1

Some minimal code of what I'm working on. Some parameters may seem redundant, but I didn't bother removing all of them.

import matplotlib
import matplotlib.gridspec as gridspec
matplotlib.use("macosx")
import matplotlib.pyplot as plt
import pandas as pd
import seaborn as sns

def plot_overlaid_2d_hist(data,
                          plot_axis_x,
                          plot_axis_y,
                          plot_axis_x_lab,
                          plot_axis_y_lab,
                          group_by = "group_name"):

    # don't mind this for now
    df = data

    # Figure aspect
    w, h = plt.figaspect(1)
    fig = plt.figure(figsize = (w, h))

    # Count the number of groups to make plots for
    n_groups = len(df.groupby(group_by))
    gs = gridspec.GridSpec(nrows = n_groups, ncols = 1)
    subplot_id = 0

    # Reshape data to make it work
    for name, group in df.groupby(group_by, sort = False):

        # Initialize subplot
        fig.add_subplot(gs[subplot_id, 0])

        # Check if we get subplots with pyplot
        if subplot_id == 0:
            col = "red"
        else:
            col = "blue"

        plt.plot(x, y, color = col)


        # instantiate JointGrid
        # g = sns.JointGrid(group[plot_axis_x],
        #                   group[plot_axis_y],
        #                   data = group,
        #                   space = 0,
        #                   xlim = (0, 1.2),
        #                   ylim = (0, 1))
        # 
        # # Fix labels
        # g = g.set_axis_labels(xlabel = str(plot_axis_x_lab),
        #                   ylabel = str(plot_axis_y_lab))
        # 
        # # center scatter plot on top
        # g = g.plot_joint(plt.scatter,
        #              s = 0.5,
        #              alpha = 1,
        #              linewidth = 1)
        # 
        # # marginals plot
        # g = g.plot_marginals(sns.distplot,
        #                  kde = True,
        #                  kde_kws = dict(linewidth = 2,
        #                                 alpha = 1,
        #                                 bw = "Scott"),
        #                  hist_kws = dict(alpha = 1))


        # Next plot in row +1
        subplot_id += 1

    # Output
    plt.tight_layout()  # Attempts to fix alignment of subplot layout and axis titles

    plt.show()

# quick data to check if the plots end up where they should
x = [0.5, 0.5, 0.4, 0.4]
y = [0.6, 0.4, 0.3, 0.4]
grp = ["a", "a", "b", "b"]


df = pd.DataFrame({"x":x,
                   "y":y,
                   "grp": grp})

plot_overlaid_2d_hist(data = df,
                      group_by = "grp",
                      plot_axis_x_lab = "x",
                      plot_axis_y_lab = "x",
                      plot_axis_y = "x",
                      plot_axis_x = "x")

Running the code with all seaborn plots (g) commented out shows that it works fine for native pyplot, but when I add in the multi-part seaborn plots, they show up in separate figures. What I would like is to have each 2D-histogram-with-marginals-and-scatter populate their own gridspec row/column.

4
  • Did you read the documentation? A JointGrid creates its own figure. If you don't want that to happen, don't use a JointGrid. Nov 28, 2017 at 20:59
  • I thought there would be a way around that. Turns out that there is actually, github.com/mwaskom/seaborn/issues/399, but it's not official yet. Nov 29, 2017 at 9:31
  • Sure that solution relies on changing the seaborn source code. If you want to do that you can of course specifically ask about any problems you encounter on the way. Nov 29, 2017 at 9:38
  • I have neither the time nor the abilities to do so, so I guess the trail ends here :) I'll think of a different solution. Nov 29, 2017 at 9:39

1 Answer 1

4

Seeing that this question has already been asked before here I moved this answer to the older question. I would like to delete it here, but cannot do so because it is accepted already.

As has been pointed out at several places (this question, also this issue) several of the seaborn commands create their own figure automatically. This is hardcoded into the seaborn code, so there is currently no way to produce such plots in existing figures. Those are PairGrid, FacetGrid, JointGrid, pairplot, jointplot and lmplot.

There is a seaborn fork available which would allow to supply a subplot grid to the respective classes such that the plot is created in a preexisting figure. To use this, you would need to copy the axisgrid.py from the fork to the seaborn folder. Note that this is currently restricted to be used with matplotlib 2.1 (possibly 2.0 as well).

