# -*- coding: utf-8 -*- # characters.py - module for hero and enemy classes # This file is part of brutalmaze # # brutalmaze is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # brutalmaze is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with brutalmaze. If not, see . # # Copyright (C) 2017 Nguyễn Gia Phong __doc__ = 'brutalmaze module for hero and enemy classes' from collections import deque from math import atan, atan2, sin, pi from random import choice, randrange, shuffle from sys import modules import pygame from .constants import * from .utils import sign, cosin, randsign, regpoly, fill_aapolygon, choices from .weapons import Bullet class Hero: """Object representing the hero. Attributes: surface (pygame.Surface): the display to draw on x, y (int): coordinates of the center of the hero (in pixels) angle (float): angle of the direction the hero pointing (in radians) color (tuple of pygame.Color): colors of the hero on different HPs R (int): circumradius of the regular triangle representing the hero next_heal (int): the tick that the hero gains back healing ability next_strike (int): the tick that the hero can do the next attack slashing (bool): flag indicates if the hero is doing close-range attack firing (bool): flag indicates if the hero is doing long-range attack dead (bool): flag indicates if the hero is dead spin_speed (float): speed of spinning (in frames per slash) spin_queue (float): frames left to finish spinning wound (float): amount of wound """ def __init__(self, surface, fps): self.surface = surface w, h = self.surface.get_width(), self.surface.get_height() self.x, self.y = w >> 1, h >> 1 self.angle, self.color = pi / 4, TANGO['Aluminium'] self.R = (w * h / sin(pi*2/3) / 624) ** 0.5 self.next_heal = self.next_strike = 0 self.slashing = self.firing = self.dead = False self.spin_speed = fps / HERO_HP self.spin_queue = self.wound = 0.0 self.sfx_shot = pygame.mixer.Sound(SFX_SHOT_HERO) def update(self, fps): """Update the hero.""" if self.dead: self.spin_queue = 0 return old_speed, time = self.spin_speed, pygame.time.get_ticks() self.spin_speed = fps / (HERO_HP-self.wound**0.5) self.spin_queue *= self.spin_speed / old_speed if time > self.next_heal: self.wound -= HEAL_SPEED / self.spin_speed / HERO_HP if self.wound < 0: self.wound = 0.0 if self.slashing and time >= self.next_strike: self.next_strike = time + ATTACK_SPEED self.spin_queue = randsign() * self.spin_speed if abs(self.spin_queue) > 0.5: self.angle += sign(self.spin_queue) * pi / 2 / self.spin_speed self.spin_queue -= sign(self.spin_queue) else: # Follow the mouse cursor x, y = pygame.mouse.get_pos() self.angle = atan2(y - self.y, x - self.x) self.spin_queue = 0.0 trigon = regpoly(3, self.R, self.angle, self.x, self.y) fill_aapolygon(self.surface, trigon, self.color[int(self.wound)]) def resize(self): """Resize the hero.""" w, h = self.surface.get_width(), self.surface.get_height() self.x, self.y = w >> 1, h >> 1 self.R = (w * h / sin(pi*2/3) / 624) ** 0.5 class Enemy: """Object representing an enemy. Attributes: maze (Maze): the maze x, y (int): coordinates of the center of the enemy (in grids) angle (float): angle of the direction the enemy pointing (in radians) color (str): enemy's color name awake (bool): flag indicates if the enemy is active next_strike (int): the tick that the enemy can do the next attack move_speed (float): speed of movement (in frames per grid) offsetx, offsety (integer): steps moved from the center of the grid spin_speed (float): speed of spinning (in frames per slash) spin_queue (float): frames left to finish spinning wound (float): amount of wound """ def __init__(self, maze, x, y, color): self.maze = maze self.x, self.y = x, y self.maze.map[x][y] = ENEMY self.angle, self.color = pi / 4, color self.awake = False self.next_strike = 0 self.move_speed = self.maze.fps / ENEMY_SPEED self.offsetx = self.offsety = 0 self.spin_speed = self.maze.fps / ENEMY_HP self.spin_queue = self.wound = 0.0 self.sfx_shot = pygame.mixer.Sound(SFX_SHOT_ENEMY) def get_pos(self): """Return coordinate of the center of the enemy.""" x, y = self.maze.get_pos(self.x, self.y) step = self.maze.distance * HERO_SPEED / self.maze.fps return x + self.offsetx*step, y + self.offsety*step def place(self, x=0, y=0): """Move the enemy by (x, y) (in grids).""" self.x += x self.y += y self.maze.map[self.x][self.y] = ENEMY def wake(self): """Wake the enemy up if it can see the hero. Return None if the enemy is already awake, True if the function has just woken it, False otherwise. """ if self.awake: return None startx = starty = MIDDLE stopx, stopy, distance = self.x, self.y, self.maze.distance if startx > stopx: startx, stopx = stopx, startx if starty > stopy: starty, stopy = stopy, starty dx = (self.x-MIDDLE)*distance + self.maze.centerx - self.maze.x dy = (self.y-MIDDLE)*distance + self.maze.centery - self.maze.y mind = cosin(abs(atan(dy / dx)) if dx else 0) * distance def