kopia lustrzana https://github.com/inkstitch/inkstitch
185 wiersze
7.2 KiB
Python
185 wiersze
7.2 KiB
Python
from shapely import geometry as shgeo
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from shapely.ops import linemerge, unary_union
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from .auto_fill import (build_fill_stitch_graph,
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build_travel_graph, collapse_sequential_outline_edges, fallback,
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find_stitch_path, graph_is_valid, travel)
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from .running_stitch import running_stitch
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from ..debug import debug
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from ..i18n import _
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from ..stitch_plan import Stitch
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from ..utils.geometry import Point as InkstitchPoint, reverse_line_string
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def guided_fill(shape,
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guideline,
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angle,
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row_spacing,
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max_stitch_length,
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running_stitch_length,
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skip_last,
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starting_point,
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ending_point=None,
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underpath=True):
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try:
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segments = intersect_region_with_grating_guideline(shape, guideline, row_spacing)
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fill_stitch_graph = build_fill_stitch_graph(shape, segments, starting_point, ending_point)
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except ValueError:
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# Small shapes will cause the graph to fail - min() arg is an empty sequence through insert node
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return fallback(shape, running_stitch_length)
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if not graph_is_valid(fill_stitch_graph, shape, max_stitch_length):
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return fallback(shape, running_stitch_length)
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travel_graph = build_travel_graph(fill_stitch_graph, shape, angle, underpath)
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path = find_stitch_path(fill_stitch_graph, travel_graph, starting_point, ending_point)
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result = path_to_stitches(path, travel_graph, fill_stitch_graph, max_stitch_length, running_stitch_length, skip_last)
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return result
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def path_to_stitches(path, travel_graph, fill_stitch_graph, stitch_length, running_stitch_length, skip_last):
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path = collapse_sequential_outline_edges(path)
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stitches = []
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# If the very first stitch is travel, we'll omit it in travel(), so add it here.
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if not path[0].is_segment():
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stitches.append(Stitch(*path[0].nodes[0]))
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for edge in path:
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if edge.is_segment():
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current_edge = fill_stitch_graph[edge[0]][edge[-1]]['segment']
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path_geometry = current_edge['geometry']
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if edge[0] != path_geometry.coords[0]:
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path_geometry = reverse_line_string(path_geometry)
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point_list = [Stitch(*point) for point in path_geometry.coords]
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new_stitches = running_stitch(point_list, stitch_length)
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# need to tag stitches
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if skip_last:
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del new_stitches[-1]
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stitches.extend(new_stitches)
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travel_graph.remove_edges_from(fill_stitch_graph[edge[0]][edge[1]]['segment'].get('underpath_edges', []))
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else:
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stitches.extend(travel(travel_graph, edge[0], edge[1], running_stitch_length, skip_last))
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return stitches
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def extend_line(line, minx, maxx, miny, maxy):
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line = line.simplify(0.01, False)
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upper_left = InkstitchPoint(minx, miny)
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lower_right = InkstitchPoint(maxx, maxy)
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length = (upper_left - lower_right).length()
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point1 = InkstitchPoint(*line.coords[0])
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point2 = InkstitchPoint(*line.coords[1])
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new_starting_point = point1 - (point2 - point1).unit() * length
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point3 = InkstitchPoint(*line.coords[-2])
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point4 = InkstitchPoint(*line.coords[-1])
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new_ending_point = point4 + (point4 - point3).unit() * length
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return shgeo.LineString([new_starting_point.as_tuple()] +
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line.coords[1:-1] + [new_ending_point.as_tuple()])
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def repair_multiple_parallel_offset_curves(multi_line):
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lines = linemerge(multi_line)
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lines = list(lines.geoms)
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max_length = -1
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max_length_idx = -1
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for idx, subline in enumerate(lines):
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if subline.length > max_length:
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max_length = subline.length
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max_length_idx = idx
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# need simplify to avoid doubled points caused by linemerge
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return lines[max_length_idx].simplify(0.01, False)
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def repair_non_simple_lines(line):
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repaired = unary_union(line)
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counter = 0
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# Do several iterations since we might have several concatenated selfcrossings
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while repaired.geom_type != 'LineString' and counter < 4:
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line_segments = []
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for line_seg in repaired.geoms:
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if not line_seg.is_ring:
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line_segments.append(line_seg)
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repaired = unary_union(linemerge(line_segments))
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counter += 1
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if repaired.geom_type != 'LineString':
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raise ValueError(
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_("Guide line (or offset copy) is self crossing!"))
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else:
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return repaired
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def intersect_region_with_grating_guideline(shape, line, row_spacing, flip=False): # noqa: C901
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row_spacing = abs(row_spacing)
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(minx, miny, maxx, maxy) = shape.bounds
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upper_left = InkstitchPoint(minx, miny)
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rows = []
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if line.geom_type != 'LineString' or not line.is_simple:
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line = repair_non_simple_lines(line)
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# extend the line towards the ends to increase probability that all offsetted curves cross the shape
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line = extend_line(line, minx, maxx, miny, maxy)
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line_offsetted = line
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res = line_offsetted.intersection(shape)
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while isinstance(res, (shgeo.GeometryCollection, shgeo.MultiLineString)) or (not res.is_empty and len(res.coords) > 1):
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if isinstance(res, (shgeo.GeometryCollection, shgeo.MultiLineString)):
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runs = [line_string.coords for line_string in res.geoms if (
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not line_string.is_empty and len(line_string.coords) > 1)]
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else:
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runs = [res.coords]
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runs.sort(key=lambda seg: (
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InkstitchPoint(*seg[0]) - upper_left).length())
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if flip:
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runs.reverse()
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runs = [tuple(reversed(run)) for run in runs]
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if row_spacing > 0:
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rows.append(runs)
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else:
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rows.insert(0, runs)
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line_offsetted = line_offsetted.parallel_offset(row_spacing, 'left', 5)
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if line_offsetted.geom_type == 'MultiLineString': # if we got multiple lines take the longest
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line_offsetted = repair_multiple_parallel_offset_curves(line_offsetted)
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if not line_offsetted.is_simple:
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line_offsetted = repair_non_simple_lines(line_offsetted)
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if row_spacing < 0:
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line_offsetted = reverse_line_string(line_offsetted)
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line_offsetted = line_offsetted.simplify(0.01, False)
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res = line_offsetted.intersection(shape)
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if row_spacing > 0 and not isinstance(res, (shgeo.GeometryCollection, shgeo.MultiLineString)):
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if (res.is_empty or len(res.coords) == 1):
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row_spacing = -row_spacing
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line_offsetted = line.parallel_offset(row_spacing, 'left', 5)
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if line_offsetted.geom_type == 'MultiLineString': # if we got multiple lines take the longest
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line_offsetted = repair_multiple_parallel_offset_curves(
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line_offsetted)
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if not line_offsetted.is_simple:
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line_offsetted = repair_non_simple_lines(line_offsetted)
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# using negative row spacing leads as a side effect to reversed offsetted lines - here we undo this
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line_offsetted = reverse_line_string(line_offsetted)
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line_offsetted = line_offsetted.simplify(0.01, False)
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res = line_offsetted.intersection(shape)
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for row in rows:
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yield from row
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