kopia lustrzana https://github.com/inkstitch/inkstitch
944 wiersze
37 KiB
Python
944 wiersze
37 KiB
Python
# Authors: see git history
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#
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# Copyright (c) 2010 Authors
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# Licensed under the GNU GPL version 3.0 or later. See the file LICENSE for details.
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import logging
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import math
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import re
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import sys
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import traceback
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import numpy as np
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from inkex import Transform
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from shapely import geometry as shgeo
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from shapely.errors import TopologicalError
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from shapely.validation import explain_validity, make_valid
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from .. import tiles
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from ..i18n import _
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from ..marker import get_marker_elements
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from ..stitch_plan import StitchGroup
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from ..stitches import (auto_fill, circular_fill, contour_fill, guided_fill,
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legacy_fill)
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from ..stitches.meander_fill import meander_fill
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from ..svg import PIXELS_PER_MM, get_node_transform
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from ..svg.clip import get_clip_path
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from ..svg.tags import INKSCAPE_LABEL
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from ..utils import cache, version
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from ..utils.param import ParamOption
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from ..utils.threading import ExitThread
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from .element import EmbroideryElement, param
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from .validation import ValidationError, ValidationWarning
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class SmallShapeWarning(ValidationWarning):
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name = _("Small Fill")
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description = _("This fill object is so small that it would probably look better as running stitch or satin column. "
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"For very small shapes, fill stitch is not possible, and Ink/Stitch will use running stitch around "
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"the outline instead.")
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class ExpandWarning(ValidationWarning):
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name = _("Expand")
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description = _("The expand parameter for this fill object cannot be applied. "
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"Ink/Stitch will ignore it and will use original size instead.")
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class UnderlayInsetWarning(ValidationWarning):
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name = _("Inset")
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description = _("The underlay inset parameter for this fill object cannot be applied. "
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"Ink/Stitch will ignore it and will use the original size instead.")
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class MissingGuideLineWarning(ValidationWarning):
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name = _("Missing Guideline")
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description = _('This object is set to "Guided Fill", but has no guide line.')
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steps_to_solve = [
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_('* Create a stroke object'),
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_('* Select this object and run Extensions > Ink/Stitch > Edit > Selection to guide line')
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]
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class DisjointGuideLineWarning(ValidationWarning):
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name = _("Disjointed Guide Line")
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description = _("The guide line of this object isn't within the object borders. "
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"The guide line works best, if it is within the target element.")
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steps_to_solve = [
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_('* Move the guide line into the element')
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]
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class MultipleGuideLineWarning(ValidationWarning):
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name = _("Multiple Guide Lines")
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description = _("This object has multiple guide lines, but only the first one will be used.")
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steps_to_solve = [
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_("* Remove all guide lines, except for one.")
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]
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class UnconnectedWarning(ValidationWarning):
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name = _("Unconnected")
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description = _("Fill: This object is made up of unconnected shapes. "
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"Ink/Stitch doesn't know what order to stitch them in. Please break this "
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"object up into separate shapes.")
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steps_to_solve = [
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_('* Extensions > Ink/Stitch > Fill Tools > Break Apart Fill Objects'),
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]
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class BorderCrossWarning(ValidationWarning):
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name = _("Border crosses itself")
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description = _("Fill: The border crosses over itself. This may lead into unconnected shapes. "
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"Please break this object into separate shapes to indicate in which order it should be stitched in.")
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steps_to_solve = [
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_('* Extensions > Ink/Stitch > Fill Tools > Break Apart Fill Objects')
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]
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class InvalidShapeError(ValidationError):
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name = _("This shape is invalid")
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description = _('Fill: This shape cannot be stitched out. Please try to repair it with the "Break Apart Fill Objects" extension.')
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steps_to_solve = [
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_('* Extensions > Ink/Stitch > Fill Tools > Break Apart Fill Objects')
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]
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class FillStitch(EmbroideryElement):
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element_name = _("FillStitch")
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@property
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@param('auto_fill', _('Automatically routed fill stitching'), type='toggle', default=True, sort_index=1)
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def auto_fill(self):
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return self.get_boolean_param('auto_fill', True)
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_fill_methods = [ParamOption('auto_fill', _("Auto Fill")),
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ParamOption('contour_fill', _("Contour Fill")),
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ParamOption('guided_fill', _("Guided Fill")),
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ParamOption('meander_fill', _("Meander Fill")),
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ParamOption('circular_fill', _("Circular Fill")),
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ParamOption('legacy_fill', _("Legacy Fill"))]
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@property
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@param('fill_method',
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_('Fill method'),
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type='combo',
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default=0,
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options=_fill_methods,
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sort_index=2)
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def fill_method(self):
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return self.get_param('fill_method', 'auto_fill')
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@property
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@param('guided_fill_strategy', _('Guided Fill Strategy'), type='dropdown', default=0,
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options=[_("Copy"), _("Parallel Offset")], select_items=[('fill_method', 'guided_fill')], sort_index=10,
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tooltip=_('Copy (the default) will fill the shape with shifted copies of the line. '
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'Parallel offset will ensure that each line is always a consistent distance from its neighbor. '
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'Sharp corners may be introduced.'))
