res/color_overrides.json

@@ -1,16 +0,0 @@
-{
-	"minecraft:seagrass": [97, 113, 54],
-	"minecraft:chest": [171, 121, 45],
-	"minecraft:ender_chest": [48, 67, 71],
-	"minecraft:lily_pad": [32, 128, 48],
-	"minecraft:redstone_wire": [189, 32, 8],
-	"minecraft:cocoa": [150, 87, 26],
-	"minecraft:wheat": [220, 187, 101],
-	"minecraft:carrots": [227, 138, 29],
-	"minecraft:potatoes": [200, 162, 75],
-	"minecraft:beetroots": [191, 37,41],
-	"minecraft:nether_wart": [131, 28, 32],
-	"minecraft:sweet_berry_bush": [60, 110, 66],
-	"minecraft:torchflower_crop": [130, 158, 85],
-	"minecraft:pitcher_crop": [112, 134, 181]
-}

save.txt

@@ -1,262 +0,0 @@
-n -220 -374 3 Port Pickle
-n -240 -519 3 Pickledill
-n -266 -454 4 Pickledill Valley
-n -125 -518 2 Pickledill Waterfall
-n -224 -562 1 Yeti Cave
-n -225 -352 1 Port Pickle Observatory
-n -227 -364 1 Port Pickle Smithery
-n -212 -372 1 Pickledill Ferry – Port Pickle
-n -212 -97 1 Pickledill Ferry – Shopping District
-n -70 -67 1 Witch Farm
-n -70 -77 0 
-n -79 -77 0 
-n -86 -75 0 
-n -92 -71 0 
-n -108 -61 0 
-n -127 -55 0 
-n -151 -52 0 
-n -168 -55 0 
-n -188 -61 0 
-n -198 -71 0 
-n -208 -84 0 
-n -213 -376 0 
-n -208 -372 0 
-n -200 -371 0 
-n -193 -373 0 
-n -216 -379 0 
-n -222 -379 0 
-n -226 -372 0 
-n -222 -369 0 
-n -222 -364 0 
-n -221 -359 0 
-n -219 -353 0 
-n -220 -349 0 
-n -225 -348 0 
-n -257 -479 1 Pickledill Mill
-n -383 -499 1 Pickledill Pass
-n -398 -517 1 Pickledill Bridge
-n -279 -524 1 Pickledill Portal
-n -407 -17 1 Portail du Shopping District
-n -390 -22 4 Shopping District
-n -480 -56 3 Shopping District Ouest
-n -396 -4 1 Slime Shop
-n -387 -3 1 Slime Shop
-n -383 -13 1 Sand Shop
-n -394 -29 1 Magasin de Livres
-n -407 -37 1 Magasin de la Mer
-n -370 -10 1 Shop de Fer
-n -362 -17 1 Living Is A Right
-n -399 -17 3 Shopping District Centre
-n -373 -77 1 Magasin de Glace
-n -315 -91 1 Puits du Shopping District
-n -335 -43 1 Nether Goods
-n -680 -199 4 Lycapark
-n -392 -10 0 
-n -397 -12 0 
-n -396 -5 0 
-n -401 -26 0 
-n -406 -33 0 
-n -412 -35 0 
-n -396 -23 0 
-n -392 -18 0 
-n -385 -17 0 
-n -375 -16 0 
-n -376 -6 0 
-n -374 -2 0 
-n -373 2 0 
-n -368 6 0 
-n -370 -16 0 
-n -367 -21 0 
-n -361 -24 0 
-n -354 -24 0 
-n -352 -31 0 
-n -348 -39 0 
-n -343 -44 0 
-n -350 -19 0 
-n -348 -14 0 
-n -341 -13 0 
-n -339 -17 0 
-n -336 -22 0 
-n -341 -25 0 
-n -345 -29 0 
-n -331 -16 0 
-n -328 -11 0 
-n -324 -7 0 
-n -320 -3 0 
-n -317 2 0 
-n -315 7 0 
-n -310 6 0 
-n -306 4 0 
-n -299 3 0 
-n -295 -4 0 
-n -296 -14 0 
-n -299 -23 0 
-n -304 -31 0 
-n -311 -28 0 
-n -319 -24 0 
-n -328 -22 0 
-n -299 -37 0 
-n -297 -41 0 
-n -297 -51 0 
-n -291 -61 0 
-n -296 -68 0 
-n -300 -64 0 
-n -304 -60 0 
-n -307 -58 0 
-n -315 -57 0 
-n -320 -53 0 
-n -324 -52 0 
-n -330 -53 0 
-n -337 -53 0 
-n -291 -72 0 
-n -286 -73 0 
-n -282 -76 0 
-n -279 -77 0 
-n -273 -83 0 
-n -269 -90 0 
-n -260 -92 0 
-n -253 -96 0 
-n -239 -96 0 
-n -231 -94 0 
-n -223 -97 0 
-n -419 -32 0 
-n -423 -29 0 
-n -428 -28 0 
-n -434 -26 0 
-n -435 -22 0 
-n -442 -17 0 
-n -446 -19 0 
-n -452 -21 0 
-n -457 -24 0 
-n -462 -26 0 
-n -465 -31 0 
-n -469 -37 0 
-n -471 -44 0 
-n -475 -51 0 
-n -286 -91 3 Shopping District Est
-
-e 7 8 2
-e 10 9 0
-e 10 11 3
-e 11 12 3
-e 12 13 3
-e 13 14 3
-e 14 15 3
-e 15 16 3
-e 16 17 3
-e 17 18 3
-e 18 19 3
-e 19 20 3
-e 20 8 3
-e 7 21 0
-e 21 22 0
-e 22 23 0
-e 23 24 0
-e 21 25 0
-e 25 26 0
-e 26 27 0
-e 27 28 0
-e 28 29 0
-e 29 6 0
-e 29 30 0
-e 30 31 0
-e 31 32 0
-e 32 33 0
-e 33 5 0
-e 42 53 0
-e 53 54 0
-e 54 55 0
-e 54 48 0
-e 48 38 0
-e 48 56 0
-e 56 57 0
-e 57 58 0
-e 57 45 0
-e 45 48 0
-e 48 59 0
-e 59 44 0
-e 48 60 0
-e 60 61 0
-e 61 43 0
-e 61 62 0
-e 63 64 0
-e 64 65 0
-e 65 66 0
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-e 67 46 0
-e 67 47 0
-e 67 68 0
-e 68 69 0
-e 69 70 0
-e 70 71 0
-e 71 72 0
-e 72 73 0
-e 73 51 0
-e 70 74 0
-e 74 75 0
-e 75 76 0
-e 76 77 0
-e 77 78 0
-e 78 79 0
-e 79 80 0
-e 80 71 0
-e 77 81 0
-e 81 82 0
-e 82 83 0
-e 83 84 0
-e 84 85 0
-e 85 86 0
-e 86 87 0
-e 87 88 0
-e 88 89 0
-e 89 90 0
-e 90 91 0
-e 91 92 0
-e 92 93 0
-e 93 94 0
-e 94 95 0
-e 95 96 0
-e 96 78 0
-e 93 97 0
-e 97 98 0
-e 98 99 0
-e 99 100 0
-e 100 101 0
-e 101 102 0
-e 102 103 0
-e 103 104 0
-e 104 105 0
-e 105 106 0
-e 106 107 0
-e 107 108 0
-e 108 109 0
-e 109 73 0
-e 101 110 0
-e 110 111 0
-e 111 112 0
-e 112 113 0
-e 113 114 0
-e 114 115 0
-e 115 116 0
-e 116 117 0
-e 117 118 0
-e 118 119 0
-e 119 120 0
-e 120 8 0
-e 58 121 0
-e 121 122 0
-e 122 123 0
-e 123 124 0
-e 124 125 0
-e 125 126 0
-e 126 127 0
-e 127 128 0
-e 128 129 0
-e 129 130 0
-e 130 131 0
-e 131 132 0
-e 132 133 0
-e 133 134 0
-e 134 40 0
-e 101 112 0

src/config.py

@@ -1,28 +0,0 @@
-import json
-import os.path
-
-
-class Config:
-    LAST_OPENED_FILE = ""
-    AUTOSAVE_INTERVAL = 5 * 60 * 1000
-    CACHE_TTL = 10
-
-    def __init__(self, path: str):
-        self._path: str = path
-
-        self.load()
-
-    def load(self) -> None:
-        if os.path.exists(self._path):
-            with open(self._path, "r") as f:
-                config = json.load(f)
-
-            self.LAST_OPENED_FILE = config["last_opened_file"]
-            self.AUTOSAVE_INTERVAL = config["autosave_interval"]
-
-    def save(self) -> None:
-        with open(self._path, "w") as f:
-            json.dump({
-                "last_opened_file": self.LAST_OPENED_FILE,
-                "autosave_interval": self.AUTOSAVE_INTERVAL
-            }, f, indent=4)

src/editor.py

@@ -3,191 +3,77 @@ from enum import Enum, auto
 from math import floor
 from typing import Optional
 
+import platformdirs
 import pygame
 
-from src.config import Config
-from src.graph.graph import Graph
 from src.image_handler import ImageHandler
-from src.utils.paths import CONFIG_DIR, CACHE_DIR
 
 
 class Editor:
-    APP_NAME: str = "lycacraft-paths"
-    APP_AUTHOR: str = "Lycacraft"
     WIDTH: int = 800
     HEIGHT: int = 600
     MAP_SIZE: int = 1024
-    CONFIG_PATH: str = os.path.join(CONFIG_DIR, "config.json")
-    MAPS_DIR: str = os.path.join(CACHE_DIR, "maps")
-    AUTOSAVE_PATH: str = os.path.join(CACHE_DIR, "AUTOSAVE.txt")
-    AUTOSAVE_EVENT: int = pygame.event.custom_type()
-    ZOOMS: tuple[float] = tuple(2**p for p in range(-6, 7))
+    MAPS_DIR: str = os.path.join(platformdirs.user_cache_dir(appname="lycacraft-paths", appauthor="Lycacraft"), "maps")
+    ZOOMS: tuple[float] = (0.25, 0.5, 1, 2, 4)
     CROSSHAIR_SIZE: int = 10
 
