def render_space_screen():
seq_duration = 20.0
fx_timer = 0.0
while fx_timer < seq_duration:
dt_sec = clock.update()
fx_timer += dt_sec
render.clear()
render.set_blend_mode2d(render.BlendAlpha)
x_star = RangeAdjust(fx_timer, 0.0, seq_duration, demo_screen_size[0],
-53 * zoom_size())
x_moon = RangeAdjust(fx_timer, seq_duration * 0.475, seq_duration,
demo_screen_size[0], -60 * zoom_size())
x_planet = RangeAdjust(fx_timer, seq_duration * 0.65, seq_duration,
demo_screen_size[0], -95 * zoom_size())
render.image2d(x_star, (demo_screen_size[1] - 53 * zoom_size()) * 0.5,
zoom_size(), "@assets/space_star.png")
render.image2d(x_moon, (demo_screen_size[1] - 60 * zoom_size()) * 0.5,
zoom_size(), "@assets/space_moon.png")
render.image2d(x_planet, 0, zoom_size(), "@assets/space_planet.png")
render.set_blend_mode2d(render.BlendOpaque)
render.flip()
def render_landscape_screen():
seq_duration = 40.0
fx_timer = 0.0
y_offset = 50
logo_freq = 6
while fx_timer < seq_duration:
dt_sec = clock.update()
fx_timer += dt_sec
render.clear()
render.set_blend_mode2d(render.BlendAlpha)
render.image2d(
(demo_screen_size[0] - 320 * zoom_size()) * 0.5,
(demo_screen_size[1] - (34 + y_offset) * zoom_size()) * 0.5,
zoom_size(), "@assets/landscape_mountains.png")
render.image2d(
(demo_screen_size[0] - 100 * zoom_size()) * 0.5,
(demo_screen_size[1] - (80 + y_offset) * zoom_size()) * 0.5,
zoom_size(), "@assets/landscape_stones.png")
x, y = math.cos(
fx_timer / seq_duration * math.pi * 2 * logo_freq) * 16, math.sin(
fx_timer / seq_duration * math.pi * 5 * logo_freq) * 16
render.image2d(
(demo_screen_size[0] - (187 + x) * zoom_size()) * 0.5,
(demo_screen_size[1] - (106 - 80 + y) * zoom_size()) * 0.5,
zoom_size(), "@assets/logo_exxos.png")
render.set_blend_mode2d(render.BlendOpaque)
render.flip()
def play_simulation(): while not input.key_press(gs.InputDevice.KeyEscape): clock.update() fps.update(clock.get_dt()) render.set_camera3d(fps.pos.x, fps.pos.y, fps.pos.z, fps.rot.x, fps.rot.y, fps.rot.z) render.clear() for perso in array_perso: perso.draw() perso.update(physic_world) array_perso[0].kohonen_behaviour.draw(render.get_renderer().GetCurrentOutputWindow().GetSize().x, render.get_renderer().GetCurrentOutputWindow().GetSize().y) physic_world.draw() # render text if input.key_down(gs.InputDevice.KeyL): render.text2d(10, 120, 'Frag in Mem: %d' % KohonenBehaviour.memory.GetNbFragment()) for action in range(perso_actions.nb_actions): render.text2d(10, 140 + 20*action, 'Frag for %s: %d, %d%%' % (perso_actions.get_current_action_name(action), KohonenBehaviour.memory.m_NbFragmentPerActionArray[action], KohonenBehaviour.memory.m_TabPercentFragmentPerAction[action]), 12, array_perso[0].kohonen_behaviour.color_array[action]) render.text2d(10, 50, str(perso.selected_action)+" "+perso_actions.get_current_action_name(perso.selected_action)) #draw it to the screen render.flip()
def intro(): text_blink = 0.0 angle = 0 fps = camera.fps_controller(0, 2, -10) fps.update(clock.update()) render.set_camera3d(fps.pos.x, fps.pos.y, fps.pos.z, fps.rot.x, fps.rot.y, fps.rot.z) while not input.key_press(gs.InputDevice.KeyEnter): render.clear(gs.Color.White) text_blink += clock.update() if text_blink > 1.0: text_blink = 0.0 # Effet de background animé à la "Street Fighter" (hem) dessine_fond_qui_scroll() for z in range(-100, 100, 5): for x in range(-100, 100, 5): render.geometry3d(x, 0, z, cube) afficheTexte(500, 400, 'Quel est ton gourou ?', size=2) afficheTexte(500, 365, 'Choisis le sens de ta vie ~~~~~~~~~~~~~~') afficheTexte(500, 325, '...et appuie sur [enter]', text_blink) afficheTexte(815,20, 'Made by Trofis #CODE and Safae #DESIGN' , size=0.5) render.flip() angle += 0.01 while input.key_press(gs.InputDevice.KeyEnter): render.clear() render.flip()
