inkstitch/lib/tiles.py

import os
from math import ceil, floor

import inkex
import json
import lxml
import networkx as nx
from shapely.geometry import LineString
from shapely.prepared import prep

from .debug import debug
from .i18n import _
from .svg import apply_transforms
from .utils import Point, cache, get_bundled_dir, guess_inkscape_config_path
from .utils.threading import check_stop_flag


class Tile:
    def __init__(self, path):
        self._load_tile(path)

    def _load_tile(self, tile_path):
        self.tile_svg = inkex.load_svg(os.path.join(tile_path, "tile.svg"))
        self._load_metadata(tile_path)
        self.tile = None
        self.width = None
        self.height = None
        self.shift0 = None
        self.shift1 = None

    def __lt__(self, other):
        return self.name < other.name

    def __repr__(self):
        return f"Tile({self.name}, {self.id})"

    __str__ = __repr__

    def _load_metadata(self, tile_path):
        with open(os.path.join(tile_path, "tile.json"), "rb") as tile_json:
            tile_metadata = json.load(tile_json)
            self.name = _(tile_metadata.get('name'))
            self.id = tile_metadata.get('id')

    def _get_name(self, tile_path):
        return os.path.splitext(os.path.basename(tile_path))[0]

    def _load(self):
        self._load_paths(self.tile_svg)
        self._load_dimensions(self.tile_svg)
        self._load_parallelogram(self.tile_svg)

    def _load_paths(self, tile_svg):
        path_elements = tile_svg.findall('.//svg:path', namespaces=inkex.NSS)
        self.tile = self._path_elements_to_line_strings(path_elements)
        # self.center, ignore, ignore = self._get_center_and_dimensions(self.tile)

    def _load_dimensions(self, tile_svg):
        svg_element = tile_svg.getroot()
        self.width = svg_element.viewport_width
        self.height = svg_element.viewport_height

    def _load_parallelogram(self, tile_svg):
        parallelogram_elements = tile_svg.findall(".//svg:*[@class='para']", namespaces=inkex.NSS)
        if parallelogram_elements:
            path_element = parallelogram_elements[0]
            path = apply_transforms(path_element.get_path(), path_element)
            subpaths = path.to_superpath()
            subpath = subpaths[0]
            points = [Point.from_tuple(p[1]) for p in subpath]
            self.shift0 = points[1] - points[0]
            self.shift1 = points[2] - points[1]
        else:
            self.shift0 = Point(self.width, 0)
            self.shift1 = Point(0, self.height)

    def _path_elements_to_line_strings(self, path_elements):
        lines = []
        for path_element in path_elements:
            path = apply_transforms(path_element.get_path(), path_element)
            for subpath in path.to_superpath():
                # We only care about the endpoints of each subpath.  They're
                # supposed to be simple line segments.
                lines.append([Point.from_tuple(subpath[0][1]), Point.from_tuple(subpath[-1][1])])

        return lines

    def _get_center_and_dimensions(self, shape):
        min_x, min_y, max_x, max_y = shape.bounds
        center = Point((max_x + min_x) / 2, (max_y + min_y) / 2)
        width = max_x - min_x
        height = max_y - min_y

        return center, width, height

    def _translate_tile(self, shift):
        translated_tile = []

        for start, end in self.tile:
            start += shift
            end += shift
            translated_tile.append((start.as_int().as_tuple(), end.as_int().as_tuple()))

        return translated_tile

    def _scale(self, x_scale, y_scale):
        self.shift0 = self.shift0.scale(x_scale, y_scale)
        self.shift1 = self.shift1.scale(x_scale, y_scale)

        scaled_tile = []
        for start, end in self.tile:
            start = start.scale(x_scale, y_scale)
            end = end.scale(x_scale, y_scale)
            scaled_tile.append((start, end))
        self.tile = scaled_tile

    @debug.time
    def to_graph(self, shape, scale):
        """Apply this tile to a shape, repeating as necessary.

        Return value:
            networkx.Graph with edges corresponding to lines in the pattern.
              Each edge has an attribute 'line_string' with the LineString
              representation of this edge.
        """
        self._load()
        x_scale, y_scale = scale
        self._scale(x_scale, y_scale)

        shape_center, shape_width, shape_height = self._get_center_and_dimensions(shape)
        shape_diagonal = Point(shape_width, shape_height).length()
        prepared_shape = prep(shape)

        return self._generate_graph(prepared_shape, shape_center, shape_diagonal)

    def _generate_graph(self, shape, shape_center, shape_diagonal):
        graph = nx.Graph()
        tiles0 = ceil(shape_diagonal / self.shift0.length()) + 2
        tiles1 = ceil(shape_diagonal / self.shift1.length()) + 2
        for repeat0 in range(floor(-tiles0 / 2), ceil(tiles0 / 2)):
            for repeat1 in range(floor(-tiles1 / 2), ceil(tiles1 / 2)):
                check_stop_flag()

                shift0 = repeat0 * self.shift0
                shift1 = repeat1 * self.shift1
                this_tile = self._translate_tile(shift0 + shift1 + shape_center)
                for line in this_tile:
                    line_string = LineString(line)
                    if shape.contains(line_string):
                        graph.add_edge(line[0], line[1])

        self._remove_dead_ends(graph)

        return graph

    def _remove_dead_ends(self, graph):
        graph.remove_edges_from(nx.selfloop_edges(graph))
        while True:
            dead_end_nodes = [node for node, degree in graph.degree() if degree <= 1]

            if dead_end_nodes:
                graph.remove_nodes_from(dead_end_nodes)
            else:
                return


def all_tile_paths():
    return [os.path.join(guess_inkscape_config_path(), 'tiles'),
            get_bundled_dir('tiles')]


@cache
def all_tiles():
    tiles = []
    for tiles_path in all_tile_paths():
        try:
            for tile_dir in sorted(os.listdir(tiles_path)):
                try:
                    tiles.append(Tile(os.path.join(tiles_path, tile_dir)))
                except (OSError, lxml.etree.XMLSyntaxError, json.JSONDecodeError, KeyError) as exc:
                    debug.log(f"error loading tile {tiles_path}/{tile_dir}: {exc}")
                except Exception as exc:
                    debug.log(f"unexpected error loading tile {tiles_path}/{tile_dir}: {exc}")
                    raise
        except FileNotFoundError:
            pass

    return tiles