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def guided_fill_strategy(self):
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return self.get_int_param('guided_fill_strategy', 0)
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@property
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@param('contour_strategy', _('Contour Fill Strategy'), type='dropdown', default=0,
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options=[_("Inner to Outer"), _("Single spiral"), _("Double spiral")], select_items=[('fill_method', 'contour_fill')], sort_index=10)
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def contour_strategy(self):
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return self.get_int_param('contour_strategy', 0)
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@property
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@param('join_style', _('Join Style'), type='dropdown', default=0,
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options=[_("Round"), _("Mitered"), _("Beveled")], select_items=[('fill_method', 'contour_fill')], sort_index=11)
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def join_style(self):
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return self.get_int_param('join_style', 0)
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@property
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@param('avoid_self_crossing',
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_('Avoid self-crossing'),
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type='boolean',
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default=False,
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select_items=[('fill_method', 'contour_fill')],
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sort_index=12)
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def avoid_self_crossing(self):
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return self.get_boolean_param('avoid_self_crossing', False)
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@property
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@param('clockwise', _('Clockwise'), type='boolean', default=True, select_items=[('fill_method', 'contour_fill')], sort_index=13)
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def clockwise(self):
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return self.get_boolean_param('clockwise', True)
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@property
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@param('meander_pattern', _('Meander Pattern'), type='combo', default=0,
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options=sorted(tiles.all_tiles()), select_items=[('fill_method', 'meander_fill')], sort_index=10)
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def meander_pattern(self):
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return self.get_param('meander_pattern', min(tiles.all_tiles()).id)
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@property
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@param('meander_angle',
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_('Meander pattern angle'),
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type='float', unit="degrees",
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default=0,
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select_items=[('fill_method', 'meander_fill')],
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sort_index=11)
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def meander_angle(self):
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return math.radians(self.get_float_param('meander_angle', 0))
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@property
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@param('meander_scale_percent',
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_('Meander pattern scale'),
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tooltip=_("Percentage to stretch or compress the meander pattern. You can scale horizontally " +
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"and vertically individually by giving two percentages separated by a space. "),
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type='float', unit="%",
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default=100,
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select_items=[('fill_method', 'meander_fill')],
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sort_index=12)
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def meander_scale(self):
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return np.maximum(self.get_split_float_param('meander_scale_percent', (100, 100)), (1, 1)) / 100
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@property
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@param('clip', _('Clip path'),
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tooltip=_('Constrain stitching to the shape. Useful when smoothing and expand are used.'),
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type='boolean',
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default=False,
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select_items=[('fill_method', 'meander_fill')],
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sort_index=13)
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def clip(self):
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return self.get_boolean_param('clip', False)
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@property
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@param('smoothness_mm', _('Smoothness'),
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tooltip=_(
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'Smooth the stitch path. Smoothness limits how far the smoothed stitch path ' +
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'is allowed to deviate from the original path. Try low numbers like 0.2. ' +
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'Hint: a lower running stitch tolerance may be needed too.'