An alternative could be to create a seaborn figure and copy the axes to another figure. The principle of this is shown in this answer and could be extended to Searborn plots. The implementation is a bit more complicated that I had initially expected. The following is a class SeabornFig2Grid that can be called with a seaborn grid instance (the return of any of the above commands), a matplotlib figure and a subplot_spec, which is a position of a gridspec grid.

import matplotlib.pyplot as plt
import matplotlib.gridspec as gridspec
import seaborn as sns
import numpy as np

class SeabornFig2Grid():

    def __init__(self, seaborngrid, fig,  subplot_spec):
        self.fig = fig
        self.sg = seaborngrid
        self.subplot = subplot_spec
        if isinstance(self.sg, sns.axisgrid.FacetGrid) or \
            isinstance(self.sg, sns.axisgrid.PairGrid):
            self._movegrid()
        elif isinstance(self.sg, sns.axisgrid.JointGrid):
            self._movejointgrid()
        self._finalize()

    def _movegrid(self):
        """ Move PairGrid or Facetgrid """
        self._resize()
        n = self.sg.axes.shape[0]
        m = self.sg.axes.shape[1]
        self.subgrid = gridspec.GridSpecFromSubplotSpec(n,m, subplot_spec=self.subplot)
        for i in range(n):
            for j in range(m):
                self._moveaxes(self.sg.axes[i,j], self.subgrid[i,j])

    def _movejointgrid(self):
        """ Move Jointgrid """
        h= self.sg.ax_joint.get_position().height
        h2= self.sg.ax_marg_x.get_position().height
        r = int(np.round(h/h2))
        self._resize()
        self.subgrid = gridspec.GridSpecFromSubplotSpec(r+1,r+1, subplot_spec=self.subplot)

        self._moveaxes(self.sg.ax_joint, self.subgrid[1:, :-1])
        self._moveaxes(self.sg.ax_marg_x, self.subgrid[0, :-1])
        self._moveaxes(self.sg.ax_marg_y, self.subgrid[1:, -1])

    def _moveaxes(self, ax, gs):
        #https://stackoverflow.com/a/46906599/4124317
        ax.remove()
        ax.figure=self.fig
        self.fig.axes.append(ax)
        self.fig.add_axes(ax)
        ax._subplotspec = gs
        ax.set_position(gs.get_position(self.fig))
        ax.set_subplotspec(gs)

    def _finalize(self):
        plt.close(self.sg.fig)
        self.fig.canvas.mpl_connect("resize_event", self._resize)
        self.fig.canvas.draw()

    def _resize(self, evt=None):
        self.sg.fig.set_size_inches(self.fig.get_size_inches())

The usage of this class would look like this:

import matplotlib.pyplot as plt
import matplotlib.gridspec as gridspec
import seaborn as sns; sns.set()
import SeabornFig2Grid as sfg


iris = sns.load_dataset("iris")
tips = sns.load_dataset("tips")

# An lmplot
g0 = sns.lmplot(x="total_bill", y="tip", hue="smoker", data=tips, 
                palette=dict(Yes="g", No="m"))
# A PairGrid
g1 = sns.PairGrid(iris, hue="species")
g1.map(plt.scatter, s=5)
# A FacetGrid
g2 = sns.FacetGrid(tips, col="time",  hue="smoker")
g2.map(plt.scatter, "total_bill", "tip", edgecolor="w")
# A JointGrid
g3 = sns.jointplot("sepal_width", "petal_length", data=iris,
                   kind="kde", space=0, color="g")


fig = plt.figure(figsize=(13,8))
gs = gridspec.GridSpec(2, 2)

mg0 = sfg.SeabornFig2Grid(g0, fig, gs[0])
mg1 = sfg.SeabornFig2Grid(g1, fig, gs[1])
mg2 = sfg.SeabornFig2Grid(g2, fig, gs[3])
mg3 = sfg.SeabornFig2Grid(g3, fig, gs[2])

gs.tight_layout(fig)
#gs.update(top=0.7)

plt.show()

enter image description here

Note that there might be several drawbacks from copying axes and the above is not (yet) tested thoroughly.

Not the answer you're looking for? Browse other questions tagged or ask your own question.