Exemplo n.º 1
0
    def FindDimensions(this):
        Width = this.Width
        Height = this.Height

        if platform.system() == 'Linux':
            import subprocess

            Dimensions = subprocess.Popen(
                'xrandr | grep "\*" | cut -d" " -f4',
                shell=True,
                stdout=subprocess.PIPE).communicate()[0].decode().split('\n')[
                    this.ScreenID - 1]

            Width, Height = Dimensions.split('x')

        elif platform.system() == 'Windows':
            from win32api import GetSystemMetrics

            Width = GetSystemMetrics(0)
            Height = GetSystemMetrics(1)

        elif platform.system() == 'Darwin':
            from AppKit import NSScreen

            Width = NSScreen.mainScreen().frame().size.width
            Height = NSScreen.mainScreen().frame().size.height

        this.Width = int(Width)
        this.Height = int(Height)
        this.Dimensions = (int(Width), int(Height))
Exemplo n.º 2
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def get_browser_bounds():
    runningApp = NSWorkspace.sharedWorkspace().frontmostApplication()
    runningAppPid = runningApp.processIdentifier()
    windows = CGWindowListCopyWindowInfo(
        kCGWindowListOptionOnScreenOnly | kCGWindowListExcludeDesktopElements,
        kCGNullWindowID)

    possibleWindows = []
    for wnd in windows:
        if wnd['kCGWindowOwnerPID'] == runningAppPid:
            possibleWindows.append(wnd)

    fallback = False
    if len(possibleWindows) == 0:
        # fallback mode
        fallback = True
    elif len(possibleWindows) == 1:
        window = possibleWindows[0]
    else:
        fallback = True
        for wnd in possibleWindows:
            #if 'netflix' in wnd['kCGWindowName'].lower():
            if int(wnd['kCGWindowLayer']) < 0:
                window = wnd
                fallback = False
                break

    if fallback:
        # return fallback
        return dict(Height=NSScreen.mainScreen().frame().size.height,
                    Width=NSScreen.mainScreen().frame().size.width,
                    X=0,
                    Y=0)
    else:
        return window['kCGWindowBounds']
Exemplo n.º 3
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    def __init__(self):
        super(SplshApp, self).__init__('Splsh')
        self.icon = 'img/icon.png'

        try:
            self.screen_width = int(NSScreen.mainScreen().frame().size.width)
            self.screen_height = int(NSScreen.mainScreen().frame().size.height)
        except:
            self.screen_width = 1024
            self.screen_height = 768

        self.menu = [
            'x'.join([str(self.screen_width), str(self.screen_height)]),
            None,
            rumps.MenuItem('Next', key='n'),
            None,
            rumps.MenuItem('Gray Mood'),
            rumps.MenuItem('Blur'),
            rumps.MenuItem('Clear Cache', key='c'),
            None,
        ]

        # Path to dir for downloaded images
        self.media_dir = 'media/'
        # Extra url parameters
        self.gray_mood = False
        self.blur = False
Exemplo n.º 4
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 def __init__(self, top, right, bottom, left, height, width, offsetTop,
              offsetRight, offsetBottom, offsetLeft, step):
     self.lights = (top, right, bottom, left)
     self.area = (height, width)
     self.offset = (offsetTop, offsetRight, offsetBottom, offsetLeft)
     self.screenSizes = (NSScreen.mainScreen().frame().size.height,
                         NSScreen.mainScreen().frame().size.width)
     self.step = step
Exemplo n.º 5
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 def __init__(self, test):
     self.test = test
     self.width = NSScreen.mainScreen().frame().size.width
     self.height = NSScreen.mainScreen().frame().size.height
     self.captureDevice = cv2.VideoCapture(0)
     self.testImage = self.createTestImage()
     self.makeImgsDir()
     self.recordVideo()
Exemplo n.º 6
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def detect_screen_size():
  if sys.platform == "darwin":
    scaling_factor = NSScreen.mainScreen().backingScaleFactor()
    return int(NSScreen.mainScreen().frame().size.width * scaling_factor), int(NSScreen.mainScreen().frame().size.height * scaling_factor), scaling_factor
  elif sys.platform == "win32":
    scaling_factor = 1.0
    return int(GetSystemMetrics(0)), int(GetSystemMetrics(1)), scaling_factor
  else:
    raise OSError("Incompatible platform")
Exemplo n.º 7
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 def run(self):
     self._logger.debug('MainAction::run')
     destination = os.path.realpath('wllpx.jpg')
     tempFilename = os.path.realpath('temp.jpg')
     media = self._instagramFeed.getNext()
     self._settingsController.set('CURRENT_MEDIA_ID', media.id)
     self._downloader.fromUrl(media.url, tempFilename)
     width, height = int(NSScreen.mainScreen().frame().size.width), int(NSScreen.mainScreen().frame().size.height)
     self._wallpaperGenerator.generate(width, height, tempFilename, destination)
     self._wallpaperController.setWallpaper(destination)
Exemplo n.º 8
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def getScreenDimensions():
    """[Uses NSScreen to return current monitor dimensions]
    
    Returns:
        [tuple] -- [a tuple of two ints: screenWidth, screenHeight]
    """

    screenWidth = int(NSScreen.mainScreen().frame().size.width)
    screenHeight = int(NSScreen.mainScreen().frame().size.height)

    # print('Screen Width:', screenWidth)
    # print('Screen Height:', screenHeight)

    return (screenWidth, screenHeight)
Exemplo n.º 9
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    def reflow(self, window_manager = None, screen = NSScreen.mainScreen(), space_id = None):
        menubar_offset = 0 if self.ignore_menu else 22

        windows = window_manager.get_managed_windows(screen, space_id)
        screen_frame = screen.frame()

        left = screen_frame[0][0] + self.border
        top = screen_frame[0][1] + self.border + menubar_offset
        right = screen_frame[1][0] - self.border
        bottom = screen_frame[1][1] - self.border - menubar_offset

        gutter_left = screen_frame[1][0] * self.ratio - self.gutter / 2
        gutter_right = gutter_left + self.gutter

