How to rotate matplotlib annotation to match a line?

I came up with something that works for me. Note the grey dashed lines:

annotated lines

The rotation must be set manually, but this must be done AFTER draw() or layout. So my solution is to associate lines with annotations, then iterate through them and do this:

  1. get line's data transform (i.e. goes from data coordinates to display coordinates)
  2. transform two points along the line to display coordinates
  3. find slope of displayed line
  4. set text rotation to match this slope

This isn't perfect, because matplotlib's handling of rotated text is all wrong. It aligns by the bounding box and not by the text baseline.

Some font basics if you're interested about text rendering: http://docs.oracle.com/javase/tutorial/2d/text/fontconcepts.html

This example shows what matplotlib does: http://matplotlib.org/examples/pylab_examples/text_rotation.html

The only way I found to have a label properly next to the line is to align by center in both vertical and horizontal. I then offset the label by 10 points to the left to make it not overlap. Good enough for my application.

Here is my code. I draw the line however I want, then draw the annotation, then bind them with a helper function:

line, = fig.plot(xdata, ydata, '--', color=color)

# x,y appear on the midpoint of the line

t = fig.annotate("text", xy=(x, y), xytext=(-10, 0), textcoords='offset points', horizontalalignment='left', verticalalignment='bottom', color=color)
text_slope_match_line(t, x, y, line)

Then call another helper function after layout but before savefig (For interactive images I think you'll have to register for draw events and call update_text_slopes in the handler)

plt.tight_layout()
update_text_slopes()

The helpers:

rotated_labels = []
def text_slope_match_line(text, x, y, line):
    global rotated_labels

    # find the slope
    xdata, ydata = line.get_data()

    x1 = xdata[0]
    x2 = xdata[-1]
    y1 = ydata[0]
    y2 = ydata[-1]

    rotated_labels.append({"text":text, "line":line, "p1":numpy.array((x1, y1)), "p2":numpy.array((x2, y2))})

def update_text_slopes():
    global rotated_labels

    for label in rotated_labels:
        # slope_degrees is in data coordinates, the text() and annotate() functions need it in screen coordinates
        text, line = label["text"], label["line"]
        p1, p2 = label["p1"], label["p2"]

        # get the line's data transform
        ax = line.get_axes()

        sp1 = ax.transData.transform_point(p1)
        sp2 = ax.transData.transform_point(p2)

        rise = (sp2[1] - sp1[1])
        run = (sp2[0] - sp1[0])

        slope_degrees = math.degrees(math.atan(rise/run))

        text.set_rotation(slope_degrees)

New in matplotlib 3.4.0

There is now a built-in parameter transform_rotates_text for rotating text relative to a line:

To rotate text with respect to a line, the correct angle won't be the angle of that line in the plot coordinate system, but the angle that the line appears in the screen coordinate system. This angle can be determined automatically by setting the new parameter transform_rotates_text.

So now we can just pass the raw data angle to plt.text and let matplotlib automatically transform it to the correct visual angle by setting transform_rotates_text=True:

# plot line from (1, 4) to (6, 10)
x = [1, 6]
y = [4, 10]
plt.plot(x, y, 'r.-')

# compute angle in raw data coordinates (no manual transforms)
dy = y[1] - y[0]
dx = x[1] - x[0]
angle = np.rad2deg(np.arctan2(dy, dx))

# annotate with transform_rotates_text to align text and line
plt.text(x[0], y[0], f'rotation={angle:.2f}', ha='left', va='bottom',
         transform_rotates_text=True, rotation=angle, rotation_mode='anchor')

This approach is robust against the figure and axes scales. Even if we modify the figsize or xlim after placing the text, the rotation stays properly aligned:

# resizing the figure won't mess up the rotation
plt.gcf().set_size_inches(9, 4)

# rescaling the axes won't mess up the rotation
plt.xlim(0, 12)


Even though this question is old, I keep coming across it and get frustrated, that it does not quite work. I reworked it into a class LineAnnotation and helper line_annotate such that it

  1. uses the slope at a specific point x,
  2. works with re-layouting and resizing, and
  3. accepts a relative offset perpendicular to the slope.
x = np.linspace(np.pi, 2*np.pi)
line, = plt.plot(x, np.sin(x))

for x in [3.5, 4.0, 4.5, 5.0, 5.5, 6.0]:
    line_annotate(str(x), line, x)

Annotated sinus

I originally put it into a public gist, but @Adam asked me to include it here.

import numpy as np
from matplotlib.text import Annotation
from matplotlib.transforms import Affine2D


class LineAnnotation(Annotation):
    """A sloped annotation to *line* at position *x* with *text*
    Optionally an arrow pointing from the text to the graph at *x* can be drawn.
    Usage
    -----
    fig, ax = subplots()
    x = linspace(0, 2*pi)
    line, = ax.plot(x, sin(x))
    ax.add_artist(LineAnnotation("text", line, 1.5))
    """

    def __init__(
        self, text, line, x, xytext=(0, 5), textcoords="offset points", **kwargs
    ):
        """Annotate the point at *x* of the graph *line* with text *text*.

