Apparently frame buffers are fast and the best way to render offscreen to textures or to simply pre-create things.
My game however is not liking them at all. In the current code frame buffers are used often, sometimes each frame, several times. When used the game begins to slow down but not instantly. It seems to take time (Perhaps a built-up memory problem?). In some areas the frame buffer objects do not seem to slow the game down much accept occasionally the game will stall for a few seconds before continuing as normal.
I assume the Frame buffers are the problem because the game is fast in areas where they aren't used.
I'm using python with pyopengl. The OpenGL code is similar to the code in other language so I do not think python knowledge is significantly important.
Some things are rendered directly to the screen, other textures are rendered to other textures which is involved with the Surface class. This resembles pygame which is what I begun my game in before I changed my mind.
Here is the relevant code.
def create_texture(surface):
surface.texture = glGenTextures(1)
glMatrixMode(GL_MODELVIEW)
glLoadIdentity() #Loads model matrix
glBindTexture(GL_TEXTURE_2D, surface.texture) #Binds the current 2D texture to the texture to be drawn
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR) #Required to be set for maping the pixel data
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR) #Similar as above
glTexImage2D(GL_TEXTURE_2D, 0, GL_RGBA, surface.surface_size[0], surface.surface_size[1], 0, GL_RGBA,GL_UNSIGNED_BYTE, surface.data) #Put surface pixel data into texture
if surface.data == None:
setup_framebuffer(surface)
c = [float(sc)/255.0 for sc in surface.colour] #Divide colours by 255 because OpenGL uses 0-1
if surface.background_alpha != None:
c[3] = float(surface.background_alpha)/255.0
glClearColor(*c)
glClear(GL_COLOR_BUFFER_BIT)
end_framebuffer()
Surface.texture_ready.append(surface)
def setup_framebuffer(surface):
#Create texture if not done already
if surface.texture == None:
create_texture(surface)
#Render child to parent
if surface.frame_buffer == None:
surface.frame_buffer = glGenFramebuffersEXT(1)
glBindFramebufferEXT(GL_FRAMEBUFFER_EXT, surface.frame_buffer)
glFramebufferTexture2DEXT(GL_FRAMEBUFFER_EXT, GL_COLOR_ATTACHMENT0_EXT, GL_TEXTURE_2D, surface.texture, 0)
glPushAttrib(GL_VIEWPORT_BIT)
glViewport(0,0,surface._scale[0],surface._scale[1])
glMatrixMode(GL_PROJECTION)
glLoadIdentity() #Load the projection matrix
gluOrtho2D(0,surface._scale[0],0,surface._scale[1])
def end_framebuffer():
glPopAttrib()
glBindFramebufferEXT(GL_FRAMEBUFFER_EXT, 0)
glMatrixMode(GL_PROJECTION)
glLoadIdentity() #Load the projection matrix
gluOrtho2D(0,1280,720,0) #Set an orthorgraphic view
def draw_texture(texture,offset,size,a,rounded,sides,angle,point):
glMatrixMode(GL_MODELVIEW)
glLoadIdentity() #Loads model matrix
glColor4f(1,1,1,float(a)/255.0)
glBindTexture(GL_TEXTURE_2D, texture)
if rounded == 0:
if angle == 0:
glBegin(GL_QUADS)
glTexCoord2f(0.0, 0.0)
glVertex2i(*offset) #Top Left
glTexCoord2f(0.0, 1.0)
glVertex2i(offset[0],offset[1] + size[1]) #Bottom Left
glTexCoord2f(1.0, 1.0)
glVertex2i(offset[0] + size[0],offset[1] + size[1]) #Bottom, Right
glTexCoord2f(1.0, 0.0)
glVertex2i(offset[0] + size[0],offset[1]) #Top, Right
glEnd()
else:
glBegin(GL_QUADS)
glTexCoord2f(0.0, 0.0)
glVertex2f(*rotate_coordinate(offset,point,angle)) #Top Left
glTexCoord2f(0.0, 1.0)
glVertex2f(*rotate_coordinate((offset[0],offset[1] + size[1]),point,angle)) #Bottom Left
glTexCoord2f(1.0, 1.0)
glVertex2f(*rotate_coordinate((offset[0] + size[0],offset[1] + size[1]),point,angle)) #Bottom, Right
glTexCoord2f(1.0, 0.0)
glVertex2f(*rotate_coordinate((offset[0] + size[0],offset[1]),point,angle)) #Top, Right
glEnd()
else:
global arc_factors
arc = [[o*rounded for o in c] for c in arc_factors]
glBegin(GL_POLYGON)
if sides % 2:
for c in arc:
coordinates = (offset[0] + rounded - c[0],offset[1] + rounded - c[1])
glTexCoord2f((coordinates[0]-offset[0])/size[0],(coordinates[1]-offset[1])/size[1])
