Example #1
0
 def __new__(*args, **kwargs):
     rc = kwargs["rc"]  # circumcircle radius
     del(kwargs["rc"])
     a  = rc / (np.sqrt(3) / 3)
     h  = rc / (np.sqrt(3) / 2)
     center = kwargs["center"]
     del(kwargs["center"])
     rotate = kwargs["rotate"] if "rotate" in kwargs else False
     if "rotate" in kwargs: del(kwargs["rotate"])
     rotate = -1 if rotate else 1
     triangle = Polygon([(0., -rc * rotate),
                         (-a / 2, (h / 2) * rotate),
                         (a / 2, (h / 2) * rotate)], **kwargs)
     triangle.translate(center[0], center[1])
     return triangle
Example #2
0
    def make_polygon(
        self,
        width: float,
        height: float,
        pct_jitter_vertices: float,
        rand_range=True,
        color=None,
    ):
        """Make an individual polygon with points offset from panel.insert"""

        points = self.calculate_polygon_points(width, height)

        if pct_jitter_vertices:
            points = self.jitter_polygon_points(points,
                                                width,
                                                height,
                                                pct_jitter_vertices,
                                                rand_range=rand_range)

        offset_points = [(x + self.insert[0], y + self.insert[1])
                         for x, y in points]

        shape = Polygon(
            points=offset_points,
            stroke=color or "black",
            fill_opacity=0.0,
            stroke_width=1,
        )

        return shape
Example #3
0
 def _put_triangle(self, cell, x, y, fill, stone_size):
     cell.add(
         Polygon([(x, (y - stone_size / 4)),
                  ((x - stone_size / 4), (y + stone_size / 4)),
                  ((x + stone_size / 4), (y + stone_size / 4))],
                 fill=fill,
                 stroke=fill))
Example #4
0
 def __new__(*args, **kwargs):
     r = kwargs["r"]
     del(kwargs["r"])
     center = kwargs["center"]
     del(kwargs["center"])
     m = r / 3
     cross = Polygon([(-m, -r), (m, -r), (m, -m), (r, -m), (r, m), (m, m),
                      (m, r), (-m, r), (-m, m), (-r, m), (-r, -m), (-m, -m)],
                      **kwargs)
     cross.translate(center[0], center[1])
     cross.rotate(45, (0., 0.))
     return cross
Example #5
0
        for i in range(len(x_p2)):
            x_p2[i] += x_p0_max
        y_p2 = []
        for i in range(1, len(y_p0)):
            if center_y_rand:
                d = y_p0[i] - y_p0[i - 1]
                y_p2.append(
                    random.randint(y_p0[i - 1] + int(0.45 * d),
                                   y_p0[i - 1] + int(0.55 * d)))
            else:
                y_p2.append(random.randint(y_p0[i - 1], y_p0[i] - 1))
        p2 = list(zip(x_p2, y_p2))

        for i in range(len(p2)):
            dwg.add(
                Polygon([p0[i], p2[i], p0[i + 1]],
                        fill=get_color([p0[i], p2[i], p0[i + 1]])))
        for i in range(len(p2) - 1):
            dwg.add(
                Polygon([p2[i], p0[i + 1], p2[i + 1]],
                        fill=get_color([p2[i], p0[i + 1], p2[i + 1]])))

        x_p2_max = max(x_p2)

        if width - x_p2_max > step_max:

            x_p1 = []
            for i in range(triangle_leftest + 1):
                x_p1.append(random.randint(step_min, step_max))

            for i in range(len(x_p1)):
                x_p1[i] += x_p2_max