def __init__(self):
QWidget.__init__(self)
self.setFixedSize(640,480)
top = QWidget()
topLayout = QHBoxLayout()
top.setLayout(topLayout)
title = QLabel("尋寶遊戲");
title.setFont(QFont("verdana",25,QFont.Bold))
topLayout.addWidget(title)
lcd = QLCDNumber()
lcd.setSegmentStyle(QLCDNumber.Flat)
lcd.setFrameStyle(QFrame.StyledPanel|QFrame.Plain)
topLayout.addWidget(lcd)
self.myScene = scene.Scene()
self.connect(self.myScene, SIGNAL("steroidTaken(int)"), lcd, SLOT("display(int)"))
view = QGraphicsView()
view.setAutoFillBackground(True)
view.setScene(self.myScene)
layout = QVBoxLayout()
layout.addWidget(top)
layout.addWidget(view)
self.setLayout(layout)
def test_imaka(psf_grid_raw):
time_start = time.time()
if psf_grid_raw is None:
psf_grid_raw = prepare_test()
h4rg = instrument.Instrument((6000,6000), 4.0, 10., 4.)
h4rg.scale = 0.1
sources = scene.Scene(stars_x, stars_y, stars_f)
psfgrid = psf.PSF_grid(psf_grid_raw)
print('Making Image: {0} sec'.format(time.time() - time_start))
obs = observation.Observation(h4rg, sources, psfgrid, 4, 3.0)
print('Saving Image: {0} sec'.format(time.time() - time_start))
obs.save_to_fits('tmp.fits', clobber=True)
# print 'Displaying Image'
# py.clf()
# py.imshow(obs.img, cmap='gist_heat')
# # Zoom in
# py.axis([2000, 3000, 2000, 3000])
# Print out some runtime information.
time_end = time.time()
run_time = time_end - time_start
print('Total Time: {0} seconds'.format(run_time))
print('Time Per Star: {0} seconds'.format(run_time / Nstars))
return obs
def __init__(self, category):
guirender.RenderTaskView.__init__(self, category, 'Scene')
self.scene = scene.Scene()
sceneDir = mh.getPath('scenes')
if not os.path.exists(sceneDir):
os.makedirs(sceneDir)
self.currentScene = os.path.join(sceneDir, "Default.mhscene")
if os.path.exists(self.currentScene):
loaded = self.scene.load(self.currentScene)
if loaded is False:
self.scene.save(self.currentScene)
else:
self.scene.save(self.currentScene)
if not os.path.exists(os.path.join(sceneDir, "notfound.thumb")):
shutil.copy(
os.path.normpath(mh.getSysDataPath("uvs/notfound.thumb")),
sceneDir)
self.filechooser = self.addRightWidget( \
fc.IconListFileChooser(sceneDir , 'mhscene', ['thumb', 'png'], 'notfound.thumb', 'Scene'))
#self.addLeftWidget(self.filechooser.createSortBox())
self.filechooser.enableAutoRefresh(False)
glmodule.setSceneLighting(self.scene)
@self.filechooser.mhEvent
def onFileSelected(filename):
self.loadScene(filename)
def newSceneButtonCb(event, button):
if self.sceneDirty:
ynd = gui.Dialog.createYesNoDialog(
"Save existing scene first?")
ynd.run()
if ynd.result: saveScene(self)
wid = gui.InputDialog("Enter new scene width")
wid.run()
w = int(wid.textInput.text) if wid.textInput.text.isdigit(
) else configuration.default_width_in_tiles
hid = gui.InputDialog("Enter new scene height")
hid.run()
h = int(hid.textInput.text) if hid.textInput.text.isdigit(
) else configuration.default_height_in_tiles
bid = gui.Dialog.createYesNoDialog("Choose different base tile?")
