Esempio n. 1
0
 def _draw_circle_segment(
     self,
     dr: svgwrite.Drawing,
     tracks: List[Track],
     a1: float,
     a2: float,
     rr: ValueRange,
     center: XY,
 ):
     length = sum([t.length for t in tracks])
     has_special = len([t for t in tracks if t.special]) > 0
     color = self.color(self.poster.length_range_by_date, length, has_special)
     r1 = rr.lower()
     r2 = (
         rr.lower()
         + rr.diameter() * length / self.poster.length_range_by_date.upper()
     )
     sin_a1, cos_a1 = math.sin(a1), math.cos(a1)
     sin_a2, cos_a2 = math.sin(a2), math.cos(a2)
     path = dr.path(
         d=("M", center.x + r1 * sin_a1, center.y - r1 * cos_a1),
         fill=color,
         stroke="none",
     )
     path.push("l", (r2 - r1) * sin_a1, (r1 - r2) * cos_a1)
     path.push(f"a{r2},{r2} 0 0,0 {r2 * (sin_a2 - sin_a1)},{r2 * (cos_a1 - cos_a2)}")
     path.push("l", (r1 - r2) * sin_a2, (r2 - r1) * cos_a2)
     dr.add(path)
Esempio n. 2
0
 def _draw_circle_segment(
     self,
     dr: svgwrite.Drawing,
     g: svgwrite.container.Group,
     tracks: typing.List[Track],
     a1: float,
     a2: float,
     rr: ValueRange,
     center: XY,
 ) -> None:
     length = sum([t.length() for t in tracks])
     has_special = len([t for t in tracks if t.special]) > 0
     color = self.color(self.poster.length_range_by_date, length,
                        has_special)
     max_length = self.poster.length_range_by_date.upper()
     assert max_length is not None
     r1 = rr.lower()
     assert r1 is not None
     r2 = rr.interpolate((length / max_length).magnitude)
     sin_a1, cos_a1 = math.sin(a1), math.cos(a1)
     sin_a2, cos_a2 = math.sin(a2), math.cos(a2)
     path = dr.path(
         d=("M", center.x + r1 * sin_a1, center.y - r1 * cos_a1),
         fill=color,
         stroke="none",
     )
     path.push("l", (r2 - r1) * sin_a1, (r1 - r2) * cos_a1)
     path.push(
         f"a{r2},{r2} 0 0,0 {r2 * (sin_a2 - sin_a1)},{r2 * (cos_a1 - cos_a2)}"
     )
     path.push("l", (r1 - r2) * sin_a2, (r2 - r1) * cos_a2)
     date_title = str(tracks[0].start_time().date())
     str_length = utils.format_float(self.poster.m2u(length))
     path.set_desc(title=f"{date_title} {str_length} {self.poster.u()}")
     g.add(path)
Esempio n. 3
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 def __compute_track_statistics(self):
     length_range = ValueRange()
     total_length = 0
     weeks = {}
     for t in self.tracks:
         total_length += t.length
         length_range.extend(t.length)
         # time.isocalendar()[1] -> week number
         weeks[(t.start_time.year, t.start_time.isocalendar()[1])] = 1
     return (
         total_length,
         total_length / len(self.tracks),
         length_range.lower(),
         length_range.upper(),
         len(weeks),
     )
Esempio n. 4
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    def color(self,
              length_range: ValueRange,
              length: float,
              is_special: bool = False) -> str:
        assert length_range.is_valid()
        assert length_range.contains(length)

        color1 = (self.poster.colors["special"]
                  if is_special else self.poster.colors["track"])
        color2 = (self.poster.colors["special2"]
                  if is_special else self.poster.colors["track2"])

        diff = length_range.diameter()
        if diff == 0:
            return color1

        return utils.interpolate_color(color1, color2,
                                       (length - length_range.lower()) / diff)
Esempio n. 5
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 def _draw_rings(self, dr: svgwrite.Drawing, center: XY, radius_range: ValueRange):
     length_range = self.poster.length_range_by_date
     ring_distance = self._determine_ring_distance()
     if ring_distance is None:
         return
     distance = ring_distance
     while distance < length_range.upper():
         radius = (
             radius_range.lower()
             + radius_range.diameter() * distance / length_range.upper()
         )
         dr.add(
             dr.circle(
                 center=center.tuple(),
                 r=radius,
                 stroke=self._ring_color,
                 stroke_opacity="0.2",
                 fill="none",
                 stroke_width=0.3,
             )
         )
         distance += ring_distance