def render_text_screen(strings=None, duration=4.0, fade_duration=1.0, render_callback=None):
if strings is None:
return
fonts_dict = {}
fx_timer = 0.0
while fx_timer < duration:
dt_sec = clock.update()
fx_timer += dt_sec
if fx_timer < fade_duration:
fade = RangeAdjust(fx_timer, 0.0, fade_duration, 0.0, 1.0)
else:
if fx_timer < duration - fade_duration:
fade = 1.0
else:
fade = RangeAdjust(fx_timer, duration - fade_duration, duration, 1.0, 0.0)
render.clear()
fonts_dict = render_strings_array(strings, fade, fonts_dict)
if fade > 0.2:
if render_callback is not None:
render_callback()
render.flip()
def render_text_screen(strings=None,
duration=4.0,
fade_duration=1.0,
render_callback=None):
if strings is None:
return
fonts_dict = {}
fx_timer = 0.0
while fx_timer < duration:
dt_sec = clock.update()
fx_timer += dt_sec
if fx_timer < fade_duration:
fade = RangeAdjust(fx_timer, 0.0, fade_duration, 0.0, 1.0)
else:
if fx_timer < duration - fade_duration:
fade = 1.0
else:
fade = RangeAdjust(fx_timer, duration - fade_duration,
duration, 1.0, 0.0)
render.clear()
fonts_dict = render_strings_array(strings, fade, fonts_dict)
if fade > 0.2:
if render_callback is not None:
render_callback()
render.flip()
def generation(gourou, gourou_index_list): print(gourou_index_list) index_gourou = (gourou_index_list[0] + gourou_index_list[1] * 3) + 1 while not input.key_press(gs.InputDevice.KeyEnter): render.clear(gs.Color.White) # dessine_fond_qui_scroll() afficheTexte(800, 500, 'Voyons désormais quel est ton Gourou ....') # render.set_blend_mode2d(1) # render.image2d((1920-400)/2,(1024-350)/2,1.0,'@data/gourou' + str(index_gourou) + '.png') # render.set_blend_mode2d(0) render.flip() render.flip() # print(render.get_font(lesGourou [index_gourou])) gourou_scale = 0.25 gourou_acc = 0.995 y_offset = 0.0 while not input.key_press(gs.InputDevice.KeyEnter): render.clear(gs.Color.White) dessine_fond_qui_scroll() afficheTexte(700, 850, lesGourou[index_gourou-1] ) # afficheTexte(1050, 400, 'Au coeur ' + str(getTxt(phases, 1, indexImg[0], indexImg[1]))) # afficheTexte(1100, 300, 'Qui regarda '+str(getTxt(phases,2,indexImg[1], indexImg[2] ))) render.set_blend_mode2d(1) gourou_scale_tmp = gourou_scale * 1.5 render.image2d((1920 - (400 * gourou_scale_tmp)) / 2, (1024 - (350 * gourou_scale_tmp)) / 2 + y_offset * (1.0 - gourou_scale * gourou_scale), gourou_scale_tmp, '@data/gourou' + str(index_gourou) + '.png') render.set_blend_mode2d(0) render.flip() gourou_scale = (gourou_scale * gourou_acc + (1.0 - gourou_acc)) y_offset = y_offset * 0.95 + 0.5 * random.randint(-15, 15) render.flip() return index_gourou - 1