        slave_count = len(windows) - 1
        logging.debug('Number of slave windows: %d.', slave_count)
        slave_height = ((bottom - top) - self.gutter * (slave_count - 1)) / slave_count
        logging.debug('Slave window height is %f.', slave_height)
        count = 0
        offset = 0
        for window in windows:
            if count == 0:
                window.frame = (left, top, gutter_left - left, bottom - top)
            else:
                window.position = (gutter_right, top + offset)
                window.size = (right - gutter_right, slave_height)
                offset += slave_height + self.gutter
                logging.debug('New window frame: %f, %f, %f, %f', window.position[0], window.position[1], window.size[0], window.size[1])
            count += 1
Exemplo n.º 10
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 def __init__(self, style='standard', zoomable=None, **kwds):
     # We ignore zoomable, since it's the same as resizable.
     self._style = style
     options = dict(_default_options_for_style[style])
     for option in ['movable', 'closable', 'hidable', 'resizable']:
         if option in kwds:
             options[option] = kwds.pop(option)
     self._ns_style_mask = self._ns_window_style_mask(**options)
     if style == 'fullscreen':
         ns_rect = NSScreen.mainScreen().frame()
     else:
         ns_rect = NSRect(NSPoint(0, 0),
                          NSSize(self._default_width, self._default_height))
     ns_window = PyGUI_NSWindow.alloc()
     ns_window.initWithContentRect_styleMask_backing_defer_(
         ns_rect, self._ns_style_mask, AppKit.NSBackingStoreBuffered, True)
     ns_content = PyGUI_NS_ContentView.alloc()
     ns_content.initWithFrame_(NSRect(NSPoint(0, 0), NSSize(0, 0)))
     ns_content.pygui_component = self
     ns_window.setContentView_(ns_content)
     ns_window.setAcceptsMouseMovedEvents_(True)
     ns_window.setDelegate_(ns_window)
     ns_window.pygui_component = self
     self._ns_window = ns_window
     GWindow.__init__(self,
                      style=style,
                      closable=options['closable'],
                      _ns_view=ns_window.contentView(),
                      _ns_responder=ns_window,
                      _ns_set_autoresizing_mask=False,
                      **kwds)
Exemplo n.º 11
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def initialize_screen(screen_width=0, screen_height=0):

    if os.name == 'posix':
        from AppKit import NSScreen
        screen_width = NSScreen.mainScreen().frame().width
        screen_height = NSScreen.mainScreen().frame().height
    else:
        import ctypes
        pygame.display.init()
        if screen_width < 1 or screen_height < 1:
            user32 = ctypes.windll.user32
            screen_width = user32.GetSystemMetrics(0) / 2
            screen_height = user32.GetSystemMetrics(1) / 2
    screen = pygame.display.set_mode([screen_width, screen_height], \
                                     pygame.RESIZABLE)
    return [screen, screen_width, screen_height]
Exemplo n.º 12
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def get_desktop_size():
    """ Get the current desktop resolution. No more than 2K.

        Return a tuple of pixels (width, height)
    """
    from AppKit import NSScreen

    frame = NSScreen.mainScreen().frame()
    height = frame.size.height
    width = frame.size.width

    MAX_WIDTH = 2000
    MAX_HEIGHT = 2000

    if width > MAX_WIDTH or height > MAX_HEIGHT:
        if width > height:
            max = width
            ratio = max / MAX_WIDTH
        else:
            max = height
            ratio = max / MAX_HEIGHT
        width = width / ratio
        height = height / ratio

    return (int(width), int(height))
Exemplo n.º 13
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def get_desktop_size():
    """ Get the current desktop resolution. No more than 2K.

        Return a tuple of pixels (width, height)
    """
    from AppKit import NSScreen

    frame = NSScreen.mainScreen().frame()
    height = frame.size.height
    width = frame.size.width


    MAX_WIDTH = 2000
    MAX_HEIGHT = 2000

    if width > MAX_WIDTH or height > MAX_HEIGHT:
        if width > height:
            max = width
            ratio = max / MAX_WIDTH
        else:
            max = height
            ratio = max / MAX_HEIGHT
        width = width / ratio
        height = height / ratio

    return (int(width), int(height))
Exemplo n.º 14
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def check_files(files, output_path):
    height = NSScreen.mainScreen().frame().size.height
    with open(output_path, 'w') as out:
        for file in files:
            image_name, is_positive = check_image(file, height)
            template = "%s\t%s\n"
            out.write(template % (image_name, is_positive))
Exemplo n.º 15
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 def __init__(self):
     #title of the box window
     self.title = 'Question Box'
     #box width
     self.width = 400
     #box height
     self.height = 160
     #box position in the screen default to be at the center
     self.left = (NSScreen.mainScreen().frame().size.width -
                  self.width) // 2
     self.top = (NSScreen.mainScreen().frame().size.height -
                 self.height) // 2
     #game status: quit or restart
     self.status = None
     #game type: the returned status when game ends
     self.types = None
Exemplo n.º 16
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def screen_from_point(point):
    screens = NSScreen.screens()
    for screen in screens:
        if NSPointInRect(point, screen.frame()):
            return screen

    return NSScreen.mainScreen()
Exemplo n.º 17
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 def __init__(self, style = 'standard', zoomable = None, **kwds):
     # We ignore zoomable, since it's the same as resizable.
     self._style = style
     options = dict(_default_options_for_style[style])
     for option in ['movable', 'closable', 'hidable', 'resizable']:
         if option in kwds:
             options[option] = kwds.pop(option)
     self._ns_style_mask = self._ns_window_style_mask(**options)
     if style == 'fullscreen':
         ns_rect = NSScreen.mainScreen().frame()
     else:
         ns_rect = NSRect(NSPoint(0, 0), NSSize(self._default_width, self._default_height))
     ns_window = PyGUI_NSWindow.alloc()
     ns_window.initWithContentRect_styleMask_backing_defer_(
         ns_rect, self._ns_style_mask, AppKit.NSBackingStoreBuffered, True)
     ns_content = PyGUI_NS_ContentView.alloc()
     ns_content.initWithFrame_(NSRect(NSPoint(0, 0), NSSize(0, 0)))
     ns_content.pygui_component = self
     ns_window.setContentView_(ns_content)
     ns_window.setAcceptsMouseMovedEvents_(True)
     ns_window.setDelegate_(ns_window)
     ns_window.pygui_component = self
     self._ns_window = ns_window
     GWindow.__init__(self, style = style, closable = options['closable'],
         _ns_view = ns_window.contentView(), _ns_responder = ns_window,
         _ns_set_autoresizing_mask = False,
         **kwds)
Exemplo n.º 18
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    def getScreenResolution(cls, index =-1):

