PinmikPanik/gamedata/objects/ingame/lemmings.py

from gamedata.objects.base import BaseObject
import random,math

class Lemming(BaseObject):
    def __init__(self,x,y,game):
        super().__init__(x,y,game)
        self.direction = random.randint(0,360)
        self.radius = 30 # Radius in which the mouse can click
        self.basespeed = 80 # Speed that he normally walks by
        self.normalspeed = self.basespeed # Speed "objective"
        self.speed = self.normalspeed # Current speed, leaning towards objective speed

        self.selected = False # If beeing redirected

        self.cachedrel = [] # Storing relative movement of mouse
        self.cachedrelsize = 10
        self.mincachedsize = 5

        # Used for movement
        self.restx = 0
        self.resty = 0

    def step(self):

        # Lean towards the normal speed
        if self.selected:
            self.normalspeed = 0
        else:
            self.normalspeed = self.basespeed
        self.speed += (self.normalspeed-self.speed)*self.game.dt*3

        # Getting x and y velocity
        diffx = math.cos(math.radians(self.direction))*self.speed
        diffy = math.sin(math.radians(self.direction))*self.speed

        self.move(diffx*self.game.dt,diffy*self.game.dt)

        # Mouse selection
        mouse=self.game.inputs["mouse"]
        distance = math.sqrt((mouse["pos"][0]-self.rect.center[0])**2+(mouse["pos"][1]-self.rect.center[1])**2)
        if self.selected:
            # Caching mouse relative movement
            self.cachedrel.append(mouse["rel"])
            if len(self.cachedrel)>self.cachedrelsize:
                self.cachedrel.pop(0)
            # Releasing it
            if mouse["click"]==0 or distance>4*self.radius:
                self.launch()
        if self.game.inputs["mouse"]["click"]==1:
            if distance<=self.radius:
                self.selected = True

    def launch(self):
        # Launch itself in the mouse direction
        if len(self.cachedrel)>self.mincachedsize:
            averagerel = [sum([x[i] for x in self.cachedrel])/len(self.cachedrel) for i in range(2)]
            self.direction = math.degrees(math.atan2(averagerel[1],averagerel[0]))

            self.speed = self.basespeed*2
            self.cachedrel = []
        self.selected = False

    def move(self,x,y):
        # Remember the digits, pygame rects only move with integers
        velx = x+self.restx
        vely = y+self.resty
        self.restx = velx-int(velx)
        self.resty = vely-int(vely)
        self.rect[0]+=int(velx)
        self.rect[1]+=int(vely)