def test_autoplot_3(): return ar.autoplot(data.head(250), columns=["x"])
def test_autoplot_4(): return ar.autoplot(data.head(1000), columns=["x"])
def test_autoplot_CC(): return ar.autoplot(no_overlap_data, columns=["x", "y"])
def test_autoplot_C(): return ar.autoplot(no_overlap_data.head(10), columns=["x"])
def test_autoplot_45(): return ar.autoplot(data.head(5000), columns=["x_cat", "y_cat", "z_cat"])
def test_autoplot_CCC(): return ar.autoplot(no_overlap_data)
def test_autoplot_33(): return ar.autoplot(data.head(250), columns=["x_cat", "y", "z"])
def test_autoplot_39(): return ar.autoplot(data.head(1000), columns=["x_cat", "y_cat", "z"])
def test_autoplot_28(): return ar.autoplot(data.head(250), columns=["x", "y", "z"])
def test_autoplot_30(): return ar.autoplot(data.head(5000), columns=["x", "y", "z"])
def test_autoplot_21(): return ar.autoplot(data.head(10), columns=["x_cat", "y_cat"])
def test_autoplot_17(): return ar.autoplot(data.head(50), columns=["x_cat", "y"])
def test_autoplot_11(): return ar.autoplot(data.head(10), columns=["x", "y"])
def test_autoplot_10(): return ar.autoplot(data.head(5000), columns=["x_cat"])
def test_autoplot_8(): return ar.autoplot(data.head(250), columns=["x_cat"])