get_distance(x, y): return abs(dy*x - dx*y) / (dy**2 + dx**2)**0.5 for i in range(startx, stopx + 1): for j in range(starty, stopy + 1): if self.maze.map[i][j] != WALL: continue x, y = self.maze.get_pos(i, j) if get_distance(x - self.maze.x, y - self.maze.y) <= mind: return False self.awake = True return True def fire(self): """Return True if the enemy has just fired, False otherwise.""" x, y = self.get_pos() if (self.maze.get_distance(x, y) > FIRANGE*self.maze.distance or self.next_strike > pygame.time.get_ticks() or (self.x, self.y) in AROUND_HERO or self.offsetx or self.offsety or randrange((self.maze.hero.slashing+self.maze.isfast()+1) * 3)): return False self.next_strike = pygame.time.get_ticks() + ATTACK_SPEED self.maze.bullets.append(Bullet( self.maze.surface, x, y, atan2(self.maze.y - y, self.maze.x - x), self.color)) return True def move(self, speed=ENEMY_SPEED): """Return True if it has just moved, False otherwise.""" if self.offsetx: self.offsetx -= sign(self.offsetx) return True if self.offsety: self.offsety -= sign(self.offsety) return True if self.next_strike > pygame.time.get_ticks(): return False self.move_speed = self.maze.fps / speed directions = [(sign(MIDDLE - self.x), 0), (0, sign(MIDDLE - self.y))] shuffle(directions) directions.append(choice((choice(ADJACENT_GRIDS), (0, 0)))) for x, y in directions: if (x or y) and self.maze.map[self.x + x][self.y + y] == EMPTY: self.offsetx = round(x * (1 - self.move_speed)) self.offsety = round(y * (1 - self.move_speed)) self.maze.map[self.x][self.y] = EMPTY self.place(x, y) return True return False def slash(self): """Return the enemy's close-range damage.""" if self.spin_queue: d = self.maze.slashd - self.maze.get_distance(*self.get_pos()) wound = d / self.maze.hero.R / self.spin_speed if wound >= 0: self.maze.hit(wound, self.color, per_frame=True) return wound return 0.0 def draw(self): """Draw the enemy.""" radious = self.maze.distance/SQRT2 - self.awake*2 square = regpoly(4, radious, self.angle, *self.get_pos()) color = TANGO[self.color][int(self.wound)] if self.awake else FG_COLOR fill_aapolygon(self.maze.surface, square, color) def update(self): """Update the enemy.""" if self.awake: self.spin_speed, tmp = self.maze.fps / ENEMY_HP, self.spin_speed self.spin_queue *= self.spin_speed / tmp if not self.spin_queue and not self.fire() and not self.move(): self.spin_queue = randsign() * self.spin_speed if abs(self.spin_queue) > 0.5: self.angle += sign(self.spin_queue) * pi / 2 / self.spin_speed self.spin_queue -= sign(self.spin_queue) else: self.angle, self.spin_queue = pi / 4, 0.0 self.draw() def hit(self, wound, per_frame=False): """Handle the enemy when it's attacked.""" self.wound += wound if not per_frame: self.sfx_shot.set_volume(wound) self.sfx_shot.play() def die(self): """Handle the enemy's death.""" if self.awake: self.maze.map[self.x][self.y] = EMPTY if self.maze.enemy_weights[self.color] > MINW + 1.5: self.maze.enemy_weights[self.color] -= 1.5 else: self.maze.map[self.x][self.y] = WALL class Chameleon(Enemy): """Object representing an enemy of Chameleon. Additional attributes: visible (int): the tick until which the Chameleon is visible """ def __init__(self, maze, x, y): Enemy.__init__(self, maze, x, y, 'Chameleon') self.visible = 0 def wake(self): """Wake the Chameleon up if it can see the hero.""" if Enemy.wake(self) is True: self.visible = pygame.time.get_ticks() + 1000//ENEMY_SPEED def draw(self): """Draw the Chameleon.""" if not self.awake or pygame.time.get_ticks() <= self.visible: Enemy.draw(self) def hit(self, wound, per_frame=False): """Handle the Chameleon when it's attacked.""" self.visible = pygame.time.get_ticks() + 1000//ENEMY_SPEED Enemy.hit(self, wound, per_frame) class Plum(Enemy): """Object representing an enemy of Plum.""" def __init__(self, maze, x, y): Enemy.__init__(self, maze, x, y, 'Plum') def clone(self, other): """Turn the other enemy into a clone of this Plum and return True if that enemy is also a Plum, otherwise return False. """ if other.color != 'Plum': return False other.x, other.y, other.angle = self.x, self.y, self.angle other.awake, other.next_strike = True, self.next_strike other.offsetx, other.offsety = self.offsetx, self.offsety other.spin_queue, other.wound = self.spin_queue, self.wound return True class ScarletRed(Enemy): """Object representing an enemy of Scarlet Red.""" def __init__(self, maze, x, y): Enemy.__init__(self, maze, x, y, 'ScarletRed') def fire(self): """Scarlet Red doesn't shoot.""" return False def move(self): return Enemy.move(self, ENEMY_SPEED * SQRT2) def slash(self): """Handle the Scarlet Red's close-range attack.""" self.wound -= Enemy.slash(self) if self.wound < 0: self.wound = 0.0 def new_enemy(maze, x, y): """Return an enemy of a random type in the grid (x, y).""" color = choices(maze.enemy_weights) try: return getattr(modules[__name__], color)(maze, x, y) except AttributeError: return Enemy(maze, x, y, color)