コード例 #1
0
    def __init__(self, colors):
        frames.Frame.__init__(self, colors)

        textfile = open("sets.txt", "r")  # later use sqlite db
        setArray = textfile.read().split('\n')
        textfile.close()
        sets = []

        titleHeight = 60

        table = shapes.Table((0, titleHeight+1), (frames.WIDTH - 1, frames.HEIGHT - 1), \
                              "black", 255, 0, 3, 10)

        titleRect = shapes.Rect((0, 0), (frames.WIDTH, titleHeight), "red", 0,
                                0)
        title = shapes.Text('Liegestuetz', titleRect.getCenter(), "red", \
                            titleHeight // 3 * 2, 255)

        for i in range(0, len(setArray) - 1):
            sets.append(shapes.Text(setArray[i], (0,0), "black", \
                                    (frames.HEIGHT - titleHeight) // 15, 0))
            table.addShape(sets[i])

        table.addBackground("black", 255, 0)

        table.invertCells(range(0, 6))
        table.swapCells([5])

        # add shapes to training frame
        self.addShape(titleRect)
        self.addShape(title)
        self.addShape(table)
コード例 #2
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    def __init__(self, colors):
        frames.Frame.__init__(self, colors)

        frameBackground = shapes.Rect((0, 0), (399, 299), "black", 0, 0)
        whiteEllipse = shapes.Ellipse((-200, -300), (600, 200), 30, 150,
                                      "black", 255, 255)
        name = shapes.Text("E-VI", (200, 75), "black", 35, 0)
        mainText = shapes.Text("E-Ink Visualizer of Information", (200, 120),
                               "black", 18, 0)
        usage = shapes.Text("Usage:      swipe left/right", (200, 230),
                            "black", 16, 255)
        usage2 = shapes.Text("            swipe   up/down", (200, 256),
                             "black", 16, 255)
        circle = shapes.Ellipse((300, -100), (500, 100), 0, 180, "red", 0, 0)
        version = shapes.Text(frames.VERSION, (360, 35), "red", 20, 255)

        self.addShapes([frameBackground, whiteEllipse, name, mainText, \
                                  usage, usage2, circle, version])
コード例 #3
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    def __init__(self, colors):
        frames.Frame.__init__(self, colors)
        self.__data = getIC()

        titleRect = shapes.Rect((0, 0), (frames.WIDTH, frames.HEIGHT // 4),
                                "black", 0, 0)
        title = shapes.Text('Inner Climate', (frames.WIDTH // 2, 23), "black",
                            25, 255)
        mainTable = shapes.Table((0, frames.HEIGHT // 4), (frames.WIDTH, frames.HEIGHT), \
                             "black", 255, 0, 2, 2)

        #self.addShape(shapes.Text("TBD", (200, 150), "black", 0, 0))
        mainTable.addShapes([shapes.Picture((0, 0), (0, 0), \
                                 "black", 0, 0, "Icons/temp_black", "Icons/temp_red"), \
                        shapes.Picture((0, 0), (0, 0), "black", 0, 0, \
                                 "Icons/humidity_black", "Icons/humidity_red"), \
                        shapes.Text('temp', (0,0), "black", 16, 0), \
                        shapes.Text('press', (0,0), "black", 16, 0)])

        mainTable.addBackground("black", 255, 255)

        self.addShapes([titleRect, title, mainTable])

        self.updateInnerClimate()
コード例 #4
0
ファイル: shapes2.py プロジェクト: shrutig/sage
def ruler(start, end, ticks=4, sub_ticks=4, absolute=False, snap=False, **kwds):
    """
    Draw a ruler in 3-D, with major and minor ticks.

    INPUT:

    - ``start`` - the beginning of the ruler, as a list,
      tuple, or vector.

    - ``end`` - the end of the ruler, as a list, tuple,
      or vector.

    - ``ticks`` - (default: 4) the number of major ticks
      shown on the ruler.

    - ``sub_ticks`` - (default: 4) the number of shown
      subdivisions between each major tick.

    - ``absolute`` - (default: ``False``) if ``True``, makes a huge ruler
      in the direction of an axis.

    - ``snap`` - (default: ``False``) if ``True``, snaps to an implied
      grid.

    Type ``line3d.options`` for a dictionary of the default
    options for lines, which are also available.