glVertex2f(*coordinates)
else:
glTexCoord2f(0.0, 0.0)
glVertex2f(*rotate开发者_JAVA百科_coordinate(offset,point,angle)) #Top Left
if sides % 4 > 1:
for c in arc[::-1]:
coordinates = (offset[0] + size[0] - rounded + c[0],offset[1] + rounded - c[1])
glTexCoord2f((coordinates[0]-offset[0])/size[0],(coordinates[1]-offset[1])/size[1])
glVertex2f(*coordinates)
else:
glTexCoord2f(1.0, 0.0)
glVertex2f(*rotate_coordinate((offset[0] + size[0],offset[1]),point,angle)) #Top, Right
if sides % 8 > 3:
for c in arc:
coordinates = (offset[0] + size[0] - rounded + c[0],offset[1] + size[1] - rounded + c[1])
glTexCoord2f((coordinates[0]-offset[0])/size[0],(coordinates[1]-offset[1])/size[1])
glVertex2f(*coordinates)
else:
glTexCoord2f(1.0, 1.0)
glVertex2f(*rotate_coordinate((offset[0] + size[0],offset[1] + size[1]),point,angle)) #Bottom, Right
if sides > 7:
for c in arc[::-1]:
coordinates = (offset[0] + rounded - c[0],offset[1] + size[1] - rounded + c[1])
glTexCoord2f((coordinates[0]-offset[0])/size[0],(coordinates[1]-offset[1])/size[1])
glVertex2f(*coordinates)
else:
glTexCoord2f(0.0, 1.0)
glVertex2f(*rotate_coordinate((offset[0],offset[1] + size[1]),point,angle)) #Bottom Left
glEnd()
def texture_to_texture(target,surface,offset,rounded,rotation,point):
#Create texture if not done already
if surface.texture == None:
create_texture(surface)
#Render child to parent
setup_framebuffer(target)
draw_texture(surface.texture,offset,surface._scale,surface.colour[3],rounded,surface.rounded_sides,rotation,point)
end_framebuffer()
def texture_to_screen(surface,offset,rotation,point):
if surface.texture == None:
create_texture(surface)
draw_texture(surface.texture,offset,surface._scale,surface.colour[3],surface.rounded,surface.rounded_sides,rotation,point)
class Surface():
texture_ready = []
def __init__(self,size,extra = None):
self._offset = (0,0)
self.children = []
self.blitted = False
self.last_offset = [0,0]
self.surface_size = list(size)
self.colour = [0,0,0,255]
self.data = None
self.rounded = 0
self.parent = None
self.parent_offset = (0,0)
self.texture = None
self.frame_buffer = None
self._scale = size
self.background_alpha = None
self.rounded_sides = 0
def blit(self,surface,offset,rotation = 0,point = (0,0)):
texture_to_texture(self,surface,offset,surface.rounded,rotation,point)
if surface not in self.children:
self.children.append(surface)
if surface.parent_offset != offset or not surface.blitted:
surface.parent_offset = offset
surface._offset = [offset[0] + self._offset[0],offset[1] + self._offset[1]]
surface.recursive_offset_change() #Add to the children's offsets
surface.blitted = True
def set_background_alpha(self,alpha):
self.background_alpha = float(alpha)/255.0
def recursive_offset_change(self):
for child in self.children:
child._offset = (self._offset[0] + child.parent_offset[0],self._offset[1] + child.parent_offset[1])
child.recursive_offset_change()
def get_offset(self):
return self._offset
def fill(self,colour):
colour = list(colour)
if len(colour) < 4:
colour.append(255)
self.children = []
self.textures = []
self.colour = colour
if self.texture != None:
glDeleteTextures([self.texture])
self.data = None
create_texture(self)
def get_size(self):
return self.surface_size
def get_width(self):
return self.surface_size[0]
def get_height(self):
return self.surface_size[1]
def round_corners(self,r,sides = 15):
self.rounded = r
self.rounded_sides = sides
def get_rect(self):
return Rect(self._offset,self.surface_size)
def scale(self,scale):
self._scale = scale
return self
def __del__(self):
if self.texture != None:
glDeleteTextures([self.texture])
if self.frame_buffer != None:
glDeleteFramebuffersEXT(1, [int(self.frame_buffer)])
class Game(Surface):
game_size = None
first_screen = None
screen = None
fs = False #Fullscreen false to start
clock = None
resize = True
game_gap = None
game_scaled = (0,0)
title = None
fps = -1
enter_fullscreen = False
exit_fullscreen = False
scale_to_screen = False
iconify = False
on_focus_fullscreen = False
f_key = False
fade = 0
p_key = False
music_stop = False
unfade = False