reset = True if lose: render.text2d(31.25*size_pixel.x, size.y/4, "You LOSE yourself \nto the devil !", 6.5*size_pixel.x, gameboy_palette[2], font_path="Early GameBoy.ttf") render.text2d(size.x/6, size.y/4*3, "Click to Restart", 7.8125*size_pixel.x, gameboy_palette[2], font_path="Early GameBoy.ttf") check_clicked() draw_pentacle(gs.Vector3(big_resolution.x*0.5, big_resolution.y*0.5, 0), 50, 40) if win: render.text2d(size.x/20, size.y/4*3.5, "The demon's door is \nnow closed\nCongratulation !", 7.8125*size_pixel.x, gameboy_palette[2], font_path="Early GameBoy.ttf") render.text2d(size.x/6, size.y/4, "Click to Restart", 7.8125*size_pixel.x, gameboy_palette[2], font_path="Early GameBoy.ttf") check_clicked() random.seed(counter_seed) render.clear(gs.Color(16/255, 19/255, 12/255)) # render.clear(gs.Color.Black) # draw_circle_explosion(big_resolution.x * .5, big_resolution.y * .5, radius_circle_eye, 10, get_random_color()) # draw_circle(big_resolution.x * .5, big_resolution.y * .5, lerp(abs(math.cos(time_pass*3)), radius_circle_eye, radius_circle_eye + 10), get_random_color()) # draw_circle(big_resolution.x * .5, big_resolution.y * .5, radius_circle_eye + 10, get_random_color()) if reset: radius_circle_eye = radius_circle_eye + (15-radius_circle_eye)*dt_sec if abs(radius_circle_eye - 15) < 0.1: reset = False if not start and not lose: if radius_circle_eye < 5.0: win = True radius_circle_eye -= dt_sec * 10
def render_mask_screen():
mask_segment_list = wireframe_json_to_segment_list(
"@assets/exxos_mask.json")
scn = scene.new_scene()
while not scn.IsReady():
scene.update_scene(scn, 0.0)
# Add an environment to the scene
env = gs.Environment()
env.SetBackgroundColor(gs.Color.Black)
scn.AddComponent(env)
# Add a camera
render_camera = gs.Node()
render_camera.AddComponent(gs.Transform())
render_camera.AddComponent(gs.Camera())
scn.AddNode(render_camera)
scn.SetCurrentCamera(render_camera)
render_camera.GetTransform().SetPosition(gs.Vector3(0, 0, -50))
# Create a (parent) node to rotate the mask
master_node = gs.Node()
master_node.AddComponent(gs.Transform())
scn.AddNode(master_node)
# Init the starfield
starfield.init_stars()
starfield.set_camera_velocity(gs.Vector3(0, 0, -50))
segment_nodes_list = []
for seg in mask_segment_list:
node_a, node_b = gs.Node(), gs.Node()
tr_a, tr_b = gs.Transform(), gs.Transform()
tr_a.SetPosition(gs.Vector3(seg[0][0], seg[0][1], seg[0][2]))
tr_b.SetPosition(gs.Vector3(seg[1][0], seg[1][1], seg[1][2]))
tr_a.SetParent(master_node)
tr_b.SetParent(master_node)
node_a.AddComponent(tr_a)
node_b.AddComponent(tr_b)
scn.AddNode(node_a)
scn.AddNode(node_b)
segment_nodes_list.append([node_a, node_b])
seq_duration = 20.0
fx_timer = 0.0
while fx_timer < seq_duration:
render.clear()
dt_sec = clock.update()
master_node.GetTransform().SetRotation(
master_node.GetTransform().GetRotation() +
gs.Vector3(1, 1, 1) * dt_sec * 0.25)
scene.update_scene(scn, dt_sec)
# render.commit_3d()
# render.set_depth_write3d(False)
starfield.update_stars(dt_sec)
starfield.draw_stars(render)
for seg in segment_nodes_list:
pos_a = seg[0].GetTransform().GetWorld().GetTranslation()
pos_b = seg[1].GetTransform().GetWorld().GetTranslation()
render.line3d(pos_a.x,
pos_a.y,
pos_a.z,
pos_b.x,
pos_b.y,
pos_b.z,
start_color=gs.Color.Blue,
end_color=gs.Color.Blue)
render.flip()
fx_timer += dt_sec
def final():
render.clear()
# initialize graphic and audio systems
movie = gs.WebMMovie()
movie.Open("@data/sylvain_durif.webm")
video_format = movie.GetVideoData().GetFormat()
# create the frame textures and frame object
gpu = render.get_renderer()
y_tex = gpu.NewTexture()
gpu.CreateTexture(y_tex, video_format.width, video_format.height, gs.GpuTexture.R8, gs.GpuTexture.NoAA,