        #-------------------------------------------------------------------------------------------
        if cls.isMac():
            try:
                import AppKit
                from AppKit import NSScreen

                if index == -1:
                    return int(NSScreen.mainScreen().frame().size.width), \
                           int(NSScreen.mainScreen().frame().size.height)

                i = 0
                for screen in AppKit.NSScreen.screens():
                    if i != index:
                        continue
                    return screen.frame().size.width, screen.frame().size.height
                return None
            except Exception:
                pass

            result = cls._getOsxDisplayInfo()
            if result['code'] or not 'out' in result:
                return None

            if index < 0:
                index = 0
            screenIndex = 0
            for line in result['out'].split('\n'):
                line = line.strip().lower()
                if not line.startswith('resolution:'):
                    continue
                if screenIndex != index:
                    continue

                result = re.search(r'(?P<width>[0-9]{3,})[^0-9]+(?P<height>[0-9]{3,})', line)
                return int(result.group('width')), int(result.group('height'))
            return None

        #-------------------------------------------------------------------------------------------
        if cls.isWindows():
            try:
                import ctypes
            except Exception:
                return None
            user32 = ctypes.windll.user32
            return int(user32.GetSystemMetrics(0)), int(user32.GetSystemMetrics(1))
Exemplo n.º 19
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 def isfullscreen(self):
     """return true if fullscreen"""
     if len(self.windows)==0:
         return False
     f=NSScreen.mainScreen().frame()
     m=([f.origin.x,f.origin.y,f.size.width,f.size.height])
     w=self.windows[0].bounds
     return ([w[0],w[2],w[3]])==([m[0],m[2],m[3]])
Exemplo n.º 20
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def main_monitor_resolution():
    """Get the main screen resolution.
    Any secondary screens will be ignored.

    Returns:
        Tuple of the width and height of the main screen.
    """
    size = NSScreen.mainScreen().frame().size
    return (size.width, size.height)
Exemplo n.º 21
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 def _stagger(self):
     key_win = application()._ns_key_window
     if key_win:
         (x, y), (w, h) = key_win._ns_window.frame()
         p = self._ns_window.cascadeTopLeftFromPoint_(NSPoint(x, y + h))
         self._ns_window.setFrameTopLeftPoint_(p)
     else:
         (x, y), (w, h) = NSScreen.mainScreen().visibleFrame()
         ns_vis_topleft = NSPoint(x, y + h)
         self._ns_window.setFrameTopLeftPoint_(ns_vis_topleft)
Exemplo n.º 22
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def get_icc_info():
    from AppKit import NSScreen  #@UnresolvedImport
    ms = NSScreen.mainScreen()
    info = do_get_screen_icc_info(ms)
    screens = NSScreen.screens()
    for i, screen in enumerate(screens):
        si = do_get_screen_icc_info(screen)
        if si:
            info[i] = si
    return info
Exemplo n.º 23
0
Arquivo: gui.py Projeto: ljmljz/xpra
def get_icc_info():
    from AppKit import NSScreen     #@UnresolvedImport
    ms = NSScreen.mainScreen()
    info = do_get_screen_icc_info(ms)
    screens = NSScreen.screens()
    for i, screen in enumerate(screens):
        si = do_get_screen_icc_info(screen)
        if si:
            info[i] = si
    return info
Exemplo n.º 24
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 def _stagger(self):
     key_win = application()._ns_key_window
     if key_win:
         (x, y), (w, h) = key_win._ns_window.frame()
         p = self._ns_window.cascadeTopLeftFromPoint_(NSPoint(x, y + h))
         self._ns_window.setFrameTopLeftPoint_(p)
     else:
         (x, y), (w, h) = NSScreen.mainScreen().visibleFrame()
         ns_vis_topleft = NSPoint(x, y + h)
         self._ns_window.setFrameTopLeftPoint_(ns_vis_topleft)
Exemplo n.º 25
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    def reflow(self, window_manager = None, screen = NSScreen.mainScreen(), space_id = None):
        menubar_offset = 0 if self.ignore_menu else 22

        windows = window_manager.get_managed_windows(screen, space_id)
        screen_frame = screen.frame()

        for window in windows:
            left = screen_frame[0][0] + self.border
            top = screen_frame[0][1] + self.border + menubar_offset
            right = screen_frame[1][0] - self.border
            bottom = screen_frame[1][1] - self.border - menubar_offset
            window.frame = (left, top, right - left, bottom - top)
Exemplo n.º 26
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def get_main_screen_rect():
    screen_frame = None
    try:
        if MAC_VERSION >= MAVERICKS:
            screen = NSScreen.mainScreen()
        else:
            screen = NSScreen.screens()[0]
        screen_frame = screen.frame()
    except Exception:
        unhandled_exc_handler()

    if screen_frame is None:
        TRACE("!! Couldn't get the screen information from the OS.")
    return screen_frame
Exemplo n.º 27
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def get_icc_info():
    try:
        from AppKit import NSScreen  #@UnresolvedImport
    except ImportError as e:
        log("cannot get icc info without AppKit: %s", e)
        return {}
    ms = NSScreen.mainScreen()
    info = do_get_screen_icc_info(ms)
    screens = NSScreen.screens()
    for i, screen in enumerate(screens):
        si = do_get_screen_icc_info(screen)
        if si:
            info[i] = si
    return info
Exemplo n.º 28
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def get_screen_resolution():
    """
    Get the screen resolution
    """
    if is_macosx():
        from AppKit import NSScreen
        screen_size = NSScreen.mainScreen().frame().size
        return screen_size.width, screen_size.height
    elif is_win():
        from win32api import GetSystemMetrics
        return GetSystemMetrics(0), GetSystemMetrics(1)
    elif is_linux():
        from Xlib.display import Display
        resolution = Display().screen().root.get_geometry()
        return resolution.width, resolution.height
    else:
        return 1024, 768
Exemplo n.º 29
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    def reflow(self, window_manager = None, screen = NSScreen.mainScreen(), space_id = None):
        menubar_offset = 0 if self.ignore_menu else 22

        windows = window_manager.get_managed_windows(screen, space_id)
        screen_frame = screen.frame()

        left = screen_frame[0][0] + self.border
        top = screen_frame[0][1] + self.border + menubar_offset
        right = screen_frame[1][0] - self.border
        bottom = screen_frame[1][1] - self.border - menubar_offset

