import numpy as np import pytest import pandas.util._test_decorators as td from pandas import ( DataFrame, date_range, ) from pandas.tests.plotting.common import TestPlotBase from pandas.util.version import Version class TestFrameLegend(TestPlotBase): @pytest.mark.xfail( reason=( "Open bug in matplotlib " "https://github.com/matplotlib/matplotlib/issues/11357" ) ) def test_mixed_yerr(self): # https://github.com/pandas-dev/pandas/issues/39522 import matplotlib as mpl from matplotlib.collections import LineCollection from matplotlib.lines import Line2D df = DataFrame([{"x": 1, "a": 1, "b": 1}, {"x": 2, "a": 2, "b": 3}]) ax = df.plot("x", "a", c="orange", yerr=0.1, label="orange") df.plot("x", "b", c="blue", yerr=None, ax=ax, label="blue") legend = ax.get_legend() if Version(mpl.__version__) < Version("3.7"): result_handles = legend.legendHandles else: result_handles = legend.legend_handles assert isinstance(result_handles[0], LineCollection) assert isinstance(result_handles[1], Line2D) def test_legend_false(self): # https://github.com/pandas-dev/pandas/issues/40044 import matplotlib as mpl df = DataFrame({"a": [1, 1], "b": [2, 3]}) df2 = DataFrame({"d": [2.5, 2.5]}) ax = df.plot(legend=True, color={"a": "blue", "b": "green"}, secondary_y="b") df2.plot(legend=True, color={"d": "red"}, ax=ax) legend = ax.get_legend() if Version(mpl.__version__) < Version("3.7"): handles = legend.legendHandles else: handles = legend.legend_handles result = [handle.get_color() for handle in handles] expected = ["blue", "green", "red"] assert result == expected @td.skip_if_no_scipy def test_df_legend_labels(self): kinds = ["line", "bar", "barh", "kde", "area", "hist"] df = DataFrame(np.random.rand(3, 3), columns=["a", "b", "c"]) df2 = DataFrame(np.random.rand(3, 3), columns=["d", "e", "f"]) df3 = DataFrame(np.random.rand(3, 3), columns=["g", "h", "i"]) df4 = DataFrame(np.random.rand(3, 3), columns=["j", "k", "l"]) for kind in kinds: ax = df.plot(kind=kind, legend=True) self._check_legend_labels(ax, labels=df.columns) ax = df2.plot(kind=kind, legend=False, ax=ax) self._check_legend_labels(ax, labels=df.columns) ax = df3.plot(kind=kind, legend=True, ax=ax) self._check_legend_labels(ax, labels=df.columns.union(df3.columns)) ax = df4.plot(kind=kind, legend="reverse", ax=ax) expected = list(df.columns.union(df3.columns)) + list(reversed(df4.columns)) self._check_legend_labels(ax, labels=expected) # Secondary Y ax = df.plot(legend=True, secondary_y="b") self._check_legend_labels(ax, labels=["a", "b (right)", "c"]) ax = df2.plot(legend=False, ax=ax) self._check_legend_labels(ax, labels=["a", "b (right)", "c"]) ax = df3.plot(kind="bar", legend=True, secondary_y="h", ax=ax) self._check_legend_labels( ax, labels=["a", "b (right)", "c", "g", "h (right)", "i"] ) # Time Series ind = date_range("1/1/2014", periods=3) df = DataFrame(np.random.randn(3, 3), columns=["a", "b", "c"], index=ind) df2 = DataFrame(np.random.randn(3, 3), columns=["d", "e", "f"], index=ind) df3 = DataFrame(np.random.randn(3, 3), columns=["g", "h", "i"], index=ind) ax = df.plot(legend=True, secondary_y="b") self._check_legend_labels(ax, labels=["a", "b (right)", "c"]) ax = df2.plot(legend=False, ax=ax) self._check_legend_labels(ax, labels=["a", "b (right)", "c"]) ax = df3.plot(legend=True, ax=ax) self._check_legend_labels(ax, labels=["a", "b (right)", "c", "g", "h", "i"]) # scatter ax = df.plot.scatter(x="a", y="b", label="data1") self._check_legend_labels(ax, labels=["data1"]) ax = df2.plot.scatter(x="d", y="e", legend=False, label="data2", ax=ax) self._check_legend_labels(ax, labels=["data1"]) ax = df3.plot.scatter(x="g", y="h", label="data3", ax=ax) self._check_legend_labels(ax, labels=["data1", "data3"]) # ensure label args pass through and # index name does not mutate # column names don't mutate df5 = df.set_index("a") ax = df5.plot(y="b") self._check_legend_labels(ax, labels=["b"]) ax = df5.plot(y="b", label="LABEL_b") self._check_legend_labels(ax, labels=["LABEL_b"]) self._check_text_labels(ax.xaxis.get_label(), "a") ax = df5.plot(y="c", label="LABEL_c", ax=ax) self._check_legend_labels(ax, labels=["LABEL_b", "LABEL_c"]) assert df5.columns.tolist() == ["b", "c"] def test_missing_marker_multi_plots_on_same_ax(self): # GH 18222 df = DataFrame(data=[[1, 1, 1, 1], [2, 2, 4, 8]], columns=["x", "r", "g", "b"]) fig, ax = self.plt.subplots(nrows=1, ncols=3) # Left plot df.plot(x="x", y="r", linewidth=0, marker="o", color="r", ax=ax[0]) df.plot(x="x", y="g", linewidth=1, marker="x", color="g", ax=ax[0]) df.plot(x="x", y="b", linewidth=1, marker="o", color="b", ax=ax[0]) self._check_legend_labels(ax[0], labels=["r", "g", "b"]) self._check_legend_marker(ax[0], expected_markers=["o", "x", "o"]) # Center plot df.plot(x="x", y="b", linewidth=1, marker="o", color="b", ax=ax[1]) df.plot(x="x", y="r", linewidth=0, marker="o", color="r", ax=ax[1]) df.plot(x="x", y="g", linewidth=1, marker="x", color="g", ax=ax[1]) self._check_legend_labels(ax[1], labels=["b", "r", "g"]) self._check_legend_marker(ax[1], expected_markers=["o", "o", "x"]) # Right plot df.plot(x="x", y="g", linewidth=1, marker="x", color="g", ax=ax[2]) df.plot(x="x", y="b", linewidth=1, marker="o", color="b", ax=ax[2]) df.plot(x="x", y="r", linewidth=0, marker="o", color="r", ax=ax[2]) self._check_legend_labels(ax[2], labels=["g", "b", "r"]) self._check_legend_marker(ax[2], expected_markers=["x", "o", "o"]) def test_legend_name(self): multi = DataFrame( np.random.randn(4, 4), columns=[np.array(["a", "a", "b", "b"]), np.array(["x", "y", "x", "y"])], ) multi.columns.names = ["group", "individual"] ax = multi.plot() leg_title = ax.legend_.get_title() self._check_text_labels(leg_title, "group,individual") df = DataFrame(np.random.randn(5, 5)) ax = df.plot(legend=True, ax=ax) leg_title = ax.legend_.get_title() self._check_text_labels(leg_title, "group,individual") df.columns.name = "new" ax = df.plot(legend=False, ax=ax) leg_title = ax.legend_.get_title() self._check_text_labels(leg_title, "group,individual") ax = df.plot(legend=True, ax=ax) leg_title = ax.legend_.get_title() self._check_text_labels(leg_title, "new") @pytest.mark.parametrize( "kind", [ "line", "bar", "barh", pytest.param("kde", marks=td.skip_if_no_scipy), "area", "hist", ], ) def test_no_legend(self, kind): df = DataFrame(np.random.rand(3, 3), columns=["a", "b", "c"]) ax = df.plot(kind=kind, legend=False) self._check_legend_labels(ax, visible=False) def test_missing_markers_legend(self): # 14958 df = DataFrame(np.random.randn(8, 3), columns=["A", "B", "C"]) ax = df.plot(y=["A"], marker="x", linestyle="solid") df.plot(y=["B"], marker="o", linestyle="dotted", ax=ax) df.plot(y=["C"], marker="<", linestyle="dotted", ax=ax) self._check_legend_labels(ax, labels=["A", "B", "C"]) self._check_legend_marker(ax, expected_markers=["x", "o", "<"]) def test_missing_markers_legend_using_style(self): # 14563 df = DataFrame( { "A": [1, 2, 3, 4, 5, 6], "B": [2, 4, 1, 3, 2, 4], "C": [3, 3, 2, 6, 4, 2], "X": [1, 2, 3, 4, 5, 6], } ) fig, ax = self.plt.subplots() for kind in "ABC": df.plot("X", kind, label=kind, ax=ax, style=".") self._check_legend_labels(ax, labels=["A", "B", "C"]) self._check_legend_marker(ax, expected_markers=[".", ".", "."])