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Estoy haciendo un programa en pygame en el que necesito usar alpha para dar transparencia a las hojas de los árboles, pero esto me genera un lag tremendo. Sólo tengo 1 superficie que utiliza el alpha, a la que llamé background2. La forma en la que la estoy utilizando es esta:

self.background2 = pygame.Surface((self.size, self.size))
self.background2.set_colorkey((0,0,0))  
self.background2.set_alpha(150)

Luego agrego 50 circulos solidos a la superficie, y la bliteo en la pantalla. El problema no es por la optimización del resto del código, porque sin la transparencia funciona muy fluido.

Entonces, mi pregunta es: ¿hay alguna forma de que el programa vaya a 60 fps con la transparencia de background2?

Por si hace falta, aquí está el resto del código:

import math, random, pygame, ctypes, sys, time
from pygame.locals import *
user32 = ctypes.windll.user32
width, height = int(user32.GetSystemMetrics(0) / 2), int(user32.GetSystemMetrics(1) / 2)
screen=pygame.display.set_mode((width * 2, height * 2), RESIZABLE | HWSURFACE | DOUBLEBUF | HWACCEL)
screen.set_alpha(None)
reloj = pygame.time.Clock() 
pygame.display.set_caption("zombie shooter")
pygame.init()

x, y, xvel, yvel = 0,0,0,0
fullscreen = 0  

def eventDetect():
    global mousex, mousey, mouseEvents, events, fullscreen
    mouseEvents = pygame.mouse.get_pressed()
    events = pygame.key.get_pressed() # w=119, a=97, d=100, s=115, space=32, r=114, F11=292
    mousexy = pygame.mouse.get_pos()
    mousex, mousey = mousexy[0], mousexy[1]

    for event in pygame.event.get():        
        if event.type == pygame.QUIT:
            pygame.quit()
            sys.exit()

    if events[292] == 1:
        if fullscreen == 0:
            screen = pygame.display.set_mode((width * 2, height * 2), FULLSCREEN | HWSURFACE | DOUBLEBUF | HWACCEL) 
            fullscreen = 1  
        else:
            screen = pygame.display.set_mode((width * 2, height * 2), RESIZABLE | HWSURFACE | DOUBLEBUF | HWACCEL)  
            fullscreen = 0

    pygame.event.pump()

class estáticos:

    def __init__(self):
        self.beachsize = 300        
        self.size = 5000
        self.background = pygame.Surface((self.size, self.size))
        self.background2 = pygame.Surface((self.size, self.size))
        self.background2.set_colorkey((0,0,0))  
        self.background2.set_alpha(150)
        pygame.draw.rect(self.background, (13, 89, 17), (0, 0, self.size, self.size),0)

    def draw(self):
        global x, y, width, height

        screen.blit(self.background, (x+width-self.size/2, y+height-self.size/2)) 
        pygame.draw.rect(screen, (176, 158, 21), (x+width-self.size/2-self.beachsize, y+height-self.size/2-self.beachsize, self.beachsize, self.beachsize*2+self.size),0)
        pygame.draw.rect(screen, (176, 158, 21), (x+width-self.size/2-self.beachsize, y+height-self.size/2-self.beachsize, self.beachsize*2+self.size, self.beachsize),0)
        pygame.draw.rect(screen, (176, 158, 21), (x+width+self.size/2, y+height-self.size/2-self.beachsize, self.beachsize, self.beachsize*2+self.size),0)
        pygame.draw.rect(screen, (176, 158, 21), (x+width-self.size/2-self.beachsize, y+height+self.size/2, self.beachsize*2+self.size, self.beachsize),0)

    def draw_alphas(self):
        screen.blit(self.background2, (x+width-self.size/2, y+height-self.size/2))
        pass

statics = estáticos()

class flores:

    def __init__(self):

        for i in range(100):

            self.color = random.choice(((255, 96, 84),(255, 255, 84),(84, 164, 255),(155, 84, 255)))

            self.xradious = 4
            self.yradious = 11
            self.points = []
            self.direction = 0  
            self.x, self.y = random.randint(11,statics.size-11),random.randint(11,statics.size-11)
            for i in range(180):
                self.points.append( (math.cos(self.direction)*self.xradious+self.x,math.sin(self.direction)*self.yradious+self.y) )
                self.direction += 2             
            pygame.draw.aalines(statics.background, self.color, 1, self.points)
            pygame.draw.ellipse(statics.background, self.color, (self.x-self.xradious+1, self.y-self.yradious+1, self.xradious*2-1, self.yradious*2-1),0)