gs.GpuTexture.UsageDefault, False)
u_tex = gpu.NewTexture()
gpu.CreateTexture(u_tex, video_format.width // 2, video_format.height // 2, gs.GpuTexture.R8,
gs.GpuTexture.NoAA, gs.GpuTexture.UsageDefault, False)
v_tex = gpu.NewTexture()
gpu.CreateTexture(v_tex, video_format.width // 2, video_format.height // 2, gs.GpuTexture.R8,
gs.GpuTexture.NoAA, gs.GpuTexture.UsageDefault, False)
frame = gs.VideoFrame()
video_format.ClearFrame(frame)
video_timestamp = gs.time(0) # assume first frame time stamp is 0
# load the YV12 to RGB shader and setup drawing states
shader = gpu.LoadShader("@data/yv12.isl")
gpu.EnableDepthTest(False) # disable depth testing so that we don't even need to clear the z-buffer
# start streaming the movie audio data
channel = audio.get_mixer().StreamData(movie.GetAudioData())
# play until movie ends
while not movie.IsEOF():
render.clear()
# fit the while output window
screen_size = gpu.GetCurrentOutputWindow().GetSize()
gpu.SetViewport(gs.fRect(0, 0, screen_size.x, screen_size.y))
gpu.Set2DMatrices() # update the 2d matrix
# fetch the next video frame once audio gets past video
audio_timestamp = audio.get_mixer().GetChannelPosition(channel) # audio timestamp as reported by the mixer
if audio_timestamp >= video_timestamp:
movie.GetVideoData().GetFrame(frame)
video_timestamp = frame.GetTimestamp()
gpu.BlitTexture(y_tex, frame.GetPlaneData(gs.VideoFrame.Y), video_format.width, video_format.height)
gpu.BlitTexture(u_tex, frame.GetPlaneData(gs.VideoFrame.U), video_format.width // 2,
video_format.height // 2)
gpu.BlitTexture(v_tex, frame.GetPlaneData(gs.VideoFrame.V), video_format.width // 2,
video_format.height // 2)
# draw the current video frame to screen
vtxs = [gs.Vector3(0, 0, 0.5), gs.Vector3(0, screen_size.y, 0.5),
gs.Vector3(screen_size.x, screen_size.y, 0.5), gs.Vector3(0, 0, 0.5),
gs.Vector3(screen_size.x, screen_size.y, 0.5), gs.Vector3(screen_size.x, 0, 0.5)]
uvs = [gs.Vector2(0, 1), gs.Vector2(0, 0), gs.Vector2(1, 0), gs.Vector2(0, 1), gs.Vector2(1, 0),
gs.Vector2(1, 1)]
render_system = render.get_render_system()
gpu.SetShader(shader)
gs.SetShaderEngineValues(render_system)
gpu.SetShaderTexture("y_tex", y_tex)
gpu.SetShaderTexture("u_tex", u_tex)
gpu.SetShaderTexture("v_tex", v_tex)
render_system.DrawTriangleUV(2, vtxs, uvs)
render.flip()
def selection():
global indexImg
Gourou = []
gourou_index_list = []
indexDecor = 0
indexEntrer = -1
amplitude = 1
indexImg = {}
for phase in range(len(phases)):
joue_sfx_phase()
entrer = False
angle = 0
while not entrer:
render.clear(gs.Color.White)
# dessine_fond_qui_scroll()
if input.key_press(gs.InputDevice.KeyLeft) and indexDecor > 0:
indexDecor = (indexDecor - 1) % getImgParPha(phases)
# joue_sfx_selection()
amplitude = 1
if input.key_press(gs.InputDevice.KeyRight) and indexDecor < getImgParPha(phases) - 1:
indexDecor = (indexDecor + 1) % getImgParPha(phases)
# joue_sfx_selection()
amplitude = 1
if indexDecor >= 0:
amplitude *= 0.95
yOffSet = [0, 0, 0]
# print(indexDecor)
render.set_blend_mode2d(1)
afficheImageNot(430, 165 + 25, 1, '@data/ornement_gauche.png')
afficheImageNot(1090, 165 + 25, 1, '@data/ornement_droite.png')
render.set_blend_mode2d(0)
if phase == 0:
yOffSet[indexDecor] = random.randint(-5, 5)
afficheImage((SCREEN_W - 1050) / 2, 285 + random.randint(-25, 25) * amplitude, phase, 1.0, indexDecor,
