def draw(self, ctx: Context, square: bool) -> None:
point_diameter_current = self.point_diameter_initial
ctx.set_source_rgb(self.color[0], self.color[1], self.color[2])
points_per_row = math.floor(self.target_width / self.point_margin)
i = 0
while ((self.point_diameter_check_is_greater
and point_diameter_current > self.point_diameter_final)
or (not self.point_diameter_check_is_greater
and point_diameter_current < self.point_diameter_final)):
col = i % points_per_row
row = math.floor(i / points_per_row)
x = self.position[
0] + col * self.point_margin + self.point_margin / 2
y = self.position[
1] + row * self.point_margin + self.point_margin / 2
radius = point_diameter_current / 2
if square:
ctx.move_to(x - radius, y - radius)
ctx.line_to(x + radius, y - radius)
ctx.line_to(x + radius, y + radius)
ctx.line_to(x - radius, y + radius)
ctx.fill()
else:
ctx.arc(x, y, radius, 0, 2 * math.pi)
ctx.fill()
i += 1
point_diameter_current += self.point_diameter_delta
def draw_rounded_rectangle(ctx: Context, rectangle: Rectangle, radius: float):
"""
Draw rectangles with rounded (circular arc) corners.
:param ctx: Cairo render context.
:param rectangle: Extent of the rectangle.
:param radius: Radius of the corners.
"""
from math import pi
a, c = rectangle.position(Anchor.TOP_LEFT)
b, d = rectangle.position(Anchor.BOTTOM_RIGHT)
ctx.arc(a + radius, c + radius, radius, 2 * (pi / 2), 3 * (pi / 2))
ctx.arc(b - radius, c + radius, radius, 3 * (pi / 2), 4 * (pi / 2))
ctx.arc(b - radius, d - radius, radius, 0 * (pi / 2), 1 * (pi / 2)) # ;o)
ctx.arc(a + radius, d - radius, radius, 1 * (pi / 2), 2 * (pi / 2))
ctx.close_path()
def __draw_sector (self: 'HueSatWheelWidget', cr: cairocffi.Context,
center_x: float, center_y: float) -> None:
cr.save ()
cr.set_line_width (1)
offset = self.rotation
for idx, sector in enumerate (self.sector[0]):
half_angle = 2 * numpy.pi * sector / 2
offset += self.sector[1][idx] * 2 * numpy.pi
cr.set_source_rgba (0, 0, 0, 1)
cr.move_to (center_x, center_y)
cr.arc (center_x, center_y, (self.size - 2) / 2.,
offset - half_angle, half_angle + offset)
cr.line_to (center_x, center_y)
cr.stroke_preserve ()
cr.set_source_rgba (0, 0, 0, 0.25)
cr.fill ()
cr.restore ()
def draw_rect(self, g: Graphics, area: Bounds, radius: float) -> None:
(x, y, w, h) = area.tuple
if w == 0 or h == 0:
return
degrees = pi / 180.0
g.new_sub_path()
g.arc(x + w - radius, y + radius, radius, -90 * degrees, 0)
g.arc(x + w - radius, y + h - radius, radius, 0, 90 * degrees)
g.arc(x + radius, y + h - radius, radius, 90 * degrees, 180 * degrees)
g.arc(x + radius, y + radius, radius, 180 * degrees, 270 * degrees)
g.close_path()
def draw_point(ctx: Context, point: Point, size):
ctx.arc(point.x, point.y, size / 2, 0, 2 * 3.1416)
ctx.fill()
def draw_circle(ctx: Context, point: Point, size):
ctx.arc(point.x, point.y, size / 2, 0, 2 * 3.1416)
def _(d: Arc, ctx: cairo.Context, scale: float):
ctx.save()
ctx.arc(d.xc * scale, d.yc * scale, d.radius * scale, d.theta0, d.theta1)
ctx.stroke()
ctx.restore()
def __draw_ring (self: 'HueSatWheelWidget', cr: cairocffi.Context,
width: int, height: int, center_x: float, center_y: float,
outer: float, inner: float) -> None:
self.__redraw = False
stride = cairocffi.ImageSurface.format_stride_for_width (cairocffi.FORMAT_ARGB32, width)
buf = numpy.empty (int (height * stride), dtype = numpy.uint8)
for y in range (height):
idx = y * width * 4
dy = -(y - center_y)
for x in range (width):
dx = x - center_x
dist = dx * dx + dy * dy
angle = math.atan2 (dy, dx)
if angle < 0:
angle += 2 * numpy.pi
hue = angle / (2 * numpy.pi)
hue_idx = int ((angle + 2 * numpy.pi / 3) / (2 * numpy.pi) * 255)
hue_idx = hue_idx % 256
if dist < ((inner - 1) ** 2) * (1 - self.__hist[255 - hue_idx]) or \
dist > ((outer + 1) ** 2):
buf[idx + 0] = 0
buf[idx + 1] = 0
buf[idx + 2] = 0
buf[idx + 3] = 0
idx += 4
continue
r, g, b = colorsys.hsv_to_rgb (hue, 1.0, 1.0)
a = 255
buf[idx + 0] = int (math.floor (r * 255 + 0.5))
buf[idx + 1] = int (math.floor (g * 255 + 0.5))
buf[idx + 2] = int (math.floor (b * 255 + 0.5))
buf[idx + 3] = a
idx += 4
source = cairocffi.ImageSurface.create_for_data (
memoryview (buf), cairocffi.FORMAT_ARGB32, width, height, stride
)
fg_color = self.get_style_context ().get_color (Gtk.StateFlags.NORMAL)
cr.save ()
cr.set_source_rgba (0, 0, 0, 0)
cr.paint ()
cr.set_source_surface (source, 0, 0)
cr.paint ()
cr.set_line_width (1)
cr.new_path ()
cr.set_source_rgba (*list (fg_color))
cr.arc (center_x, center_y, (self.size - 4) / 2. - self.ring_width,
0, 2 * numpy.pi)
cr.stroke ()
cr.arc (center_x, center_y, (self.size - 2) / 2, 0, 2 * numpy.pi)
cr.stroke ()
cr.arc (center_x, center_y, 5, 0, 2 * numpy.pi)
cr.fill ()
cr.restore ()
