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python - keeps text rotated in data coordinate system after resizing?

I'm trying to have a rotated text in matplotlib. unfortunately the rotation seems to be in the display coordinate system, and not in the data coordinate system. that is:

import numpy as np
import matplotlib.pyplot as plt

fig = plt.figure()
ax = fig.add_axes([0.15, 0.1, 0.8, 0.8])
t = np.arange(0.0, 1.0, 0.01)
line, = ax.plot(t, t, color='blue', lw=2)
ax.text (0.51,0.51,"test label", rotation=45)
plt.show()

will give a line that will be in a 45 deg in the data coordinate system, but the accompanied text will be in a 45 deg in the display coordinate system. I'd like to have the text and data to be aligned even when resizing the figure. I saw here that I can transform the rotation, but this will works only as long as the plot is not resized. I tried writing ax.text (0.51,0.51,"test label", transform=ax.transData, rotation=45), but it seems to be the default anyway, and doesn't help for the rotation

Is there a way to have the rotation in the data coordinate system ?

EDIT:

I'm interested in being able to resize the figure after I draw it - this is because I usually draw something and then play with the figure before saving it

See Question&Answers more detail:os

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1 Answer

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You may use the following class to create the text along the line. Instead of an angle it takes two points (p and pa) as input. The connection between those two points define the angle in data coordinates. If pa is not given, the connecting line between p and xy (the text coordinate) is used.
The angle is then updated automatically such that the text is always oriented along the line. This even works with logarithmic scales.

import numpy as np
import matplotlib.pyplot as plt
import matplotlib.text as mtext
import matplotlib.transforms as mtransforms


class RotationAwareAnnotation(mtext.Annotation):
    def __init__(self, s, xy, p, pa=None, ax=None, **kwargs):
        self.ax = ax or plt.gca()
        self.p = p
        if not pa:
            self.pa = xy
        self.calc_angle_data()
        kwargs.update(rotation_mode=kwargs.get("rotation_mode", "anchor"))
        mtext.Annotation.__init__(self, s, xy, **kwargs)
        self.set_transform(mtransforms.IdentityTransform())
        if 'clip_on' in kwargs:
            self.set_clip_path(self.ax.patch)
        self.ax._add_text(self)

    def calc_angle_data(self):
        ang = np.arctan2(self.p[1]-self.pa[1], self.p[0]-self.pa[0])
        self.angle_data = np.rad2deg(ang)

    def _get_rotation(self):
        return self.ax.transData.transform_angles(np.array((self.angle_data,)), 
                            np.array([self.pa[0], self.pa[1]]).reshape((1, 2)))[0]

    def _set_rotation(self, rotation):
        pass

    _rotation = property(_get_rotation, _set_rotation)

Example usage:

fig, ax = plt.subplots()
t = np.arange(0.0, 1.0, 0.01)
line, = ax.plot(t, t, color='blue', lw=2)

ra = RotationAwareAnnotation("test label", xy=(.5,.5), p=(.6,.6), ax=ax,
                             xytext=(2,-1), textcoords="offset points", va="top")

plt.show()

enter image description here

Alternative for edge-cases

The above may fail in certain cases of text along a vertical line or on scales with highly dissimilar x- and y- units (example here). In that case, the following would be better suited. It calculates the angle in screen coordinates, instead of relying on an angle transformation.

class RotationAwareAnnotation2(mtext.Annotation):
    def __init__(self, s, xy, p, pa=None, ax=None, **kwargs):
        self.ax = ax or plt.gca()
        self.p = p
        if not pa:
            self.pa = xy
        kwargs.update(rotation_mode=kwargs.get("rotation_mode", "anchor"))
        mtext.Annotation.__init__(self, s, xy, **kwargs)
        self.set_transform(mtransforms.IdentityTransform())
        if 'clip_on' in kwargs:
            self.set_clip_path(self.ax.patch)
        self.ax._add_text(self)

    def calc_angle(self):
        p = self.ax.transData.transform_point(self.p)
        pa = self.ax.transData.transform_point(self.pa)
        ang = np.arctan2(p[1]-pa[1], p[0]-pa[0])
        return np.rad2deg(ang)

    def _get_rotation(self):
        return self.calc_angle()

    def _set_rotation(self, rotation):
        pass

    _rotation = property(_get_rotation, _set_rotation)

For usual cases, both result in the same output. I'm not sure if the second class has any drawbacks, so I'll leave both in here, choose whichever you seem more suitable.


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