0)
afficheTexte(800, 220 + 25, 'OÙ VEUX TU TE RETIRER ?', size=0.75)
render.set_blend_mode2d(1)
afficheImageNot(600, 50, 1, '@data/choix_paysage.png')
render.set_blend_mode2d(0)
if indexDecor == 0:
afficheTexte(620, 25 + yOffSet[0], getTxt(phases, phase, 0, 0))
if indexDecor == 1:
afficheTexte(890, 25 + yOffSet[1], getTxt(phases, phase, 0, 1))
if indexDecor == 2:
afficheTexte(1165, 25 + yOffSet[2], getTxt(phases, phase, 0, 2))
elif phase == 1:
yOffSet[indexDecor] = random.randint(-5, 5)
afficheImage((SCREEN_W - 1050) / 2, 285 + random.randint(-25, 25) * amplitude, phase, 1.0, indexDecor,
indexImg[phase - 1])
afficheTexte(740, 220 + 25, 'CHOISIS UNE AMBIANCE MYSTIQUE', size=0.75)
render.set_blend_mode2d(1)
afficheImageNot(600, 50, 1, '@data/choix_ambiance.png')
render.set_blend_mode2d(0)
# print(indexImg)
if indexDecor == 0:
afficheTexte(600, 25 + yOffSet[0], getTxt(phases, phase, indexImg[phase - 1], indexDecor),
size=0.75)
if indexDecor == 1:
afficheTexte(840, 25 + yOffSet[1], getTxt(phases, phase, indexImg[phase - 1], indexDecor),
size=0.75)
if indexDecor == 2:
afficheTexte(1050, 25 + yOffSet[2], getTxt(phases, phase, indexImg[phase - 1], indexDecor),
size=0.75)
else:
yOffSet[indexDecor] = random.randint(-5, 5)
afficheImage((SCREEN_W - 1050) / 2, 285 + random.randint(-25, 25) * amplitude, phase, 1.0, indexDecor,
indexImg[phase - 1])
afficheTexte(700, 220 + 25, 'CHOISIS UN TRUC A OBSERVER', size=0.85)
render.set_blend_mode2d(1)
afficheImageNot(600, 50, 1, '@data/choix_paysage.png')
render.set_blend_mode2d(0)
if indexDecor == 0:
afficheTexte(670, 25 + yOffSet[0], getTxt(phases, phase, indexImg[phase - 1], indexDecor))
if indexDecor == 1:
afficheTexte(900, 25 + yOffSet[1], getTxt(phases, phase, indexImg[phase - 1], indexDecor))
if indexDecor == 2:
afficheTexte(1180, 25 + yOffSet[2], getTxt(phases, phase, indexImg[phase - 1], indexDecor))
if input.key_press(gs.InputDevice.KeyEnter):
gourou_index_list.append(indexDecor)
entrer = True
indexEntrer = indexDecor
if phase == 0:
Gourou.append(getTxt(phases, phase, 0, indexDecor))
else:
Gourou.append(getTxt(phases, phase, indexImg[phase - 1], indexDecor))
if entrer:
indexImg[phase] = indexEntrer
# if phase > 0:
# for index in range(len(indexImg)):
# if index != 2:
# render.set_blend_mode2d(1)
# afficheImage(100+(600*(index)), 400, index , 0.6, indexImg[index])
# render.set_blend_mode2d(0)
# else:
# render.set_blend_mode2d(1)
# afficheImage(450, 100, index , 0.6, indexImg[index])
# render.set_blend_mode2d(0)
render.flip()
render.flip()
# prochaine phase, on joue un son de "selection"
joue_sfx_selection()
return Gourou, gourou_index_list
def gameMainLoop(mouse_device):
# Update the ball motion
ball.update(dt)
# Update the player motion
player.setMouse(
mouse_device.GetValue(gs.InputDevice.InputAxisX) / SCR_DISP_WIDTH,
mouse_device.GetValue(gs.InputDevice.InputAxisY) / SCR_DISP_HEIGHT)
player.update(dt)
# Update the AI
ai.updateGameData(ball.pos_x, ball.pos_z, board.board_width,
board.board_length)
ai.update(dt)
# Collisions
if ball.velocity_z > 0.0:
if (not ballIsBehindRacket(ball, player)) and (BallWasWithinXReach(
ball, player) or BallIsWithinXReach(ball, player)):
ball.setPosition(
ball.pos_x, player.pos_z - ball.velocity_z * dt +
min(0.0, player.velocity_z) * dt)
player.setPosition(player.pos_x, ball.pos_z + player.length)
