# FancyArrowPatch to edge of marker with known size?

I asked earlier on the matplotlib-user mailing list so apologies for the cross-post.

Say I have a marker with a known size in points and I want to draw an arrow to this point. How can I get the ends points for the arrow? As you can see in the below, it overlaps the markers. I want to go to the edge. I can use shrinkA and shrinkB to do what I want, but I don't see how they're related to the points size**.5. Or should I somehow do the transformation using the known angle between the two points and the point itself. I don't know how to translate a point in data coordinates and the offset it in a certain direction by size**.5 points. Can anyone help clear this up?

``````import matplotlib.pyplot as plt
from matplotlib.patches import FancyArrowPatch

point1 = (138.21, 19.5)
x1, y1 = point1
point2 = (67.0, 30.19)
x2, y2 = point2
size = 700

fig, ax = plt.subplots()
ax.scatter(*zip(point1, point2), marker='o', s=size)

# if I need to get and use the angles
dx = x2 - x1
dy = y2 - y1
d = np.sqrt(dx**2 + dy**2)

arrows = FancyArrowPatch(posA=(x1, y1), posB=(x2, y2),
color = 'k',
arrowstyle="-|>",
mutation_scale=700**.5,
connectionstyle="arc3")

``````

Edit: I made a little more progress. If I read the Translations Tutorial correctly, then this should give me a point on the radius of the markers. However, as soon as you resize the Axes then the transformation will be off. I'm stumped on what else to use.

``````from matplotlib.transforms import ScaledTranslation
# shift size points over and size points down so you should be on radius
# a point is 1/72 inches
dpi = ax.figure.get_dpi()
node_size = size**.5 / 2. # this is the radius of the marker
offset = ScaledTranslation(node_size/dpi, -node_size/dpi, fig.dpi_scale_trans)
``````

-
I suspect you need to add a callback on `resize_event` matplotlib.org/users/event_handling.html to update your transform (via `set_transform` matplotlib.org/api/…) –  tcaswell Jan 31 '13 at 4:21
Did you get this sorted out? –  tcaswell Oct 5 '13 at 1:00

``````import matplotlib.pyplot as plt
from matplotlib.patches import FancyArrowPatch
from matplotlib.transforms import ScaledTranslation

point1 = (138.21, 19.5)
x1, y1 = point1
point2 = (67.0, 30.19)
x2, y2 = point2
size = 700

fig, ax = plt.subplots()
ax.scatter(*zip(point1, point2), marker='o', s=size)

# if I need to get and use the angles
dx = x2 - x1
dy = y2 - y1
d = np.sqrt(dx**2 + dy**2)

arrows = FancyArrowPatch(posA=(x1, y1), posB=(x2, y2),
color = 'k',
arrowstyle="-|>",
mutation_scale=700**.5,
connectionstyle="arc3")

# shift size points over and size points down so you should be on radius
# a point is 1/72 inches
def trans_callback(event):
dpi = fig.get_dpi()
node_size = size**.5 / 2. # this is the radius of the marker
offset = ScaledTranslation(node_size/dpi, -node_size/dpi, fig.dpi_scale_trans)