Cartesian power

Xwidth[ppvalue][/height[ppvalue]] or xx-scale[ppvalue][/y-scale[ppvalue]]

Give the width of the figure and the optional argument height. The lower-case version x is similar to X but expects an x-scale and an optional y-scale. Each axis with a power transformation requires p and the exponent for that axis after its size argument.

cartesian power
import numpy as np
import pygmt

# Create a list of y-values 0-10
yvalues = np.arange(0, 11)
# Create a list of x-values that are the square of the y-values
xvalues = yvalues**2

fig = pygmt.Figure()
fig.plot(
    region=[0, 100, 0, 10],
    # Set the power transformation of the x-axis, with a power of 0.5
    projection="X15cp0.5/10c",
    # Set the figures frame and color as well as
    # annotations and ticks
    # The "p" forces to show only square numbers as annotations
    # of the x-axis
    frame=["WSne+givory", "xa1p", "ya2f1"],
    # Set the line thickness to "thick" (equals "1p", i.e. 1 point)
    # Use as color "black" (default) and as style "solid" (default)
    pen="thick,black,solid",
    x=xvalues,
    y=yvalues,
)
# Plot x-, y-values as points on the line
# Style of points is 0.2 cm circles, color fill is "green" with a "black"
# outline. Points are not clipped if they go off the figure
fig.plot(x=xvalues, y=yvalues, style="c0.2c", fill="green", no_clip=True, pen="black")
fig.show()

Total running time of the script: ( 0 minutes 0.543 seconds)

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