ball.bounceZ()
# Compute 3D/2D projections
ball_2d_x, ball_2d_y, ball_2d_scale = project3DTo2D(
ball.pos_x, ball.pos_z, board.board_width, board.board_length)
ball_2d_x *= SCR_SCALE_FACTOR
ball_2d_y = SCR_DISP_HEIGHT - (ball_2d_y * SCR_SCALE_FACTOR)
player_2d_x, player_2d_y, player_2d_scale = project3DTo2D(
player.pos_x, player.pos_z, board.board_width, board.board_length)
player_2d_x *= SCR_SCALE_FACTOR
player_2d_y = SCR_DISP_HEIGHT - (player_2d_y * SCR_SCALE_FACTOR)
ai_2d_x, ai_2d_y, ai_2d_scale = project3DTo2D(ai.pos_x, ai.pos_z,
board.board_width,
board.board_length)
ai_2d_x *= SCR_SCALE_FACTOR
ai_2d_y = SCR_DISP_HEIGHT - (ai_2d_y * SCR_SCALE_FACTOR)
render.clear()
render.set_blend_mode2d(render.BlendAlpha)
# Opponent
render.sprite2d(SCR_MARGIN_X + (320 * 0.5) * SCR_SCALE_FACTOR,
(SCR_PHYSIC_HEIGHT - 96 * 0.5) * SCR_SCALE_FACTOR,
106 * SCR_SCALE_FACTOR, "@assets/robot5.png")
# Game board
render.image2d(SCR_MARGIN_X, 0, SCR_SCALE_FACTOR, "@assets/game_board.png")
# Score panel
render.image2d(SCR_MARGIN_X, SCR_DISP_HEIGHT - (32 * SCR_SCALE_FACTOR),
SCR_SCALE_FACTOR, "@assets/game_score_panel.png")
# Render moving items according to their Z position
renderAI(ai_2d_x, ai_2d_y, ai_2d_scale)
if ball.pos_z - ball.radius < player.pos_z + player.length:
renderBall(ball_2d_x, ball_2d_y, ball_2d_scale)
renderPlayer(player_2d_x, player_2d_y, player_2d_scale)
else:
renderPlayer(player_2d_x, player_2d_y, player_2d_scale)
renderBall(ball_2d_x, ball_2d_y, ball_2d_scale)
render.set_blend_mode2d(render.BlendOpaque)
for spr_file in os.listdir("data/"):
if not spr_file.startswith("scaled_"):
render.init(512, 512, "../pkg.core")
spr_pic = gs.LoadPicture("@data/" + spr_file)
w, h = spr_pic.GetWidth(), spr_pic.GetHeight()
render.uninit()
render.init(w * scaled_copies, h, "../pkg.core")
capture_buffer = gs.Picture(w * scaled_copies, h, gs.Picture.RGBA8)
for i in range(2):
render.clear(gs.Color(1, 0, 1))
for i in range(scaled_copies):
sprite_scale_factor = RangeAdjust(float(i), 0.0,
float(scaled_copies), 1.0,
min_factor)
render.image2d(i * w + (w * (1.0 - sprite_scale_factor) * 0.5),
h * (1.0 - sprite_scale_factor) * 0.5,
sprite_scale_factor, "@data/" + spr_file)
# render.sprite2d(512 - 64, 512 - 64, 128, "@data/blink.jpg")
# render.blit2d(0, 0, 512, 512, 80, 80, 512 - 160, 512 - 160, "@data/owl.jpg")
render.flip()
render.get_renderer().CaptureFramebuffer(capture_buffer)
gs.SavePicture(capture_buffer, "@data/" + "scaled_" + spr_file, 'STB',
'format:png')
#launch fade out with the new scene if state == state_fade_out: fade_percent -= fade_speed * globals.dt_sec if fade_percent < 0: fade_percent = 0 state = state_ready if fade_percent > 0: color = gs.Color(0, 0, 0, fade_percent) size = render.get_renderer().GetCurrentOutputWindow().GetSize() render.triangle2d(0, 0, size.x, size.y, size.x, 0, color, color, color) render.triangle2d(0, 0, 0, size.y, size.x, size.y, color, color, color) while not input.key_press(gs.InputDevice.KeyEscape): globals.dt_sec = clock.update() render.clear(gs.Color.Black) if state == state_ready or state == state_fade_out: if globals.current_scene is not None: globals.current_scene.draw() globals.current_scene.update() else: if globals.prev_scene_fade is not None: globals.prev_scene_fade.draw() globals.prev_scene_fade.update() fade_between_scene() render.flip()