event_after_fade = -1
loaded = False
fade = 255
unfade = True
homedir = os.path.expanduser("~")
fade_screen = False
keys = []
events = []
sections = []
back_key = False
transfer_args = ()
mouse_pos = (0,0)
def __init__(self,title,game_size,on_exit = sys.exit):
self.keys = [False] * 323
self.events = []
pygame.font.init()
pygame.mixer.init()
self.title = title
self.game_size = game_size
self.first_screen = (1280,720) #Take 120 pixels from the height because the menu bar, window bar and dock takes space
glutInit(sys.argv)
glutInitWindowPosition(0,0)
glutInitWindowSize(*game_size)
glutInitDisplayMode(GLUT_DOUBLE | GLUT_RGBA)
glutGameModeString("1280x720:32@60") #720 HD
glutCreateWindow(title)
glutSetIconTitle(title)
self.callbacks()
self.game_gap = (0,0)
self.on_exit = on_exit
self.mod_key = 1024 if sys.platform == "darwin" else 64
Surface.__init__(self,game_size)
self.screen_change = True
self.frames = [time.time()]
self.fps = 60
self.last_time = 0
self.fade_surface = Surface([1280,720])
def callbacks(self):
glutReshapeFunc(self.reshaped)
glutKeyboardFunc(self.keydown)
glutKeyboardUpFunc(self.keyup)
glutSpecialFunc(self.specialdown)
glutSpecialUpFunc(self.specialup)
glutDisplayFunc(self.game_loop)
glutIdleFunc(self.game_loop)
glutMouseFunc(self.mouse_func)
glutPassiveMotionFunc(self.mouse_move)
glutMotionFunc(self.mouse_move)
glViewport(0,0,self.first_screen[0],self.first_screen[1]) #Creates the viewport which is mapped to the window
glEnable(GL_BLEND) #Enable alpha blending
glEnable(GL_TEXTURE_2D) #Enable 2D Textures
glEnable(GL_POLYGON_SMOOTH) #Enable antialiased polygons
glHint(GL_POLYGON_SMOOTH_HINT, GL_NICEST)
glHint(GL_LINE_SMOOTH_HINT, GL_NICEST)
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA)
glMatrixMode(GL_PROJECTION)
glLoadIdentity() #Load the projection matrix
gluOrtho2D(0,1280,720,0) #Set an orthorgraphic view
def add_section(self,section_object):
self.sections.append(section_object)
def mouse_func(self,button, state, x, y):
self.events.append((state,button,x,y))
def mouse_move(self,x,y):
self.events.append((MOUSEMOTION,x - self.mouse_pos[0], y - self.mouse_pos[1]))
self.mouse_pos = (x,y)
def keydown(self,char,x,y):
#300 miliusecond delay, 50 milisecond repeat
self.change_keys(char,True)
def keyup(self,char,x,y):
self.change_keys(char,False)
def change_keys(self,char,bool):
char = ord(char)
#Switch backspace and delete
if char == 8:
char = 127
elif char == 127:
char = 8
self.keys[char] = bool
def specialdown(self,char,x,y):
if char == GLUT_KEY_UP:
self.keys[K_UP] = True
if char == GLUT_KEY_DOWN:
self.keys[K_DOWN] = True
if char == GLUT_KEY_LEFT:
self.keys[K_LEFT] = True
if char == GLUT_KEY_RIGHT:
self.keys[K_RIGHT] = True
def specialup(self,char,x,y):
if char == GLUT_KEY_UP:
self.keys[K_UP] = False
if char == GLUT_KEY_DOWN:
self.keys[K_DOWN] = False
if char == GLUT_KEY_LEFT:
self.keys[K_LEFT] = False
if char == GLUT_KEY_RIGHT:
self.keys[K_RIGHT] = False
def reshaped(self,w,h):
#Scale game to screen resolution, keeping aspect ratio
self.screen_change = True
self.game_scaled = get_resolution((w,h),self.game_size)
glutReshapeWindow(*self.game_scaled)
glViewport(0,0,self.game_scaled[0],self.game_scaled[1])
glutPositionWindow((1280- w)/2,(720 - h)/2)
def game_loop(self):
self.section.loop()
if self.unfade:
if self.fade == 255:
play_music(self.section.music)
if self.fade > 0:
self.fade -= 5
else:
self.music_stop = False
self.unfade = False
if self.fade_screen and not self.unfade: #Fade out
if self.fade == 0:
sound("/sounds/menu3/fade.ogg").play()
self.music_stop = True
pygame.mixer.music.fadeout(850)
if self.fade < 255:
self.fade += 5
else:
self.fade_screen = False
self.unfade = True
if self.fade_screen == False:
if self.event_after_fade != -1:
self.section = self.sections[self.event_after_fade]
self.section.transfer(*self.transfer_args)
self.transfer_args = ()
self.event_after_fade = -1
self.fade_surface.fill((0,0,0,self.fade))
self.blit(self.fade_surface,(0,0))
for event in self.events:
if event[1] == MUSICEND and self.music_stop == False:
play_music(self.section.music)
