941 lines
30 KiB
Python
941 lines
30 KiB
Python
from __future__ import annotations
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import itertools
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import pickle
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from typing import Any
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from unittest.mock import patch, Mock
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from datetime import datetime, date, timedelta
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import numpy as np
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from numpy.testing import (assert_array_equal, assert_approx_equal,
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assert_array_almost_equal)
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import pytest
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from matplotlib import _api, cbook
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import matplotlib.colors as mcolors
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from matplotlib.cbook import delete_masked_points, strip_math
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class Test_delete_masked_points:
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def test_bad_first_arg(self):
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with pytest.raises(ValueError):
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delete_masked_points('a string', np.arange(1.0, 7.0))
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def test_string_seq(self):
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a1 = ['a', 'b', 'c', 'd', 'e', 'f']
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a2 = [1, 2, 3, np.nan, np.nan, 6]
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result1, result2 = delete_masked_points(a1, a2)
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ind = [0, 1, 2, 5]
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assert_array_equal(result1, np.array(a1)[ind])
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assert_array_equal(result2, np.array(a2)[ind])
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def test_datetime(self):
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dates = [datetime(2008, 1, 1), datetime(2008, 1, 2),
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datetime(2008, 1, 3), datetime(2008, 1, 4),
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datetime(2008, 1, 5), datetime(2008, 1, 6)]
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a_masked = np.ma.array([1, 2, 3, np.nan, np.nan, 6],
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mask=[False, False, True, True, False, False])
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actual = delete_masked_points(dates, a_masked)
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ind = [0, 1, 5]
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assert_array_equal(actual[0], np.array(dates)[ind])
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assert_array_equal(actual[1], a_masked[ind].compressed())
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def test_rgba(self):
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a_masked = np.ma.array([1, 2, 3, np.nan, np.nan, 6],
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mask=[False, False, True, True, False, False])
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a_rgba = mcolors.to_rgba_array(['r', 'g', 'b', 'c', 'm', 'y'])
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actual = delete_masked_points(a_masked, a_rgba)
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ind = [0, 1, 5]
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assert_array_equal(actual[0], a_masked[ind].compressed())
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assert_array_equal(actual[1], a_rgba[ind])
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class Test_boxplot_stats:
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def setup_method(self):
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np.random.seed(937)
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self.nrows = 37
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self.ncols = 4
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self.data = np.random.lognormal(size=(self.nrows, self.ncols),
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mean=1.5, sigma=1.75)
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self.known_keys = sorted([
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'mean', 'med', 'q1', 'q3', 'iqr',
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'cilo', 'cihi', 'whislo', 'whishi',
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'fliers', 'label'
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])
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self.std_results = cbook.boxplot_stats(self.data)
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self.known_nonbootstrapped_res = {
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'cihi': 6.8161283264444847,
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'cilo': -0.1489815330368689,
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'iqr': 13.492709959447094,
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'mean': 13.00447442387868,
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'med': 3.3335733967038079,
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'fliers': np.array([
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92.55467075, 87.03819018, 42.23204914, 39.29390996
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]),
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'q1': 1.3597529879465153,
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'q3': 14.85246294739361,
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'whishi': 27.899688243699629,
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'whislo': 0.042143774965502923
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}
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self.known_bootstrapped_ci = {
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'cihi': 8.939577523357828,
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'cilo': 1.8692703958676578,
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}
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self.known_whis3_res = {
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'whishi': 42.232049135969874,
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'whislo': 0.042143774965502923,
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'fliers': np.array([92.55467075, 87.03819018]),
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}
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self.known_res_percentiles = {
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'whislo': 0.1933685896907924,
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'whishi': 42.232049135969874
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}
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self.known_res_range = {
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'whislo': 0.042143774965502923,
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'whishi': 92.554670752188699
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}
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def test_form_main_list(self):
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assert isinstance(self.std_results, list)
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def test_form_each_dict(self):
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for res in self.std_results:
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assert isinstance(res, dict)
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def test_form_dict_keys(self):
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for res in self.std_results:
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assert set(res) <= set(self.known_keys)
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def test_results_baseline(self):
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res = self.std_results[0]
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for key, value in self.known_nonbootstrapped_res.items():
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assert_array_almost_equal(res[key], value)
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def test_results_bootstrapped(self):
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results = cbook.boxplot_stats(self.data, bootstrap=10000)
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res = results[0]
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for key, value in self.known_bootstrapped_ci.items():
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assert_approx_equal(res[key], value)
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def test_results_whiskers_float(self):
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results = cbook.boxplot_stats(self.data, whis=3)
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res = results[0]
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for key, value in self.known_whis3_res.items():
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assert_array_almost_equal(res[key], value)
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def test_results_whiskers_range(self):
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results = cbook.boxplot_stats(self.data, whis=[0, 100])
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res = results[0]
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for key, value in self.known_res_range.items():
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assert_array_almost_equal(res[key], value)
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def test_results_whiskers_percentiles(self):
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results = cbook.boxplot_stats(self.data, whis=[5, 95])
