x1 + width
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y3 = y2
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x4 = x1 + width
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y4 = y1
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mid_x = x1 + width / 2
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mid_y = y1 + height / 2
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my_element_bbox_dict[my_element[0]].update(x1=x1, y1=y1, x2=x2, y2=y2, x3=x3, y3=y3, x4=x4, y4=y4,
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mid_x=mid_x, mid_y=mid_y, width=width, height=height)
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# Return dictionary
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return my_element_bbox_dict
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def reg_mark_to_corners(self, all_bbox, max_bbox, my_reg_object, my_object, cf, parent):
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reg_mark_x_shift = self.options.reg_mark_x_shift
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reg_mark_y_shift = self.options.reg_mark_y_shift
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# get width and height of reg object
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my_reg_object_width = all_bbox[my_reg_object.get_id()]['width']
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my_reg_object_height = all_bbox[my_reg_object.get_id()]['height']
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my_reg_object_mid_x = all_bbox[my_reg_object.get_id()]['mid_x']
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my_reg_object_mid_y = all_bbox[my_reg_object.get_id()]['mid_y']
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my_object_id = my_object.get_id()
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new_reg_group = create_new_group(self, 'reg_group', 'group')
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# new_group.append(my_object)
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for corner_no in range(1, 5):
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registration_object = my_reg_object.duplicate()
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registration_object.style['stroke-width'] = '0.2'
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registration_object_original_composed_transform = registration_object.composed_transform()
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my_translate_text = str(
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(max_bbox['x' + str(corner_no)] - (my_reg_object_mid_x)) / cf) + ',' + str(
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(max_bbox['y' + str(corner_no)] - (my_reg_object_mid_y)) / cf)
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my_translate_text = f'Transform(\'translate({my_translate_text})\')'
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apply_translate(self, parent, registration_object, my_translate_text)
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new_reg_group.append(registration_object)
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return new_reg_group
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def draw_ticks(self, all_bbox, my_reg_object, max_bbox,object_count, number_of_objects, my_object, cf):
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parent = self.svg.get_current_layer()
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tick_color = self.options.color_picker_tick
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tick_dict = {}
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# Get the right edge of the top left registration mark
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# my_element_bbox_dict[my_element[0]].update(x1=x1, y1=y1, x2=x2, y2=y2, x3=x3, y3=y3, x4=x4, y4=y4,
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# mid_x=mid_x, mid_y=mid_y, width=width, height=height)
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my_reg_object_width = all_bbox[my_reg_object.get_id()]['width'] / cf
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my_reg_object_height = all_bbox[my_reg_object.get_id()]['height'] / cf
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# tl_re = top left right edge, tr_le = top right left edge
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tl_re_x = (max_bbox['x1'] / cf + my_reg_object_width)
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tl_re_y = (max_bbox['y1']) / cf
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tr_le_x = (max_bbox['x4'] / cf - my_reg_object_width)
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tr_le_y = (max_bbox['y4']) / cf
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bl_re_x = (max_bbox['x2']) / cf
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bl_re_y = (max_bbox['y2']) / cf
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br_le_x = (max_bbox['x3'] / cf )
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br_le_y = (max_bbox['y3'] / cf )
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# Get the distance between top left right edge and top right left edge
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top_bar_reg_fraction = 1 # Set to 1 to prevent division by zero
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left_bar_reg_fraction = 1 # Set to 1 to prevent division by zero
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top_bar_length = tr_le_x - tl_re_x
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if number_of_objects > 1:
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top_bar_reg_fraction = top_bar_length / (number_of_objects - 1)
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left_bar_length = (bl_re_y - (my_reg_object_height)) - (tl_re_y + (my_reg_object_height))
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if number_of_objects > 1:
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left_bar_reg_fraction = left_bar_length / (number_of_objects - 1)
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my_circle_radius = self.options.tick_circle_radius / cf
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my_circle = etree.SubElement(parent, inkex.addNS('circle', 'svg'))
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# my_circle.attrib['cx'] = str(tl_re_x + my_circle_radius)
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my_circle.attrib['cx'] = str(tl_re_x + (top_bar_reg_fraction * object_count))
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my_circle.attrib['cy'] = str(tl_re_y)
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my_circle.attrib['r'] = str(my_circle_radius / cf)
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my_circle.style['stroke'] = tick_color
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if self.options.tick_color_random_checkbox == 'true':
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my_circle.style['stroke'] = random_rgb(self)
