Draw azimuth/distance lines above Maidenhead grid

Also, the azimuth/distance lines and their labels are now put in their
own group.

qsomap.py

@@ -326,42 +326,6 @@ def render(ref_lat, ref_lon, output_stream):
         group.set_desc(title=v['name'])
         doc.add(group)
 
-    # generate equidistant circles
-
-    d_max = 40075/2
-    for distance in [500, 1000, 2000, 3000, 4000, 5000, 6000, 8000, 10000,
-                     12000, 14000, 16000, 18000, 20000]:
-        r = R * distance / d_max
-        doc.add(doc.circle(center=(R, R), r=r,
-                           **{'class': 'dist_circle'}))
-
-        doc.add(doc.text(f"{distance} km", (R, R-r+5),
-                **{'class': 'dist_circle_label'}))
-
-    # generate azimuth lines in 30° steps
-
-    for azimuth in np.arange(0, np.pi, np.pi/6):
-        start_x = R + R * np.cos(azimuth-np.pi/2)
-        start_y = R + R * np.sin(azimuth-np.pi/2)
-        end_x = R - R * np.cos(azimuth-np.pi/2)
-        end_y = R - R * np.sin(azimuth-np.pi/2)
-
-        doc.add(doc.line((start_x, start_y), (end_x, end_y),
-                **{'class': 'azimuth_line'}))
-
-        azimuth_deg = int(np.round(azimuth * 180 / np.pi))
-        textpos = (2*R - 10, R - 2)
-
-        txt = doc.text(f"{azimuth_deg:d} °", textpos,
-                       **{'class': 'azimuth_line_label'})
-        txt.rotate(azimuth_deg - 90, center=(R, R))
-        doc.add(txt)
-
-        txt = doc.text(f"{azimuth_deg+180:d} °", textpos,
-                       **{'class': 'azimuth_line_label'})
-        txt.rotate(azimuth_deg - 90 + 180, center=(R, R))
-        doc.add(txt)
-
     # generate Maidenhead locator grid (first two letters only)
 
     group = doc.g()
@@ -405,7 +369,47 @@ def render(ref_lat, ref_lon, output_stream):
                                **{'class': 'maidenhead_label',
                                   'font-size': font_size}))
 
-    doc.add(group)
+    doc.add(group)  # Maidenhead grid
+
+    group = doc.g()
+
+    # generate equidistant circles
+
+    d_max = 40075/2
+    for distance in [500, 1000, 2000, 3000, 4000, 5000, 6000, 8000, 10000,
+                     12000, 14000, 16000, 18000, 20000]:
+        r = R * distance / d_max
+        group.add(doc.circle(center=(R, R), r=r,
+                             **{'class': 'dist_circle'}))
+
+        group.add(doc.text(f"{distance} km", (R, R-r+5),
+                  **{'class': 'dist_circle_label'}))
+
+    # generate azimuth lines in 30° steps
+
+    for azimuth in np.arange(0, np.pi, np.pi/6):
+        start_x = R + R * np.cos(azimuth-np.pi/2)
+        start_y = R + R * np.sin(azimuth-np.pi/2)
+        end_x = R - R * np.cos(azimuth-np.pi/2)
+        end_y = R - R * np.sin(azimuth-np.pi/2)
+
+        group.add(doc.line((start_x, start_y), (end_x, end_y),
+                  **{'class': 'azimuth_line'}))
+
+        azimuth_deg = int(np.round(azimuth * 180 / np.pi))
+        textpos = (2*R - 10, R - 2)
+
+        txt = doc.text(f"{azimuth_deg:d} °", textpos,
+                       **{'class': 'azimuth_line_label'})
+        txt.rotate(azimuth_deg - 90, center=(R, R))
+        group.add(txt)
+
+        txt = doc.text(f"{azimuth_deg+180:d} °", textpos,
+                       **{'class': 'azimuth_line_label'})
+        txt.rotate(azimuth_deg - 90 + 180, center=(R, R))
+        group.add(txt)
+
+    doc.add(group)  # Circles, azimuth lines and labels
 
     """
     for x in range(0, 26):