        gutter_left = (screen_frame[1][0] - self.gutter) / 2
        gutter_right = gutter_left + self.gutter

        count = 0
        for window in windows:
            if count % 2 == 0:
                window.frame = (left, top, gutter_left - left, bottom - top)
            else:
                window.frame = (gutter_right, top, right - gutter_right, bottom - top)
            count += 1
Exemplo n.º 30
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def getScreenInfo():
    # Collect screen info into a dictinary
    screenInfo = []
    mainScreenDescription = NSScreen.mainScreen().deviceDescription()
    for screen in NSScreen.screens():
        # Screen info
        thisScreenDescription = screen.deviceDescription()
        frame = screen.frame()
        origin = (frame.origin.x, frame.origin.y)
        size = (frame.size.width, frame.size.height)
        # Find the orientation
        h = 1 if origin[0] > 0 else -1 if origin[0] < 0 else 0
        v = 1 if origin[1] > 0 else -1 if origin[1] < 0 else 0
        orientations = [(-1, 1), (0, 1), (1, 1), (-1, 0), (0, 0), (1, 0),
                        (-1, -1), (0, -1), (1, -1)]
        orientationSymbols = [
            "↖️", "⬆️", "↗️", "⬅️", "⏺", "➡️", "↙️", "⬇️", "↘️"
        ]
        o = orientationSymbols[orientations.index((h, v))]
        # Screen name and info
        thisScreenInfo = dict(name=None,
                              origin=origin,
                              size=size,
                              isMain=False,
                              orientation=o)
        if thisScreenDescription["NSScreenNumber"] == mainScreenDescription[
                "NSScreenNumber"]:
            thisScreenInfo["name"] = "Main screen (%s × %s)" % (int(
                size[0]), int(size[1]))
            thisScreenInfo["isMain"] = True
        else:
            thisScreenInfo["name"] = "Other screen (%s × %s)" % (int(
                size[0]), int(size[1]))
        screenInfo.append(thisScreenInfo)

    return screenInfo
Exemplo n.º 31
0
    def display(self):
        if self._panel is None:
            screen_size = NSScreen.mainScreen().frame().size
            center_point = screen_size.width / 2, screen_size.height / 2
            self.rect = ((center_point[0] - 100, center_point[1] - 100), (400,
                                                                          200))

            self._panel = NSPanel.alloc()
            # self._panel.init()
            self._panel.initWithContentRect_styleMask_backing_defer_(
                self.rect, NSBorderlessWindowMask, self.buf, self.flag)
            self._panel.setTitle_("HelloWorld")
            self._panel.setFloatingPanel_(True)
            self._panel.setWorksWhenModal_(True)
            self._panel.setHidesOnDeactivate_(True)

            self._web_view = WKWebView.new()
            self._web_view.initWithFrame_configuration_(
                NSZeroRect, WKWebViewConfiguration.new())
            self._web_view.setFrameSize_(
                self._panel.contentView().frame().size)
            self._web_view.loadHTMLString_baseURL_(
                '<html><body><p>{}</p></body></html>'.format(self.result),
                None)
            self._panel.contentView().addSubview_(self._web_view)

        else:
            self._panel.setHidesOnDeactivate_(False)
            # self._panel.update()
            self.timer = Timer(2, self.hide)
            self.timer.start()

        self._panel.setFrame_display_(self.rect, True)

        self._panel.update()
        self._panel.orderFrontRegardless()
Exemplo n.º 32
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# starting over...trying to control automation for recording. deleting rtimidi stuff

import pygame
import pygame.midi
import pygame.mouse
import pygame.font
import os
from AppKit import NSScreen
import pyautogui

#### ref ####
# key ref: https://www.pygame.org/docs/ref/key.html

winw = NSScreen.mainScreen().frame().size.width
winh = NSScreen.mainScreen().frame().size.height

mx = pyautogui.position()[0]
my = pyautogui.position()[1]

pygame.init()
pygame.midi.init()
pygame.font.init()

dim = (200, int(winh))  # dimensions of window
startpos = int(winw - dim[0]), 0
os.environ['SDL_VIDEO_WINDOW_POS'] = str(startpos[0]) + "," + str(startpos[1])