bid.run()
bt = None
if bid.result:
ts = TileSelector(self.scene)
ts.show()
bt = ts.selectedTile
self.engine.scene = scene.Scene(self.engine,
widthInTiles=w,
heightInTiles=h,
players=[self.scene.player])
if bt: self.engine.scene.baseTile = bt
self.engine.scene.initScene()
button.ancestor.exit()
def main():
## read settings from settings.json and store them
settings = resource.parse_json("settings.json")
## initialize resource manager
res_man = resource.Manager()
## open window
scn = scene.Scene()
scn.open_window(
sf.VideoMode(settings["window"]["width"],
settings["window"]["height"]), settings["window"]["name"],
sf.Style.CLOSE,
sf.ContextSettings(0, 0, settings["window"]["antialias"], 2, 0))
scn.set_window_icon(sf.Image.from_file("sun.png"))
## send all that to the app
app = solar.Solar(res_man, scn)
app.init()
while scn.running():
scn.handle_events()
app.update()
app.render()
def __init__(self, *args, **kwargs):
if kwargs:
self.camera = kwargs.get('camera', camera.Camera())
self.scene = kwargs.get('scene', scene.Scene())
self.background_color = kwargs.get('background_color',
glm.vec3(.0, .0, .0))
self.samples = kwargs.get('samples', 1)
self.buffer = kwargs.get('buffer', buffer.Buffer())
elif args:
self.camera, self.scene, self.background_color, self.samples, self.buffer = args
else:
self.camera = camera.Camera()
self.scene = scene.Scene()
self.background_color = glm.vec3(.0, .0, .0)
self.samples = 1
self.buffer = buffer.Buffer()
def __init__(self,
first_scene="title_screen",
name="Adventure",
reset_save=False):
self.ui = ui.UI()
self.name = name
self.game_variables = {}
self.dj = music.DJ(self, 0.8)
self.background_dj = music.DJ(self, 0.1)
self.save_path = pyglet.resource.get_settings_path(self.name)
util.mkdir_if_absent(self.save_path)
if reset_save:
try:
shutil.rmtree(os.path.join(self.save_path, "autosave"))
except OSError:
pass # Directory didn't exist but we don't care
self.scene_handler = scenehandler.SceneHandler(self)
scn = self.load() or scene.Scene(first_scene, self.scene_handler,
self.ui)
self.scene_handler.set_first_scene(scn)
self.update = self.scene_handler.update
def __init__(self, input): self.has_errors = False self.scene = scene.Scene() self.input = input self.lexer = Lexer(input) self.parser = yacc.yacc(module=self) self.parser.parse(input, lexer=self.lexer.lexer)
def getScene():
"""Return the global %scene instance."""
global _scene
if _scene is None:
import scene
_scene = scene.Scene()
return _scene
def init(self): self.moving = True self.s = scene.Scene(self.width, self.height, self.moving,"start", False) self.scores = [0,0] self.p1 = player.Player(0,0) self.goals = pygame.sprite.Group() self.goalsDrawn = False self.balls = pygame.sprite.Group()
def sanvenirtin():
# #convert_resource()
app = QApplication(sys.argv)
load_resources()
game_scene = scene.Scene()
window = interface.GameSceneInterface(game_scene)
window.show()
app.exec_()
def get_map_by_name(self, name):
name = urllib.quote(name)
req = urllib2.urlopen(self.base_url + "/maps/name/" + name)
res_str = req.read()
res_dict = json.loads(res_str)
sc = scene.Scene(**res_dict)
return sc
def getScene():
mhscene = None
try:
mhscene = G.app.getCategory('Rendering').getTaskByName(
'Scene').scene
except:
import scene
mhscene = scene.Scene()
return mhscene
def make_image():
numz = numerics.Numerics()
my_scene = scene.Scene(WIDTH, HEIGHT, numerics=numz)
pixels = my_scene.render_scene()
img = PIL.Image.new(mode='RGB', size=(WIDTH, HEIGHT))
img.putdata(list(chain(*pixels)))
img.save('scene.png')
def __init__(self, parent=None):
super(MainWindow, self).__init__(parent)