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),
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type='integer',
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unit='mm',
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default=0,
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select_items=[('fill_method', 'contour_fill'), ('fill_method', 'meander_fill')],
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sort_index=14)
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def smoothness(self):
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return self.get_float_param('smoothness_mm', 0)
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@property
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@param('expand_mm',
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_('Expand'),
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tooltip=_('Expand the shape before fill stitching, to compensate for gaps between shapes. Negative values contract instead.'),
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unit='mm',
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type='float',
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default=0,
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sort_index=20,
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select_items=[('fill_method', 'auto_fill'),
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('fill_method', 'guided_fill'),
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('fill_method', 'meander_fill'),
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('fill_method', 'circular_fill')])
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def expand(self):
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return self.get_float_param('expand_mm', 0)
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@property
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@param('angle',
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_('Angle of lines of stitches'),
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tooltip=_('The angle increases in a counter-clockwise direction. 0 is horizontal. Negative angles are allowed.'),
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unit='deg',
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type='float',
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sort_index=21,
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select_items=[('fill_method', 'auto_fill'), ('fill_method', 'legacy_fill')],
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default=0)
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@cache
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def angle(self):
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return math.radians(self.get_float_param('angle', 0))
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@property
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@param('max_stitch_length_mm',
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_('Maximum fill stitch length'),
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tooltip=_(
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'The length of each stitch in a row. Shorter stitch may be used at the start or end of a row.'),
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unit='mm',
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sort_index=22,
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type='float',
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select_items=[('fill_method', 'auto_fill'),
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('fill_method', 'contour_fill'),
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('fill_method', 'guided_fill'),
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('fill_method', 'legacy_fill')],
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default=3.0)
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def max_stitch_length(self):
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return max(self.get_float_param("max_stitch_length_mm", 3.0), 0.1 * PIXELS_PER_MM)
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@property
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@param('row_spacing_mm',
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_('Spacing between rows'),
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tooltip=_('Distance between rows of stitches.'),
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unit='mm',
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sort_index=23,
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type='float',
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select_items=[('fill_method', 'auto_fill'),
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('fill_method', 'contour_fill'),
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('fill_method', 'guided_fill'),
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('fill_method', 'circular_fill'),
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('fill_method', 'legacy_fill')],
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default=0.25)
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def row_spacing(self):
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return max(self.get_float_param("row_spacing_mm", 0.25), 0.1 * PIXELS_PER_MM)
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@property
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@param('end_row_spacing_mm',
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_('End row spacing'),
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tooltip=_('Increases or decreases the row spacing towards the end.'),
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unit='mm',
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sort_index=24,
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type='float',
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select_items=[('fill_method', 'auto_fill'),
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('fill_method', 'circular_fill'),
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('fill_method', 'legacy_fill')],
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default=None)
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def end_row_spacing(self):
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end_row_spacing = self.get_float_param("end_row_spacing_mm")
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return max(end_row_spacing, 0) if end_row_spacing else None
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@property
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@param('staggers',
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_('Stagger rows this many times before repeating'),
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tooltip=_('Length of the cycle by which successive stitch rows are staggered. '
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'Fractional values are allowed and can have less visible diagonals than integer values.'),
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type='int',
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sort_index=25,
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select_items=[('fill_method', 'auto_fill'), ('fill_method', 'guided_fill'), ('fill_method', 'legacy_fill')],
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default=4)
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def staggers(self):
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return self.get_float_param("staggers", 4)
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@property
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@param(
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'skip_last',
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_('Skip last stitch in each row'),
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tooltip=_('The last stitch in each row is quite close to the first stitch in the next row. '
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'Skipping it decreases stitch count and density.'),
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type='boolean',
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sort_index=26,
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select_items=[('fill_method', 'auto_fill'), ('fill_method', 'guided_fill'),
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('fill_method', 'legacy_fill')],
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default=False)
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def skip_last(self):
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return self.get_boolean_param("skip_last", False)
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@property
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@param(
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'flip',
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_('Flip fill (start right-to-left)'),
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tooltip=_('The flip option can help you with routing your stitch path. '
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'When you enable flip, stitching goes from right-to-left instead of left-to-right.'),
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type='boolean',
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sort_index=27,
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select_items=[('fill_method', 'legacy_fill')],
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default=False)
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def flip(self):
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return self.get_boolean_param("flip", False)
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@property
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@param('underpath',
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_('Underpath'),
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tooltip=_('Travel inside the shape when moving from section to section. Underpath '
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'stitches avoid traveling in the direction of the row angle so that they '
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'are not visible. This gives them a jagged appearance.'),
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type='boolean',
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default=True,
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select_items=[('fill_method', 'auto_fill'), ('fill_method', 'guided_fill'), ('fill_method', 'circular_fill')],
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sort_index=30)
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def underpath(self):
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return self.get_boolean_param('underpath', True)
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@property
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@param('running_stitch_length_mm',
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_('Running stitch length'),