#### set up text ####
font = pygame.font.SysFont('Courier', 24, bold=False)
scrolldir_title = font.render('scroll:', True, (0, 0, 0))
scrollspd_title = font.render('speed:', True, (0, 0, 0))
Exemplo n.º 33
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#!/usr/bin/python
# Prints current screen resolution.
# See: https://stackoverflow.com/q/1281397/55075
from AppKit import NSScreen
print("Current screen resolution: %dx%d" % (NSScreen.mainScreen().frame().size.width, NSScreen.mainScreen().frame().size.height))
Exemplo n.º 34
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 def _screen_size(cls):
     from AppKit import NSScreen
     return NSScreen.mainScreen().frame().size
Exemplo n.º 35
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def show_backdrop(comm_queue, image_path):
    from AppKit import NSWindow, NSWindowCollectionBehaviorCanJoinAllSpaces, NSWindowCollectionBehaviorStationary, \
                       NSWindowCollectionBehaviorIgnoresCycle, NSBorderlessWindowMask, NSBackingStoreBuffered, NSColor, \
                       NSApplication, NSScreen, NSView, NSImage, NSImageView, NSZeroRect, NSCompositeCopy, NSApp, \
                       NSTimer, NSObject, NSEvent, NSApplicationDefined, NSMakePoint, NSBundle
    from Quartz import kCGDesktopWindowLevel
    from ctypes import CDLL, Structure, POINTER, c_uint32, byref
    from ctypes.util import find_library
    class ProcessSerialNumber(Structure):
        _fields_    = [('highLongOfPSN', c_uint32),
                       ('lowLongOfPSN',  c_uint32)]
    kCurrentProcess = 2
    kProcessTransformToUIElementAppication = 4
    ApplicationServices           = CDLL(find_library('ApplicationServices'))
    TransformProcessType          = ApplicationServices.TransformProcessType
    TransformProcessType.argtypes = [POINTER(ProcessSerialNumber), c_uint32]
    class MainController(NSObject):
        timer = None
        def kickRunLoop(self):
            event = NSEvent.otherEventWithType_location_modifierFlags_timestamp_windowNumber_context_subtype_data1_data2_(NSApplicationDefined, \
                            NSMakePoint(0,0), 0, 0.0, 0, None, 0, 0, 0)
            NSApp.postEvent_atStart_(event, True)
        def checkProcess_(self, timer):
            if not comm_queue.empty():
                # We Get Signal, Take Off Every Zig - er, time to shut down this forked process
                # Clear the queue
                while not comm_queue.empty():
                    ignore = comm_queue.get_nowait()
                NSApp.stop_(None)
                # After you stop the runloop, the app has to receive another event to determine the runloop stopped ...
                self.kickRunLoop()
        def run(self):
            # You could adjust the 1.0 here to how ever many seconds you wanted to wait between checks to terminate
            self.timer = NSTimer.scheduledTimerWithTimeInterval_target_selector_userInfo_repeats_(1.0, self, self.checkProcess_, None, True)
            NSApp.run()
    class FullScreenWindow(NSWindow):
        def canBecomeKeyWindow(self):
            return False
        def canBecomeMainWindow(self):
            return False
    class LockView(NSView):
        def getTopOffset(self, height):
            return (self.bounds().size.height / 2) - height / 2
        def getLeftOffset(self, width):
            return (self.bounds().size.width / 2) - width / 2
        def drawRect_(self, rect):
            image = NSImage.alloc().initWithContentsOfFile_(image_path)
            rep = image.representations()[0]
            bg_width = rep.pixelsWide()
            bg_height = rep.pixelsHigh()
            image.drawInRect_fromRect_operation_fraction_(((self.getLeftOffset(bg_width), self.getTopOffset(bg_height)), (bg_width, bg_height)), NSZeroRect, NSCompositeCopy, 1.0)
            imageView = NSImageView.alloc().init()
            imageView.setImage_(image)
            self.addSubview_(imageView)
    bundle = NSBundle.mainBundle()
    info = bundle.localizedInfoDictionary() or bundle.infoDictionary()
    # Did you know you can override parts of infoDictionary (Info.plist, after loading) even though Apple says it's read-only?
    # This is enough to make an app faceless / without a Dock icon
    info['LSUIElement'] = '1'
    # Initialize our shared application instance
    app = NSApplication.sharedApplication()
    # ... This isn't really necessary, but it's nice to ensure that the application truly is UIElement type
    psn    = ProcessSerialNumber(0, kCurrentProcess)
    ApplicationServices.TransformProcessType(psn, kProcessTransformToUIElementAppication)
    screen = NSScreen.mainScreen()
    myWindow = FullScreenWindow.alloc().initWithContentRect_styleMask_backing_defer_(screen.frame(), NSBorderlessWindowMask, NSBackingStoreBuffered, True)
    myView = LockView.alloc().initWithFrame_(screen.frame())
    myWindow.setContentView_(myView)
    myWindow.setLevel_(kCGDesktopWindowLevel)
    myWindow.setCollectionBehavior_(NSWindowCollectionBehaviorCanJoinAllSpaces | NSWindowCollectionBehaviorStationary | NSWindowCollectionBehaviorIgnoresCycle)
    myWindow.setBackgroundColor_(NSColor.blackColor())
    myWindow.makeKeyAndOrderFront_(myWindow)
    myWindow.display()
    controller = MainController.alloc().init()
    controller.run()
Exemplo n.º 36
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 def real_y(cls, sc):
     main_frame = NSScreen.mainScreen().frame()
     sc_frame = sc.frame()
     return main_frame.size.height - (sc_frame.size.height+sc_frame.origin.y)
Exemplo n.º 37
0
 def __init__(self, posSize, title="", minSize=None, maxSize=None, textured=False,
             autosaveName=None, closable=True, miniaturizable=True, initiallyVisible=True,
             fullScreenMode=None, titleVisible=True, fullSizeContentView=False, screen=None):
     mask = self.nsWindowStyleMask
     if closable:
         mask = mask | NSClosableWindowMask
     if miniaturizable:
         mask = mask | NSMiniaturizableWindowMask
     if minSize or maxSize:
         mask = mask | NSResizableWindowMask
     if textured:
         mask = mask | NSTexturedBackgroundWindowMask
     if fullSizeContentView and osVersionCurrent >= osVersion10_10:
         mask = mask | NSFullSizeContentViewWindowMask
     # start the window
     ## too magical?
     if len(posSize) == 2:
         l = t = 100
         w, h = posSize
         cascade = True
     else:
         l, t, w, h = posSize
         cascade = False
     if screen is None:
         screen = NSScreen.mainScreen()
     frame = _calcFrame(screen.visibleFrame(), ((l, t), (w, h)))
     self._window = self.nsWindowClass.alloc().initWithContentRect_styleMask_backing_defer_screen_(
         frame, mask, NSBackingStoreBuffered, False, screen)
     if autosaveName is not None:
         # This also sets the window frame if it was previously stored.
         # Make sure we do this before cascading.
         self._window.setFrameAutosaveName_(autosaveName)
     if cascade:
         self._cascade()
     if minSize is not None:
         self._window.setMinSize_(minSize)
     if maxSize is not None:
         self._window.setMaxSize_(maxSize)
     self._window.setTitle_(title)
     self._window.setLevel_(self.nsWindowLevel)
     self._window.setReleasedWhenClosed_(False)
     self._window.setDelegate_(self)
     self._bindings = {}
     self._initiallyVisible = initiallyVisible
     # full screen mode
     if osVersionCurrent >= osVersion10_7:
         if fullScreenMode is None:
             pass
         elif fullScreenMode == "primary":
             self._window.setCollectionBehavior_(NSWindowCollectionBehaviorFullScreenPrimary)
         elif fullScreenMode == "auxiliary":
             self._window.setCollectionBehavior_(NSWindowCollectionBehaviorFullScreenAuxiliary)
     # titlebar visibility
     if osVersionCurrent >= osVersion10_10:
         if not titleVisible:
             self._window.setTitleVisibility_(NSWindowTitleHidden)
         else:
             self._window.setTitleVisibility_(NSWindowTitleVisible)
     # full size content view
     if fullSizeContentView and osVersionCurrent >= osVersion10_10:
         self._window.setTitlebarAppearsTransparent_(True)
def main():
    parser = argparse.ArgumentParser(description="Utility to print, set, or " +
                                     "check the path to image being used as " +
                                     "the desktop background image. By " +
                                     "default, prints the path to the " +
                                     "current desktop background image.")
    parser.add_argument(
        "-v",
        "--verbose",
        action="store_true",
        help="print verbose debugging information",
        default=False,
    )
    group = parser.add_mutually_exclusive_group()
    group.add_argument(
        "-s",
        "--set-background-image",
        dest="newBackgroundImagePath",
        required=False,
        help="path to the new background image to set. A zero " +
        "exit code indicates no errors occurred.",
        default=None,
    )
    group.add_argument(
        "-c",
        "--check-background-image",
        dest="checkBackgroundImagePath",
        required=False,
        help="check if the provided background image path " +
        "matches the provided path. A zero exit code " +
        "indicates the paths match.",
        default=None,
    )
    args = parser.parse_args()

