Podział na pliki, jednostki domów i wysypiska, klasa agenta, nowe tilesy

2023-03-26 19:44:34 +02:00 · 2023-03-26 19:44:34 +02:00 · b1450df77c
commit b1450df77c
parent 42e9eb9e8b
5 changed files with 263 additions and 203 deletions
--- a/res/map.txt
+++ b/res/map.txt
@ -1,13 +1,14 @@
-LRRRRRRRRRRRRRRRRR---R---
---R------R------R---RRR-
---R------R------R---R---
-RRRR------RRRRRRRRRRRR---
-R--R-------------R-------
-R--RRRRRRRRRRRRRRRH------
-R--R---R---R-----R-------
-R--R---R---R-----RRRRRRR-
-R--R-------------R-------
-R--R-----R----R--R-------
-R--R-----R----R--R-------
-RRRRRRRRRRRRRRRRRRRRRRR--
-------------------------
+MP------------------------
+ORRRRRRRRRRRRRRRRRR---R---
+SZ--R------R------R---RRR-
+----R------R------R---R---
+-RRRR------RRRRRRRRRRRR---
+-R--R-------------R-------
+-R--RRRRRRRRRRRRRRRH------
+-R--R---R---RH----R-------
+-R--R---R---RH----RRRRRRR-
+-R--R-------H-----R-------
+-R--R-----R----R--R-------
+-R--R-----R----R--R-------
+-RRRRRRRRRRRRRRRRRRRRRRR--
+--------------------------
--- a/res/tiles.png
+++ b/res/tiles.png
--- a/src/agent.py
+++ b/src/agent.py
@ -0,0 +1,6 @@
+class Agent:
+    def __init__(self):
+        graph = []
+
+    def inform(self, coordinate_set):
+        pass
--- a/src/main.py
+++ b/src/main.py
@ -1,191 +1,7 @@
-from pathlib import Path
-import pygame as pg
-from random import randint
+from simulation import *
+from agent import *

-
-class Entity:
-    def __init__(self, state, position, tile):
-        self.state = state
-        self.position = position
-        self.tile = tile
-
-    def move(self, move_vector):
-        raise NotImplementedError()
-
-
-class Agent(Entity):
-    def move(self, move_vector):
-        proposed_pos = self.position + move_vector
-        move_valid = True
-
-        if proposed_pos != self.state.landfill_pos and proposed_pos not in self.state.roads_pos:
-            move_valid = False
-        if proposed_pos.x < 0 or proposed_pos.x >= self.state.world_limits.x:
-            move_valid = False
-        if proposed_pos.y < 0 or proposed_pos.y >= self.state.world_limits.y:
-            move_valid = False
-
-        if move_valid:
-            self.position = proposed_pos
-
-
-class SimulationState:
-    def __init__(self):
-        self.landfill_pos = []
-        self.roads_pos = []
-        self.houses_pos = []
-
-        map_path = Path("../res/map.txt")
-        with open(map_path, "r") as map_file:
-            map_data = map_file.readlines()
-            max_x = len(map_data[0].replace('\n', ''))
-            max_y = len(map_data)
-            for y in range(0, max_y):
-                for x in range(0, max_x):
-                    tile = map_data[y].replace('\n', '')[x]
-
-                    if tile == "L":
-                        self.landfill_pos.append(pg.Vector2(x, y))
-                    if tile == "R":
-                        self.roads_pos.append(pg.Vector2(x, y))
-                    if tile == "H":
-                        self.houses_pos.append(pg.Vector2(x, y))
-        self.world_limits = pg.Vector2(max_x, max_y)
-
-        self.entities = [Agent(self, self.landfill_pos[0], pg.Vector2(2, 0))]
-
-    def update(self, move_agent):
-        for entity in self.entities:
-            entity.move(move_agent)
-
-
-class Layer:
-    def __init__(self, sim, texture_file):
-        self.sim = sim
-        self.texture_atlas = pg.image.load(texture_file)
-
-    def renderTile(self, surface, position, tile):
-        # pozycja na ekranie
-        sprite_pos = position.elementwise() * self.sim.cell_size
-
-        # tekstura
-        pos_in_atlas = tile.elementwise() * self.sim.cell_size
-        texture = pg.Rect(int(pos_in_atlas.x),
-                          int(pos_in_atlas.y),
-                          self.sim.cell_size.x,
-                          self.sim.cell_size.y)
-
-        # render
-        surface.blit(self.texture_atlas, sprite_pos, texture)
-
-    def render(self, surface):
-        raise NotImplementedError()
-
-
-class EntityLayer(Layer):
-    def __init__(self, sim, texture_file, simulation_state, entities):