-    EDGE_TYPE_KEYS: dict[int, str] = {
-        pygame.K_p: "path",
-        pygame.K_n: "narrow_path",
-        pygame.K_f: "ferry",
-        pygame.K_b: "boat",
-        pygame.K_r: "rails"
-    }
-
-    NODE_TYPE_KEYS: list[int] = [
-        pygame.K_0,
-        pygame.K_1,
-        pygame.K_2,
-        pygame.K_3,
-        pygame.K_4
-    ]
-
     def __init__(self):
         pygame.init()
-        self.config: Config = Config(self.CONFIG_PATH)
         self.width: int = self.WIDTH
         self.height: int = self.HEIGHT
         self.win: pygame.Surface = pygame.display.set_mode([self.width, self.height], pygame.RESIZABLE)
         pygame.display.set_caption("Lycacraft Map Editor")
         self.center: list[int] = [0, 0]
-        self.zoom_i: int = self.ZOOMS.index(1)
+        self.zoom_i: int = 2
         self.zoom: float = self.ZOOMS[self.zoom_i]
         self.running: bool = False
-        self.image_handler: ImageHandler = ImageHandler(self.MAPS_DIR, self.MAP_SIZE, self.config.CACHE_TTL)
+        self.image_handler: ImageHandler = ImageHandler(self.MAPS_DIR, self.MAP_SIZE)
         self.clock: pygame.time.Clock = pygame.time.Clock()
         self.left_drag_pos: Optional[tuple[int, int]] = None
         self.mid_drag_pos: Optional[tuple[int, int]] = None
         self.font: pygame.font.Font = pygame.font.SysFont("Ubuntu", 20)
         self.loading_font: pygame.font.Font = pygame.font.SysFont("Ubuntu", 30)
-        self.zooms_texts: list[pygame.Surface] = []
-        for zoom in self.ZOOMS:
-            txt = str(zoom)
-            if zoom < 1:
-                txt = f"1/{int(1/zoom):d}"
-            self.zooms_texts.append(self.font.render(txt, True, (255, 255, 255)))
-        self.is_renaming_node: bool = False
+        self.zooms_texts: list[pygame.Surface] = list(map(
+            lambda z: self.font.render(str(z), True, (255, 255, 255)),
+            self.ZOOMS
+        ))
         self.state: State = State.STOPPING
-        self.graph = Graph()
-        self.typing_text: str = ""
-        self.node_radius: int = 5
-        self.line_size: int = 3
-        self.edge_detect_radius: int = 3 * self.line_size
-        self.selected_nodes: list[int] = []
-        self.selected_edges: list[int] = []
-        self.previously_created_nodes: list[int] = []
-        self.selection_rectangle: Optional[list[tuple[int, int], tuple[int, int]]] = None
-        self.original_move_pos: Optional[tuple[int, int]] = None
-        self.move_old_poses: Optional[dict[int, tuple[int, int]]] = None
-        self.dirty: bool = False
-        self.loading_bg: pygame.Surface = pygame.Surface([self.width, self.height])
-        pygame.time.set_timer(self.AUTOSAVE_EVENT, self.config.AUTOSAVE_INTERVAL)
-
-        if os.path.exists(self.AUTOSAVE_PATH):
-            self.load(self.AUTOSAVE_PATH, False)
-            self.dirty = True
-        elif self.config.LAST_OPENED_FILE != "":
-            self.load(self.config.LAST_OPENED_FILE)
-
-
-    # =========================
-    # EVENTS
-    # =========================
 
     def mainloop(self) -> None:
         self.state = State.LOADING
         while self.state != State.STOPPING:
-            caption = f"Lycacraft Map Editor - {self.clock.get_fps():.2f}fps - {self.image_handler.size} images"
-            if self.dirty:
-                caption += " (unsaved)"
-            pygame.display.set_caption(caption)
+            pygame.display.set_caption(f"Lycacraft Map Editor - {self.clock.get_fps():.2f}fps")
             self.process_events()
             if self.state == State.LOADING:
                 self.render_loading()
                 if not self.image_handler.loading:
                     self.state = State.RUNNING
             elif self.state == State.RUNNING:
-                if self.selection_rectangle is not None:
-                    self.expand_selection_rect()
-                if self.original_move_pos is not None:
-                    self.move_poses()
                 self.render()
-                self.image_handler.clean()
             self.clock.tick(30)
 
-    def quit(self) -> None:
-        if self.dirty:
-            self.save(self.AUTOSAVE_PATH, False)
-        self.state = State.STOPPING
-
     def process_events(self) -> None:
         events = pygame.event.get()
 
         keys = pygame.key.get_pressed()
         for event in events:
             if event.type == pygame.QUIT:
-                self.quit()
+                self.state = State.STOPPING
             elif event.type == pygame.WINDOWRESIZED:
                 self.width = event.x
                 self.height = event.y
             elif event.type == pygame.KEYDOWN:
-                if self.is_renaming_node:
-                    if event.key == pygame.K_ESCAPE:
-                        self.is_renaming_node = False
-                        self.typing_text = ""
-                    elif event.key == pygame.K_RETURN:
-                        self.rename_nodes()
-                    elif event.key == pygame.K_BACKSPACE:
-                        self.typing_text = self.typing_text[:-1]
-                    else:
-                        self.typing_text += event.unicode
-                else:
-                    if event.key == pygame.K_ESCAPE:
-                        if self.selected_nodes != [] or self.selected_edges != []:
-                            self.clear_selection()
-                            self.previously_created_nodes = []
-                        else:
-                            self.quit()
-                    elif event.key == pygame.K_PAGEUP:
-                        self.zoom_in()
-                    elif event.key == pygame.K_PAGEDOWN:
-                        self.zoom_out()
-                    elif event.key == pygame.K_BACKSPACE:
-                        self.deleted_selected_objects()
-                    elif event.key == pygame.K_s and event.mod & (pygame.KMOD_CTRL | pygame.KMOD_META):
-                        self.save()
-                    elif event.key == pygame.K_l and event.mod & (pygame.KMOD_CTRL | pygame.KMOD_META):
-                        self.load()
-                    elif event.key == pygame.K_RETURN:
-                        if len(self.selected_nodes) > 0:
-                            self.typing_text = ""
-                            if len(self.selected_nodes) == 1:
-                                self.typing_text = self.graph.nodes[self.selected_nodes[0]].name
-                            self.is_renaming_node = True
-                    elif event.key == pygame.K_HOME:
-                        self.center = [0, 0]
-                    elif event.key == pygame.K_F5:
-                        self.reload()
-                    elif event.key in self.EDGE_TYPE_KEYS.keys():
-                        self.change_edge_types(self.EDGE_TYPE_KEYS[event.key])
-                    elif event.key in self.NODE_TYPE_KEYS:
-                        self.change_node_types(self.NODE_TYPE_KEYS.index(event.key))
-            elif event.type == pygame.KEYUP:
-                if event.key == pygame.K_m:
-                    if self.original_move_pos is not None:
-                        self.reset_move_poses()
+                if event.key == pygame.K_ESCAPE:
+                    self.state = State.STOPPING
+                elif event.key == pygame.K_PAGEUP:
+                    self.zoom_in()
+                elif event.key == pygame.K_PAGEDOWN:
+                    self.zoom_out()
             elif event.type == pygame.MOUSEBUTTONDOWN:
                 if event.button == 2:
                     self.mid_drag_pos = event.pos
-                elif event.button == 1:
-                    if keys[pygame.K_LCTRL]:
-                        self.left_drag_pos = event.pos
-                    elif keys[pygame.K_LALT]:
-                        self.create_selection_rect(keys[pygame.K_LSHIFT] or keys[pygame.K_RSHIFT])
-                    elif keys[pygame.K_m]:
-                        self.original_move_pos = event.pos
-                        self.start_moving()
-                    else:
-                        self.select_object(keys[pygame.K_LSHIFT] or keys[pygame.K_RSHIFT])
-                elif event.button == 3:
-                    self.create_node(self.screen_to_world(event.pos[0], event.pos[1]))
+                elif event.button == 1 and keys[pygame.K_LCTRL]:
+                    self.left_drag_pos = event.pos
                 elif event.button == 4:
                     self.zoom_in()
                 elif event.button == 5:
@@ -196,15 +82,7 @@ class Editor:
                 if event.button == 2:
                     self.mid_drag_pos = None
                 elif event.button == 1:
-                    if keys[pygame.K_LCTRL]:
-                        self.left_drag_pos = None
-                    elif keys[pygame.K_m] and self.original_move_pos is not None:
-                        self.confirm_move_poses()
-                    elif self.selection_rectangle is not None:
-                        self.release_selection_rect(keys[pygame.K_LSHIFT] or keys[pygame.K_RSHIFT])
-            elif event.type == self.AUTOSAVE_EVENT:
-                if self.dirty:
-                    self.save(self.AUTOSAVE_PATH, False)
+                    self.left_drag_pos = None
 
         if keys[pygame.K_LEFT]:
             self.center[0] -= 4 / self.zoom
@@ -228,13 +106,8 @@ class Editor:
             if mbtns[1]:
                 self.mid_drag_pos = mpos
 
-
-    # =========================
-    # RENDERING
-    # =========================
-
     def render(self) -> None:
-        self.win.fill((50, 50, 50))
+        self.win.fill((0, 0, 0))
         off_x = (self.center[0] * self.zoom) % self.MAP_SIZE
         off_y = (self.center[1] * self.zoom) % self.MAP_SIZE
 
@@ -270,10 +143,6 @@ class Editor:
                     oy + y * self.MAP_SIZE
                 ])
 
-        self.render_graph()
-
-        self.render_selection_rect()
-
         pygame.draw.line(self.win, (150, 150, 150), [w2 - self.CROSSHAIR_SIZE, h2], [w2 + self.CROSSHAIR_SIZE, h2])
         pygame.draw.line(self.win, (150, 150, 150), [w2, h2 - self.CROSSHAIR_SIZE], [w2, h2 + self.CROSSHAIR_SIZE])
         self.render_zoom_slider()
@@ -284,19 +153,16 @@ class Editor:
         pygame.draw.rect(self.win, (80, 80, 80), [0, 0, mouse_txt.get_width() + 10, mouse_txt.get_height() + 10])
         self.win.blit(mouse_txt, [5, 5])
 