self.setWindowTitle('OpenCMISS Control Centre')
self.graphicsWindow = scene.Scene()
self.setCentralWidget(self.graphicsWindow)
self.createDocks()
self.createActions()
self.createMenus()
def init_singletons():
""" Initialize singleton classes and attach them direclty to our module"""
global Scene
global Mel
import scene
Scene = scene.Scene()
import util
Mel = util.Mel()
def get_maps_by_author(self, name):
name = urllib.quote(name)
req = urllib2.urlopen(self.base_url + "/maps/authorName/" + name)
res_str = req.read()
res_list = json.loads(res_str)
scene_list = list()
for scene_json in res_list:
scene_list.append(scene.Scene(**scene_json))
return scene_list
def open(self):
yaml_file = tkinter.filedialog.askopenfilename(
title='Select OSD YAML FIle',
filetypes=(("YAML files", "*.yaml"), ("all files", "*.*")))
if len(yaml_file) == 0:
return
s = scene.Scene(yaml_file)
self._scenes = [s]
self._root.geometry('%dx%d' % (s.width, s.height))
self._scene_index = 0
self._paint()
def build_test_case(self, name):
"""
Constructs the objects needed for a test
and sets their global data, if any
:param name: test case name
"""
self._curr_test = SimTestCase(name)
self._curr_vhcl = vehicle.Vehicle()
self._curr_scene = scene.Scene()
self._curr_objs = []
self._set_globals()
def __init__(self):
self.settings_marshaller = settings.SettingsMarshaller()
self.settings = self.settings_marshaller.settings
self.face_recognizer = face_recognizer.FaceRecognizer(self.settings)
self.gtk_window = gtk.Window(gtk.WINDOW_TOPLEVEL)
self.gtk_window.connect("destroy", gtk.main_quit)
self.gtk_window.connect("key_press_event", self.on_key_press_event)
self.gtk_window.modify_bg(gtk.STATE_NORMAL, gtk.gdk.Color(0, 0, 0))
self.gtk_fixed = gtk.Fixed()
self.gtk_window.add(self.gtk_fixed)
if self.settings.default_height is not None and self.settings.default_width is not None:
self.gtk_window.set_default_size(self.settings.default_width, self.settings.default_height)
self.gtk_window.fullscreen()
self.gtk_fixed.show()
self.gtk_window.show()
self.screen_width, self.screen_height = self.gtk_window.get_size()
self.gtk_drawing_area = gtk.DrawingArea()
self.gtk_drawing_area.modify_bg(gtk.STATE_NORMAL, gtk.gdk.Color(0, 0, 0))
self.gtk_drawing_area.connect("expose_event", self.expose_event)
self.gtk_drawing_area.connect("configure_event", self.configure_event)
self.gtk_drawing_area.set_size_request(self.screen_width, self.screen_height)
self.gtk_pixmap = None
self.gtk_fixed.add(self.gtk_drawing_area)
self.gtk_drawing_area.show()
#self.pixbuf_animation_blue_bird_iter = gtk.gdk.PixbufAnimation('images/bluebird.gif').get_iter()
self.scene = scene.Scene()
self.settings_marshaller.default_if_none('background_image_width', self.screen_width)
self.settings_marshaller.default_if_none('background_image_height', self.screen_height)
self.settings_marshaller.default_if_none('left_pad', 0)
self.settings_marshaller.default_if_none('top_pad', 0)
self.settings_marshaller.default_if_none('showing_background_image', False)
self.settings_marshaller.default_if_none('showing_face_rectangles', False)
self.settings_marshaller.default_if_none('recognition_threshold', 80)
self.settings_marshaller.save()
self.camera = self.get_camera()
self.background_thread = threading.Thread(target=self.background_work)
self.background_thread.daemon = True
self.kill_background = False
self.recognizing_face = False
self.pending_delete_training = False
self.temporary_notice_timer = None
self.temporary_notice = None
def __init__(self):
self._running = True
self._display_surf = None
self.size = self.weight, self.height = 720, 720
self.background = pygame.Surface(self.size)
