# 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 .stitch import Stitch from ..threads import ThreadColor from ..utils.geometry import Point from ..svg import PIXELS_PER_MM class ColorBlock(object): """Holds a set of stitches, all with the same thread color.""" def __init__(self, color=None, stitches=None): self.color = color self.stitches = stitches or [] def __iter__(self): return iter(self.stitches) def __len__(self): return len(self.stitches) def __repr__(self): return "ColorBlock(%s, %s)" % (self.color, self.stitches) def __getitem__(self, item): return self.stitches[item] def __delitem__(self, item): del self.stitches[item] def __json__(self): return dict(color=self.color, stitches=self.stitches) def has_color(self): return self._color is not None @property def color(self): return self._color @color.setter def color(self, value): if isinstance(value, ThreadColor): self._color = value elif value is None: self._color = None else: self._color = ThreadColor(value) @property def last_stitch(self): if self.stitches: return self.stitches[-1] else: return None @property def num_stitches(self): """Number of stitches in this color block.""" return len(self.stitches) @property def estimated_thread(self): previous_stitch = self.stitches[0] length = 0 for stitch in self.stitches[1:]: length += (stitch - previous_stitch).length() previous_stitch = stitch return length @property def num_trims(self): """Number of trims in this color block.""" return sum(1 for stitch in self if stitch.trim) @property def stop_after(self): if self.last_stitch is not None: return self.last_stitch.stop else: return False @property def trim_after(self): # If there's a STOP, it will be at the end. We still want to return # True. for stitch in reversed(self.stitches): if stitch.stop or stitch.jump: continue elif stitch.trim: return True else: break return False def filter_duplicate_stitches(self, min_stitch_len=0.1): if not self.stitches: return if min_stitch_len is None: min_stitch_len = 0.1 stitches = [self.stitches[0]] for stitch in self.stitches[1:]: if stitches[-1].jump or stitch.stop or stitch.trim or stitch.color_change: # Don't consider jumps, stops, color changes, or trims as candidates for filtering pass else: length = (stitch - stitches[-1]).length() if length <= min_stitch_len * PIXELS_PER_MM: # duplicate stitch, skip this one continue stitches.append(stitch) self.stitches = stitches def add_stitch(self, *args, **kwargs): if not args: # They're adding a command, e.g. `color_block.add_stitch(stop=True)``. # Use the position from the last stitch. if self.last_stitch: args = (self.last_stitch.x, self.last_stitch.y) else: raise ValueError("internal error: can't add a command to an empty stitch block") self.stitches.append(Stitch(*args, **kwargs)) if isinstance(args[0], Stitch): self.stitches.append(Stitch(*args, **kwargs)) elif isinstance(args[0], Point): self.stitches.append(Stitch(args[0].x, args[0].y, *args[1:], **kwargs)) def add_stitches(self, stitches, *args, **kwargs): for stitch in stitches: if isinstance(stitch, (Stitch, Point)): self.add_stitch(stitch, *args, **kwargs) else: self.add_stitch(*stitch, *args, **kwargs) def replace_stitches(self, stitches): self.stitches = stitches @property def bounding_box(self): minx = min(stitch.x for stitch in self) miny = min(stitch.y for stitch in self) maxx = max(stitch.x for stitch in self) maxy = max(stitch.y for stitch in self) return minx, miny, maxx, maxy