    # Using logging for verbose output
    if args.verbose:
        logging.basicConfig(level=logging.DEBUG)
    else:
        logging.basicConfig(level=logging.CRITICAL)
    logger = logging.getLogger("desktopImage")

    # Print what we're going to do
    if args.checkBackgroundImagePath is not None:
        logger.debug("checking provided desktop image %s matches current "
                     "image" % args.checkBackgroundImagePath)
    elif args.newBackgroundImagePath is not None:
        logger.debug("setting image to %s " % args.newBackgroundImagePath)
    else:
        logger.debug("retrieving desktop image path")

    focussedScreen = NSScreen.mainScreen()
    if not focussedScreen:
        raise RuntimeError("mainScreen error")

    ws = NSWorkspace.sharedWorkspace()
    if not ws:
        raise RuntimeError("sharedWorkspace error")

    # If we're just checking the image path, check it and then return.
    # A successful exit code (0) indicates the paths match.
    if args.checkBackgroundImagePath is not None:
        # Get existing desktop image path and resolve it
        existingImageURL = getCurrentDesktopImageURL(focussedScreen, ws,
                                                     logger)
        existingImagePath = existingImageURL.path()
        existingImagePathReal = os.path.realpath(existingImagePath)
        logger.debug("existing desktop image: %s" % existingImagePath)
        logger.debug("existing desktop image realpath: %s" % existingImagePath)

        # Resolve the path we're going to check
        checkImagePathReal = os.path.realpath(args.checkBackgroundImagePath)
        logger.debug("check desktop image: %s" % args.checkBackgroundImagePath)
        logger.debug("check desktop image realpath: %s" % checkImagePathReal)

        if existingImagePathReal == checkImagePathReal:
            print("desktop image path matches provided path")
            return True

        print("desktop image path does NOT match provided path")
        return False

    # Log the current desktop image
    if args.verbose:
        existingImageURL = getCurrentDesktopImageURL(focussedScreen, ws,
                                                     logger)
        logger.debug("existing desktop image: %s" % existingImageURL.path())

    # Set the desktop image
    if args.newBackgroundImagePath is not None:
        newImagePath = args.newBackgroundImagePath
        if not os.path.exists(newImagePath):
            logger.critical("%s does not exist" % newImagePath)
            return False
        if not os.access(newImagePath, os.R_OK):
            logger.critical("%s is not readable" % newImagePath)
            return False

        logger.debug("new desktop image to set: %s" % newImagePath)
        newImageURL = NSURL.fileURLWithPath_(newImagePath)
        logger.debug("new desktop image URL to set: %s" % newImageURL)

        status = False
        (status, error) = ws.setDesktopImageURL_forScreen_options_error_(
            newImageURL, focussedScreen, None, None)
        if not status:
            raise RuntimeError("setDesktopImageURL error")

    # Print the current desktop image
    imageURL = getCurrentDesktopImageURL(focussedScreen, ws, logger)
    imagePath = imageURL.path()
    imagePathReal = os.path.realpath(imagePath)
    logger.debug("updated desktop image URL: %s" % imageURL)
    logger.debug("updated desktop image path: %s" % imagePath)
    logger.debug("updated desktop image path (resolved): %s" % imagePathReal)
    print(imagePathReal)
    return True
Exemplo n.º 39
0
 def _screen_size(cls):
     from AppKit import NSScreen
     return NSScreen.mainScreen().frame().size
Exemplo n.º 40
0
    raise exc_type, exc_value, exc_tb


def create_ns_application():
    ns_app = _PyGui_NSApplication.sharedApplication()
    ns_app.setDelegate_(ns_app)
    Globals.ns_application = ns_app


def dispatch_to_app(ns_app, *args):
    app = ns_app.pygui_app
    if app:
        app.dispatch(*args)


Globals.ns_screen_height = NSScreen.mainScreen().frame().size.height

create_ns_application()

#------------------------------------------------------------------------------

# Disable this for now, since MachSignals.signal segfaults. :-(
#
#def _install_sigint_handler():
#		print "_install_sigint_handler" ###
#		from Foundation import NSRunLoop
#		run_loop = NSRunLoop.currentRunLoop()
#		if not run_loop:
#			print "...No current run loop" ###
#			sys.exit(1) ###
#		MachSignals.signal(signal.SIGINT, _sigint_handler)
Exemplo n.º 41
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def screen_resolution():
    s = NSScreen.mainScreen().frame()
    return {'width': s.size.width, 'height':s.size.height}
Exemplo n.º 42
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def raise_pending_exception():
    exc_type, exc_value, exc_tb = Globals.pending_exception
    Globals.pending_exception = None
    raise exc_type, exc_value, exc_tb

def create_ns_application():
    ns_app = _PyGui_NSApplication.sharedApplication()
    ns_app.setDelegate_(ns_app)
    Globals.ns_application = ns_app

def dispatch_to_app(ns_app, *args):
    app = ns_app.pygui_app
    if app:
        app.dispatch(*args)

Globals.ns_screen_height = NSScreen.mainScreen().frame().size.height

create_ns_application()

#------------------------------------------------------------------------------

# Disable this for now, since MachSignals.signal segfaults. :-(
#
#def _install_sigint_handler():
#		print "_install_sigint_handler" ###
#		from Foundation import NSRunLoop
#		run_loop = NSRunLoop.currentRunLoop()
#		if not run_loop:
#			print "...No current run loop" ###
#			sys.exit(1) ###
#		MachSignals.signal(signal.SIGINT, _sigint_handler)
Exemplo n.º 43
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 def _osx_frame(self):
     '''What OSX reports as the screen frame.'''
     from AppKit import NSScreen
     return NSScreen.mainScreen().frame()
Exemplo n.º 44
0
 def screen_size(self):
     return NSScreen.mainScreen().frame().size.width, NSScreen.mainScreen().frame().size.height
Exemplo n.º 45
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    def __init__(self):
        super().__init__()
        loadPrcFileData('', 'window-title ursina')
        loadPrcFileData('', 'notify-level-util error')
        loadPrcFileData('', 'textures-auto-power-2 #t')
        loadPrcFileData('', 'load-file-type p3assimp')
        # loadPrcFileData('', 'allow-portal-cull #t')
        # loadPrcFileData("", "framebuffer-multisample 1")
        # loadPrcFileData('', 'multisamples 2')
        # loadPrcFileData('', 'textures-power-2 none')
        # loadPrcFileData('', 'threading-model Cull/Draw')
        loadPrcFileData('', 'coordinate-system y-up-left')