self.scenes = ["some_path", "some_other_path", "etc_you_get_the_idea"]
self.current_scene = scene.Scene(self.scenes[0], player.Player(), [
collectiblegameobject.CollectibleGameObject(
"key.png", 50, 50, "Chujka", "Klucz do kurwy"),
gameobject.GameObject("bed.png", 150, 150, "Luszko"),
gameobject.GameObject("desk.png", 350, 300, "Dzwi")
])
self.font = pygame.font.Font("assets/BebasNeue.otf", 15)
def load(self, folder_name="autosave"):
"""Returns a scene if save existed and was loaded successfully"""
base_path = os.path.join(self.save_path, folder_name)
scn = self.scene_handler.scene
if not os.path.exists(base_path):
return None
else:
my_info = util.load_json(os.path.join(base_path, 'game'))
self.game_variables = my_info['game_variables']
return scene.Scene(my_info['first_scene'],
self.scene_handler,
self.ui,
load_path=os.path.join(base_path,
my_info['first_scene']))
def start():
global platformscene, player
disp = pygame.Surface((320, 240))
player = PlatformPlayer()
platformscene = scene.Scene(disp)
platformscene.add(player)
del enemies[:]
for i in range(20):
angst(450 + 300 * i)
for i in range(20):
fear(300 + 300 * i)
platformscene.bg_color = (200, 200, 200)
def main():
"""Main loop"""
# Inicia bibliotecas necessárias para o pygame
pygame.init()
# Cria uma tela de tamanho 800x600
game_display = pygame.display.set_mode((600, 500))
# Preenche o fundo da tela com a cor branca
game_display.fill(pygbutton.WHITE)
backgroundimage = pygame.image.load('matemática-1.jpg')
music_win = pygame.mixer.music.load('gamewining.mp3')
# backgroundimage = pygame.transform.scale(backgroundimage,(600, 500))
# Define o nome da janela
pygame.display.set_caption("Arithmetic Game")
cena1 = scene.Scene(game_display, 15, 7, ['2', '3', '4', '+', 'x']) # Solução = 2 * 4 +4 +3
cena2 = scene.Scene(game_display, 26, 9, ['2', '5', '4', '+', 'x', '(', ')'])
cena3 = scene.Scene(game_display, 59, 9, ['2', '4', '6', '7', 'x', '+', '/'])
cena4 = scene.Scene(game_display, 156, 6, ['7', '8', '6', '3', 'x', '/'])
cena5 = scene.Scene(game_display, 63, 12, ['1', '2', '5', '3', 'x', '-', '/', '+', 'x', '(', ')'])
cena6 = scene.Scene(game_display, 257, 19, ["(", ")", "8", "3", "1", "+", "-", "x"])
cenas = []
cenas.append(cena1)
cenas.append(cena2)
cenas.append(cena3)
cenas.append(cena4)
cenas.append(cena5)
cenas.append(cena6)
gamewin = endgame.GameWin(game_display, music_win)
# loop principal do game
fase = 0
proxima_fase = 0
while True:
# percorre os eventos (clique do mouse, tecla pressionada, movimentar o mouse, etc.)
for event in pygame.event.get():
if event.type == pygame.QUIT:
pygame.quit()
quit()
if event.type in (pygame.MOUSEBUTTONDOWN, pygame.MOUSEBUTTONUP):
proxima_fase += cenas[fase].handle_events(event)
if proxima_fase > fase:
fase = proxima_fase
# Preenche a tela de branco
try:
game_display.fill(pygbutton.WHITE)
game_display.blit(backgroundimage, [0, 0])
cenas[fase].build_scene()
cenas[fase].write_calculator()
except:
gamewin.gamewin()
time.sleep(5)
fase = 0
proxima_fase = 0
# Atualiza a tela
pygame.display.flip()
def loop():
sc = scene.Scene(game_state.WIDTH * 2, game_state.HEIGHT * 1.5)
set_min_zoom(sc)
scene.setup(sc)
while game_state.RUNNING:
clock.tick(game_state.FPS)
dt = clock.get_time() / 100
sc.clear(game_state.surface)
process_input()
sc.update(dt)
sc.render(game_state.surface)
pygame.quit()
def __init__(self):
"""Конструктор. Инициализируем необходимые параметры"""
self.root = tk.Tk()
self.width = 800
self.height = 600
self.floor_height = 100
self.root.geometry(str(self.width) + 'x' + str(self.height))
self.canvas = tk.Canvas(self.root, bg='white')