    EXAMPLES:

    A ruler::

        sage: from sage.plot.plot3d.shapes2 import ruler
        sage: R = ruler([1,2,3],vector([2,3,4])); R

    A ruler with some options::

        sage: R = ruler([1,2,3],vector([2,3,4]),ticks=6, sub_ticks=2, color='red'); R

    The keyword ``snap`` makes the ticks not necessarily coincide
    with the ruler::

        sage: ruler([1,2,3],vector([1,2,4]),snap=True)

    The keyword ``absolute`` makes a huge ruler in one of the axis
    directions::

        sage: ruler([1,2,3],vector([1,2,4]),absolute=True)

    TESTS::

        sage: ruler([1,2,3],vector([1,3,4]),absolute=True)
        Traceback (most recent call last):
        ...
        ValueError: Absolute rulers only valid for axis-aligned paths
    """
    start = vector(RDF, start)
    end   = vector(RDF, end)
    dir = end - start
    dist = math.sqrt(dir.dot_product(dir))
    dir /= dist

    one_tick = dist/ticks * 1.414
    unit = 10 ** math.floor(math.log(dist/ticks, 10))
    if unit * 5 < one_tick:
        unit *= 5
    elif unit * 2 < one_tick:
        unit *= 2

    if dir[0]:
        tick = dir.cross_product(vector(RDF, (0,0,-dist/30)))
    elif dir[1]:
        tick = dir.cross_product(vector(RDF, (0,0,dist/30)))
    else:
        tick = vector(RDF, (dist/30,0,0))

    if snap:
        for i in range(3):
            start[i] = unit * math.floor(start[i]/unit + 1e-5)
            end[i] = unit * math.ceil(end[i]/unit - 1e-5)

    if absolute:
        if dir[0]*dir[1] or dir[1]*dir[2] or dir[0]*dir[2]:
            raise ValueError, "Absolute rulers only valid for axis-aligned paths"
        m = max(dir[0], dir[1], dir[2])
        if dir[0] == m:
            off = start[0]
        elif dir[1] == m:
            off = start[1]
        else:
            off = start[2]
        first_tick = unit * math.ceil(off/unit - 1e-5) - off
    else:
        off = 0
        first_tick = 0

    ruler = shapes.LineSegment(start, end, **kwds)
    for k in range(1, int(sub_ticks * first_tick/unit)):
        P = start + dir*(k*unit/sub_ticks)
        ruler += shapes.LineSegment(P, P + tick/2, **kwds)
    for d in srange(first_tick, dist + unit/(sub_ticks+1), unit):
        P = start + dir*d
        ruler += shapes.LineSegment(P, P + tick, **kwds)
        ruler += shapes.Text(str(d+off), **kwds).translate(P - tick)
        if dist - d < unit:
            sub_ticks = int(sub_ticks * (dist - d)/unit)
        for k in range(1, sub_ticks):
            P += dir * (unit/sub_ticks)
            ruler += shapes.LineSegment(P, P + tick/2, **kwds)
    return ruler
コード例 #5
0
ファイル: audio_parser.py プロジェクト: jsalit11/Projects
 def _action(self, message, standardized_message, frame, shape_objs,
             text_objs, draw_objs, constants_dict):
     if 'system' in standardized_message:
         if 'on' in standardized_message:
             constants_dict['system'] = True
             logger.info('Turning system on')
         elif 'off' in standardized_message:
             constants_dict['system'] = False
             logger.info('Turning system off')
     if not constants_dict.get('system'):
         return frame, shape_objs, text_objs, draw_objs, constants_dict
     if 'name' or 'named' in standardized_message:
         if 'named' in standardized_message:
             name_idx = standardized_message.index('named') + 1
             name = ' '.join(standardized_message[name_idx:])
         elif 'name' in standardized_message:
             name_idx = standardized_message.index('name') + 1
             name = ' '.join(standardized_message[name_idx:])
     if 'create' in standardized_message:
         if 'color' in standardized_message:
             color_idx = standardized_message.index('color')
             color = standardized_message[color_idx + 1]
             color = 'COLOR_' + color.upper()
         else:
             color = constants.DEFAULT_SHAPE_COLOR
         if 'rectangle' in standardized_message:
             shape_objs[name] = shapes.Rectangle(name, color=color)
         elif 'circle' in standardized_message:
             shape_objs[name] = shapes.Circle(name, color=color)
     elif 'text' in standardized_message:
         text_idx = standardized_message.index('text')
         text_message = standardized_message[text_idx + 1]
         logger.info('Message text: {}'.format(text_message))
         if 'shape' in standardized_message:
             shape_idx = standardized_message.index('shape')
             shape_name = standardized_message[shape_idx + 1]
             logger.info('Message shape name: {}'.format(shape_name))
             text_objs[name] = shapes.Text(text_message,
                                           shape_objs[shape_name])
         else:
             text_objs[name] = shapes.Text(text_message)
     elif 'remove' in standardized_message:
         if 'shape' in standardized_message:
             del shape_objs[name]
         elif 'text' in standardized_message:
             del text_objs[name]
         elif 'draw' in standardized_message:
             draw_objs.clear()
     elif 'clear all objects' in message:
         shape_objs.clear()
         text_objs.clear()
         draw_objs.clear()
     elif 'connect' in standardized_message:
         shape_idx = standardized_message.index('shape')
         with_idx = standardized_message.index('with')
         shape_1 = standardized_message[(shape_idx + 1)]
         shape_2 = standardized_message[with_idx + 1]
         if shape_1 and shape_2 in shape_objs.keys():
             shape_objs[shape_1].shape_connections.append(shape_2)
     elif 'draw mode' in standardized_message:
         constants_dict['draw_mode'] = True
     elif 'boxes' in standardized_message:
         if 'on' in standardized_message:
             constants_dict['draw_box'] = True
         elif 'off' in standardized_message:
             constants_dict['draw_box'] = False
     elif 'resize' in standardized_message:
         if 'on' in standardized_message:
             constants_dict['resize'] = True
         if 'off' in standardized_message:
             constants_dict['resize'] = False
     elif 'load total process' in message:
         constants_dict['load_process'] = True
     elif 'clear total process' in message:
         constants_dict['load_process'] = False
     return frame, shape_objs, text_objs, draw_objs, constants_dict
コード例 #6
0
    def __init__(self, colors, city):
        frames.Frame.__init__(self, colors)