self.events = [] #Remove events
global draw_texture_time
#Updates screen properly
for event in self.events:
if event.type == QUIT:
self.on_exit()
if True:
if self.keys[K_f]:
if self.f_key == False:
self.f_key = True
if self.fs == False:
self.enter_fullscreen = True
else:
self.exit_fullscreen = True
else:
self.f_key = False
if self.on_focus_fullscreen and pygame.display.get_active():
self.on_focus_fullscreen = False
self.enter_fullscreen = True
pixel_data = []
if self.enter_fullscreen or self.exit_fullscreen:
for surface in Surface.texture_ready:
if surface.texture != None:
glBindTexture(GL_TEXTURE_2D, surface.texture)
glGetTexImage(GL_TEXTURE_2D,0,GL_RGBA,GL_UNSIGNED_BYTE,surface.data)
surface.texture = None
if surface.frame_buffer != None:
pixel_data.append((surface,None))
glReadPixels(0,0,surface.surface_size[0],surface.surface_size[1],GL_BGRA,GL_UNSIGNED_BYTE,pixel_data[-1][1])
Surface.texture_ready = []
if self.enter_fullscreen:
glutEnterGameMode()
self.callbacks()
self.fs = True
self.enter_fullscreen = False
elif self.exit_fullscreen:
glutSetCursor(GLUT_CURSOR_INHERIT)
self.fs = False
glutLeaveGameMode()
self.callbacks()
self.exit_fullscreen = False
if self.iconify:
self.on_focus_fullscreen = True
if self.enter_fullscreen or self.exit_fullscreen:
for surface, data in pixel_data:
surface.frame_buffer = glGenFramebuffersEXT(1)
setup_framebuffer(surface)
glDrawPixels(surface.surface_size[0],surface.surface_size[1],GL_RGBA,GL_UNSIGNED_BYTE,data)
end_framebuffer()
if self.iconify:
pygame.display.iconify() #Minimise
self.iconify = False
glFlush()
glutSwapBuffers() #Flip buffer
glClear(GL_COLOR_BUFFER_BIT)
self.frames.append(time.time())
time_d = (self.frames[-1] - self.frames[-2])
if time_d < 0.01667:
time.sleep(0.01667 - time_d)
self.frames[-1] = time.time()
self.fps = len(self.frames)/(self.frames[-1] - self.frames[0])
if self.fps > 60:
self.fps = 60
self.frames = [frame for frame in self.frames if (self.frames[-1] - frame) < 1]
glutSetWindowTitle(self.title + " - " + str(int(self.fps)) + "fps")
def blit(self,surface,offset,rotation = 0,point = (0,0)):
if surface.get_offset() != offset or not surface.blitted:
surface._offset = offset
surface.recursive_offset_change() #Add to the children's offsets
surface.blitted = True
texture_to_screen(surface,offset,rotation,point)
def transfer_section(self,section,args=()):
self.transfer_args = args
self.event_after_fade = section
self.fade_screen = True
Bravo if anyone can help me with this. I spent ages getting the FBOs to work at all. It's so frustrating that they aren't working properly. If it comes to removing them, it's a nightmare all over again. But I must face whatever needs to be done to make the game fast.
I haven't worked with OpenGL for about 14 years so I'm not much help with that. I'm just looking at the Python code. There's a few things you can do to clean the code up, like use ".width" instead of ".surface_size[0]". You do have a get_width(), but descriptors are your friends. You also have checks for "if self.data == None" but there's no place where the .data field is ever set to anything besides None. Oh, and a minor point - the better form of this test is "if self.data is None".
I'm going on the assumption that you're running out of some sort of resource. I tried to follow the glBindTexture/glDeleteTexture logic but it confused me. Why do you store all your pending surfaces into the class variable Surface.texture_ready list? That is, why isn't it an instance variable?
Your game loop goes through and glBindTexture:s the texture_ready elements, then resets the list to []. But only when entering/exiting full-screen mode. If you don't go to full screen, it seems that texture_ready gets longer and longer.
You might consider using one of the profiling tools to see where most of the time is being spent. Even something as simple as watching the line trace might be enough for you to spot where the slowdown is.
I'm afraid this isn't much help though, as I just don't know OpenGL.
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