self.canvas.pack(fill=tk.BOTH, expand=1)
self.scene = scene.Scene(self.canvas, self.width, self.height,
self.floor_height)
self.targets = targets.Targets(self.scene, target.Target(self.scene),
target.Target(self.scene))
self.win_screen = self.canvas.create_text(self.width / 2,
self.height / 2,
text='',
font='28')
self.gun = gun_class.Gun(self.scene)
def spawn_scenes(self, rois, overlapping=0, sampling_rate=3):
"""
Creates the scenes by setting the ROIS (extrinsic parameter for the
external reference system)
Params:
* rois: list([[x0, x1],[y0, y1]])
* overlapping: pixels of overlapping
* sampling_rate: how many times the detector is deployed
Return: None
"""
for roi in rois:
self._scenes.append(
Scene.Scene(
ROI=roi, overlap=overlapping, detection_sampling=sampling_rate,
settings=self._settings
)
)
def __init__(self):
glutInit(len(sys.argv), sys.argv)
glutInitDisplayMode(GLUT_RGBA | GLUT_DOUBLE)
glutInitWindowSize(800, 600)
glutCreateWindow('Dynamic Skybox')
glutFullScreen()
glutDisplayFunc(self.draw)
glutMotionFunc(self.mouse_drag)
glutKeyboardFunc(self.keyboard)
glutMouseFunc(self.mouse_press)
glutReshapeFunc(self.reshape)
glutIdleFunc(self.idle)
glClearColor(0.1, 0.2, 0.5, 1.0)
glEnable(GL_DEPTH_TEST)
glEnable(GL_BLEND)
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA)
glShadeModel(GL_SMOOTH)
glEnable(GL_NORMALIZE)
glEnable(GL_LIGHTING)
glColorMaterial(GL_FRONT, GL_AMBIENT_AND_DIFFUSE)
glEnable(GL_COLOR_MATERIAL)
self.time = time.clock()
self.screen_width = 1.0
self.shader = shader.Shader("./shaders/plain.vert",
"./shaders/plain.frag")
self.seed = random.uniform(0, 5000)
self.last_mouse_pos = 0, 0
self.x_rotation = 0
self.y_rotation = 0
self.scene = scene.Scene()
self.zoom = 0
self.fps = 60
self.idle_tick = 1.0 / self.fps
self.scr_width = glutGet(GLUT_WINDOW_WIDTH)
self.scr_height = glutGet(GLUT_WINDOW_HEIGHT)
self.first_pass = postprocessing.PostProcessor(
1, 1, self.scr_width, self.scr_height, "./shaders/god_rays.vert",
"./shaders/god_rays.frag")
self.using_pp = False
self.paused = False
def make_animation():
numz = numerics.Numerics()
my_scene = scene.Scene(WIDTH, HEIGHT, numerics=numz)
imgs = []
for (frame, pixels) in enumerate(my_scene.render_anim(FRAME_COUNT)):
img = PIL.Image.new(mode='RGB', size=(WIDTH, HEIGHT))
img.putdata(list(chain(*pixels)))
if frame == 0:
seq = img
else:
imgs.append(img)
print('Frame {}'.format(frame))
seq.save('scene.gif',
include_color_table=True,
save_all=True,
append_images=imgs,
duration=20,
loop=100)
def run(largura, altura, cores_randomizadas, fator_de_randomizacao,
entrada_camera, entrada_objeto, entrada_iluminacao):
cam = Camera(entrada_camera)
cena = scene.Scene(entrada_objeto, entrada_iluminacao)
posicao_ilumi = cam.ver_coordenadas_sistema(cena.pl)
cena.pl = posicao_ilumi
for p in cena.pontos:
cena.ver_coordenadas.append(cam.ver_coordenadas_sistema(p))
for t in cena.triangulos:
p1, p2, p3 = cena.ver_coordenadas[t[0] - 1], cena.ver_coordenadas[
t[1] - 1], cena.ver_coordenadas[t[2] - 1]
tr_normal = cam.get_normal_triangulo(p1, p2, p3)
tr_normal = opVetores.normalizar(tr_normal)
cena.triangulos_v_obj.append(Triangulo(p1, p2, p3, norm=tr_normal))
cena.pontos_normal[t[0] - 1] += tr_normal
cena.pontos_normal[t[1] - 1] += tr_normal
cena.pontos_normal[t[2] - 1] += tr_normal
for i in range(len(cena.pontos_normal)):
cena.pontos_normal[i] = opVetores.normalizar(cena.pontos_normal[i])
for vp in cena.ver_coordenadas:
cena.coordenadas_tela.append(cam.converter_coordenadas(vp))
cena.zbuffer(largura, altura)
cena.criar_triangulos_objeto()
cena.rast_tela_triangulos(cores_randomizadas, fator_de_randomizacao)
return cena