-        if self.is_renaming_node:
-            self.render_node_renamer()
-
         pygame.display.flip()
 
     def render_zoom_slider(self) -> None:
-        zoom_r = self.height / 80
-        zoom_space = zoom_r * 4
-        zoom_height = zoom_space * (len(self.ZOOMS) - 1)
+        zoom_height = self.height * 0.2
         zoom_h_margin = self.width * 0.02
         zoom_v_margin = self.height * 0.05
         zoom_x = self.width - zoom_h_margin
         zoom_y = self.height - zoom_v_margin - zoom_height
+        zoom_space = zoom_height / 4
+        zoom_r = zoom_space / 4
         zoom_width = max(s.get_width() for s in self.zooms_texts) + 2 * zoom_r + 5
         pygame.draw.rect(self.win, (80, 80, 80), [
             zoom_x + zoom_r - zoom_width - 5,
@@ -313,7 +179,6 @@ class Editor:
 
     def render_loading(self) -> None:
         self.win.fill((0, 0, 0))
-        self.win.blit(self.loading_bg, [0, 0])
         count = self.image_handler.count
         total = self.image_handler.total
         txt = self.loading_font.render(f"Loading maps - {count}/{total}", True, (255, 255, 255))
@@ -324,82 +189,12 @@ class Editor:
         h2 = self.height / 2
         x0 = w2 - width / 2
         y0 = h2 - height / 2
-        loaded_width = 0 if total == 0 else width * count / total
         pygame.draw.rect(self.win, (160, 160, 160), [x0, y0, width, height])
-        pygame.draw.rect(self.win, (90, 250, 90), [x0, y0, loaded_width, height])
+        pygame.draw.rect(self.win, (90, 250, 90), [x0, y0, width * count / total, height])
         self.win.blit(txt, [w2 - txt.get_width() / 2, y0 - txt.get_height() - 5])
 
         pygame.display.flip()
 
-    def render_node_renamer(self) -> None:
-        width = self.width / 2
-        height = self.height / 2
-        x0 = (self.width - width) / 2
-        y0 = (self.height - height) / 2
-
-        line_height = height / 6
-
-        nc_txt = self.loading_font.render("RENAME NODE", True, (255, 255, 255))
-        name_txt = self.loading_font.render("New name:", True, (255, 255, 255))
-        txt = self.loading_font.render(self.typing_text, True, (255, 255, 255))
-
-        pygame.draw.rect(self.win, (0, 0, 0), [x0, y0, width, height])
-        self.win.blit(nc_txt, [self.width / 2 - nc_txt.get_width() / 2, y0 + line_height])
-        self.win.blit(name_txt, [self.width / 2 - name_txt.get_width() / 2, y0 + 3 * line_height])
-        self.win.blit(txt, [self.width / 2 - txt.get_width() / 2, y0 + 4 * line_height])
-
-    def render_graph(self) -> None:
-        self.render_edges()
-        self.render_nodes()
-
-    def render_edges(self) -> None:
-        hover_index, is_node = self.get_hover_object()
-        for edge in self.graph.edges:
-            node_1, node_2 = self.graph.get_edge_nodes(edge)
-            color = self.graph.TYPE_COLORS[edge.type]
-            start = self.world_to_screen(node_1.x, node_1.z)
-            end = self.world_to_screen(node_2.x, node_2.z)
-            if not is_node and edge.index == hover_index:
-                pygame.draw.line(self.win, (0, 0, 0), start, end, self.edge_detect_radius)
-            elif edge.index in self.selected_edges:
-                pygame.draw.line(self.win, (255, 255, 255), start, end, self.edge_detect_radius)
-            pygame.draw.line(self.win, color, start, end, self.line_size)
-
-    def render_nodes(self) -> None:
-        hover_index, is_node = self.get_hover_object()
-        for node in self.graph.nodes:
-            blitpos = self.world_to_screen(node.x, node.z)
-            color = self.graph.TYPE_COLORS[node.type]
-            if is_node and node.index == hover_index:
-                self.render_hover_node(node.index)
-            elif node.index in self.selected_nodes:
-                pygame.draw.circle(self.win, (255, 255, 255), (blitpos[0], blitpos[1]), self.node_radius + self.line_size)
-            pygame.draw.circle(self.win, color, (blitpos[0], blitpos[1]), self.node_radius)
-
-    def render_hover_node(self, node_index: int) -> None:
-        node = self.graph.nodes[node_index]
-        txt = self.loading_font.render(node.name, True, (255, 255, 255))
-        node_pos = self.world_to_screen(node.x, node.z)
-        xpos = node_pos[0] - txt.get_width() - self.node_radius * (2 ** -0.5)
-        ypos = node_pos[1] - txt.get_height() - self.node_radius * (2 ** -0.5)
-        pygame.draw.rect(self.win, (0, 0, 0), pygame.Rect(xpos, ypos, txt.get_width(), txt.get_height()))
-        self.win.blit(txt, [xpos, ypos])
-        pygame.draw.circle(self.win, (0, 0, 0), (node_pos[0], node_pos[1]), self.node_radius + self.line_size)
-
-    def render_selection_rect(self) -> None:
-        rect = self.selection_rectangle
-        if rect is not None:
-            left = min(rect[0][0], rect[1][0])
-            top = min(rect[0][1], rect[1][1])
-            width = abs(rect[0][0] - rect[1][0])
-            height = abs(rect[0][1] - rect[1][1])
-            pygame.draw.rect(self.win, (32, 32, 32), pygame.Rect(left, top, width, height), self.line_size)
-
-
-    # =========================
-    # ZOOMING
-    # =========================
-
     def set_zoom(self, zoom_i: int) -> None:
         self.zoom_i = max(0, min(len(self.ZOOMS) - 1, zoom_i))
         self.zoom = self.ZOOMS[self.zoom_i]
@@ -410,259 +205,6 @@ class Editor:
     def zoom_out(self) -> None:
         self.set_zoom(self.zoom_i - 1)
 
-
-    # =========================
-    # SELECTION
-    # =========================
-
-    def select_object(self, shifting: bool = False) -> None:
-        hover_index, is_node = self.get_hover_object()
-        
-        self.previously_created_nodes = []
-
-        if is_node:
-            self.select_node(hover_index, shifting)
-        elif hover_index != -1:
-            self.select_edge(hover_index, shifting)
-        else:
-            self.clear_selection()
-    
-    def select_node(self, node: int, shifting: bool = False) -> None:
-        if shifting:
-            if node in self.selected_nodes:
-                self.selected_nodes.remove(node)
-                return
-            if node != -1:
-                self.selected_nodes.append(node)
-            return
-        
-        if node in self.selected_nodes:
-            self.clear_selection()
-            self.selected_nodes.append(node)
-            return
-        
-        if node != -1:
-            for sel_node in self.selected_nodes:
-                self.link_nodes(sel_node, node)
-        self.selected_nodes = [] if node == -1 else [node]
-        self.selected_edges = []
-
-    def select_edge(self, edge: int, shifting: bool = False) -> None:
-        if shifting:
-            if edge in self.selected_edges:
-                self.selected_edges.remove(edge)
-                return
-            if edge != -1:
-                self.selected_edges.append(edge)
-            return
-        
-        if edge in self.selected_edges:
-            self.clear_selection()
-            self.selected_edges.append(edge)
-            return
-        self.selected_edges = [] if edge == -1 else [edge]
-        self.selected_nodes = []
-
-    def clear_selection(self) -> None:
-        self.selected_nodes = []
-        self.selected_edges = []
-
-    def clear_node_selection(self) -> None:
-        self.selected_nodes = []
-
-    def clear_edge_selection(self) -> None:
-        self.selected_edges = []
-
-    def create_selection_rect(self, shifting: bool = False):
-        if not shifting:
-            self.clear_selection()
-            self.previously_created_nodes = []
-        mouse_pos = pygame.mouse.get_pos()
-        self.selection_rectangle = [mouse_pos, mouse_pos]
-
-    def expand_selection_rect(self):
-        self.selection_rectangle[1] = pygame.mouse.get_pos()
-
-    def release_selection_rect(self, shifting: bool = False):
-        if not shifting:
-            self.clear_selection()
-        self.previously_created_nodes = []
-        rect = self.selection_rectangle
-        left = min(rect[0][0], rect[1][0])
-        top = min(rect[0][1], rect[1][1])
-        right = max(rect[0][0], rect[1][0])
-        bottom = max(rect[0][1], rect[1][1])
-        for node in self.graph.nodes:
-            pos = self.world_to_screen(node.x, node.z)
-            if left <= pos[0] <= right and top <= pos[1] <= bottom:
-                if node.index not in self.selected_nodes:
-                    self.selected_nodes.append(node.index)
-        for edge in self.graph.edges:
-            pos = self.world_to_screen(*self.graph.get_edge_center(edge.index))
-            if left <= pos[0] <= right and top <= pos[1] <= bottom:
-                if edge.index not in self.selected_edges:
-                    self.selected_edges.append(edge.index)
-        self.selection_rectangle = None
-
-
-    # =========================
-    # HOVERING
-    # =========================
-
-    def get_hovering_nodes(self) -> tuple[list[int], list[float]]:
-        hovering = []
-        dists = []
-        mouse_pos = pygame.mouse.get_pos()
-
-        for node in self.graph.nodes:
-            dist = self.get_node_distance(node.index, mouse_pos[0], mouse_pos[1])
-            if dist < self.node_radius:
-                hovering.append(node.index)
-                dists.append(dist)
-        
-        return hovering, dists
-    
-    def get_hover_node(self) -> int:
-        hover_nodes, distances = self.get_hovering_nodes()
-        return -1 if len(hover_nodes) == 0 else hover_nodes[distances.index(min(distances))]
-    
-    def get_hovering_edges(self) -> tuple[list[int], list[float]]:
-        hovering = []
-        dists = []
-        mouse_pos = pygame.mouse.get_pos()
-
-        for edge in self.graph.edges:
-            dist = self.get_edge_distance(edge.index, mouse_pos[0], mouse_pos[1])
-            if dist < self.edge_detect_radius:
-                hovering.append(edge.index)
-                dists.append(dist)
-        
-        return hovering, dists
-    
-    def get_hover_edge(self) -> int:
-        hover_edges, distances = self.get_hovering_edges()
-        return -1 if len(hover_edges) == 0 else hover_edges[distances.index(min(distances))]
-    
-    def get_hover_object(self) -> tuple[int, bool]:
-        node = self.get_hover_node()
-        if node != -1:
-            return node, True
-        
-        edge = self.get_hover_edge()
-        if edge != -1:
-            return edge, False
-        
-        return -1, False
-
-
-    # =========================
-    # CREATION
-    # =========================
-
-    def link_nodes(self, node_1: int, node_2: int) -> None:
-        if not self.graph.edge_exists(node_1, node_2):
-            self.create_edge(node_1, node_2)
-
-    def create_node(self, pos: tuple[int, int], typing_text: str = "") -> None:
-        self.dirty = True
-        self.graph.add_node(pos[0], pos[1], typing_text, type=self.get_node_type())
-        if len(self.selected_nodes) == 1:
-            self.previously_created_nodes.append(self.selected_nodes[0])
-        self.select_node(self.graph.number_of_nodes() - 1)
-
-    def create_edge(self, node_1: int, node_2: int) -> None:
-        self.dirty = True
-        self.graph.add_edge(node_1, node_2, type=self.get_edge_type())
-
-    def get_edge_type(self) -> str:
-        type = ""
-        for key, value in self.EDGE_TYPE_KEYS.items():
-            if pygame.key.get_pressed()[key]:
-                type = value
-                break
-        return type
-
-    def get_node_type(self) -> int:
-        type = 0
-        for i in range(len(self.NODE_TYPE_KEYS)):
-            if pygame.key.get_pressed()[self.NODE_TYPE_KEYS[i]]:
-                type = i
-                break
-        return type
-
-
-    # =========================
-    # EDITION
-    # =========================
-
-    def rename_nodes(self) -> None:
-        self.dirty = True
-        for node in self.selected_nodes:
-            self.graph.nodes[node].rename_node(self.typing_text)
-        self.typing_text = ""
-        self.is_renaming_node = False
-
-    def start_moving(self):
-        self.move_old_poses = {}
-        for node_index in self.selected_nodes:
-            node = self.graph.nodes[node_index]
-            self.move_old_poses[node_index] = (node.x, node.z)
-
-    def move_poses(self):
-        mouse_pos = pygame.mouse.get_pos()
-        start_pos = self.original_move_pos
-        delta_x = mouse_pos[0] - start_pos[0]
-        delta_z = mouse_pos[1] - start_pos[1]
-        for node_index in self.move_old_poses.keys():
-            node = self.graph.nodes[node_index]
-            old_pos = self.move_old_poses[node_index]
-            node.x = old_pos[0] + delta_x
-            node.z = old_pos[1] + delta_z
-
-    def reset_move_poses(self):
-        self.original_move_pos = None
-        for node_index in self.move_old_poses.keys():
-            node = self.graph.nodes[node_index]
-            old_pos = self.move_old_poses[node_index]
-            node.x = old_pos[0]
-            node.z = old_pos[1]
-        self.move_old_poses = None
-
-    def confirm_move_poses(self):
-        self.dirty = True
-        self.original_move_pos = None
-        self.move_old_poses = None
-
-    def change_edge_types(self, type: str = "path"):
-        self.dirty = True
-        for edge in self.selected_edges:
-            self.graph.set_edge_type(edge, type)
-
-    def change_node_types(self, type: int = 0):
-        self.dirty = True
-        for node_index in self.selected_nodes:
-            node = self.graph.nodes[node_index]
-            node.set_type(type)
-
-    def deleted_selected_objects(self):
-        self.dirty = True
-        edges_to_delete = [self.graph.edges[i] for i in self.selected_edges]
-        nodes_to_delete = [self.graph.nodes[i] for i in self.selected_nodes]
-        for edge in edges_to_delete:
-            self.graph.delete_edge(edge)
-        for node in nodes_to_delete:
-            self.graph.delete_node(node)
-        self.clear_selection()
-        n = len(self.previously_created_nodes)
-        if n != 0:
-            self.selected_nodes.append(self.previously_created_nodes[n - 1])
-            self.previously_created_nodes.pop()
-
-
-    # =========================
-    # CALCULATION
-    # =========================
-
     def screen_to_world(self, x: int, y: int) -> tuple[int, int]:
         w2 = self.width / 2
         h2 = self.height / 2
@@ -671,81 +213,6 @@ class Editor:
 