        owmkey = open("owmkey", "r")
        self.__owmApiCall = ('http://api.openweathermap.org/data/2.5/weather?id=' \
                              + city + '&APPID=' + owmkey.read()).split()[0]
        owmkey.close()

        self.weatherLastUpdate = datetime.datetime.now()

        titleRect = shapes.Rect((0, 0), (frames.WIDTH, frames.HEIGHT // 4),
                                "black", 0, 0)
        sideTable = shapes.Table((0, frames.HEIGHT // 4), (frames.WIDTH // 3, frames.HEIGHT), \
                             "black", 255, 0, 2, 6)
        mainRect = shapes.Rect((frames.WIDTH // 3, frames.HEIGHT // 4), \
                            (frames.WIDTH, (3 * frames.HEIGHT) // 4), "black", 255, 0)
        bottomRect = shapes.Rect((frames.WIDTH // 3, (3 * frames.HEIGHT) // 4), \
                            (frames.WIDTH, frames.HEIGHT), "black", 255, 0)
        city = shapes.Text('City', (frames.WIDTH // 2, 23), "black", 25, 255)
        date = shapes.Text('Date: ', (frames.WIDTH // 2, 55), "black", 25, 255)
        temp = shapes.Text('Temperature: ', (225, frames.HEIGHT // 4 + 30),
                           "black", 24, 0)
        clouds = shapes.Text('Clouds: ', (200, 200), "black", 20, 0)
        weather = shapes.Text('weatherDesc', (335, 200), "black", 20, 0)
        weatherMain = shapes.Picture((frames.WIDTH - 160, frames.HEIGHT // 4 - 20), \
                               (frames.WIDTH, frames.HEIGHT // 4 + 160 - 20), \
                               "black", 0, 0, "OWM/10d_black", "OWM/10d_red")
        tempSym = shapes.Picture((frames.WIDTH // 3, frames.HEIGHT // 4 + 10), \
                                 (frames.WIDTH // 3 + 50, frames.HEIGHT // 4 + 50 + 10), \
                                 "black", 0, 0, "Icons/temp_black", "Icons/temp_red")

        # setup texts, last 6 are placeholders
        sideTable.addShapes([shapes.Picture((0,0), (50,50), "black", 0, 0, \
                             "Icons/sunrise_black", "Icons/sunrise_red"), \
                           shapes.Picture((0, 0), (50, 50), "black", 0, 0, \
                             "Icons/sunset_black", "Icons/sunset_red"), \
                           shapes.Picture((0, 0), (50, 50), "black", 0, 0, \
                             "Icons/pressure_black", "Icons/pressure_red"), \
                           shapes.Picture((0, 0), (50, 50), "black", 0, 0, \
                             "Icons/humidity_black", "Icons/humidity_red"), \
                           shapes.Picture((0, 0), (50, 50), "black", 0, 0, \
                             "Icons/windspeed_black", "Icons/windspeed_red"), \
                           shapes.Picture((0, 0), (50, 50), "black", 0, 0, \
                             "Icons/winddir_black", "Icons/winddir_red"), \
                           shapes.Text('sunr', (0,0), "black", 16, 0), \
                           shapes.Text('suns', (0,0), "black", 16, 0), \
                           shapes.Text('press', (0,0), "black", 16, 0), \
                           shapes.Text('humid', (0,0), "black", 16, 0), \
                           shapes.Text('win', (0,0), "black", 16, 0), \
                           shapes.Text('n/a', (0,0), "black", 16, 0)])