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my_circle.style['stroke-width'] = '0.2'
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my_circle.style['fill'] = 'none'
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if self.options.tick_top_checkbox == 'true':
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object_id = my_object.get_id()
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circle_top = my_circle.duplicate()
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circle_top.attrib['id'] = str(object_id) + '_tick_circle_top_' + str(object_count + 1)
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tick_dict['tick_top'] = circle_top
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tick_label_top = self.svg.getElementById('tick_label_temp' + str(object_count + 1)).duplicate()
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tick_label_top.attrib['x'] = circle_top.attrib['cx']
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tick_label_top.attrib['y'] = circle_top.attrib['cy']
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tick_label_top.attrib['id'] = str(object_id) + '_tick_label_top_' + str(object_count + 1)
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tick_dict['tick_label_top'] = tick_label_top
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if self.options.tick_left_checkbox == 'true':
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circle_left = my_circle.duplicate()
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circle_left.attrib['cx'] = str(bl_re_x)
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circle_left.attrib['cy'] = str(tl_re_y + my_reg_object_height + (left_bar_reg_fraction * object_count))
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circle_left.attrib['id'] = str(object_id) + '_tick_circle_left_' + str(object_count + 1)
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tick_dict['tick_left'] = circle_left
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tick_label_left = self.svg.getElementById('tick_label_temp' + str(object_count + 1)).duplicate()
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tick_label_left.attrib['x'] = circle_left.attrib['cx']
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tick_label_left.attrib['y'] = circle_left.attrib['cy']
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tick_label_left.attrib['id'] = str(object_id) + '_tick_label_left_' + str(object_count + 1)
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tick_dict['tick_label_left'] = tick_label_left
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if self.options.tick_bottom_checkbox == 'true':
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circle_bottom = my_circle.duplicate()
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circle_bottom.attrib['cx'] = str(tl_re_x + (top_bar_reg_fraction * object_count))
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circle_bottom.attrib['cy'] = str(bl_re_y)
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circle_bottom.attrib['id'] = str(object_id) + '_tick_circle_bottom_' + str(object_count + 1)
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tick_dict['tick_bottom'] = circle_bottom
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tick_label_bottom = self.svg.getElementById('tick_label_temp' + str(object_count + 1)).duplicate()
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tick_label_bottom.attrib['x'] = circle_bottom.attrib['cx']
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tick_label_bottom.attrib['y'] = circle_bottom.attrib['cy']
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tick_label_bottom.attrib['id'] = str(object_id) + '_tick_label_bottom_' + str(object_count + 1)
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tick_dict['tick_label_bottom'] = tick_label_bottom
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if self.options.tick_right_checkbox == 'true':
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circle_right = my_circle.duplicate()
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circle_right.attrib['cx'] = str(br_le_x)
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circle_right.attrib['cy'] = str(br_le_y - my_reg_object_height - (left_bar_reg_fraction * object_count))
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circle_right.attrib['id'] = str(object_id) + '_tick_circle_right_' + str(object_count + 1)
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tick_dict['tick_right'] = circle_right
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tick_label_right = self.svg.getElementById('tick_label_temp' + str(object_count + 1)).duplicate()
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tick_label_right.attrib['x'] = circle_right.attrib['cx']
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tick_label_right.attrib['y'] = circle_right.attrib['cy']
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tick_label_right.attrib['id'] = str(object_id) + '_tick_label_right_' + str(object_count + 1)
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tick_dict['tick_label_right'] = tick_label_right
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my_circle.delete()
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return tick_dict
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def get_max_bbox(self, all_bbox):
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my_objects = self.svg.selected.rendering_order()
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reg_mark_x_shift = self.options.reg_mark_x_shift
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reg_mark_y_shift = self.options.reg_mark_y_shift
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# Find extent of bounding box for combined selection
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bbox_list_x = []
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bbox_list_y = []
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for my_object in my_objects:
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my_object_id = my_object.get_id()
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if my_object_id == '':
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continue
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# bbox_list_x.append(all_bbox[my_object_id]['x1']) + (reg_mark_x_shift * -1)
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# bbox_list_x.append(all_bbox[my_object_id]['x4']) + (reg_mark_x_shift)
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# bbox_list_y.append(all_bbox[my_object_id]['y1']) + (reg_mark_y_shift * -1)
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# bbox_list_y.append(all_bbox[my_object_id]['y2']) + (reg_mark_y_shift)
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bbox_list_x.append(all_bbox[my_object_id]['x1'] + (reg_mark_x_shift * -1))
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bbox_list_x.append(all_bbox[my_object_id]['x4'] + (reg_mark_x_shift))