         return int(world_x), int(world_z)
 
-    def world_to_screen(self, world_x: int, world_z: int) -> tuple[int, int]:
-        w2 = self.width / 2
-        h2 = self.height / 2
-        screen_x = (world_x - self.center[0]) * self.zoom + w2
-        screen_y = (world_z - self.center[1]) * self.zoom + h2
-
-        return int(screen_x), int(screen_y)
-
-    def get_edge_distance(self, edge_i: int, px: int, pz: int) -> float:
-        start_n, end_n = self.graph.get_edge_nodes(self.graph.edges[edge_i])
-        start_p = self.world_to_screen(start_n.x, start_n.z)
-        end_p = self.world_to_screen(end_n.x, end_n.z)
-
-        edge_vec = (end_p[0] - start_p[0], end_p[1] - start_p[1])
-        start_vec = (px - start_p[0], pz - start_p[1])
-
-        edge_vec_len = (edge_vec[0] ** 2 + edge_vec[1] ** 2) ** 0.5
-
-        if edge_vec_len == 0:
-            return self.get_node_distance(start_n.index, px, pz)
-
-        scal_prod = start_vec[0] * edge_vec[0] + start_vec[1] * edge_vec[1]
-
-        proj_len = scal_prod / edge_vec_len
-
-        if proj_len < 0:
-            return self.get_node_distance(start_n.index, px, pz)
-        if proj_len > edge_vec_len:
-            return self.get_node_distance(end_n.index, px, pz)
-        return abs((edge_vec[0] * start_vec[1] - edge_vec[1] * start_vec[0]) / edge_vec_len)
-
-    def get_node_distance(self, node_i: int, px: int, pz: int) -> float:
-        node = self.graph.nodes[node_i]
-        node_pos = self.world_to_screen(node.x, node.z)
-        return ((px - node_pos[0]) ** 2 + (pz - node_pos[1]) ** 2) ** 0.5
-
-
-
-    # SAVING
-
-    def save(self, path: Optional[str] = None, save_config: bool = True) -> None:
-        last_path = self.config.LAST_OPENED_FILE
-        if path is None:
-            path = input(f"Save as ({last_path}): ")
-            if len(path.strip()) == 0:
-                path = last_path
-
-        self.graph.save(path)
-        if save_config:
-            self.config.LAST_OPENED_FILE = path
-            self.config.save()
-            if os.path.exists(self.AUTOSAVE_PATH):
-                os.remove(self.AUTOSAVE_PATH)
-        self.dirty = False
-
-    def load(self, path: Optional[str] = None, save_config: bool = True) -> None:
-        last_path = self.config.LAST_OPENED_FILE
-        if path is None:
-            path = input(f"Load from ({last_path}): ")
-            if len(path.strip()) == 0:
-                path = last_path
-
-        if os.path.exists(path):
-            self.graph = Graph.load(path)
-            if save_config:
-                self.config.LAST_OPENED_FILE = path
-                self.config.save()
-            self.dirty = False
-
-    def reload(self) -> None:
-        self.state = State.LOADING
-        self.loading_bg = self.win.copy()
-        del self.image_handler
-        self.image_handler = ImageHandler(self.MAPS_DIR, self.MAP_SIZE, self.config.CACHE_TTL)
-
 
 class State(Enum):
     STOPPING = auto()

src/graph/edge.py

@@ -1,8 +0,0 @@
-class Edge:
-
-    def __init__(self, start: int, end: int, length: float, index: int, type: int):
-        self.length: float = length
-        self.start: int = start
-        self.end: int = end
-        self.index: int = index
-        self.type: int = type

src/graph/graph.py

@@ -1,161 +0,0 @@
-from __future__ import annotations
-from math import inf, sqrt
-from typing import Iterator, Optional
-
-from src.graph.node import Node
-from src.graph.edge import Edge
-
-
-class Graph:
-
-    EDGE_TYPES: list[str] = [
-        "path",
-        "narrow_path",
-        "ferry",
-        "boat",
-        "rails"
-    ]
-
-    TYPE_COLORS: list[tuple[int, int, int]] = [
-        (255, 0, 0),
-        (255, 0, 255),
-        (0, 255, 0),
-        (255, 255, 0),
-        (0, 0, 255)
-    ]
-
-    def __init__(self):
-        self.edges: list[Edge] = []
-        self.nodes: list[Node] = []
-
-    def add_node(self, x: int, z: int, name: str = "", type: int = 0) -> None:
-        self.nodes.append(Node(x, z, len(self.nodes), name, type))
-
-    def add_edge(self, start_index: int, end_index: int, type: str = "path", auto_length: bool = True) -> None:
-        length = 0
-        if auto_length:
-            n1, n2 = self.nodes[start_index], self.nodes[end_index]
-            length = sqrt((n1.x - n2.x)**2 + (n1.z - n2.z)**2)
-        type_n = 0 if type not in self.EDGE_TYPES else self.EDGE_TYPES.index(type)
-        self.edges.append(Edge(start_index, end_index, length, len(self.edges), type_n))
-
-    def delete_edge(self, edge: Edge) -> None:
-        self.edges.remove(edge)
-        for ed in self.edges:
-            ed.index = self.edges.index(ed)
-
-    def delete_node(self, node: Node) -> None:
-        edges_to_delete = []
-        for edge in self.edges:
-            if node.index in (edge.start, edge.end):
-                edges_to_delete.append(edge)
-                continue
-            if edge.start > node.index:
-                edge.start -= 1
-            if edge.end > node.index:
-                edge.end -= 1
-        for edge in edges_to_delete:
-            self.delete_edge(edge)
-        self.nodes.remove(node)
-        for no in self.nodes:
-            no.index = self.nodes.index(no)
-
-    def recompute_lengths(self) -> None:
-        for edge in self.edges:
-            n1 = self.nodes[edge.start]
-            n2 = self.nodes[edge.end]
-            edge.length = sqrt((n1.x - n2.x)**2 + (n1.z - n2.z)**2)
-
-    def number_of_nodes(self) -> int:
-        return len(self.nodes)
-    
-    def get_edge(self, node_1: int, node_2: int) -> int:
-        for edge in self.edges:
-            if (edge.start == node_1 and edge.end == node_2) or (edge.start == node_2 and edge.end == node_1):
-                return self.edges.index(edge)
-        return -1
-    
-    def get_edge_nodes(self, edge: Edge) -> tuple[Node, Node]:
-        return self.nodes[edge.start], self.nodes[edge.end]
-
-    def get_edge_center(self, edge_index: int) -> tuple[float, float]:
-        edge = self.edges[edge_index]
-        start_n = self.nodes[edge.start]
-        end_n = self.nodes[edge.end]
-        return (start_n.x + end_n.x) / 2, (start_n.z + end_n.z) / 2
-
-    def edges_adjacent_to(self, node_i: int) -> Iterator[Edge]:
-        return filter(lambda e: e.start == node_i or e.end == node_i, self.edges)
-    
-    def edge_exists(self, node_1: int, node_2: int) -> bool:
-        return self.get_edge(node_1, node_2) != -1
-    
-    def set_edge_type(self, edge_index: int, type: str = "path") -> None:
-        edge = self.edges[edge_index]
-        edge.type = 0 if type not in self.EDGE_TYPES else self.EDGE_TYPES.index(type)
-
-    def dijkstra(self, source_index: int, target_index: int) -> Optional[list[int]]:
-        n = len(self.nodes)
-
-        if source_index < 0 or source_index >= n:
-            return None
-
-        if target_index < 0 or target_index >= n:
-            return None
-
-        unvisited = list(range(n))
-
-        distances_from_start = [inf] * n
-        distances_from_start[source_index] = 0
-
-        node_sequences = [[] for _ in range(n)]
-        node_sequences[source_index] = [source_index]
-
-        while True:
-            current_index = min(unvisited, key=lambda i: distances_from_start[i])
-
-            if current_index == target_index:
-                break
-
-            unvisited.remove(current_index)
-
-            for edge in self.edges_adjacent_to(current_index):
-                start = current_index
-                end = edge.end if edge.start == current_index else edge.start
-
-                if end in unvisited and distances_from_start[end] > distances_from_start[start] + edge.length:
-                    distances_from_start[end] = distances_from_start[start] + edge.length
-                    node_sequences[end] = node_sequences[start].copy()
-                    node_sequences[end].append(end)
-
-        return node_sequences[target_index]
-
-    def save(self, path: str) -> None:
-        with open(path, "w") as f:
-            for node in self.nodes:
-                f.write(f"n {node.x} {node.z} {node.type} {node.name}\n")
-            f.write("\n")
-            for edge in self.edges:
-                f.write(f"e {edge.start} {edge.end} {edge.type}\n")
-
-    @staticmethod
-    def load(path: str) -> Graph:
-        graph = Graph()
-        with open(path, "r") as f:
-            lines = f.read().splitlines()
-            for line in lines:
-                if len(line.strip()) == 0:
-                    continue
-
-                entry_type, values = line.split(" ", 1)
-                if entry_type == "n":
-                    x, z, type, name = values.split(" ", 3)
-                    x, z, type = int(x), int(z), int(type)
-                    graph.add_node(x, z, name, type)
-                elif entry_type == "e":
-                    start, end, type = values.split(" ", 2)
-                    start, end, type = int(start), int(end), int(type)
-                    graph.add_edge(start, end, auto_length=False, type=graph.EDGE_TYPES[type])
-
-        graph.recompute_lengths()
-        return graph