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res = results[0]
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for key, value in self.known_res_percentiles.items():
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assert_array_almost_equal(res[key], value)
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def test_results_withlabels(self):
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labels = ['Test1', 2, 'Aardvark', 4]
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results = cbook.boxplot_stats(self.data, labels=labels)
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for lab, res in zip(labels, results):
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assert res['label'] == lab
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results = cbook.boxplot_stats(self.data)
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for res in results:
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assert 'label' not in res
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def test_label_error(self):
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labels = [1, 2]
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with pytest.raises(ValueError):
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cbook.boxplot_stats(self.data, labels=labels)
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def test_bad_dims(self):
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data = np.random.normal(size=(34, 34, 34))
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with pytest.raises(ValueError):
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cbook.boxplot_stats(data)
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def test_boxplot_stats_autorange_false(self):
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x = np.zeros(shape=140)
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x = np.hstack([-25, x, 25])
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bstats_false = cbook.boxplot_stats(x, autorange=False)
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bstats_true = cbook.boxplot_stats(x, autorange=True)
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assert bstats_false[0]['whislo'] == 0
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assert bstats_false[0]['whishi'] == 0
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assert_array_almost_equal(bstats_false[0]['fliers'], [-25, 25])
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assert bstats_true[0]['whislo'] == -25
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assert bstats_true[0]['whishi'] == 25
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assert_array_almost_equal(bstats_true[0]['fliers'], [])
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class Test_callback_registry:
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def setup_method(self):
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self.signal = 'test'
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self.callbacks = cbook.CallbackRegistry()
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def connect(self, s, func, pickle):
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if pickle:
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return self.callbacks.connect(s, func)
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else:
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return self.callbacks._connect_picklable(s, func)
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def disconnect(self, cid):
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return self.callbacks.disconnect(cid)
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def count(self):
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count1 = len(self.callbacks._func_cid_map.get(self.signal, []))
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count2 = len(self.callbacks.callbacks.get(self.signal))
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assert count1 == count2
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return count1
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def is_empty(self):
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np.testing.break_cycles()
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assert self.callbacks._func_cid_map == {}
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assert self.callbacks.callbacks == {}
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assert self.callbacks._pickled_cids == set()
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def is_not_empty(self):
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np.testing.break_cycles()
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assert self.callbacks._func_cid_map != {}
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assert self.callbacks.callbacks != {}
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def test_cid_restore(self):
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cb = cbook.CallbackRegistry()
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cb.connect('a', lambda: None)
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cb2 = pickle.loads(pickle.dumps(cb))
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cid = cb2.connect('c', lambda: None)
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assert cid == 1
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@pytest.mark.parametrize('pickle', [True, False])
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def test_callback_complete(self, pickle):
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# ensure we start with an empty registry
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self.is_empty()
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# create a class for testing
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mini_me = Test_callback_registry()
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# test that we can add a callback
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cid1 = self.connect(self.signal, mini_me.dummy, pickle)
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assert type(cid1) is int
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self.is_not_empty()
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# test that we don't add a second callback
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cid2 = self.connect(self.signal, mini_me.dummy, pickle)
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assert cid1 == cid2
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self.is_not_empty()
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assert len(self.callbacks._func_cid_map) == 1
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assert len(self.callbacks.callbacks) == 1
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del mini_me
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# check we now have no callbacks registered
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self.is_empty()
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@pytest.mark.parametrize('pickle', [True, False])
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def test_callback_disconnect(self, pickle):
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# ensure we start with an empty registry
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self.is_empty()
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# create a class for testing
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mini_me = Test_callback_registry()
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# test that we can add a callback
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cid1 = self.connect(self.signal, mini_me.dummy, pickle)
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assert type(cid1) is int
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self.is_not_empty()
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self.disconnect(cid1)
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# check we now have no callbacks registered
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self.is_empty()
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@pytest.mark.parametrize('pickle', [True, False])
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def test_callback_wrong_disconnect(self, pickle):
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# ensure we start with an empty registry
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self.is_empty()
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# create a class for testing
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mini_me = Test_callback_registry()
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# test that we can add a callback
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cid1 = self.connect(self.signal, mini_me.dummy, pickle)
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assert type(cid1) is int
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self.is_not_empty()
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self.disconnect("foo")
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# check we still have callbacks registered
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self.is_not_empty()
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@pytest.mark.parametrize('pickle', [True, False])
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def test_registration_on_non_empty_registry(self, pickle):
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# ensure we start with an empty registry
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self.is_empty()
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# setup the registry with a callback
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mini_me = Test_callback_registry()
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self.connect(self.signal, mini_me.dummy, pickle)
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# Add another callback