-        super().__init__(sim, texture_file)
-        self.simulation_state = simulation_state
-        self.entities = entities
-
-    def render(self, surface):
-        for entity in self.entities:
-            self.renderTile(surface, entity.position, entity.tile)
-
-
-class StructureLayer(Layer):
-    def __init__(self, sim, texture_file, simulation_state, structures_pos, tile):
-        super().__init__(sim, texture_file)
-        self.simulation_state = simulation_state
-        self.structures_pos = structures_pos
-        self.tile = tile
-
-    def render(self, surface):
-        for position in self.structures_pos:
-            self.renderTile(surface, position, self.tile)
-
-
-class Interface:
-    def __init__(self):
-        pg.init()
-
-        # stan symulacji
-        self.simulation_state = SimulationState()
-        self.move_agent = pg.Vector2(0, 0)
-
-        # rendering
-        self.cell_size = pg.Vector2(64, 64)
-        texture_file = Path("../res/tiles.png")
-        self.layers = [StructureLayer(self, texture_file, self.simulation_state, self.simulation_state.landfill_pos, pg.Vector2(3, 0)),
-                       StructureLayer(self, texture_file, self.simulation_state, self.simulation_state.roads_pos, pg.Vector2(0, 0)),
-                       StructureLayer(self, texture_file, self.simulation_state, self.simulation_state.houses_pos, pg.Vector2(1, 0)),
-                       EntityLayer(self, texture_file, self.simulation_state, self.simulation_state.entities)]
-
-        # okno
-        pg.display.set_caption("Inteligentna śmieciarka")
-        window_size = self.simulation_state.world_limits.elementwise() * self.cell_size
-        self.window = pg.display.set_mode((int(window_size.x), int(window_size.y)))
-        self.simulation_state.world_limits.elementwise() * self.cell_size
-
-        # dla pętli
-        self.clock = pg.time.Clock()
-        self.run_simulation = True
-
-        self.debug_mode = False
-
-    def processUserInput(self):
-        self.move_agent = pg.Vector2(0, 0)
-
-        for event in pg.event.get():
-            if event.type == pg.QUIT:
-                self.run_simulation = False
-                break
-            elif event.type == pg.KEYDOWN:
-                if event.key == pg.K_ESCAPE:
-                    self.run_simulation = False
-                    break
-                if event.key == pg.K_BACKQUOTE:
-                    self.debug_mode = not self.debug_mode
-
-                if self.debug_mode:
-                    if event.key == pg.K_RIGHT:
-                        self.move_agent.x = 1
-                    if event.key == pg.K_LEFT:
-                        self.move_agent.x = -1
-                    if event.key == pg.K_DOWN:
-                        self.move_agent.y = 1
-                    if event.key == pg.K_UP:
-                        self.move_agent.y = -1
-
-    def processSimulationInput(self):
-        moves = [pg.Vector2(-1, 0), pg.Vector2(1, 0), pg.Vector2(0, -1), pg.Vector2(0, 1)]
-
-        self.move_agent = moves[randint(0,3)]
-
-    def update(self):
-        self.simulation_state.update(self.move_agent)
-
-    def render(self):
-        if not self.debug_mode:
-            self.window.fill((8, 68, 0))
-        else:
-            self.window.fill((68, 8, 0))
-
-        for layer in self.layers:
-            layer.render(self.window)
-
-        pg.display.update()
-
-    def loop(self):
-        while self.run_simulation:
-            self.processUserInput()
-            if not self.debug_mode:
-                self.processSimulationInput()
-            self.update()
-            self.render()
-            self.clock.tick(24)
-        pg.quit()
-
-
-simulation = Interface()
-simulation.loop()
+if __name__ == "__main__":
+    agent = Agent()
+    simulation = Interface(agent)
+    simulation.loop()
--- a/src/simulation.py
+++ b/src/simulation.py
@ -0,0 +1,237 @@
+from pathlib import Path
+import pygame as pg
+from random import randint
+
+ROAD_SPRITE = pg.Vector2(0, 0)
+