src/graph/node.py

@@ -1,18 +0,0 @@
-class Node:
-    def __init__(self, x: int, z: int, index: int, name: str = "", type: int = 0):
-        self.x: int = x
-        self.z: int = z
-        self.index: int = index
-        self.name: str = name
-        self.type: int = (0 if name == "" else type)
-
-    def rename_node(self, name: str) -> None:
-        if self.name == "" and name != "":
-            self.type = 1
-        self.name = name
-        if name == "":
-            self.type = 0
-    
-    def set_type(self, type: int = 0) -> None:
-        if type != 0:
-            self.type = 0 if self.name == "" else type

src/image_handler.py

@@ -1,6 +1,5 @@
 import os
 import threading
-import time
 from math import floor
 from typing import Optional
 
@@ -8,13 +7,10 @@ import pygame
 
 
 class ImageHandler:
-    def __init__(self, maps_dir: str, base_size: int, ttl: int):
+    def __init__(self, maps_dir: str, base_size: int):
         self.maps_dir: str = maps_dir
         self.base_size: int = base_size
-        self.ttl: int = ttl
         self.cache: dict = {}
-        self.history: dict[tuple[float, tuple[int, int]], float] = {}
-        self.size: int = 0
         self.count: int = 0
         self.total: int = 0
         self.loading: bool = False
@@ -33,7 +29,6 @@ class ImageHandler:
             name, x, y = path.split(".")[0].split("_")
             cache[(int(x), int(y))] = pygame.image.load(fullpath).convert_alpha()
             self.count += 1
-            self.size += 1
 
         self.cache = {
             1: cache
@@ -70,19 +65,6 @@ class ImageHandler:
                     img = pygame.transform.scale_by(img, zoom)
 
             cache[pos] = img
-            self.size += 1
 
         self.cache[zoom] = cache
-        self.history[(zoom, pos)] = time.time()
         return cache[pos]
-
-    def clean(self) -> None:
-        t = time.time()
-        new_history = {}
-        for (zoom, pos), t0 in self.history.items():
-            if zoom != 1 and t0 + self.ttl < t:
-                del self.cache[zoom][pos]
-                self.size -= 1
-            else:
-                new_history[(zoom, pos)] = t0
-        self.history = new_history