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mini_me2 = Test_callback_registry()
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self.connect(self.signal, mini_me2.dummy, pickle)
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# Remove and add the second callback
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mini_me2 = Test_callback_registry()
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self.connect(self.signal, mini_me2.dummy, pickle)
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# We still have 2 references
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self.is_not_empty()
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assert self.count() == 2
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# Removing the last 2 references
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mini_me = None
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mini_me2 = None
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self.is_empty()
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def dummy(self):
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pass
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def test_pickling(self):
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assert hasattr(pickle.loads(pickle.dumps(cbook.CallbackRegistry())),
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"callbacks")
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def test_callbackregistry_default_exception_handler(capsys, monkeypatch):
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cb = cbook.CallbackRegistry()
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cb.connect("foo", lambda: None)
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monkeypatch.setattr(
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cbook, "_get_running_interactive_framework", lambda: None)
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with pytest.raises(TypeError):
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cb.process("foo", "argument mismatch")
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outerr = capsys.readouterr()
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assert outerr.out == outerr.err == ""
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monkeypatch.setattr(
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cbook, "_get_running_interactive_framework", lambda: "not-none")
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cb.process("foo", "argument mismatch") # No error in that case.
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outerr = capsys.readouterr()
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assert outerr.out == ""
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assert "takes 0 positional arguments but 1 was given" in outerr.err
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def raising_cb_reg(func):
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class TestException(Exception):
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pass
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def raise_runtime_error():
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raise RuntimeError
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def raise_value_error():
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raise ValueError
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def transformer(excp):
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if isinstance(excp, RuntimeError):
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raise TestException
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raise excp
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# old default
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cb_old = cbook.CallbackRegistry(exception_handler=None)
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cb_old.connect('foo', raise_runtime_error)
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# filter
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cb_filt = cbook.CallbackRegistry(exception_handler=transformer)
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cb_filt.connect('foo', raise_runtime_error)
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# filter
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cb_filt_pass = cbook.CallbackRegistry(exception_handler=transformer)
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cb_filt_pass.connect('foo', raise_value_error)
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return pytest.mark.parametrize('cb, excp',
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[[cb_old, RuntimeError],
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[cb_filt, TestException],
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[cb_filt_pass, ValueError]])(func)
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@raising_cb_reg
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def test_callbackregistry_custom_exception_handler(monkeypatch, cb, excp):
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monkeypatch.setattr(
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cbook, "_get_running_interactive_framework", lambda: None)
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with pytest.raises(excp):
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cb.process('foo')
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def test_callbackregistry_signals():
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cr = cbook.CallbackRegistry(signals=["foo"])
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results = []
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def cb(x): results.append(x)
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cr.connect("foo", cb)
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with pytest.raises(ValueError):
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cr.connect("bar", cb)
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cr.process("foo", 1)
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with pytest.raises(ValueError):
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cr.process("bar", 1)
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assert results == [1]
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def test_callbackregistry_blocking():
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# Needs an exception handler for interactive testing environments
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# that would only print this out instead of raising the exception
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def raise_handler(excp):
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raise excp
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cb = cbook.CallbackRegistry(exception_handler=raise_handler)
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def test_func1():
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raise ValueError("1 should be blocked")
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def test_func2():
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raise ValueError("2 should be blocked")
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cb.connect("test1", test_func1)
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cb.connect("test2", test_func2)
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# block all of the callbacks to make sure they aren't processed
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with cb.blocked():
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cb.process("test1")
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cb.process("test2")
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# block individual callbacks to make sure the other is still processed
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with cb.blocked(signal="test1"):
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# Blocked
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cb.process("test1")
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# Should raise
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with pytest.raises(ValueError, match="2 should be blocked"):
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cb.process("test2")
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# Make sure the original callback functions are there after blocking
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with pytest.raises(ValueError, match="1 should be blocked"):
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cb.process("test1")
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with pytest.raises(ValueError, match="2 should be blocked"):
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cb.process("test2")
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@pytest.mark.parametrize('line, result', [
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('a : no_comment', 'a : no_comment'),
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('a : "quoted str"', 'a : "quoted str"'),
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('a : "quoted str" # comment', 'a : "quoted str"'),
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('a : "#000000"', 'a : "#000000"'),
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('a : "#000000" # comment', 'a : "#000000"'),
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('a : ["#000000", "#FFFFFF"]', 'a : ["#000000", "#FFFFFF"]'),
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('a : ["#000000", "#FFFFFF"] # comment', 'a : ["#000000", "#FFFFFF"]'),
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('a : val # a comment "with quotes"', 'a : val'),
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('# only comment "with quotes" xx', ''),
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])
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def test_strip_comment(line, result):
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"""Strip everything from the first unquoted #."""