+HOUSE_WITHOUT_TRASH_SPRITE = pg.Vector2(1, 0)
+HOUSE_WITH_TRASH_SPRITE = pg.Vector2(1, 1)
+HOUSE_SPRITES = {0: HOUSE_WITHOUT_TRASH_SPRITE,
+                 1: HOUSE_WITH_TRASH_SPRITE}
+
+TRUCK_SPRITE = pg.Vector2(2, 0)
+
+PAPER_DUMP_SPRITE = pg.Vector2(3, 0)
+PLASTIC_DUMP_SPRITE = pg.Vector2(3, 1)
+GLASS_DUMP_SPRITE = pg.Vector2(3, 2)
+MIXED_DUMP_SPRITE = pg.Vector2(3, 3)
+DUMP_SPRITES = {'paper': PAPER_DUMP_SPRITE,
+                'glass': GLASS_DUMP_SPRITE,
+                'plastic': PLASTIC_DUMP_SPRITE,
+                'mixed': MIXED_DUMP_SPRITE}
+
+
+class Entity:
+    def __init__(self, state, position):
+        self.state = state
+        self.position = position
+
+
+class TruckEntity(Entity):
+    def __init__(self, state, position):
+        super().__init__(state, position)
+        self.tile = TRUCK_SPRITE
+
+    def move(self, move_vector):
+        proposed_pos = self.position + move_vector
+        move_valid = True
+
+        if proposed_pos not in self.state.roads_pos:
+            move_valid = False
+        if proposed_pos.x < 0 or proposed_pos.x >= self.state.world_limits.x:
+            move_valid = False
+        if proposed_pos.y < 0 or proposed_pos.y >= self.state.world_limits.y:
+            move_valid = False
+
+        if move_valid:
+            self.position = proposed_pos
+
+
+class HouseEntity(Entity):
+    def __init__(self, state, position):
+        super().__init__(state, position)
+        self.tile = HOUSE_SPRITES[0]
+
+
+class DumpEntity(Entity):
+    def __init__(self, state, position, trash_type):
+        super().__init__(state, position)
+        self.tile = DUMP_SPRITES[trash_type]
+
+
+class SimulationState:
+    def __init__(self):
+        self.roads_pos = []
+        self.houses_pos = []
+        self.entities = []
+
+        map_path = Path("../res/map.txt")
+        with open(map_path, "r") as map_file:
+            map_data = map_file.readlines()
+            max_x = len(map_data[0].replace('\n', ''))
+            max_y = len(map_data)
+            for y in range(0, max_y):
+                for x in range(0, max_x):
+                    tile = map_data[y].replace('\n', '')[x]
+
+                    if tile == "O":
+                        self.truck_origin = pg.Vector2(x, y)
+                        self.entities.append(TruckEntity(self, self.truck_origin))
+                        self.roads_pos.append(pg.Vector2(x, y))
+                    if tile == "R":
+                        self.roads_pos.append(pg.Vector2(x, y))
+                    if tile == "H":
+                        self.houses_pos.append(pg.Vector2(x, y))
+                        self.entities.append(HouseEntity(self, pg.Vector2(x, y)))
+                    if tile == "M":
+                        self.paper_dump_pos = pg.Vector2(x, y)
+                        self.entities.append(DumpEntity(self, pg.Vector2(x, y), 'paper'))
+                    if tile == "P":
+                        self.plastic_dump_pos = pg.Vector2(x, y)
+                        self.entities.append(DumpEntity(self, pg.Vector2(x, y), 'plastic'))
+                    if tile == "S":
+                        self.glass_dump_pos = pg.Vector2(x, y)
+                        self.entities.append(DumpEntity(self, pg.Vector2(x, y), 'glass'))
+                    if tile == "Z":
+                        self.mixed_dump_pos = pg.Vector2(x, y)
+                        self.entities.append(DumpEntity(self, pg.Vector2(x, y), 'mixed'))
+
+        self.world_limits = pg.Vector2(max_x, max_y)
+
+    def update(self, move_agent):
+        for entity in self.entities:
+            if entity.__class__ is TruckEntity:
+                entity.move(move_agent)
+                break
+
+
+class Layer:
+    def __init__(self, sim, texture_file):
+        self.sim = sim
+        self.texture_atlas = pg.image.load(texture_file)
+
+    def renderTile(self, surface, position, tile):
+        # pozycja na ekranie
+        sprite_pos = position.elementwise() * self.sim.cell_size
+
+        # tekstura
+        pos_in_atlas = tile.elementwise() * self.sim.cell_size