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tooltip=_('Length of stitches around the outline of the fill region used when moving from section to section. '
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'Also used for meander and circular fill.'),
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unit='mm',
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type='float',
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default=2.5,
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select_items=[('fill_method', 'auto_fill'),
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('fill_method', 'guided_fill'),
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('fill_method', 'meander_fill'),
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('fill_method', 'circular_fill')],
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sort_index=31)
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def running_stitch_length(self):
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return max(self.get_float_param("running_stitch_length_mm", 2.5), 0.01)
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@property
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@param('running_stitch_tolerance_mm',
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_('Running stitch tolerance'),
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tooltip=_('All stitches must be within this distance of the path. ' +
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'A lower tolerance means stitches will be closer together. ' +
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'A higher tolerance means sharp corners may be rounded.'),
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unit='mm',
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type='float',
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default=0.2,
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sort_index=32)
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def running_stitch_tolerance(self):
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return max(self.get_float_param("running_stitch_tolerance_mm", 0.2), 0.01)
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@property
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@param('repeats',
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_('Repeats'),
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tooltip=_('Defines how many times to run down and back along the path.'),
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type='int',
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default="1",
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select_items=[('fill_method', 'meander_fill'),
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('fill_method', 'circular_fill')],
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sort_index=33)
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def repeats(self):
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return max(1, self.get_int_param("repeats", 1))
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@property
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@param('bean_stitch_repeats',
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_('Bean stitch number of repeats'),
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tooltip=_('Backtrack each stitch this many times. '
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'A value of 1 would triple each stitch (forward, back, forward). '
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'A value of 2 would quintuple each stitch, etc.\n\n'
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'A pattern with various repeats can be created with a list of values separated by a space.'),
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type='str',
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select_items=[('fill_method', 'meander_fill'),
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('fill_method', 'circular_fill')],
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default=0,
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sort_index=34)
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def bean_stitch_repeats(self):
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return self.get_multiple_int_param("bean_stitch_repeats", "0")
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@property
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def color(self):
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# SVG spec says the default fill is black
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return self.get_style("fill", "#000000")
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@property
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@param('fill_underlay', _('Underlay'), type='toggle', group=_('Fill Underlay'), default=True)
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def fill_underlay(self):
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return self.get_boolean_param("fill_underlay", default=True)
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@property
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@param('fill_underlay_angle',
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_('Fill angle'),
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tooltip=_('Default: fill angle + 90 deg. Insert a list for multiple layers separated by a space.'),
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unit='deg',
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group=_('Fill Underlay'),
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type='float')
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@cache
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def fill_underlay_angle(self):
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underlay_angles = self.get_param('fill_underlay_angle', None)
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default_value = [self.angle + math.pi / 2.0]
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if underlay_angles is not None:
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underlay_angles = underlay_angles.strip().split(' ')
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# remove comma separator for backward compatibility
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underlay_angles = [angle[:-1] if angle.endswith(',') else angle for angle in underlay_angles]
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try:
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underlay_angles = [math.radians(
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float(angle)) for angle in underlay_angles]
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except (TypeError, ValueError):
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return default_value
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else:
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underlay_angles = default_value
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return underlay_angles
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@property
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@param('fill_underlay_row_spacing_mm',
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_('Row spacing'),
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tooltip=_('default: 3x fill row spacing'),
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unit='mm',
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group=_('Fill Underlay'),
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type='float')
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@cache
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def fill_underlay_row_spacing(self):
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return self.get_float_param("fill_underlay_row_spacing_mm") or self.row_spacing * 3
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@property
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@param('fill_underlay_max_stitch_length_mm',
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_('Max stitch length'),
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tooltip=_('default: equal to fill max stitch length'),
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unit='mm',
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group=_('Fill Underlay'), type='float')
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@cache
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def fill_underlay_max_stitch_length(self):
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return self.get_float_param("fill_underlay_max_stitch_length_mm") or self.max_stitch_length
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@property
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@param('fill_underlay_inset_mm',
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_('Inset'),
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tooltip=_('Shrink the shape before doing underlay, to prevent underlay from showing around the outside of the fill.'),
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unit='mm',
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group=_('Fill Underlay'),
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type='float',
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default=0)
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def fill_underlay_inset(self):
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return self.get_float_param('fill_underlay_inset_mm', 0)
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@property
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@param(
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'fill_underlay_skip_last',
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_('Skip last stitch in each row'),
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tooltip=_('The last stitch in each row is quite close to the first stitch in the next row. '
|
|
'Skipping it decreases stitch count and density.'),
|
|
group=_('Fill Underlay'),
|
|
type='boolean',
|
|
default=False)
|
|
def fill_underlay_skip_last(self):
|
|
return self.get_boolean_param("fill_underlay_skip_last", False)
|
|
|
|
@property
|
|
@param(
|
|
'underlay_underpath',
|
|
_('Underpath'),
|
|
tooltip=_('Travel inside the shape when moving from section to section. Underpath '
|
|
'stitches avoid traveling in the direction of the row angle so that they '
|
|
'are not visible. This gives them a jagged appearance.'),
|
|
group=_('Fill Underlay'),
|
|
type='boolean',
|
|
default=True)
|
|
def underlay_underpath(self):
|
|
return self.get_boolean_param('underlay_underpath', True)
|
|
|
|
@property
|
|
@param('random_seed',
|
|
_('Random seed'),
|
|
tooltip=_('Use a specific seed for randomized attributes. Uses the element ID if empty.'),
|
|
select_items=[('fill_method', 'meander_fill')],
|
|
type='random_seed',
|
|
default='',
|
|
sort_index=100)
|
|
@cache
|
|
def random_seed(self) -> str:
|
|
seed = self.get_param('random_seed', '')
|
|
if not seed:
|
|
seed = self.node.get_id() or ''