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assert cbook._strip_comment(line) == result
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def test_strip_comment_invalid():
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with pytest.raises(ValueError, match="Missing closing quote"):
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cbook._strip_comment('grid.color: "aa')
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def test_sanitize_sequence():
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d = {'a': 1, 'b': 2, 'c': 3}
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k = ['a', 'b', 'c']
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v = [1, 2, 3]
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i = [('a', 1), ('b', 2), ('c', 3)]
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assert k == sorted(cbook.sanitize_sequence(d.keys()))
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assert v == sorted(cbook.sanitize_sequence(d.values()))
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assert i == sorted(cbook.sanitize_sequence(d.items()))
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assert i == cbook.sanitize_sequence(i)
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assert k == cbook.sanitize_sequence(k)
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fail_mapping: tuple[tuple[dict, dict], ...] = (
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({'a': 1, 'b': 2}, {'alias_mapping': {'a': ['b']}}),
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({'a': 1, 'b': 2}, {'alias_mapping': {'a': ['a', 'b']}}),
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)
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pass_mapping: tuple[tuple[Any, dict, dict], ...] = (
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(None, {}, {}),
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({'a': 1, 'b': 2}, {'a': 1, 'b': 2}, {}),
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({'b': 2}, {'a': 2}, {'alias_mapping': {'a': ['a', 'b']}}),
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)
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@pytest.mark.parametrize('inp, kwargs_to_norm', fail_mapping)
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def test_normalize_kwargs_fail(inp, kwargs_to_norm):
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with pytest.raises(TypeError), \
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_api.suppress_matplotlib_deprecation_warning():
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cbook.normalize_kwargs(inp, **kwargs_to_norm)
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@pytest.mark.parametrize('inp, expected, kwargs_to_norm',
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pass_mapping)
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def test_normalize_kwargs_pass(inp, expected, kwargs_to_norm):
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with _api.suppress_matplotlib_deprecation_warning():
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# No other warning should be emitted.
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assert expected == cbook.normalize_kwargs(inp, **kwargs_to_norm)
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def test_warn_external_frame_embedded_python():
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with patch.object(cbook, "sys") as mock_sys:
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mock_sys._getframe = Mock(return_value=None)
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with pytest.warns(UserWarning, match=r"\Adummy\Z"):
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_api.warn_external("dummy")
|
|
|
|
|
|
def test_to_prestep():
|
|
x = np.arange(4)
|
|
y1 = np.arange(4)
|
|