src/utils/auto_mapper.py

@@ -1,285 +0,0 @@
-import json
-import os
-import re
-import tempfile
-from datetime import datetime
-from ftplib import FTP
-
-import numpy as np
-import pygame
-from scipy.signal import convolve2d
-
-from src.utils.minecraft.chunk import Chunk, MalformedChunk, OldChunk
-from src.utils.minecraft.region import Region
-from src.utils.paths import CONFIG_DIR, CACHE_DIR, get_project_path
-
-CHUNK_SIZE = 16
-CHUNKS_IN_REGION = 32
-REGION_SIZE = CHUNK_SIZE * CHUNKS_IN_REGION
-GRADIENT_MAT = np.array([
-    [0, 0, 0],
-    [0, 1, 0.5],
-    [0, -0.5, -1]
-])
-GRADIENT_RANGE = 2
-GAUSSIAN_MAT = np.array([
-    [1, 4, 7, 4, 1],
-    [4, 16, 26, 16, 4],
-    [7, 26, 41, 26, 7],
-    [4, 16, 26, 16, 4],
-    [1, 4, 7, 4, 1],
-])
-GAUSSIAN_FACT = GAUSSIAN_MAT.sum()
-
-
-class AutoMapper:
-    CONFIG_PATH = os.path.join(CONFIG_DIR, "mapper.json")
-    CACHE_PATH = os.path.join(CACHE_DIR, "regions.txt")
-    COLORS_PATH = os.path.join(CACHE_DIR, "colors.json")
-    MAPS_DIR = os.path.join(CACHE_DIR, "maps")
-    MAP_SIZE = 1024
-
-    def __init__(self):
-        self.config: FTPConfig = FTPConfig(self.CONFIG_PATH)
-        self.ftp: FTP = FTP(self.config.HOST)
-        self.regions: list[tuple[int, int]] = []
-        self.temp_dir: tempfile.TemporaryDirectory[str] = tempfile.TemporaryDirectory()
-        self.colors: dict[str, tuple[float, float, float]] = {}
-        self.cache: dict[tuple[int, int], int] = {}
-        self.colormaps: dict[str, dict[str, tuple[float, float, float]]] = {}
-        self.available_regions: list[tuple[int, int]] = []
-        self.load_colors()
-        self.load_cache()
-        self.load_colormaps()
-        self.no_color: set[str] = set()
-
-    def __enter__(self):
-        self.ftp.login(self.config.USERNAME, self.config.PASSWORD)
-        self.ftp.cwd(self.config.DIR)
-        return self
-
-    def __exit__(self, exc_type, exc_val, exc_tb):
-        self.ftp.close()
-
-    def load_colors(self) -> None:
-        with open(self.COLORS_PATH, "r") as f:
-            self.colors = json.load(f)
-
-    def load_cache(self) -> None:
-        if os.path.exists(self.CACHE_PATH):
-            with open(self.CACHE_PATH, "r") as f:
-                lines = filter(lambda l: len(l.strip()) != 0, f.read().splitlines())
-                self.cache = {}
-                for line in lines:
-                    rx, rz, ts = map(int, line.split(" "))
-                    self.cache[(rx, rz)] = ts
-
-    def load_colormaps(self) -> None:
-        biome_ids = {}
-        with open(get_project_path("res", "biome_ids.txt")) as f:
-            lines = f.read().splitlines()
-            for line in lines:
-                if len(line.strip()) == 0:
-                    continue
-                biome_name, biome_id = line.split(" ")
-                biome_ids[f"minecraft:{biome_name}"] = int(biome_id)
-
-        self.colormaps = {}
-        maps_dir = get_project_path("res", "colormaps")
-        for filename in os.listdir(maps_dir):
-            if not filename.endswith(".png"):
-                continue
-            img = pygame.image.load(os.path.join(maps_dir, filename))
-            block = filename.split(".")[0]
-            colormap = {}
-            for biome_name, biome_id in biome_ids.items():
-                colormap[biome_name] = img.get_at((biome_id, 0))[:3]
-            self.colormaps[f"minecraft:{block}"] = colormap
-
-        self.colormaps["minecraft:grass"] = self.colormaps["minecraft:grass_block"]
-        self.colormaps["minecraft:tall_grass"] = self.colormaps["minecraft:grass_block"]
-        self.colormaps["minecraft:vine"] = self.colormaps["minecraft:oak_leaves"]
-        self.colormaps["minecraft:large_fern"] = self.colormaps["minecraft:grass_block"]
-        self.colormaps["minecraft:fern"] = self.colormaps["minecraft:grass_block"]
-        self.colormaps["minecraft:melon_stem"] = self.colormaps["minecraft:foliage"]
-        self.colormaps["minecraft:attached_melon_stem"] = self.colormaps["minecraft:foliage"]
-        self.colormaps["minecraft:mangrove_leaves"] = self.colormaps["minecraft:foliage"]
-        self.colormaps["minecraft:bubble_column"] = self.colormaps["minecraft:water"]
-
-    def save_cache(self) -> None:
-        with open(self.CACHE_PATH, "w") as f:
-            for (rx, rz), ts in self.cache.items():
-                f.write(f"{rx} {rz} {ts}\n")
-
-    def get_available_regions(self) -> dict[tuple[int, int], int]:
-        files = self.ftp.mlsd(facts=["modify"])
-        regions = {}
-        self.available_regions = []
-        for filename, facts in files:
-            m = re.match(r"r\.(-?\d+)\.(-?\d+)\.mca", filename)
-            if m:
-                rx = int(m.group(1))
-                rz = int(m.group(2))
-                t = datetime.strptime(facts["modify"], "%Y%m%d%H%M%S")
-                regions[(rx, rz)] = int(t.timestamp())
-                self.available_regions.append((rx, rz))
-        return regions
-
-    def fetch_region(self, rx: int, rz: int) -> str:
-        name = f"r.{rx}.{rz}.mca"
-        outpath = os.path.join(self.temp_dir.name, name)
-        with open(outpath, "wb") as f:
-            self.ftp.retrbinary(f"RETR {name}", f.write, 1024)
-
-        return outpath
-
-    def map_region(self, rx: int, rz: int) -> tuple[pygame.Surface, np.array]:
-        print(f"  [Fetching region ({rx},{rz})]")
-        path = self.fetch_region(rx, rz)
-        region = Region(path)
-        print("  [Rendering]")
-        surf = pygame.Surface([REGION_SIZE, REGION_SIZE], pygame.SRCALPHA)
-        surf.fill((0, 0, 0, 0))
-        heightmap = np.zeros((REGION_SIZE, REGION_SIZE), dtype="uint16")
-
-        for cz in range(CHUNKS_IN_REGION):
-            for cx in range(CHUNKS_IN_REGION):
-                ox, oy = cx * CHUNK_SIZE, cz * CHUNK_SIZE
-                chunk = region.get_chunk(rx * CHUNKS_IN_REGION + cx, rz * CHUNKS_IN_REGION + cz)
-                if isinstance(chunk, Chunk):
-                    hm = self.render_chunk(chunk, surf, ox, oy)
-                    heightmap[oy:oy+CHUNK_SIZE, ox:ox+CHUNK_SIZE] = hm
-                elif isinstance(chunk, MalformedChunk):
-                    pygame.draw.rect(surf, (92, 47, 32, 200), [ox, oy, CHUNK_SIZE, CHUNK_SIZE])
-                elif isinstance(chunk, OldChunk):
-                    pygame.draw.rect(surf, (32, 61, 92, 200), [ox, oy, CHUNK_SIZE, CHUNK_SIZE])
-
-        print()
-        os.remove(path)
-
-        return surf, heightmap
-
-    def map_region_group(self, x: int, z: int) -> pygame.Surface:
-        surf = pygame.Surface([self.MAP_SIZE, self.MAP_SIZE], pygame.SRCALPHA)
-        surf.fill((0, 0, 0, 0))
-        n_regions = self.MAP_SIZE // REGION_SIZE
-        heightmap = np.zeros((self.MAP_SIZE, self.MAP_SIZE), dtype="uint16")
-        for dz in range(n_regions):
-            for dx in range(n_regions):
-                rx, rz = x * n_regions + dx, z * n_regions + dz
-                if (rx, rz) in self.available_regions:
-                    region, hm = self.map_region(rx, rz)
-                    ox, oy = dx * REGION_SIZE, dz * REGION_SIZE
-                    surf.blit(region, [ox, oy])
-                    heightmap[oy:oy+REGION_SIZE, ox:ox+REGION_SIZE] = hm
-                    self.cache[(rx, rz)] = int(datetime.utcnow().timestamp())
-
-        gradient = convolve2d(heightmap, GRADIENT_MAT, boundary="symm")[1:self.MAP_SIZE+1, 1:self.MAP_SIZE+1]
-        gradient = gradient.clip(-GRADIENT_RANGE, GRADIENT_RANGE)
-        gradient = 1 + gradient / 2 / GRADIENT_RANGE
-        gradient = np.array([gradient, gradient, gradient, np.ones(gradient.shape)])
-        gradient = np.swapaxes(gradient, 0, 2)
-        surf_array = pygame.surfarray.array3d(surf)
-        alpha_array = pygame.surfarray.array_alpha(surf).reshape((*surf_array.shape[0:2], 1))
-        surf_array = np.concatenate((surf_array, alpha_array), 2)
-        res = surf_array * gradient
-        res = res.clip(0, 255)
-        buf = res.transpose((1, 0, 2)).astype("uint8").tobytes(order="C")
-        surf = pygame.image.frombuffer(buf, surf.get_size(), "RGBA")
-
-        return surf
-
-    def render_chunk(self, chunk: Chunk, surf: pygame.Surface, ox: int, oy: int) -> np.array:
-        blocks, heightmap, biomes, is_empty = chunk.get_top_blocks()
-        if is_empty:
-            pygame.draw.rect(surf, (0, 0, 0, 0), [ox, oy, CHUNK_SIZE, CHUNK_SIZE])
-
-        else:
-            for z in range(CHUNK_SIZE):
-                for x in range(CHUNK_SIZE):
-                    color = self.get_color(blocks[z][x], biomes[z][x])
-                    surf.set_at((ox + x, oy + z), color)
-        return heightmap
-
-    def get_color(self, block: str, biome: str) -> tuple[float, float, float, float]:
-        if block in self.colormaps:
-            r, g, b = self.colormaps[block][biome]
-            r2, g2, b2 = self.colors.get(block, (0, 0, 0, 0))
-            return min(255.0, r*r2/255), min(255.0, g*g2/255), min(255.0, b*b2/255), 255
-        if block not in self.colors:
-            if block not in self.no_color:
-                print(f"    no color for {block}")
-                self.no_color.add(block)
-        return self.colors.get(block, (0, 0, 0, 0))
-
-    def map_world(self) -> None:
-        if not os.path.exists(self.MAPS_DIR):
-            os.mkdir(self.MAPS_DIR)
-
-        regions = self.get_available_regions()
-        groups_to_map = set()
-        n_regions = self.MAP_SIZE // REGION_SIZE
-        for pos, modified_at in regions.items():
-            if pos in self.cache and modified_at <= self.cache[pos]:
-                continue
-
-            gx = pos[0] // n_regions
-            gz = pos[1] // n_regions
-            groups_to_map.add((gx, gz))
-
-        n_groups = len(groups_to_map)
-        print(f"Groups to map: {n_groups}")
-        proceed = input("Proceed ? y/[N] ")
-        if proceed.strip().lower() == "y":
-            groups_to_map = sorted(groups_to_map, key=lambda g: g[0]*g[0] + g[1]*g[1])
-            for i, (gx, gz) in enumerate(groups_to_map):
-                print(f"[Mapping group ({gx}, {gz}) ({i+1}/{n_groups})]")
-                try:
-                    surf = self.map_region_group(gx, gz)
-
-                    pygame.image.save(surf, os.path.join(self.MAPS_DIR, f"map_{gx}_{gz}.png"))
-                    self.save_cache()
-                except Exception as e:
-                    raise e
-
-
-class FTPConfig:
-    HOST = ""
-    USERNAME = ""
-    PASSWORD = ""
-    DIR = ""
-
-    def __init__(self, path: str):
-        self._path: str = path
-
-        self.load()
-
-    def load(self) -> None:
-        if os.path.exists(self._path):
-            with open(self._path, "r") as f:
-                config = json.load(f)
-
-            self.HOST = config["host"]
-            self.USERNAME = config["username"]
-            self.PASSWORD = config["password"]
-            self.DIR = config["dir"]
-
-    def save(self) -> None:
-        with open(self._path, "w") as f:
-            json.dump({
-                "host": self.HOST,
-                "username": self.USERNAME,
-                "password": self.PASSWORD,
-                "dir": self.DIR
-            }, f, indent=4)
-
-
-if __name__ == '__main__':
-    pygame.init()
-    # x = -1
-    # z = 0
-    with AutoMapper() as mapper:
-        # mapper.get_available_regions()
-        # surf = mapper.map_region_group(x, z)
-        # pygame.image.save(surf, f"/tmp/map_{x}_{z}.png")
-        mapper.map_world()

