Beispiel #1
0
def test_translate():
    p = Pen()
    p.stroke_mode(1.0)

    p.move_to((0, 0))
    p.turn_to(0)
    p.line_forward(3)
    p.arc_left(90, 3)
    p.turn_left(90)
    p.move_forward(3)
    p.fill_mode()
    p.circle(0.5)
    p.move_forward(3)
    p.square(1)

    p.paper.translate((1, 1))

    assert_equal(p.paper.svg_elements(1), [
        ('<path d="M1.0,-1.5 L1.0,-0.5 L4.0,-0.5 A 3.5,3.5 0 0 0 '
         '7.5,-4.0 L6.5,-4.0 A 2.5,2.5 0 0 1 4.0,-1.5 L1.0,-1.5 z" '
         'fill="#000000" />'),
        ('<path d="M4.5,-4.0 A 0.5,0.5 0 0 0 3.5,-4.0 '
         'A 0.5,0.5 0 0 0 4.5,-4.0 z" fill="#000000" />'),
        ('<path d="M0.5,-3.5 L1.5,-3.5 L1.5,-4.5 L0.5,-4.5 L0.5,-3.5 z" '
         'fill="#000000" />'),
    ])
def test_translate():
    p = Pen()
    p.stroke_mode(1.0)

    p.move_to((0, 0))
    p.turn_to(0)
    p.line_forward(3)
    p.arc_left(90, 3)
    p.turn_left(90)
    p.move_forward(3)
    p.fill_mode()
    p.circle(0.5)
    p.move_forward(3)
    p.square(1)

    p.paper.translate((1, 1))

    assert_equal(
        p.paper.svg_elements(1),
        [
            (
                '<path d="M1.0,-1.5 L1.0,-0.5 L4.0,-0.5 A 3.5,3.5 0 0 0 '
                '7.5,-4.0 L6.5,-4.0 A 2.5,2.5 0 0 1 4.0,-1.5 L1.0,-1.5 z" '
                'fill="#000000" />'
            ),
            (
                '<path d="M4.5,-4.0 A 0.5,0.5 0 0 0 3.5,-4.0 '
                'A 0.5,0.5 0 0 0 4.5,-4.0 z" fill="#000000" />'
            ),
            (
                '<path d="M0.5,-3.5 L1.5,-3.5 L1.5,-4.5 L0.5,-4.5 L0.5,-3.5 z" '
                'fill="#000000" />'
            ),
        ]
    )
Beispiel #3
0
def draw():

    p = Pen()

    # Draw sine waves in various widths.
    for width in [0.01, 0.1, 0.3, 0.5, 0.8, 1.0]:
        p.stroke_mode(width)

        func = sine_func_factory(
            amplitude=1.0,
            frequency=4 / math.pi,
            phase=0,
        )
        p.parametric(
            func,
            start=0,
            end=10,
            step=0.1,
        )
        # Next line.
        p.turn_to(-90)
        p.move_forward(1.0 + 2 * width)

    return p.paper
Beispiel #4
0
def draw():

    p = Pen()

    # Draw sine waves in various widths.
    for width in [0.01, 0.1, 0.3, 0.5, 0.8, 1.0]:
        p.stroke_mode(width)

        func = sine_func_factory(
            amplitude=1.0,
            frequency=4 / math.pi,
            phase=0,
        )
        p.parametric(
            func,
            start=0,
            end=10,
            step=0.1,
        )
        # Next line.
        p.turn_to(-90)
        p.move_forward(1.0 + 2 * width)

    return p.paper
def test_arc_segment_bounds():
    # Arc which occupies its entire circle.
    p = Pen()
    p.fill_mode()
    p.move_to((1, 0))
    p.turn_to(90)
    p.arc_left(359, 1)

    arc = p.last_segment()
    assert_equal(
        arc.bounds(),
        Bounds(-1, -1, 1, 1)
    )

    # Arc which pushes the boundary only with the endpoints.
    p = Pen()
    p.fill_mode()
    p.move_to((0, 0))
    p.turn_to(30)
    p.move_forward(1)
    p.turn_left(90)
    p.arc_left(30, center=(0, 0))

    arc = p.last_segment()
    assert_equal(
        arc.bounds(),
        Bounds(0.5, 0.5, sqrt3 / 2, sqrt3 / 2)
    )

    # Arc which pushes the boundary with the middle in one spot.
    p = Pen()
    p.fill_mode()
    p.move_to((0, 0))
    p.turn_to(-45)
    p.move_forward(1)
    p.turn_left(90)
    p.arc_left(90, center=(0, 0))

    arc = p.last_segment()
    assert_equal(
        arc.bounds(),
        Bounds(sqrt2 / 2, -sqrt2 / 2, 1, sqrt2 / 2)
    )

    # Arc which goes right.
    p = Pen()
    p.fill_mode()
    p.move_to((0, 0))
    p.turn_to(45)
    p.arc_right(90, 3)

    arc = p.last_segment()
    assert_equal(
        arc.bounds(),
        Bounds(0, 0, 3 * sqrt2, 3 - 1.5 * sqrt2)
    )

    # Arc which pushes the boundary with the middle in two spots.
    p = Pen()
    p.fill_mode()
    p.move_to((0, 0))
    p.turn_to(-45)
    p.move_forward(1)
    p.turn_left(90)
    p.arc_left(180, center=(0, 0))

    arc = p.last_segment()
    assert_equal(
        arc.bounds(),
        Bounds(-sqrt2 / 2, -sqrt2 / 2, 1, 1)
    )

    # Half circle, right side
    p = Pen()
    p.fill_mode()
    p.move_to((0, 0))
    p.turn_to(0)
    p.arc_right(180, 5)

    arc = p.last_segment()
    assert_equal(
        arc.bounds(),
        Bounds(0, -10, 5, 0)
    )

    # Thick circle,
    p = Pen()
    p.stroke_mode(1.0)
    p.move_to((0, 0))
    p.turn_to(0)
    p.move_forward(5)
    p.turn_left(90)
    p.arc_left(180, 5, start_slant=45)

    arc = p.last_segment()
    assert_equal(
        arc.bounds(),
        Bounds(-5.5, -0.5314980314970469, 5.5, 5.5)
    )
Beispiel #6
0
from canoepaddle import Pen

p = Pen()

p.fill_mode('green')

p.move_to((0, 0))
p.turn_to(0)

radius = 0.01

for _ in range(200):
    p.circle(radius)
    p.turn_left(20)
    new_radius = radius * 1.05
    p.move_forward(radius + new_radius)
    radius = new_radius

print(p.paper.format_svg())