|
|
# TODO(#1696): When inplementing grouped clones, join this with the IDs of any shadow roots,
|
|
# letting each instance without a specified seed get a different default.
|
|
return seed
|
|
|
|
@property
|
|
@cache
|
|
def paths(self):
|
|
paths = self.flatten(self.parse_path())
|
|
# ensure path length
|
|
for i, path in enumerate(paths):
|
|
if len(path) < 3:
|
|
paths[i] = [(path[0][0], path[0][1]), (path[0][0] + 1.0, path[0][1]), (path[0][0], path[0][1] + 1.0)]
|
|
return paths
|
|
|
|
@property
|
|
@cache
|
|
def original_shape(self):
|
|
# shapely's idea of "holes" are to subtract everything in the second set
|
|
# from the first. So let's at least make sure the "first" thing is the
|
|
# biggest path.
|
|
paths = self.paths
|
|
paths.sort(key=lambda point_list: shgeo.Polygon(point_list).area, reverse=True)
|
|
# Very small holes will cause a shape to be rendered as an outline only
|
|
# they are too small to be rendered and only confuse the auto_fill algorithm.
|
|
# So let's ignore them
|
|
if shgeo.Polygon(paths[0]).area > 5 and shgeo.Polygon(paths[-1]).area < 5:
|
|
paths = [path for path in paths if shgeo.Polygon(path).area > 3]
|
|
|
|
return shgeo.MultiPolygon([(paths[0], paths[1:])])
|
|
|
|
@property
|
|
@cache
|
|
def shape(self):
|
|
shape = self._get_clipped_path()
|
|
|
|
if self.shape_is_valid(shape):
|
|
return shape
|
|
|
|
# Repair not valid shapes
|
|
logger = logging.getLogger('shapely.geos')
|
|
level = logger.level
|
|
logger.setLevel(logging.CRITICAL)
|
|
|
|
valid_shape = make_valid(shape)
|
|
|
|
logger.setLevel(level)
|
|
|
|
if isinstance(valid_shape, shgeo.Polygon):
|
|
return shgeo.MultiPolygon([valid_shape])
|
|
if isinstance(valid_shape, shgeo.LineString):
|
|
return shgeo.MultiPolygon([])
|
|
if shape.area == 0:
|
|
return shgeo.MultiPolygon([])
|
|
|
|
polygons = []
|
|
for polygon in valid_shape.geoms:
|
|
if isinstance(polygon, shgeo.Polygon) and polygon.area > 5:
|
|
polygons.append(polygon)
|
|
if isinstance(polygon, shgeo.MultiPolygon):
|
|
polygons.extend(polygon.geoms)
|
|
return shgeo.MultiPolygon(polygons)
|
|
|
|
def _get_clipped_path(self):
|
|
if self.node.clip is None:
|
|
return self.original_shape
|
|
|
|
clip_path = get_clip_path(self.node)
|
|
try:
|
|
intersection = clip_path.intersection(self.original_shape)
|
|
except TopologicalError:
|
|
return self.original_shape
|
|
|
|
if isinstance(intersection, shgeo.Polygon):
|
|
return shgeo.MultiPolygon([intersection])
|
|
|
|
if isinstance(intersection, shgeo.MultiPolygon):
|
|
return intersection
|
|
|
|
polygons = []
|
|
if isinstance(intersection, shgeo.GeometryCollection):
|
|
for geom in intersection.geoms:
|
|
if isinstance(geom, shgeo.Polygon):
|
|
polygons.append(geom)
|
|
return shgeo.MultiPolygon([polygons])
|
|
|
|
def shape_is_valid(self, shape):
