Exemple #1
0
def create_canvas(c=None):
    if not c:
        c = Canvas()
    b=MyBox()
    b.min_width = 20
    b.min_height = 30
    print 'box', b
    b.matrix=(1.0, 0.0, 0.0, 1, 20,20)
    b.width = b.height = 40
    c.add(b)

    bb=Box()
    print 'box', bb
    bb.matrix=(1.0, 0.0, 0.0, 1, 10,10)
    c.add(bb, parent=b)

    fl = FatLine()
    fl.height = 50
    fl.matrix.translate(100, 100)
    c.add(fl)

    circle = Circle()
    h1, h2 = circle.handles()
    circle.radius = 20
    circle.matrix.translate(50, 100)
    c.add(circle)

    # AJM: extra boxes:
    bb = Box()
    print 'box', bb
    bb.matrix.rotate(math.pi/4.)
    c.add(bb, parent=b)
#    for i in xrange(10):
#        bb=Box()
#        print 'box', bb
#        bb.matrix.rotate(math.pi/4.0 * i / 10.0)
#        c.add(bb, parent=b)

    b = PortoBox(60, 60)
    b.min_width = 40
    b.min_height = 50
    b.matrix.translate(55, 55)
    c.add(b)

    t = UnderlineText()
    t.matrix.translate(70,30)
    c.add(t)

    t = MyText('Single line')
    t.matrix.translate(70,70)
    c.add(t)

    l = MyLine()
    c.add(l)
    l.handles()[1].pos = (30, 30)
    segment = Segment(l, view=None)
    segment.split_segment(0, 3)
    l.matrix.translate(30, 60)
    l.orthogonal = True

    off_y = 0
    for align_x in (-1, 0, 1):
        for align_y in (-1, 0, 1):
            t=MyText('Aligned text %d/%d' % (align_x, align_y),
                     align_x=align_x, align_y=align_y)
            t.matrix.translate(120, 200 + off_y)
            off_y += 30
            c.add(t)

    t=MyText('Multiple\nlines', multiline = True)
    t.matrix.translate(70,100)
    c.add(t)

    return c
Exemple #2
0
def create_canvas(c=None):
    if not c:
        c = Canvas()
    b = MyBox()
    b.min_width = 20
    b.min_height = 30
    b.matrix = (1.0, 0.0, 0.0, 1, 20, 20)
    b.width = b.height = 40
    c.add(b)

    bb = Box()
    bb.matrix = (1.0, 0.0, 0.0, 1, 10, 10)
    c.add(bb, parent=b)

    fl = FatLine()
    fl.height = 50
    fl.matrix.translate(100, 100)
    c.add(fl)

    circle = Circle()
    h1, h2 = circle.handles()
    circle.radius = 20
    circle.matrix.translate(50, 100)
    c.add(circle)

    # AJM: extra boxes:
    bb = Box()
    bb.matrix.rotate(math.pi / 1.567)
    c.add(bb, parent=b)
    # for i in xrange(10):
    #     bb = Box()
    #     print('box', bb)
    #     bb.matrix.rotate(math.pi/4.0 * i / 10.0)
    #     c.add(bb, parent=b)

    b = PortoBox(60, 60)
    b.min_width = 40
    b.min_height = 50
    b.matrix.translate(55, 55)
    c.add(b)

    t = UnderlineText()
    t.matrix.translate(70, 30)
    c.add(t)

    t = MyText("Single line")
    t.matrix.translate(70, 70)
    c.add(t)

    l = MyLine()
    c.add(l)
    l.handles()[1].pos = (30, 30)
    segment = Segment(l, view=None)
    segment.split_segment(0, 3)
    l.matrix.translate(30, 60)
    l.orthogonal = True

    off_y = 0
    for align_x in (-1, 0, 1):
        for align_y in (-1, 0, 1):
            t = MyText(
                f"Aligned text {align_x:d}/{align_y:d}",
                align_x=align_x,
                align_y=align_y,
            )
            t.matrix.translate(120, 200 + off_y)
            off_y += 30
            c.add(t)

    t = MyText("Multiple\nlines", multiline=True)
    t.matrix.translate(70, 100)
    c.add(t)

    return c
Exemple #3
0
def create_canvas(c=None):
    if not c:
        c = Canvas()
    b = MyBox(c.connections)
    b.min_width = 20
    b.min_height = 30
    b.matrix.translate(20, 20)
    b.width = b.height = 40
    c.add(b)

    bb = Box(c.connections)
    bb.matrix.translate(10, 10)
    c.add(bb, parent=b)

    bb = Box(c.connections)
    bb.matrix.rotate(math.pi / 1.567)
    c.add(bb, parent=b)

    circle = Circle()
    h1, h2 = circle.handles()
    circle.radius = 20
    circle.matrix.translate(50, 160)
    c.add(circle)

    pb = Box(c.connections, 60, 60)
    pb.min_width = 40
    pb.min_height = 50
    pb.matrix.translate(100, 20)
    c.add(pb)

    ut = UnderlineText()
    ut.matrix.translate(100, 130)
    c.add(ut)

    t = MyText("Single line")
    t.matrix.translate(100, 170)
    c.add(t)

    line = MyLine(c.connections)
    c.add(line)
    line.handles()[1].pos = (30, 30)
    segment = Segment(line, c)
    segment.split_segment(0, 3)
    line.matrix.translate(30, 80)
    line.orthogonal = True

    return c