src/utils/color_calculator.py

@@ -1,244 +0,0 @@
-import json
-import os
-import platform
-import re
-import tempfile
-import zipfile
-
-import pygame
-
-from src.utils.paths import get_project_path, CACHE_DIR
-
-# Textures with these parts will be excluded
-EXCLUDE = {
-    "bottom", "side", "front", "destroy", "on", "tip", "lit", "inner"
-}
-
-# Textures with these names will be copied to their variants (variants listed in `VARIANTS`)
-# Tuples indicate a change of name for variants
-TO_VARIANT = [
-    ("nether_bricks", "nether_brick"),
-    ("nether_bricks", "nether_brick"),
-    ("oak_planks", "oak"),
-    ("spruce_planks", "spruce"),
-    ("birch_planks", "birch"),
-    ("jungle_planks", "jungle"),
-    ("acacia_planks", "acacia"),
-    ("dark_oak_planks", "dark_oak"),
-    ("mangrove_planks", "mangrove"),
-    ("cherry_planks", "cherry"),
-    ("bamboo_mosaic", "bamboo"),
-    ("crimson_planks", "crimson"),
-    ("warped_planks", "warped"),
-    "stone",
-    "cobblestone",
-    "mossy_cobblestone",
-    "smooth_stone",
-    ("stone_bricks", "stone_brick"),
-    ("mossy_stone_bricks", "mossy_stone_brick"),
-    "granite",
-    "polished_granite",
-    "diorite",
-    "polished_diorite",
-    "andesite",
-    "polished_andesite",
-    "cobbled_deepslate",
-    "polished_deepslate",
-    ("deepslate_bricks", "deepslate_brick"),
-    ("deepslate_tiles", "deepslate_tile"),
-    ("bricks", "brick"),
-    ("mud_bricks", "mud_brick"),
-    "sandstone",
-    "smooth_sandstone",
-    "cut_sandstone",
-    "red_sandstone",
-    "smooth_red_sandstone",
-    "cut_red_sandstone",
-    "prismarine",
-    ("prismarine_bricks", "prismarine_brick"),
-    "dark_prismarine",
-    ("red_nether_bricks", "red_nether_brick"),
-    "blackstone",
-    "polished_blackstone",
-    ("polished_blackstone_bricks", "polished_blackstone_brick"),
-    ("end_stone_bricks", "end_stone_brick"),
-    ("purpur_block", "purpur"),
-    ("quartz_block", "quartz"),
-    "smooth_quartz",
-    "cut_copper",
-    "exposed_cut_copper",
-    "weathered_cut_copper",
-    "oxidized_cut_copper",
-    "waxed_cut_copper",
-    "waxed_exposed_cut_copper",
-    "waxed_weathered_cut_copper",
-    "waxed_oxidized_cut_copper",
-]
-
-# Variants of the textures in `TO_VARIANT`
-VARIANTS = [
-    "slab", "stairs",
-    "wall", "fence", "fence_gate",
-    "pressure_plate", "button",
-    "sign", "wall_sign", "hanging_sign", "wall_hanging_sign"
-]
-
-# Colors to copy
-TO_COPY = [
-    ("minecraft:furnace", "minecraft:dropper"),
-    ("minecraft:furnace", "minecraft:dispenser"),
-    ("minecraft:furnace", "minecraft:piston"),
-    ("minecraft:furnace", "minecraft:sticky_piston"),
-    ("minecraft:oak_planks", "minecraft:piston_head"),
-    ("minecraft:oak_planks", "minecraft:sticky_piston_head"),
-    ("minecraft:torch", "minecraft:wall_torch"),
-    ("minecraft:soul_torch", "minecraft:soul_wall_torch"),
-    ("minecraft:redstone_torch", "minecraft:redstone_wall_torch"),
-    ("minecraft:snow", "minecraft:snow_block"),
-    ("minecraft:water", "minecraft:bubble_column"),
-    ("minecraft:sandstone", "minecraft:smooth_sandstone"),
-    ("minecraft:red_sandstone", "minecraft:smooth_red_sandstone"),
-    ("minecraft:quartz_block", "minecraft:smooth_quartz"),
-    ("minecraft:dripstone_block", "minecraft:pointed_dripstone"),
-    ("minecraft:oak_log", "minecraft:oak_wood"),
-    ("minecraft:spruce_log", "minecraft:spruce_wood"),
-    ("minecraft:birch_log", "minecraft:birch_wood"),
-    ("minecraft:acacia_log", "minecraft:acacia_wood"),
-    ("minecraft:jungle_log", "minecraft:jungle_wood"),
-    ("minecraft:cherry_log", "minecraft:cherry_wood"),
-    ("minecraft:mangrove_log", "minecraft:mangrove_wood"),
-    ("minecraft:dark_oak_log", "minecraft:dark_oak_wood"),
-    ("minecraft:stripped_oak_log", "minecraft:stripped_oak_wood"),
-    ("minecraft:stripped_spruce_log", "minecraft:stripped_spruce_wood"),
-    ("minecraft:stripped_birch_log", "minecraft:stripped_birch_wood"),
-    ("minecraft:stripped_acacia_log", "minecraft:stripped_acacia_wood"),
-    ("minecraft:stripped_jungle_log", "minecraft:stripped_jungle_wood"),
-    ("minecraft:stripped_cherry_log", "minecraft:stripped_cherry_wood"),
-    ("minecraft:stripped_mangrove_log", "minecraft:stripped_mangrove_wood"),
-    ("minecraft:stripped_dark_oak_log", "minecraft:stripped_dark_oak_wood"),
-    ("minecraft:magma", "minecraft:magma_block"),
-    ("minecraft:cut_copper", "minecraft:waxed_cut_copper"),
-    ("minecraft:exposed_cut_copper", "minecraft:waxed_exposed_cut_copper"),
-    ("minecraft:weathered_cut_copper", "minecraft:waxed_weathered_cut_copper"),
-    ("minecraft:oxidized_cut_copper", "minecraft:waxed_oxidized_cut_copper"),
-    ("minecraft:iron_block", "minecraft:heavy_weighted_pressure_plate"),
-    ("minecraft:gold_block", "minecraft:light_weighted_pressure_plate"),
-    ("minecraft:bricks", "minecraft:flower_pot"),
-    ("minecraft:oak_log", "minecraft:campfire"),
-    ("minecraft:oak_log", "minecraft:soul_campfire"),
-    ("minecraft:moss_block", "minecraft:moss_carpet"),
-    ("minecraft:stone", "minecraft:infested_stone"),
-    ("minecraft:cobblestone", "minecraft:infested_cobblestone"),
-    ("minecraft:stone_bricks", "minecraft:infested_stone_bricks"),
-    ("minecraft:mossy_stone_bricks", "minecraft:infested_mossy_stone_bricks"),
-    ("minecraft:chiseled_stone_bricks", "minecraft:infested_chiseled_stone_bricks"),
-    ("minecraft:deepslate", "minecraft:infested_deepslate"),
-    ("minecraft:infested_stone_bricks", "minecraft:cracked_infested_stone_bricks"),
-    ("minecraft:cauldron", "minecraft:water_cauldron"),
-    ("minecraft:cauldron", "minecraft:lava_cauldron"),
-    ("minecraft:cauldron", "minecraft:powder_snow_cauldron"),
-]
-
-# Wool colors
-WOOLS = [
-    "red", "blue", "cyan", "gray",
-    "lime", "pink", "black", "brown",
-    "green", "white", "orange", "purple",
-    "yellow", "magenta", "light_blue", "light_gray"
-]
-
-# Wool variants
-WOOL_VARIANTS = [
-    "carpet", "bed", "banner", "wall_banner"
-]
-
-# These will be removed from the textures' names
-TO_STRIP = ["_top", "_stalk", "_end", "_round", "_still"]
-
-# Minecraft version
-MC_VERSION = "1.20.1"
-
-# Minecraft root directory (platform dependent)
-MC_ROOT = os.path.expanduser({
-    "Linux": r"~/.minecraft",
-    "Darwin": r"~/Library/Application Support/minecraft",
-    "Windows": r"%APPDATA%\.minecraft"
-}[platform.system()])
-
-
-def extract_textures(jar_path: str, outdir: str) -> None:
-    with zipfile.ZipFile(jar_path) as f:
-        for info in f.infolist():
-            path = info.filename
-            if not re.match(r"^assets/minecraft/textures/block/[^/]+\.png$", path):
-                continue
-            info.filename = os.path.basename(path)
-            f.extract(info, outdir)
-
-
-def main() -> None:
-    print(f"[1/5] Extracting Minecraft {MC_VERSION} textures")
-    jar_path = os.path.join(MC_ROOT, "versions", MC_VERSION, f"{MC_VERSION}.jar")
-
-    if not os.path.exists(jar_path):
-        print(f"Couldn't find Minecraft {MC_VERSION} JAR file")
-        print(f"Not at {jar_path}")
-        return None
-
-    workdir = tempfile.TemporaryDirectory()
-    extract_textures(jar_path, workdir.name)
-
-    pygame.init()
-    pygame.display.set_mode((1, 1), pygame.NOFRAME | pygame.HIDDEN)
-
-    colors = {}
-    paths = os.listdir(workdir.name)
-    total = len(paths)
-    skipped = 0
-    print("[2/5] Averaging textures")
-    for i, filename in enumerate(paths):
-        print(f"\r{i+1}/{total} ({i/total*100:.2f}%) {filename}", end="")
-        block, ext = filename.rsplit(".", 1)
-        parts = set(block.split("_"))
-        if not parts.isdisjoint(EXCLUDE):
-            skipped += 1
-            continue
-
-        for s in TO_STRIP:
-            block = block.replace(s, "")
-        img = pygame.image.load(os.path.join(workdir.name, filename)).convert_alpha()
-        color = pygame.transform.average_color(img, consider_alpha=True)
-        color = color[:3]
-        colors[f"minecraft:{block}"] = color
-
-    print(f"\r{total}/{total} (100%) Finished")
-    print(f"Skipped {skipped} files")
-
-    print("[3/5] Applying overrides")
-    with open(get_project_path("res", "color_overrides.json"), "r") as f:
-        overrides = json.load(f)
-    colors.update(overrides)
-
-    print("[4/5] Generating variants")
-    for to_variant in TO_VARIANT:
-        src = to_variant[0] if isinstance(to_variant, tuple) else to_variant
-        dst = to_variant[1] if isinstance(to_variant, tuple) else to_variant
-
-        for variant in VARIANTS:
-            TO_COPY.append((f"minecraft:{src}", f"minecraft:{dst}_{variant}"))
-
-    for color in WOOLS:
-        for variant in WOOL_VARIANTS:
-            TO_COPY.append((f"minecraft:{color}_wool", f"minecraft:{color}_{variant}"))
-
-    for src, dst in TO_COPY:
-        colors[dst] = colors[src]
-
-    print("[5/5] Exporting colors")
-    outpath = os.path.join(CACHE_DIR, "colors.json")
-    with open(outpath, "w") as f:
-        json.dump(colors, f, indent=4)
-
-
-if __name__ == '__main__':
-    main()

src/utils/minecraft/block.py

@@ -1,19 +0,0 @@
-from typing import Optional
-
-from nbt.nbt import TAG
-
-
-class Block:
-    def __init__(self,
-                 name: str,
-                 nbt: Optional[TAG] = None,
-                 tile_entity: Optional[TAG] = None,
-                 x: int = 0,
-                 y: int = 0,
-                 z: int = 0):
-        self.name: str = name
-        self.nbt: Optional[TAG] = nbt
-        self.tile_entity: Optional[TAG] = tile_entity
-        self.x: int = x
-        self.y: int = y
-        self.z: int = z