        # fallback to one of these if opengl is not supported
        loadPrcFileData('', 'aux-display pandadx9')
        loadPrcFileData('', 'aux-display pandadx8')
        loadPrcFileData('', 'aux-display tinydisplay')

        self.vsync = True  # can't be set during play
        self.show_ursina_splash = False

        self.title = application.asset_folder.name
        self.borderless = True
        # self.icon = 'textures/ursina.ico'
        os_name = platform.system()

        try:
            if os_name == 'Windows':  # windows
                import ctypes
                user32 = ctypes.windll.user32
                user32.SetProcessDPIAware()
                self.screen_resolution = (user32.GetSystemMetrics(0),
                                          user32.GetSystemMetrics(1))

            elif os_name == 'Linux':
                import Xlib
                import Xlib.display
                resolution = Xlib.display.Display().screen().root.get_geometry(
                )
                self.screen_resolution = Vec2(resolution.width,
                                              resolution.height)

            elif os_name == 'Darwin':  # mac
                from AppKit import NSScreen
                size = NSScreen.mainScreen().frame().size
                self.screen_resolution = [size.width, size.height]
        except:
            from screeninfo import get_monitors
            self.screen_resolution = [
                get_monitors()[0].width,
                get_monitors()[0].height
            ]

        self.fullscreen_size = Vec2(*self.screen_resolution)
        self.windowed_size = self.fullscreen_size / 1.25
        self.windowed_position = None  # gets set when entering fullscreen so position will be correct when going back to windowed mode
        self.forced_aspect_ratio = None  # example: window.forced_aspect_ratio = 16/9
        self.size = self.windowed_size
        self.always_on_top = False

        self.top = Vec2(0, .5)
        self.bottom = Vec2(0, -.5)
        self.center = Vec2(0, 0)
Exemplo n.º 46
0
 def _osx_available(self):
     '''What OSX reports as available frame for applications.'''
     from AppKit import NSScreen
     return NSScreen.mainScreen().visibleFrame()
Exemplo n.º 47
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    def __init__(self):
        self.maxX = int(NSScreen.mainScreen().frame().size.width)      
        self.maxY = int(NSScreen.mainScreen().frame().size.height)

        self.moveBy(0,0)
Exemplo n.º 48
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def main():
    # mouse object
    mouse = Controller()
    # screen size
    screenWidth, screenHeight = (NSScreen.mainScreen().frame().size.width, NSScreen.mainScreen().frame().size.height)
    # open camera
    cam = cv2.VideoCapture(0)
    # gesture
    pinching = False

    while cam.isOpened():
        ret, img = cam.read()
        img = cv2.resize(img,(340,220))
        img = cv2.flip(img, flipCode=1)

        # convert BGR to HSV
        imgHSV = cv2.cvtColor(img,cv2.COLOR_BGR2HSV)
        # create the Mask
        mask = cv2.inRange(imgHSV,lowerBound,upperBound)
        # masks
        maskOpen = cv2.morphologyEx(mask,cv2.MORPH_OPEN,kernelOpen)
        maskClose = cv2.morphologyEx(maskOpen,cv2.MORPH_CLOSE,kernelClose)
        # use masks to find finger(s)
        maskFinal = maskClose
        matches = cv2.findContours(maskFinal.copy(),cv2.RETR_EXTERNAL,cv2.CHAIN_APPROX_NONE)[1]

        if len(matches) == 2:
            if pinching:
                pinching = False
                mouse.release(Button.left)
            # blue rectangles on each finger
            x1,y1,w1,h1=cv2.boundingRect(matches[0])
            x2,y2,w2,h2=cv2.boundingRect(matches[1])
            cv2.rectangle(img,(x1,y1),(x1+w1,y1+h1),blue,2)
            cv2.rectangle(img,(x2,y2),(x2+w2,y2+h2),blue,2)
            # center of rectangles
            cx1, cy1 = coordinates(x1, y1, w1, h1)
            cx2, cy2 = coordinates(x2, y2, w2, h2)
            # midpoint between 2 fingers
            cx, cy = midpoint(cx1, cy1, cx2, cy2)
            # line connecting 2 fingers
            cv2.line(img, (cx1,cy1), (cx2,cy2), blue, 2)
            # circle at midpoint
            cv2.circle(img, (cx,cy), 2, red, 2)
            # move mouse based on circle coordinate
            moveMouse(cx, cy, screenWidth, screenHeight, camx, camy, mouse)

        elif(len(matches)==1):
            x,y,w,h=cv2.boundingRect(matches[0])
            if not pinching:
                pinching = True
                mouse.press(Button.left)
            # blue rectangle on finger
            cv2.rectangle(img,(x,y),(x+w,y+h),blue,2)
            # center of rectangle
            cx, cy = coordinates(x,y,w,h)
            # circle around center
            cv2.circle(img,(cx,cy),int((w+h)/4),red,2)
            # move mouse based on circle coordinate
            moveMouse(cx, cy, screenWidth, screenHeight, camx, camy, mouse)

        # display camera preview
        cv2.imshow("Gesture Recognition Preview", img)
        # stop program when q is pressed
        if cv2.waitKey(1) & 0xFF == ord('q'):
            break

    cam.release()
    cv2.destroyAllWindows()
Exemplo n.º 49
0
from Foundation import NSColor, NSUserDefaults, NSMakeRange
from AppKit import NSScreen