        By default, the text is displayed with the same rotation as the slope of the
        graph at a relative position *xytext* above it (perpendicularly above).

        An arrow pointing from the text to the annotated point *xy* can
        be added by defining *arrowprops*.

        Parameters
        ----------
        text : str
            The text of the annotation.
        line : Line2D
            Matplotlib line object to annotate
        x : float
            The point *x* to annotate. y is calculated from the points on the line.
        xytext : (float, float), default: (0, 5)
            The position *(x, y)* relative to the point *x* on the *line* to place the
            text at. The coordinate system is determined by *textcoords*.
        **kwargs
            Additional keyword arguments are passed on to `Annotation`.

        See also
        --------
        `Annotation`
        `line_annotate`
        """
        assert textcoords.startswith(
            "offset "
        ), "*textcoords* must be 'offset points' or 'offset pixels'"

        self.line = line
        self.xytext = xytext

        # Determine points of line immediately to the left and right of x
        xs, ys = line.get_data()

        def neighbours(x, xs, ys, try_invert=True):
            inds, = np.where((xs <= x)[:-1] & (xs > x)[1:])
            if len(inds) == 0:
                assert try_invert, "line must cross x"
                return neighbours(x, xs[::-1], ys[::-1], try_invert=False)

            i = inds[0]
            return np.asarray([(xs[i], ys[i]), (xs[i+1], ys[i+1])])
        
        self.neighbours = n1, n2 = neighbours(x, xs, ys)
        
        # Calculate y by interpolating neighbouring points
        y = n1[1] + ((x - n1[0]) * (n2[1] - n1[1]) / (n2[0] - n1[0]))

        kwargs = {
            "horizontalalignment": "center",
            "rotation_mode": "anchor",
            **kwargs,
        }
        super().__init__(text, (x, y), xytext=xytext, textcoords=textcoords, **kwargs)

    def get_rotation(self):
        """Determines angle of the slope of the neighbours in display coordinate system
        """
        transData = self.line.get_transform()
        dx, dy = np.diff(transData.transform(self.neighbours), axis=0).squeeze()
        return np.rad2deg(np.arctan2(dy, dx))

    def update_positions(self, renderer):
        """Updates relative position of annotation text
        Note
        ----
        Called during annotation `draw` call
        """
        xytext = Affine2D().rotate_deg(self.get_rotation()).transform(self.xytext)
        self.set_position(xytext)
        super().update_positions(renderer)


def line_annotate(text, line, x, *args, **kwargs):
    """Add a sloped annotation to *line* at position *x* with *text*

    Optionally an arrow pointing from the text to the graph at *x* can be drawn.

    Usage
    -----
    x = linspace(0, 2*pi)
    line, = ax.plot(x, sin(x))
    line_annotate("sin(x)", line, 1.5)

    See also
    --------
    `LineAnnotation`
    `plt.annotate`
    """
    ax = line.axes
    a = LineAnnotation(text, line, x, *args, **kwargs)
    if "clip_on" in kwargs:
        a.set_clip_path(ax.patch)
    ax.add_artist(a)
    return a

This is the exact same process and basic code as given by @Adam --- it's just restructured to be (hopefully) a little more convenient.

def label_line(line, label, x, y, color='0.5', size=12):
    """Add a label to a line, at the proper angle.

    Arguments
    ---------
    line : matplotlib.lines.Line2D object,
    label : str
    x : float
        x-position to place center of text (in data coordinated
    y : float
        y-position to place center of text (in data coordinates)
    color : str
    size : float
    """
    xdata, ydata = line.get_data()
    x1 = xdata[0]
    x2 = xdata[-1]
    y1 = ydata[0]
    y2 = ydata[-1]

    ax = line.get_axes()
    text = ax.annotate(label, xy=(x, y), xytext=(-10, 0),
                       textcoords='offset points',
                       size=size, color=color,
                       horizontalalignment='left',
                       verticalalignment='bottom')

    sp1 = ax.transData.transform_point((x1, y1))
    sp2 = ax.transData.transform_point((x2, y2))

    rise = (sp2[1] - sp1[1])
    run = (sp2[0] - sp1[0])

    slope_degrees = np.degrees(np.arctan2(rise, run))
    text.set_rotation(slope_degrees)
    return text

Used like:

import numpy as np
import matplotlib.pyplot as plt

...
fig, axes = plt.subplots()
color = 'blue'
line, = axes.plot(xdata, ydata, '--', color=color)
...
label_line(line, "Some Label", x, y, color=color)

Edit: note that this method still needs to be called after the figure layout is finalized, otherwise things will be altered.

See: https://gist.github.com/lzkelley/0de9e8bf2a4fe96d2018f1b1bd5a0d3c

Tags:

Matplotlib