src/utils/minecraft/chunk.py

@@ -1,138 +0,0 @@
-from typing import Optional
-
-import numpy as np
-from nbt.nbt import NBTFile, TAG_Compound, TAG_String
-
-
-class PositionOutOfBounds(ValueError):
-    pass
-
-
-class BlockNotFound(Exception):
-    pass
-
-
-class ChunkBase:
-    def __init__(self, x: int, z: int):
-        self.x: int = x
-        self.z: int = z
-
-
-class Chunk(ChunkBase):
-    def __init__(self, x: int, z: int, nbt: NBTFile):
-        super().__init__(x, z)
-
-        self.ox: int = x * 16
-        self.oy: int = nbt.get("yPos").value * 16
-        self.oz: int = z * 16
-
-        self.nbt: NBTFile = nbt
-
-        self.palettes: list[list[TAG_Compound]] = []
-        self.blockstates: list[list[int]] = []
-        self.biome_palettes: list[list[TAG_String]] = []
-        self.biomes: list[list[int]] = []
-        self.get_sections()
-
-    def get_sections(self) -> None:
-        self.palettes = []
-        self.blockstates = []
-        self.biome_palettes = []
-        self.biomes = []
-        sections = self.nbt.get("sections")
-        for s in range(1, len(sections)-1):
-            section = sections[s]
-            bs_tag = section.get("block_states")
-            self.palettes.append(list(bs_tag.get("palette")))
-            bs = bs_tag.get("data")
-            self.blockstates.append([] if bs is None else list(bs))
-            biomes_tag = section.get("biomes")
-            self.biome_palettes.append(list(biomes_tag.get("palette")))
-            biomes = biomes_tag.get("data")
-            self.biomes.append([] if biomes is None else list(biomes))
-
-    def get_block(self, x: int, y: int, z: int) -> Optional[tuple[str, str]]:
-        if 0 <= x < 16 and 0 <= z < 16:
-            section_i = y // 16 + 4
-            oy = y // 16 * 16
-            palette = self.palettes[section_i - 1]
-            blockstates = self.blockstates[section_i - 1]
-            biome_palette = self.biome_palettes[section_i - 1]
-            biomes = self.biomes[section_i - 1]
-            if blockstates is None or len(blockstates) == 0:
-                return palette[0].get("Name").value, biome_palette[0].value
-
-            rel_y = y - oy
-            block_bits = max((len(palette) - 1).bit_length(), 4)
-            state = self.get_from_long_array(blockstates, block_bits, x, rel_y, z)
-            block = palette[state]
-            if len(biome_palette) == 1:
-                biome_state = 0
-            else:
-                biome_bits = (len(biome_palette) - 1).bit_length()
-                biome_state = self.get_from_long_array(biomes, biome_bits, x // 4, rel_y // 4, z // 4, 4)
-            biome = biome_palette[biome_state]
-            return block.get("Name").value, biome.value
-
-        else:
-            raise PositionOutOfBounds(f"Coordinates x and z should be in range [0:16[")
-
-    def get_from_long_array(self, long_array, bits, x, y, z, size=16) -> int:
-        ids_per_long = 64 // bits
-        block_i = y * size * size + z * size + x
-        long_i = block_i // ids_per_long
-        long_val = long_array[long_i]
-        if long_val < 0:
-            long_val += 2**64
-
-        bit_i = (block_i % ids_per_long) * bits
-        value = (long_val >> bit_i) & ((1 << bits) - 1)
-        return value
-
-    def get_top_blocks(self) -> tuple[list[list[str]], np.array, np.array, bool]:
-        blocks = [[] for _ in range(16)]
-        heightmap_shadow = np.zeros((16, 16), dtype="uint16")
-        heightmap = np.zeros((16, 16), dtype="uint16")
-        biomes = [["minecraft:plains"]*16 for _ in range(16)]
-        heightmap_shadow_longs = self.nbt.get("Heightmaps").get("MOTION_BLOCKING")
-        heightmap_longs = self.nbt.get("Heightmaps").get("WORLD_SURFACE")
-        if heightmap_longs is None:
-            return [["minecraft:air"]*16 for _ in range(16)], heightmap_shadow, biomes, True
-        heightmap_shadow_longs = heightmap_shadow_longs.value
-        heightmap_longs = heightmap_longs.value
-
-        i = 0
-        for z in range(16):
-            for x in range(16):
-                # i = z * 16 + x
-                long_i = i // 7
-                long1_val = heightmap_shadow_longs[long_i]
-                long2_val = heightmap_longs[long_i]
-                bit_i = (i % 7) * 9
-                height_shadow = (long1_val >> bit_i) & 0b1_1111_1111
-                height = (long2_val >> bit_i) & 0b1_1111_1111
-
-                heightmap_shadow[z, x] = height_shadow
-                heightmap[z, x] = height
-                y = self.oy + height - 1
-                if height == 0:
-                    block = "minecraft:air"
-                    biome = "minecraft:plains"
-                else:
-                    block, biome = self.get_block(x, y, z)
-                blocks[z].append(block)
-                biomes[z][x] = biome
-
-                i += 1
-
-        return blocks, heightmap_shadow, biomes, False
-
-
-class OldChunk(ChunkBase):
-    def __init__(self, x: int, z: int, data_version: int):
-        super().__init__(x, z)
-        self.data_version: int = data_version
-
-
-class MalformedChunk(ChunkBase):
-    pass

src/utils/minecraft/region.py

@@ -1,77 +0,0 @@
-import zlib
-from typing import Optional
-
-import nbt
-
-from src.utils.minecraft.chunk import Chunk, ChunkBase, MalformedChunk, OldChunk
-
-
-def to_int(bytes_):
-    return int.from_bytes(bytes_, byteorder="big")
-
-
-class Region:
-    DATA_VERSION = 3465
-
-    def __init__(self, filepath):
-        self.file = open(filepath, "rb")
-
-        self.locations: list[tuple[int, int]] = self.get_locations()
-        self.timestamps: list[int] = self.get_timestamps()
-
-        self.chunks = {}
-
-    def get_locations(self) -> list[tuple[int, int]]:
-        self.file.seek(0)
-        locations = []
-
-        for c in range(1024):
-            offset = to_int(self.file.read(3))
-            length = to_int(self.file.read(1))
-            locations.append((offset, length))
-
-        return locations
-
-    def get_chunk(self, x, z) -> ChunkBase:
-        if (x, z) in self.chunks.keys():
-            return self.chunks[(x, z)]
-
-        loc = self.locations[(x % 32) + (z % 32) * 32]
-
-        self.file.seek(loc[0] * 4096)
-        length = to_int(self.file.read(4))
-        compression = to_int(self.file.read(1))
-        data = self.file.read(length-1)
-
-        if compression == 2:
-            try:
-                data = zlib.decompress(data)
-            except zlib.error:
-                return MalformedChunk(x, z)
-
-        else:
-            # print(f"{compression} is not a valid compression type")
-            return MalformedChunk(x, z)
-
-        chunk = nbt.nbt.NBTFile(buffer=nbt.chunk.BytesIO(data))
-        data_version = chunk.get("DataVersion").value
-        if data_version != self.DATA_VERSION:
-            print(f"\r    Invalid data version {data_version} for chunk ({x},{z})", end="")
-            return OldChunk(x, z, data_version)
-
-        chunk = Chunk(x, z, chunk)
-        self.chunks[(x, z)] = chunk
-
-        return chunk
-
-    def get_timestamps(self) -> list[int]:
-        return []
-
-    def get_block(self, x: int, y: int, z: int) -> Optional[str]:
-        chunk_x, chunk_z = x//16, z//16
-        x_rel, z_rel = x % 16, z % 16
-
-        chunk = self.get_chunk(chunk_x, chunk_z)
-        if not isinstance(chunk, Chunk):
-            return None
-        return chunk.get_block(x_rel, y, z_rel)

src/utils/paths.py

@@ -1,14 +0,0 @@
-import os.path
-
-import platformdirs
-
-
-APP_NAME = "lycacraft-paths"
-APP_AUTHOR = "lycacraft"
-CACHE_DIR = platformdirs.user_cache_dir(appname=APP_NAME, appauthor=APP_AUTHOR, ensure_exists=True)
-CONFIG_DIR = platformdirs.user_config_dir(appname=APP_NAME, appauthor=APP_AUTHOR, ensure_exists=True)
-ROOT = os.path.abspath(os.path.join(os.path.dirname(__file__), os.pardir, os.pardir))
-
-
-def get_project_path(*elmts: str) -> str:
-    return os.path.join(ROOT, *elmts)

utils/dijkstra.py

@@ -0,0 +1,88 @@
+from math import inf
+from typing import Iterator, Optional
+
+
+class Node:
+    def __init__(self, x: int, y: int):
+        self.x: int = x
+        self.y: int = y
+
+
+class Edge:
+    def __init__(self, start: int, end: int, length: float):
+        self.length: float = length
+        self.start: int = start
+        self.end: int = end
+
+
+class Graph:
+    def __init__(self):
+        self.edges: list[Edge] = []
+        self.nodes: list[Node] = []
+
+    def add_node(self, x: int, y: int) -> None:
+        self.nodes.append(Node(x, y))
+
+    def add_edge(self, start_index: int, end_index: int, length: float) -> None:
+        self.edges.append(Edge(start_index, end_index, length))
+
+    def edges_adjacent_to(self, node_i: int) -> Iterator[Edge]:
+        return filter(lambda e: e.start == node_i or e.end == node_i, self.edges)
+
+    def dijkstra(self, source_index: int, target_index: int) -> Optional[list[int]]:
+        n = len(self.nodes)
+
+        if source_index < 0 or source_index >= n:
+            return None
+
+        if target_index < 0 or target_index >= n:
+            return None
+
+        unvisited = list(range(n))
+
+        distances_from_start = [inf] * n
+        distances_from_start[source_index] = 0
+
+        node_sequences = [[] for _ in range(n)]
+        node_sequences[source_index] = [source_index]
+
+        while True:
+            current_index = min(unvisited, key=lambda i: distances_from_start[i])
+
+            if current_index == target_index:
+                break
+
+            unvisited.remove(current_index)
+
+            for edge in self.edges_adjacent_to(current_index):
+                start = current_index
+                end = edge.end if edge.start == current_index else edge.start
+
+                if end in unvisited and distances_from_start[end] > distances_from_start[start] + edge.length:
+                    distances_from_start[end] = distances_from_start[start] + edge.length
+                    node_sequences[end] = node_sequences[start].copy()
+                    node_sequences[end].append(end)
+
+        return node_sequences[target_index]
+
+
+def main() -> None:
+    graph = Graph()
+
+    graph.add_node(1, 2)
+    graph.add_node(4, 7)
+    graph.add_node(3, 1)
+    graph.add_node(-2, 0)
+    graph.add_node(0, 0)
+
+    graph.add_edge(0, 1, 1)
+    graph.add_edge(1, 2, 2)
+    graph.add_edge(2, 3, 3)
+    graph.add_edge(3, 0, 1)
+    graph.add_edge(1, 3, 3)
+
+    print(graph.dijkstra(0, 3))
+
+
+if __name__ == "__main__":
+    main()

utils/map_splitter.py

@@ -8,13 +8,12 @@ Image.MAX_IMAGE_PIXELS = 200000000
 MAP_SIZE = 1024
 DEFAULT_PATH = os.path.join(platformdirs.user_cache_dir(appname="lycacraft-paths", appauthor="Lycacraft"), "maps")
 
-
 def clamp(mn, value, mx):
     return max(mn, min(mx, value))
 
 
 def main():
-    # src/utils/2024-06-27_21.01.45_Lycacraft_minecraft~overworld_day.png
+    # utils/2024-06-27_21.01.45_Lycacraft_minecraft~overworld_day.png
     # 6144,10240
     input_path = input("Input image: ")
     output_path = input(f"Output dir (default: {DEFAULT_PATH}): ")