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# Authors: see git history
#
# Copyright (c) 2010 Authors
# Licensed under the GNU GPL version 3.0 or later. See the file LICENSE for details.
from sys import exit
from inkex import errormsg
from ..i18n import _
from ..svg import PIXELS_PER_MM
from .color_block import ColorBlock
from .ties import add_ties
def stitch_groups_to_stitch_plan(stitch_groups, collapse_len=None, min_stitch_len=0.1, disable_ties=False): # noqa: C901
"""Convert a collection of StitchGroups to a StitchPlan.
* applies instructions embedded in the StitchGroup such as trim_after and stop_after
* adds tie-ins and tie-offs
* adds jump-stitches between stitch_group if necessary
"""
if not stitch_groups:
errormsg(_("There is no selected stitchable element. Please run "
"Extensions > Ink/Stitch > Troubleshoot > Troubleshoot objects in case you have expected a stitchout."))
exit(1)
if collapse_len is None:
collapse_len = 3.0
collapse_len = collapse_len * PIXELS_PER_MM
stitch_plan = StitchPlan()
color_block = stitch_plan.new_color_block(color=stitch_groups[0].color)
for stitch_group in stitch_groups:
if not stitch_group.stitches:
continue
if color_block.color != stitch_group.color:
if len(color_block) == 0:
# We just processed a stop, which created a new color block.
# We'll just claim this new block as ours:
color_block.color = stitch_group.color
else:
# end the previous block with a color change
color_block.add_stitch(color_change=True)
# make a new block of our color
color_block = stitch_plan.new_color_block(color=stitch_group.color)
# always start a color with a JUMP to the first stitch position
color_block.add_stitch(stitch_group.stitches[0], jump=True, tie_modus=stitch_group.tie_modus)
else:
if (len(color_block) and
((stitch_group.stitches[0] - color_block.stitches[-1]).length() > collapse_len or
color_block.stitches[-1].force_lock_stitches)):
color_block.add_stitch(stitch_group.stitches[0], jump=True, tie_modus=stitch_group.tie_modus)
color_block.add_stitches(stitches=stitch_group.stitches, tie_modus=stitch_group.tie_modus,
force_lock_stitches=stitch_group.force_lock_stitches, no_ties=stitch_group.stitch_as_is)
if stitch_group.trim_after:
color_block.add_stitch(trim=True)
if stitch_group.stop_after:
color_block.add_stitch(stop=True)
color_block = stitch_plan.new_color_block(color_block.color)
if len(color_block) == 0:
# last block ended in a stop, so now we have an empty block
del stitch_plan.color_blocks[-1]
stitch_plan.filter_duplicate_stitches(min_stitch_len)
if not disable_ties:
stitch_plan.add_ties()
return stitch_plan
class StitchPlan(object):
"""Holds a set of color blocks, each containing stitches."""
def __init__(self):
self.color_blocks = []
def new_color_block(self, *args, **kwargs):
color_block = ColorBlock(*args, **kwargs)
self.color_blocks.append(color_block)
return color_block
def delete_empty_color_blocks(self):
color_blocks = []
for color_block in self.color_blocks:
if len(color_block) > 0:
color_blocks.append(color_block)
self.color_blocks = color_blocks
def add_color_block(self, color_block):
self.color_blocks.append(color_block)
def filter_duplicate_stitches(self, min_stitch_len):
for color_block in self:
color_block.filter_duplicate_stitches(min_stitch_len)
def add_ties(self):
# see ties.py
add_ties(self)
def __iter__(self):
return iter(self.color_blocks)
def __len__(self):
return len(self.color_blocks)
def __repr__(self):
return "StitchPlan(%s)" % ", ".join(repr(cb) for cb in self.color_blocks)
def __json__(self):
return dict(color_blocks=self.color_blocks,
num_stops=self.num_stops,
num_trims=self.num_trims,
num_stitches=self.num_stitches,
bounding_box=self.bounding_box,
estimated_thread=self.estimated_thread
)
@property
def num_colors(self):
"""Number of unique colors in the stitch plan."""
return len({block.color for block in self})
@property
def num_color_blocks(self):
return len(self.color_blocks)
@property
def num_stops(self):
return sum(1 for block in self if block.stop_after)
@property
def num_trims(self):
return sum(block.num_trims for block in self)
@property
def num_stitches(self):
return sum(block.num_stitches for block in self)
@property
def bounding_box(self):
color_block_bounding_boxes = [cb.bounding_box for cb in self]
minx = min(bb[0] for bb in color_block_bounding_boxes)
miny = min(bb[1] for bb in color_block_bounding_boxes)
maxx = max(bb[2] for bb in color_block_bounding_boxes)
maxy = max(bb[3] for bb in color_block_bounding_boxes)
return minx, miny, maxx, maxy
@property
def estimated_thread(self):
thread_meter = sum(block.estimated_thread for block in self) / PIXELS_PER_MM / 1000
return round(thread_meter, 2)
@property
def dimensions(self):
minx, miny, maxx, maxy = self.bounding_box
return (maxx - minx, maxy - miny)
@property
def extents(self):
minx, miny, maxx, maxy = self.bounding_box
return max(-minx, maxx), max(-miny, maxy)
@property
def dimensions_mm(self):
dimensions = self.dimensions
return (dimensions[0] / PIXELS_PER_MM, dimensions[1] / PIXELS_PER_MM)
@property
def last_color_block(self):
if self.color_blocks:
return self.color_blocks[-1]
else:
return None
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