map-machine/roentgen/mapper.py

"""
Simple OpenStreetMap renderer.
"""
import logging
from pathlib import Path
from typing import Any, Iterator

import numpy as np
import svgwrite
from colour import Color
from svgwrite.container import Group
from svgwrite.path import Path as SVGPath
from svgwrite.shapes import Rect

from roentgen.boundary_box import BoundaryBox
from roentgen.constructor import Constructor
from roentgen.figure import Road
from roentgen.flinger import Flinger
from roentgen.icon import ShapeExtractor
from roentgen.osm_getter import NetworkError, get_osm
from roentgen.osm_reader import OSMData, OSMNode, OSMReader, OverpassReader
from roentgen.point import Occupied
from roentgen.road import Intersection, RoadPart
from roentgen.scheme import Scheme
from roentgen.ui import AUTHOR_MODE, BuildingMode, TIME_MODE, progress_bar
from roentgen.workspace import workspace

__author__ = "Sergey Vartanov"
__email__ = "me@enzet.ru"


class Map:
    """
    Map drawing.
    """

    def __init__(
        self, flinger: Flinger, svg: svgwrite.Drawing, scheme: Scheme, options
    ) -> None:
        self.flinger: Flinger = flinger
        self.svg: svgwrite.Drawing = svg
        self.scheme: Scheme = scheme
        self.options = options

        self.background_color: Color = self.scheme.get_color("background_color")
        if self.options.mode in [AUTHOR_MODE, TIME_MODE]:
            self.background_color: Color = Color("#111111")

    def draw(self, constructor: Constructor) -> None:
        """Draw map."""
        self.svg.add(
            Rect((0, 0), self.flinger.size, fill=self.background_color)
        )
        ways = sorted(constructor.figures, key=lambda x: x.line_style.priority)
        ways_length: int = len(ways)
        for index, way in enumerate(ways):
            progress_bar(index, ways_length, step=10, text="Drawing ways")
            path_commands: str = way.get_path(self.flinger)
            if path_commands:
                path = SVGPath(d=path_commands)
                path.update(way.line_style.style)
                self.svg.add(path)
        progress_bar(-1, 0, text="Drawing ways")

        roads: Iterator[Road] = sorted(
            constructor.roads, key=lambda x: x.matcher.priority
        )
        for road in roads:
            self.draw_road(road, road.matcher.border_color, 2)
        for road in roads:
            self.draw_road(road, road.matcher.color)

        for tree in constructor.trees:
            tree.draw(self.svg, self.flinger, self.scheme)

        for direction_sector in constructor.direction_sectors:
            direction_sector.draw(self.svg, self.scheme)

        self.draw_buildings(constructor)

        # All other points

        if self.options.overlap == 0:
            occupied = None
        else:
            occupied = Occupied(
                self.flinger.size[0], self.flinger.size[1], self.options.overlap
            )

        nodes = sorted(constructor.points, key=lambda x: -x.priority)
        steps: int = len(nodes)

        for index, node in enumerate(nodes):
            progress_bar(index, steps * 3, step=10, text="Drawing main icons")
            node.draw_main_shapes(self.svg, occupied)

        for index, point in enumerate(nodes):
            progress_bar(
                steps + index, steps * 3, step=10, text="Drawing extra icons"
            )
            point.draw_extra_shapes(self.svg, occupied)

        for index, point in enumerate(nodes):
            progress_bar(
                steps * 2 + index, steps * 3, step=10, text="Drawing texts"
            )
            if (
                self.options.mode not in [TIME_MODE, AUTHOR_MODE]
                and self.options.label_mode != "no"
            ):
                point.draw_texts(self.svg, occupied, self.options.label_mode)

        progress_bar(-1, len(nodes), step=10, text="Drawing nodes")

    def draw_buildings(self, constructor: Constructor) -> None:
        """Draw buildings: shade, walls, and roof."""
        building_mode: BuildingMode = BuildingMode(self.options.buildings)

        if building_mode == BuildingMode.FLAT:
            for building in constructor.buildings:
                building.draw(self.svg, self.flinger)
            return

        scale: float = self.flinger.get_scale() / 3.0
        building_shade: Group = Group(opacity=0.1)
        for building in constructor.buildings:
            building.draw_shade(building_shade, self.flinger)
        self.svg.add(building_shade)

        previous_height: float = 0
        count: int = len(constructor.heights)
        for index, height in enumerate(sorted(constructor.heights)):
            progress_bar(index, count, step=1, text="Drawing buildings")
            fill: Color()
            for building in constructor.buildings:
                if building.height < height or building.min_height > height:
                    continue
                building.draw_walls(self.svg, height, previous_height, scale)