|
|
# Shapely will log to stdout to complain about the shape unless we make
|
|
# it shut up.
|
|
logger = logging.getLogger('shapely.geos')
|
|
level = logger.level
|
|
logger.setLevel(logging.CRITICAL)
|
|
|
|
valid = shape.is_valid
|
|
|
|
logger.setLevel(level)
|
|
|
|
return valid
|
|
|
|
def validation_errors(self):
|
|
if not self.shape_is_valid(self.shape):
|
|
why = explain_validity(self.shape)
|
|
message, x, y = re.match(r"(?P<message>.+)\[(?P<x>.+)\s(?P<y>.+)\]", why).groups()
|
|
yield InvalidShapeError((x, y))
|
|
|
|
def validation_warnings(self): # noqa: C901
|
|
if not self.shape_is_valid(self.original_shape):
|
|
why = explain_validity(self.original_shape)
|
|
message, x, y = re.match(r"(?P<message>.+)\[(?P<x>.+)\s(?P<y>.+)\]", why).groups()
|
|
if "Hole lies outside shell" in message:
|
|
yield UnconnectedWarning((x, y))
|
|
else:
|
|
yield BorderCrossWarning((x, y))
|
|
|
|
for shape in self.shape.geoms:
|
|
if self.shape.area < 20:
|
|
label = self.node.get(INKSCAPE_LABEL) or self.node.get("id")
|
|
yield SmallShapeWarning(shape.centroid, label)
|
|
|
|
if self.shrink_or_grow_shape(shape, self.expand, True).is_empty:
|
|
yield ExpandWarning(shape.centroid)
|
|
|
|
if self.shrink_or_grow_shape(shape, -self.fill_underlay_inset, True).is_empty:
|
|
yield UnderlayInsetWarning(shape.centroid)
|
|
|
|
# guided fill warnings
|
|
if self.fill_method == 'guided_fill':
|
|
guide_lines = self._get_guide_lines(True)
|
|
if not guide_lines or guide_lines[0].is_empty:
|
|
yield MissingGuideLineWarning(self.shape.centroid)
|
|
elif len(guide_lines) > 1:
|
|
yield MultipleGuideLineWarning(self.shape.centroid)
|
|
elif guide_lines[0].disjoint(self.shape):
|
|
yield DisjointGuideLineWarning(self.shape.centroid)
|
|
return None
|
|
|
|
for warning in super(FillStitch, self).validation_warnings():
|
|
yield warning
|
|
|
|
@property
|
|
@cache
|
|
def outline(self):
|
|
return self.shape.boundary[0]
|
|
|
|
@property
|
|
@cache
|
|
def outline_length(self):
|
|
return self.outline.length
|
|
|
|
def shrink_or_grow_shape(self, shape, amount, validate=False):
|
|
new_shape = shape
|
|
if amount:
|
|
new_shape = shape.buffer(amount)
|
|
# changing the size can empty the shape
|
|
# in this case we want to use the original shape rather than returning an error
|
|
if (new_shape.is_empty and not validate):
|
|
new_shape = shape
|
|
|
|
if not isinstance(new_shape, shgeo.MultiPolygon):
|
|
new_shape = shgeo.MultiPolygon([new_shape])
|
|
|
|
return new_shape
|
|
|
|
def underlay_shape(self, shape):
|
|
return self.shrink_or_grow_shape(shape, -self.fill_underlay_inset)
|
|
|
|
def fill_shape(self, shape):
|
|
return self.shrink_or_grow_shape(shape, self.expand)
|
|
|
|
def get_starting_point(self, previous_stitch_group):
|
|
# If there is a "fill_start" Command, then use that; otherwise pick
|
|
# the point closest to the end of the last patch.
|
|
|
|
if self.get_command('fill_start'):
|
|
return self.get_command('fill_start').target_point
|
|
elif previous_stitch_group:
|
|
return previous_stitch_group.stitches[-1]
|
|
else:
|
|
return None
|
|
|
|
def uses_previous_stitch(self):
|
|
if self.get_command('fill_start'):
|
|
return False
|
|
else:
|
|
return True
|
|
|
|
def get_ending_point(self):
|
|
if self.get_command('fill_end'):
|
|
return self.get_command('fill_end').target_point
|
|
else:
|
|
return None
|
|
|
|
def to_stitch_groups(self, previous_stitch_group): # noqa: C901
|
|
# backwards compatibility: legacy_fill used to be inkstitch:auto_fill == False
|
|
if not self.auto_fill or self.fill_method == 'legacy_fill':
|
|
return self.do_legacy_fill()
|
|
else:
|
|
stitch_groups = []
|
|
end = self.get_ending_point()
|
|
|
|
for shape in self.shape.geoms:
|
|