            self.xradious = 11
            self.yradious = 4
            self.points = []
            for i in range(180):
                self.points.append( (math.cos(self.direction)*self.xradious+self.x,math.sin(self.direction)*self.yradious+self.y) )
                self.direction += 2             
            pygame.draw.aalines(statics.background, self.color, 1, self.points)
            pygame.draw.ellipse(statics.background, self.color, (self.x-self.xradious+1, self.y-self.yradious+1, self.xradious*2-1, self.yradious*2-1),0)

flowers = flores()

class árboles:

    def __init__(self):

        self.x, self.y = [],[]
        self.radious = 75

        for i in range(50):
            self.points = []
            self.direction = 0

            self.nx=random.randint(self.radious, statics.size-self.radious)
            self.ny=random.randint(self.radious, statics.size-self.radious)

            treex, treey = 0-(self.nx-statics.size/2),0-(self.ny-statics.size/2)
            while math.sqrt(((treex-x)**2)+((treey-y)**2)) < 1000: 
                treex, treey = 0-(self.nx-statics.size/2),0-(self.ny-statics.size/2)            
                self.nx=random.randint(self.radious, statics.size-self.radious) 
                self.ny=random.randint(self.radious, statics.size-self.radious)

            self.x.append(self.nx)
            self.y.append(self.ny)

            for j in range(360):
                self.points.append( (math.cos(self.direction)*self.radious+self.x[i],math.sin(self.direction)*self.radious+self.y[i]) )
                self.direction += 1     

            pygame.draw.aalines(statics.background, (97, 51, 6), 1, self.points)
            pygame.draw.circle(statics.background, (97, 51, 6), (self.x[i],self.y[i]),self.radious-2)   
            pygame.draw.circle(statics.background2, (0,50,0), (self.x[i],self.y[i]), 300, 0) # aquí se dibujan los círculos en background2

    def collide(self):
        global x,y,xvel,yvel

        for i, i2 in enumerate(self.x):
            treex, treey = 0-(self.x[i]-statics.size/2),0-(self.y[i]-statics.size/2)
            if math.sqrt(((treex-x)**2)+((treey-y)**2)) < self.radious+player.radious[0]:
                xvel = 0-math.cos(math.atan2(treey-y, treex-x)) * 3
                yvel = 0-math.sin(math.atan2(treey-y, treex-x)) * 3

trees = árboles()

class jugador:

    def __init__(self):

        self.playervel = 1

        self.radious = [25,20,10]
        self.points = [[],[],[]]
        self.direction = 0

        for i in range(360):
            self.points[0].append( (math.cos(self.direction)*self.radious[0]+width,math.sin(self.direction)*self.radious[0]+height) )
            self.points[1].append( (math.cos(self.direction)*self.radious[1]+width,math.sin(self.direction)*self.radious[1]+height) )   
            self.points[2].append( (math.cos(self.direction)*self.radious[2]+width,math.sin(self.direction)*self.radious[2]+height) )                   
            self.direction += 1 

    def draw(self):
        if abs(x) > statics.size/2+statics.beachsize or abs(y) > statics.size/2+statics.beachsize:
            pygame.draw.aalines(screen, (201, 117, 28), 1, self.points[2])
            self.rect=pygame.draw.circle(screen, (201, 117, 28), (width,height),self.radious[2]-1)
        elif abs(x) > statics.size/2 or abs(y) > statics.size/2:
            pygame.draw.aalines(screen, (201, 117, 28), 1, self.points[1])
            self.rect=pygame.draw.circle(screen, (201, 117, 28), (width,height),self.radious[1]-2)
        else:
            pygame.draw.aalines(screen, (201, 117, 28), 1, self.points[0])
            self.rect=pygame.draw.circle(screen, (201, 117, 28), (width,height),self.radious[0]-2)

    def move(self):
        global x, y, xvel, yvel

        if abs(x) > statics.size/2+statics.beachsize+250 or abs(y) > statics.size/2+statics.beachsize+250:
            x = 0
            y = 0
        elif abs(x) > statics.size/2+statics.beachsize or abs(y) > statics.size/2+statics.beachsize:
            self.friction = 1.5
        elif abs(x) > statics.size/2 or abs(y) > statics.size/2:
            self.friction = 1.15
        else:
            self.friction = 1.05

        if events[119] == 1:
            yvel += self.playervel
        if events[115] == 1:
            yvel -= self.playervel
        if events[97] == 1:
            xvel += self.playervel
        if events[100] == 1:
            xvel -= self.playervel

        x += xvel 
        y += yvel

        xvel /= self.friction
        yvel /= self.friction


player = jugador()

while True:
    # ---pygame event detection---

    eventDetect()

    #--function calls, drawing, conditionals, etc--

    screen.fill((0, 155, 155))

    statics.draw()
    player.draw()
    statics.draw_alphas() # aquí se llama a la función que dibuja background2

    player.move()
    trees.collide()

    #--others--

    reloj.tick(60)
    pygame.display.flip()

Gracias por anticipado

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