        sideTable.addBackground("black", 255, 255)

        self.addShapes([titleRect, sideTable, mainRect, bottomRect, city, date, \
                                   temp, clouds, weather, weatherMain, tempSym])

        self.updateWeather()
コード例 #7
0
    def __init__(self, colors, programName):
        frames.Frame.__init__(self, colors)
        # plan: sqlite db with marking of last performed exercise, then fill
        # with current tbd exercises for the week, swipe down for done
        self.__programName = programName

        titleRect = shapes.Rect((0, 0), (frames.WIDTH, frames.HEIGHT // 8),
                                "red", 0, 0)
        titleText = shapes.Text("Big 6", titleRect.getCenter(), "red", 24, 255)
        table = shapes.Table((0, frames.HEIGHT // 8 + 1), (frames.WIDTH - 1, frames.HEIGHT - 1), \
                             "black", 255, 0, 5, 6)

        table.addShapes([shapes.Picture((0, 0), (39, 39), "black", 0, 0, \
                         "Training/squats_black", "Training/squats_red"), \
                         shapes.Picture((0, 0), (39, 39), "black", 0, 0, \
                         "Training/handstand_black", "Training/handstand_red"), \
                         shapes.Picture((0, 0), (39, 39), "black", 0, 0, \
                         "Training/legraise_black", "Training/legraise_red"), \
                         shapes.Picture((0, 0), (39, 39), "black", 0, 0, \
                         "Training/bridge_black", "Training/bridge_red"), \
                         shapes.Picture((0, 0), (39, 39), "black", 0, 0, \
                         "Training/pushups_black", "Training/pushups_red"), \
                         shapes.Picture((0, 0), (39, 39), "black", 0, 0, \
                         "Training/pullup_black", "Training/pullup_red") \
                        ])
        table.addShape(shapes.Text("1 floor", (0, 0), "black", 14, 0))
        table.addShape(shapes.Text("1 head ", (0, 0), "black", 14, 0))
        table.addShape(shapes.Text("1 tucks", (0, 0), "black", 14, 0))
        table.addShape(shapes.Text("1 short", (0, 0), "black", 14, 0))
        table.addShape(shapes.Text("1 wall ", (0, 0), "black", 14, 0))
        table.addShape(shapes.Text("0 dbell", (0, 0), "black", 14, 0))

        table.addShape(shapes.Text("25,25,25", (0, 0), "black", 14, 0))
        table.addShape(shapes.Text("30 sec.", (0, 0), "black", 14, 0))
        table.addShape(shapes.Text("12,12,7", (0, 0), "black", 14, 0))
        table.addShape(shapes.Text("12,12,12", (0, 0), "black", 14, 0))
        table.addShape(shapes.Text("15,10,0", (0, 0), "black", 14, 0))
        table.addShape(shapes.Text("12,12,0", (0, 0), "black", 14, 0))

        table.addShape(shapes.Text("30,30,30", (0, 0), "black", 14, 0))
        table.addShape(shapes.Text("40 sec.", (0, 0), "black", 14, 0))
        table.addShape(shapes.Text("14,14,10", (0, 0), "black", 14, 0))
        table.addShape(shapes.Text("14,14,14", (0, 0), "black", 14, 0))
        table.addShape(shapes.Text("15,15,0", (0, 0), "black", 14, 0))
        table.addShape(shapes.Text("14,14,0", (0, 0), "black", 14, 0))

        for i in range(0, 1):
            table.addShape(shapes.Text("50,50,50", (0, 0), "red", 14, 0))
            table.addShape(shapes.Text("2 min.", (0, 0), "red", 14, 0))
            table.addShape(shapes.Text("40,40,40", (0, 0), "red", 14, 0))
            table.addShape(shapes.Text("50,50,50", (0, 0), "red", 14, 0))
            table.addShape(shapes.Text("50,50,50", (0, 0), "red", 14, 0))
            table.addShape(shapes.Text("40,40,40", (0, 0), "red", 14, 0))

        self.addShapes([titleRect, titleText, table])