start = self.get_starting_point(previous_stitch_group)
|
|
try:
|
|
if self.fill_underlay:
|
|
underlay_shapes = self.underlay_shape(shape)
|
|
for underlay_shape in underlay_shapes.geoms:
|
|
underlay_stitch_groups, start = self.do_underlay(underlay_shape, start)
|
|
stitch_groups.extend(underlay_stitch_groups)
|
|
|
|
fill_shapes = self.fill_shape(shape)
|
|
for i, fill_shape in enumerate(fill_shapes.geoms):
|
|
if self.fill_method == 'contour_fill':
|
|
stitch_groups.extend(self.do_contour_fill(fill_shape, previous_stitch_group, start))
|
|
elif self.fill_method == 'guided_fill':
|
|
stitch_groups.extend(self.do_guided_fill(fill_shape, previous_stitch_group, start, end))
|
|
elif self.fill_method == 'meander_fill':
|
|
stitch_groups.extend(self.do_meander_fill(fill_shape, shape, i, start, end))
|
|
elif self.fill_method == 'circular_fill':
|
|
stitch_groups.extend(self.do_circular_fill(fill_shape, previous_stitch_group, start, end))
|
|
else:
|
|
# auto_fill
|
|
stitch_groups.extend(self.do_auto_fill(fill_shape, previous_stitch_group, start, end))
|
|
except ExitThread:
|
|
raise
|
|
except Exception:
|
|
self.fatal_fill_error()
|
|
previous_stitch_group = stitch_groups[-1]
|
|
|
|
return stitch_groups
|
|
|
|
def do_legacy_fill(self):
|
|
stitch_lists = legacy_fill(self.shape,
|
|
self.angle,
|
|
self.row_spacing,
|
|
self.end_row_spacing,
|
|
self.max_stitch_length,
|
|
self.flip,
|
|
self.staggers,
|
|
self.skip_last)
|
|
return [StitchGroup(stitches=stitch_list,
|
|
color=self.color,
|
|
force_lock_stitches=self.force_lock_stitches,
|
|
lock_stitches=self.lock_stitches) for stitch_list in stitch_lists]
|
|
|
|
def do_underlay(self, shape, starting_point):
|
|
stitch_groups = []
|
|
for i in range(len(self.fill_underlay_angle)):
|
|
underlay = StitchGroup(
|
|
color=self.color,
|
|
tags=("auto_fill", "auto_fill_underlay"),
|
|
lock_stitches=self.lock_stitches,
|
|
stitches=auto_fill(
|
|
shape,
|
|
self.fill_underlay_angle[i],
|
|
self.fill_underlay_row_spacing,
|
|
self.fill_underlay_row_spacing,
|
|
self.fill_underlay_max_stitch_length,
|
|
self.running_stitch_length,
|
|
self.running_stitch_tolerance,
|
|
self.staggers,
|
|
self.fill_underlay_skip_last,
|
|
starting_point,
|
|
underpath=self.underlay_underpath))
|
|
stitch_groups.append(underlay)
|
|
|
|
starting_point = underlay.stitches[-1]
|
|
return [stitch_groups, starting_point]
|
|
|
|
def do_auto_fill(self, shape, last_patch, starting_point, ending_point):
|
|
stitch_group = StitchGroup(
|
|
color=self.color,
|
|
tags=("auto_fill", "auto_fill_top"),
|
|
force_lock_stitches=self.force_lock_stitches,
|
|
lock_stitches=self.lock_stitches,
|
|
stitches=auto_fill(
|
|
shape,
|
|
self.angle,
|
|
self.row_spacing,
|
|
self.end_row_spacing,
|
|
self.max_stitch_length,
|
|
self.running_stitch_length,
|
|
self.running_stitch_tolerance,
|
|
self.staggers,
|
|
self.skip_last,
|
|
starting_point,
|
|
ending_point,
|
|
self.underpath))
|
|
return [stitch_group]
|
|
|
|
def do_contour_fill(self, polygon, last_patch, starting_point):
|
|
if not starting_point:
|
|
starting_point = (0, 0)
|
|
starting_point = shgeo.Point(starting_point)
|
|
|
|
stitch_groups = []
|
|
tree = contour_fill.offset_polygon(polygon, self.row_spacing, self.join_style + 1, self.clockwise)
|
|
|
|
stitches = []
|
|
if self.contour_strategy == 0:
|
|
stitches = contour_fill.inner_to_outer(
|
|
tree,
|
|
polygon,
|
|
self.row_spacing,
|
|
self.max_stitch_length,
|
|
self.running_stitch_tolerance,
|
|
self.smoothness,
|
|
starting_point,
|
|
self.avoid_self_crossing
|
|
)
|
|
elif self.contour_strategy == 1:
|
|
stitches = contour_fill.single_spiral(
|
|
tree,
|
|
self.max_stitch_length,
|
|
self.running_stitch_tolerance,
|
|
starting_point
|
|
)
|
|