+        texture = pg.Rect(int(pos_in_atlas.x),
+                          int(pos_in_atlas.y),
+                          self.sim.cell_size.x,
+                          self.sim.cell_size.y)
+
+        # render
+        surface.blit(self.texture_atlas, sprite_pos, texture)
+
+    def render(self, surface):
+        raise NotImplementedError()
+
+
+class EntityLayer(Layer):
+    def __init__(self, sim, texture_file, simulation_state, entities):
+        super().__init__(sim, texture_file)
+        self.simulation_state = simulation_state
+        self.entities = entities
+
+    def render(self, surface):
+        for entity in self.entities:
+            self.renderTile(surface, entity.position, entity.tile)
+
+
+class StructureLayer(Layer):
+    def __init__(self, sim, texture_file, simulation_state, structures_pos, tile):
+        super().__init__(sim, texture_file)
+        self.simulation_state = simulation_state
+        self.structures_pos = structures_pos
+        self.tile = tile
+
+    def render(self, surface):
+        for position in self.structures_pos:
+            self.renderTile(surface, position, self.tile)
+
+
+class Interface:
+    def __init__(self, agent):
+        pg.init()
+
+        # autonomiczny agent
+        self.agent = agent
+
+        # stan symulacji
+        self.simulation_state = SimulationState()
+        self.move_agent = pg.Vector2(0, 0)
+
+        # rendering
+        self.cell_size = pg.Vector2(64, 64)
+        texture_file = Path("../res/tiles.png")
+        self.layers = [StructureLayer(self, texture_file, self.simulation_state,
+                                      self.simulation_state.roads_pos, ROAD_SPRITE),
+                       EntityLayer(self, texture_file, self.simulation_state,
+                                   self.simulation_state.entities)]
+
+        # okno
+        pg.display.set_caption("Inteligentna śmieciarka")
+        window_size = self.simulation_state.world_limits.elementwise() * self.cell_size
+        self.window = pg.display.set_mode((int(window_size.x), int(window_size.y)))
+        self.simulation_state.world_limits.elementwise() * self.cell_size
+
+        # dla pętli
+        self.clock = pg.time.Clock()
+        self.run_simulation = True
+
+        self.debug_mode = False
+
+    def processUserInput(self):
+        self.move_agent = pg.Vector2(0, 0)
+
+        for event in pg.event.get():
+            if event.type == pg.QUIT:
+                self.run_simulation = False
+                break
+            elif event.type == pg.KEYDOWN:
+                if event.key == pg.K_ESCAPE:
+                    self.run_simulation = False
+                    break
+                if event.key == pg.K_BACKQUOTE:
+                    self.debug_mode = not self.debug_mode
+
+                if self.debug_mode:
+                    if event.key == pg.K_RIGHT:
+                        self.move_agent.x = 1
+                    if event.key == pg.K_LEFT:
+                        self.move_agent.x = -1
+                    if event.key == pg.K_DOWN:
+                        self.move_agent.y = 1
+                    if event.key == pg.K_UP:
+                        self.move_agent.y = -1
+
+    def processAgentInput(self):
+        moves = [pg.Vector2(-1, 0), pg.Vector2(1, 0), pg.Vector2(0, -1), pg.Vector2(0, 1)]
+
+        self.move_agent = moves[randint(0, 3)]
+
+    def update(self):
+        self.simulation_state.update(self.move_agent)
+
+    def render(self):
+        if not self.debug_mode:
+            self.window.fill((89, 183, 53))
+        else:
+            self.window.fill((180, 32, 42))
+
+        for layer in self.layers:
+            layer.render(self.window)
+
+        pg.display.update()
+
+    def loop(self):
+        self.agent.inform(set())
+        while self.run_simulation:
+            self.processUserInput()
+            if not self.debug_mode:
+                self.processAgentInput()
+            self.update()
+            self.render()
+            self.clock.tick(24)
+        pg.quit()