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bbox_list_y.append(all_bbox[my_object_id]['y1'] + (reg_mark_y_shift * -1))
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bbox_list_y.append(all_bbox[my_object_id]['y2'] + (reg_mark_y_shift))
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bboxes_min_x = min(bbox_list_x)
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bboxes_max_x = max(bbox_list_x)
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bboxes_min_y = min(bbox_list_y)
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bboxes_max_y = max(bbox_list_y)
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bboxes = {'x1': bboxes_min_x, 'y1': bboxes_min_y, 'x2': bboxes_min_x, 'y2': bboxes_max_y, 'x3': bboxes_max_x,
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'y3': bboxes_max_y, 'x4': bboxes_max_x, 'y4': bboxes_min_y}
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return bboxes
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# Create a group or layer to contain each object and marks
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def group_layer_loop(self, all_bbox, max_bbox, my_reg_object, cf):
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my_objects = self.svg.selected.rendering_order()
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number_of_objects = len(my_objects)
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object_count = 0
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for my_object in my_objects:
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my_object_id = my_object.get_id()
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master_group = create_new_group(self, my_object_id + '_group', 'group')
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tick_group = create_new_group(self, my_object_id + '_ticks', 'group')
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tick_labels_group = create_new_group(self, my_object_id + '_tick_labels', 'group')
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new_layer = create_new_group(self, my_object_id + '_layer', 'layer')
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|
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# Create corner reg marks
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reg_mark_group = reg_mark_to_corners(self, all_bbox, max_bbox, my_reg_object, my_object, cf, master_group)
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|
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master_group.append(reg_mark_group)
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|
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# Create ticks
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tick_dict = draw_ticks(self, all_bbox, my_reg_object, max_bbox, object_count, number_of_objects, my_object, cf)
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|
|
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if 'tick_top' in tick_dict:
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tick_group.append(tick_dict['tick_top'])
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if 'tick_left' in tick_dict:
|
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tick_group.append(tick_dict['tick_left'])
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if 'tick_bottom' in tick_dict:
|
|
tick_group.append(tick_dict['tick_bottom'])
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|
if 'tick_right' in tick_dict:
|
|
tick_group.append(tick_dict['tick_right'])
|
|
|
|
if 'tick_label_top' in tick_dict:
|
|
tick_labels_group.append(tick_dict['tick_label_top'])
|
|
if 'tick_label_left' in tick_dict:
|
|
tick_labels_group.append(tick_dict['tick_label_left'])
|
|
if 'tick_label_bottom' in tick_dict:
|
|
tick_labels_group.append(tick_dict['tick_label_bottom'])
|
|
if 'tick_label_right' in tick_dict:
|
|
tick_labels_group.append(tick_dict['tick_label_right'])
|
|
|
|
# Add object to group
|
|
master_group.append(tick_labels_group)
|
|
master_group.append(tick_group)
|
|
|
|
if self.options.correct_layer_transform_checkbox == 'true':
|
|
my_object_composed_transform = my_object.composed_transform()
|
|
master_group.append(my_object)
|
|
my_object.transform = my_object_composed_transform
|
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else:
|
|
master_group.append(my_object)
|
|
|
|
# Add master group to layer for that object
|
|
new_layer.append(master_group)
|
|
|
|
object_count += 1
|
|
|
|
# Remove temp text labels and reg object
|
|
my_temp_labels = self.svg.xpath("//*[contains(@id, 'tick_label_temp')]")
|
|
for item in my_temp_labels:
|
|
item.delete()
|
|
my_reg_object.delete()
|
|
|
|
class SimpleRegistration2(inkex.EffectExtension):
|
|
|
|
def add_arguments(self, pars):
|
|
|
|
pars.add_argument("--simple_registration_notebook", default=0)
|
|
pars.add_argument("--color_picker_reg_object", type=inkex.colors.Color, default=0)
|
|
pars.add_argument("--reg_mark_type", default='crosshair_path')
|
|
pars.add_argument("--reg_mark_scale", type=float, default=1)
|
|
pars.add_argument("--reg_mark_x_shift", type=float, default=10)
|
|
pars.add_argument("--reg_mark_y_shift", type=float, default=10)
|
|
pars.add_argument("--correct_layer_transform_checkbox")
|
|
pars.add_argument("--color_picker_tick", type=inkex.colors.Color, default=0)
|
|
pars.add_argument("--tick_color_random_checkbox", type=str)
|
|
pars.add_argument("--tick_text_labels_checkbox", type=str)
|
|
pars.add_argument("--tick_text_label_font_size", type=float, default=0)
|
|
pars.add_argument("--tick_type", default='chevron_path')
|
|
pars.add_argument("--tick_circle_radius", type=float, default=5)
|
|
pars.add_argument("--tick_top_checkbox")
|
|
pars.add_argument("--tick_left_checkbox")
|
|
pars.add_argument("--tick_bottom_checkbox")
|
|
pars.add_argument("--tick_right_checkbox")
|
|
|
|
def effect(self):
|
|
# Exit if nothing is selected
|
|
if len(self.svg.selected) < 1:
|
|
return
|
|
|
|
# Get document units, and conversion factor from pixels.
|
|
found_units = self.svg.unit
|
|
# Unit conversion factor cf
|
|
cf = unit_conversions[found_units]
|
|
|
|
# Add mark objects before command line --query-all
|
|
# This returns all bounding boxes taking stroke into account
|
|
# Also works for text bounding box, which is not possible to obtain from extension system
|
|
|
|
my_reg_object = add_reg_object(self, self.options.reg_mark_type)
|
|
# my_side_object = add_side_object(self, self.options.tick_type)
|
|
|
|
if self.options.tick_text_labels_checkbox == 'true':
|
|
my_labels = add_tick_labels(self)
|
|
|
|
# Get bounding boxes for all elements
|
|
all_bbox = query_all_bbox(self)
|
|
# Get max bbox, taking into account user x and y shift
|
|
max_bbox = get_max_bbox(self, all_bbox)
|
|
|
|
# inkex.errormsg(max_bbox)
|
|
group_layer_loop(self, all_bbox, max_bbox, my_reg_object, cf)
|
|
|
|
if __name__ == '__main__':
|
|
SimpleRegistration2().run()
|