# # # # # # # # # 
debugMode = False
# Glyphs.clearLog()
# # # # # # # # # 

try:
	reload(Customizables)
except: pass
excludedSubCategories = Customizables.excludedSubCategories


screenHeight = NSScreen.mainScreen().frame().size.height


##########################################################################
##########################################################################
##########################################################################
##########################################################################



class KernKraft(object):

	version = "1.8"
	# excludeCategories = []

	def __init__(self, Glyphs, thisFont, mID):
# without limitation the rights to use, copy, modify, merge, publish,
# distribute, sublicense, and/or sell copies of the Software, and to
# permit persons to whom the Software is furnished to do so, subject to
# the following conditions:
# 
# The above copyright notice and this permission notice shall be included
# in all copies or substantial portions of the Software.
# 
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
# OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
# IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
# CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
# TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
# SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

import os.path
import Foundation
from AppKit import NSScreen

try:
    width, height = (int(NSScreen.mainScreen().frame().size.width), 
                    int(NSScreen.mainScreen().frame().size.height))
    extension_attribute = u"{0:g}\u00D7{1:g}".format(width, height)
    print(extension_attribute)
except:
    extension_attribute = "Unknown"

extension_attribute_result = u"<result>{0}</result>".format(extension_attribute)
print(extension_attribute_result)
Exemplo n.º 51
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 def get_desktop():
     size = NSScreen.mainScreen().frame().size
     return 0, 0, size.width, size.height
Exemplo n.º 52
0
	
	def fadeOut(self):
		global dismissing
		if dismissing: return
		dismissing = True
		NSAnimationContext.beginGrouping()
		NSAnimationContext.currentContext().setTimingFunction_(CAMediaTimingFunction.functionWithName_(kCAMediaTimingFunctionEaseInEaseOut))
		NSAnimationContext.currentContext().setDuration_(0.2)
		self.animator().setAlphaValue_(0.0)
		NSAnimationContext.endGrouping()
		NSTimer.scheduledTimerWithTimeInterval_target_selector_userInfo_repeats_(0.21, app, "terminate:", None, False)
		

app = NSApplication.sharedApplication()
app.setActivationPolicy_(NSApplicationActivationPolicyAccessory)
frame = NSScreen.mainScreen().frame()
window = Window.alloc().initWithContentRect_styleMask_backing_defer_(frame, NSBorderlessWindowMask, NSBackingStoreBuffered, False)
window.setLevel_(NSMainMenuWindowLevel+2)

text = sys.argv[1].decode('utf-8')

def attributed_text_at_size(text, size):
	paragraph_style = NSMutableParagraphStyle.new()
	paragraph_style.setAlignment_(NSCenterTextAlignment)
	attrs = {
		NSParagraphStyleAttributeName: paragraph_style,
		NSFontAttributeName: NSFont.boldSystemFontOfSize_(size),
		NSForegroundColorAttributeName: NSColor.whiteColor()
	}
	return NSAttributedString.alloc().initWithString_attributes_(text, attrs)
Exemplo n.º 53
0
import pyglet
from AppKit import NSScreen
from pyglet.gl import *

HEIGHT = int(NSScreen.mainScreen().frame().size.height)
WIDTH = int(NSScreen.mainScreen().frame().size.width)

matrix = [[0 for i in range(HEIGHT // 10)] for j in range(WIDTH // 10)]


def fits(x, y):
    l = len(matrix), len(matrix[0])
    return x >= 0 and y >= 0 and x < l[1] and y < l[0]


def neighborhood(x, y):
    n = x, y - 1
    ne = x + 1, y - 1
    e = x + 1, y
    se = x + 1, y + 1
    s = x, y + 1
    sw = x - 1, y + 1
    w = x, y - 1
    nw = x - 1, y - 1
    rose = n, ne, e, se, s, sw, w, nw
    res = []
    for d in rose:
        if fits(*d):
            res.append(matrix[d[1]][d[0]])
    return res
Exemplo n.º 54
0
# PIECE = 4 colored squares that form a shape

## REQUIRED FIXES
## 1) if a piece is squeezed into a spot at the very last possible moment, it will move down 

import random, pygame, sys
from pygame.locals import *
import numpy as np
import cv2
import imutils
import time
from collections import deque
from datetime import datetime
# ---- for mac users ----
from AppKit import NSScreen
height = int(NSScreen.mainScreen().frame().size.height)
width = int(NSScreen.mainScreen().frame().size.width)
# --- for windows users -----  
# from win32api import GetSystemMetrics
# height = GetSystemMetrics(1)
# width = GetSystemMetrics(0)

cap = cv2.VideoCapture(0)
greenLower = (29, 86, 6)
greenUpper = (64, 255, 255)
pts = deque(maxlen=12)
direction = "ND"
height = 320
width = 600
height = int(NSScreen.mainScreen().frame().size.height)
width = int(NSScreen.mainScreen().frame().size.width)
Exemplo n.º 55
0
#!/Users/ryancampbell/python/.venv/bitbar/bin/python3

from os import system
import sys
from AppKit import NSScreen

toggleRegularRes = '/usr/local/bin/displayplacer "id:C487FFEE-9620-8F3A-8BC2-A1A07CAF4201 res:2560x1440 hz:60 color_depth:8 scaling:on origin:(0,0) degree:0"'
toggleGameRes = '/usr/local/bin/displayplacer "id:C487FFEE-9620-8F3A-8BC2-A1A07CAF4201 res:1920x1080 hz:60 color_depth:8 scaling:on origin:(0,0) degree:0"'

screenHeight = NSScreen.mainScreen().frame().size.height

def toggle():
    if screenHeight == 1440:
        system(toggleGameRes)
    else:
        system(toggleRegularRes)

if len(sys.argv) == 1:
    print('{} | refresh=true terminal=false bash="/Users/ryancampbell/python/.venv/bitbar/bin/python" param1="/Users/ryancampbell/BitBar/resToggle.py" param2=toggle'.format(int(screenHeight)))
else: 
    toggle()

'''
if len(sys.argv) == 1:
    print('{}x{} | refresh=true'.format(int(screenWidth), int(screenHeight)))
    print('---')
    print('2560 | terminal=false bash="/usr/local/bin/python3" param1="/Users/ryancampbell/BitBar/resToggle.py" param2=1440')
    print('1080 | terminal=false bash="/usr/local/bin/python3" param1="/Users/ryancampbell/BitBar/resToggle.py" param2=1080')
elif sys.argv[1] == '1440':
    os.system(toggleRegularRes)
elif sys.argv[1] == '1080':
Exemplo n.º 56
0
 def get():
     from AppKit import NSScreen
     frame = NSScreen.mainScreen().frame()
     return (int(frame.size.width), int(frame.size.height))