elif self.contour_strategy == 2:
|
|
stitches = contour_fill.double_spiral(
|
|
tree,
|
|
self.max_stitch_length,
|
|
self.running_stitch_tolerance,
|
|
starting_point
|
|
)
|
|
|
|
stitch_group = StitchGroup(
|
|
color=self.color,
|
|
tags=("auto_fill", "auto_fill_top"),
|
|
stitches=stitches,
|
|
force_lock_stitches=self.force_lock_stitches,
|
|
lock_stitches=self.lock_stitches,)
|
|
stitch_groups.append(stitch_group)
|
|
|
|
return stitch_groups
|
|
|
|
def do_guided_fill(self, shape, last_patch, starting_point, ending_point):
|
|
guide_line = self._get_guide_lines()
|
|
|
|
# No guide line: fallback to normal autofill
|
|
if not guide_line:
|
|
return self.do_auto_fill(shape, last_patch, starting_point, ending_point)
|
|
|
|
stitch_group = StitchGroup(
|
|
color=self.color,
|
|
tags=("guided_fill", "auto_fill_top"),
|
|
force_lock_stitches=self.force_lock_stitches,
|
|
lock_stitches=self.lock_stitches,
|
|
stitches=guided_fill(
|
|
shape,
|
|
guide_line.geoms[0],
|
|
self.angle,
|
|
self.row_spacing,
|
|
self.staggers,
|
|
self.max_stitch_length,
|
|
self.running_stitch_length,
|
|
self.running_stitch_tolerance,
|
|
self.skip_last,
|
|
starting_point,
|
|
ending_point,
|
|
self.underpath,
|
|
self.guided_fill_strategy,
|
|
))
|
|
return [stitch_group]
|
|
|
|
def do_meander_fill(self, shape, original_shape, i, starting_point, ending_point):
|
|
stitch_group = StitchGroup(
|
|
color=self.color,
|
|
tags=("meander_fill", "meander_fill_top"),
|
|
stitches=meander_fill(self, shape, original_shape, i, starting_point, ending_point))
|
|
return [stitch_group]
|
|
|
|
@cache
|
|
def _get_guide_lines(self, multiple=False):
|
|
guide_lines = get_marker_elements(self.node, "guide-line", False, True)
|
|
# No or empty guide line
|
|
if not guide_lines or not guide_lines['stroke']:
|
|
return None
|
|
|
|
if multiple:
|
|
return guide_lines['stroke']
|
|
else:
|
|
return guide_lines['stroke'][0]
|
|
|
|
def fatal_fill_error(self):
|
|
if hasattr(sys, 'gettrace') and sys.gettrace():
|
|
# if we're debugging, let the exception bubble up
|
|
raise
|
|
|
|
# for an uncaught exception, give a little more info so that they can create a bug report
|
|
message = ""
|
|
message += _("Error during autofill! This means it is a bug in Ink/Stitch.")
|
|
message += "\n\n"
|
|
# L10N this message is followed by a URL: https://github.com/inkstitch/inkstitch/issues/new
|
|
message += _("If you'd like to help please\n"
|
|
"- copy the entire error message below\n"
|
|
"- save your SVG file and\n"
|
|
"- create a new issue at")
|
|
message += " https://github.com/inkstitch/inkstitch/issues/new\n\n"
|
|
message += _("Include the error description and also (if possible) the svg file.")
|
|
message += '\n\n\n'
|
|
message += version.get_inkstitch_version() + '\n'
|
|
message += traceback.format_exc()
|
|
|
|
self.fatal(message)
|
|
|
|
def do_circular_fill(self, shape, last_patch, starting_point, ending_point):
|
|
# get target position
|
|
command = self.get_command('ripple_target')
|
|
if command:
|
|
pos = [float(command.use.get("x", 0)), float(command.use.get("y", 0))]
|
|
transform = get_node_transform(command.use)
|
|
pos = Transform(transform).apply_to_point(pos)
|
|
target = shgeo.Point(*pos)
|
|
else:
|
|
target = shape.centroid
|
|
stitches = circular_fill(
|
|
shape,
|
|
self.angle,
|
|
self.row_spacing,
|
|
self.end_row_spacing,
|
|
self.staggers,
|
|
self.running_stitch_length,
|
|
self.running_stitch_tolerance,
|
|
self.bean_stitch_repeats,
|
|
self.repeats,
|
|
self.skip_last,
|
|
starting_point,
|
|
ending_point,
|
|
self.underpath,
|
|
target
|
|
)
|
|
|
|
stitch_group = StitchGroup(
|
|
color=self.color,
|
|
tags=("circular_fill", "auto_fill_top"),
|
|
stitches=stitches)
|
|
return [stitch_group]
|