            for building in constructor.buildings:
                if building.height == height:
                    building.draw_roof(self.svg, self.flinger, scale)

            previous_height = height

        progress_bar(-1, count, step=1, text="Drawing buildings")

    def draw_road(
        self, road: Road, color: Color, extra_width: float = 0
    ) -> None:
        """Draw road as simple SVG path."""
        self.flinger.get_scale()
        if road.width is not None:
            width = road.width
        else:
            width = road.matcher.default_width
        scale = self.flinger.get_scale(road.outers[0][0].coordinates)
        path_commands: str = road.get_path(self.flinger)
        path = SVGPath(d=path_commands)
        style: dict[str, Any] = {
            "fill": "none",
            "stroke": color.hex,
            "stroke-linecap": "round",
            "stroke-linejoin": "round",
            "stroke-width": scale * width + extra_width,
        }
        path.update(style)
        self.svg.add(path)

    def draw_roads(self, roads: Iterator[Road]) -> None:
        """Draw road as simple SVG path."""
        nodes: dict[OSMNode, set[RoadPart]] = {}

        for road in roads:
            for index in range(len(road.outers[0]) - 1):
                node_1: OSMNode = road.outers[0][index]
                node_2: OSMNode = road.outers[0][index + 1]
                point_1: np.array = self.flinger.fling(node_1.coordinates)
                point_2: np.array = self.flinger.fling(node_2.coordinates)
                scale: float = self.flinger.get_scale(node_1.coordinates)
                part_1: RoadPart = RoadPart(point_1, point_2, road.lanes, scale)
                part_2: RoadPart = RoadPart(point_2, point_1, road.lanes, scale)
                # part_1.draw_normal(self.svg)

                for node in node_1, node_2:
                    if node not in nodes:
                        nodes[node] = set()

                nodes[node_1].add(part_1)
                nodes[node_2].add(part_2)

        for node in nodes:
            parts = nodes[node]
            if len(parts) < 4:
                continue
            intersection: Intersection = Intersection(list(parts))
            intersection.draw(self.svg, True)


def ui(options) -> None:
    """
    Röntgen entry point.

    :param options: command-line arguments
    """
    if not options.boundary_box and not options.input_file_name:
        logging.fatal("Specify either --boundary-box, or --input.")
        exit(1)

    if options.boundary_box:
        boundary_box: BoundaryBox = BoundaryBox.from_text(options.boundary_box)

    cache_path: Path = Path(options.cache)
    cache_path.mkdir(parents=True, exist_ok=True)

    input_file_names: list[Path]

    if options.input_file_name:
        input_file_names = list(map(Path, options.input_file_name))
    else:
        try:
            cache_file_path: Path = (
                cache_path / f"{boundary_box.get_format()}.osm"
            )
            get_osm(boundary_box, cache_file_path)
        except NetworkError as e:
            logging.fatal(e.message)
            exit(1)
        input_file_names = [cache_file_path]

    scheme: Scheme = Scheme(workspace.DEFAULT_SCHEME_PATH)
    min_: np.array
    max_: np.array
    osm_data: OSMData
    view_box: BoundaryBox

    if input_file_names[0].name.endswith(".json"):
        reader: OverpassReader = OverpassReader()
        reader.parse_json_file(input_file_names[0])

        osm_data = reader.osm_data
        view_box = boundary_box
    else:
        is_full: bool = options.mode in [AUTHOR_MODE, TIME_MODE]
        osm_reader = OSMReader(is_full=is_full)

        for file_name in input_file_names:
            if not file_name.is_file():
                logging.fatal(f"No such file: {file_name}.")
                exit(1)

            osm_reader.parse_osm_file(file_name)

        osm_data = osm_reader.osm_data

        if options.boundary_box:
            view_box = boundary_box
        else:
            view_box = osm_data.view_box

    flinger: Flinger = Flinger(view_box, options.scale)
    size: np.array = flinger.size

    svg: svgwrite.Drawing = svgwrite.Drawing(
        options.output_file_name, size=size
    )
    icon_extractor: ShapeExtractor = ShapeExtractor(
        workspace.ICONS_PATH, workspace.ICONS_CONFIG_PATH
    )

    constructor: Constructor = Constructor(
        osm_data=osm_data,
        flinger=flinger,
        scheme=scheme,
        icon_extractor=icon_extractor,
        options=options,
    )
    constructor.construct()

    painter: Map = Map(flinger=flinger, svg=svg, scheme=scheme, options=options)
    painter.draw(constructor)

    logging.info(f"Writing output SVG to {options.output_file_name}...")
    with open(options.output_file_name, "w") as output_file:
        svg.write(output_file)