y2 = np.arange(4)[::-1]
|
|
|
|
xs, y1s, y2s = cbook.pts_to_prestep(x, y1, y2)
|
|
|
|
x_target = np.asarray([0, 0, 1, 1, 2, 2, 3], dtype=float)
|
|
y1_target = np.asarray([0, 1, 1, 2, 2, 3, 3], dtype=float)
|
|
y2_target = np.asarray([3, 2, 2, 1, 1, 0, 0], dtype=float)
|
|
|
|
assert_array_equal(x_target, xs)
|
|
assert_array_equal(y1_target, y1s)
|
|
assert_array_equal(y2_target, y2s)
|
|
|
|
xs, y1s = cbook.pts_to_prestep(x, y1)
|
|
assert_array_equal(x_target, xs)
|
|
assert_array_equal(y1_target, y1s)
|
|
|
|
|
|
def test_to_prestep_empty():
|
|
steps = cbook.pts_to_prestep([], [])
|
|
assert steps.shape == (2, 0)
|
|
|
|
|
|
def test_to_poststep():
|
|
x = np.arange(4)
|
|
y1 = np.arange(4)
|
|
y2 = np.arange(4)[::-1]
|
|
|
|
xs, y1s, y2s = cbook.pts_to_poststep(x, y1, y2)
|
|
|
|
x_target = np.asarray([0, 1, 1, 2, 2, 3, 3], dtype=float)
|
|
y1_target = np.asarray([0, 0, 1, 1, 2, 2, 3], dtype=float)
|
|
y2_target = np.asarray([3, 3, 2, 2, 1, 1, 0], dtype=float)
|
|
|
|
assert_array_equal(x_target, xs)
|
|
assert_array_equal(y1_target, y1s)
|
|
assert_array_equal(y2_target, y2s)
|
|
|
|
xs, y1s = cbook.pts_to_poststep(x, y1)
|
|
assert_array_equal(x_target, xs)
|
|
assert_array_equal(y1_target, y1s)
|
|
|
|
|
|
def test_to_poststep_empty():
|
|
steps = cbook.pts_to_poststep([], [])
|
|
assert steps.shape == (2, 0)
|
|
|
|
|
|
def test_to_midstep():
|
|
x = np.arange(4)
|
|
y1 = np.arange(4)
|
|
y2 = np.arange(4)[::-1]
|
|
|
|
xs, y1s, y2s = cbook.pts_to_midstep(x, y1, y2)
|
|
|
|
x_target = np.asarray([0, .5, .5, 1.5, 1.5, 2.5, 2.5, 3], dtype=float)
|
|
y1_target = np.asarray([0, 0, 1, 1, 2, 2, 3, 3], dtype=float)
|
|
y2_target = np.asarray([3, 3, 2, 2, 1, 1, 0, 0], dtype=float)
|
|
|
|
assert_array_equal(x_target, xs)
|
|
assert_array_equal(y1_target, y1s)
|
|
assert_array_equal(y2_target, y2s)
|
|
|
|
xs, y1s = cbook.pts_to_midstep(x, y1)
|
|
assert_array_equal(x_target, xs)
|
|
assert_array_equal(y1_target, y1s)
|
|
|
|
|
|
def test_to_midstep_empty():
|
|
steps = cbook.pts_to_midstep([], [])
|
|
assert steps.shape == (2, 0)
|
|
|
|
|
|
@pytest.mark.parametrize(
|
|
"args",
|
|
[(np.arange(12).reshape(3, 4), 'a'),
|
|
(np.arange(12), 'a'),
|
|
(np.arange(12), np.arange(3))])
|
|
def test_step_fails(args):
|
|
with pytest.raises(ValueError):
|
|
cbook.pts_to_prestep(*args)
|
|
|
|
|
|
def test_grouper():
|
|
class Dummy:
|
|
pass
|
|
a, b, c, d, e = objs = [Dummy() for _ in range(5)]
|
|
g = cbook.Grouper()
|
|
g.join(*objs)
|
|
assert set(list(g)[0]) == set(objs)
|
|
assert set(g.get_siblings(a)) == set(objs)
|
|
|
|
for other in objs[1:]:
|
|
assert g.joined(a, other)
|
|
|
|
g.remove(a)
|
|
for other in objs[1:]:
|
|
assert not g.joined(a, other)
|
|
|
|
for A, B in itertools.product(objs[1:], objs[1:]):
|
|
assert g.joined(A, B)
|
|
|
|
|
|
def test_grouper_private():
|
|
class Dummy:
|
|
pass
|
|
objs = [Dummy() for _ in range(5)]
|
|
g = cbook.Grouper()
|
|
g.join(*objs)
|
|
# reach in and touch the internals !
|
|
mapping = g._mapping
|
|
|
|
for o in objs:
|
|
assert o in mapping
|
|
|
|
base_set = mapping[objs[0]]
|
|
for o in objs[1:]:
|
|
assert mapping[o] is base_set
|
|
|
|
|
|
def test_flatiter():
|
|
x = np.arange(5)
|
|
it = x.flat
|
|
assert 0 == next(it)
|
|
assert 1 == next(it)
|
|
ret = cbook._safe_first_finite(it)
|
|
assert ret == 0
|
|
|
|
assert 0 == next(it)
|
|
assert 1 == next(it)
|
|
|
|
|
|
def test__safe_first_finite_all_nan():
|
|
arr = np.full(2, np.nan)
|
|
ret = cbook._safe_first_finite(arr)
|
|
assert np.isnan(ret)
|
|
|
|
|
|
def test__safe_first_finite_all_inf():
|
|
arr = np.full(2, np.inf)
|
|
ret = cbook._safe_first_finite(arr)
|
|
assert np.isinf(ret)
|
|
|
|
|
|
def test_reshape2d():
|
|
|
|
class Dummy:
|
|
pass
|
|
|
|
xnew = cbook._reshape_2D([], 'x')
|
|
assert np.shape(xnew) == (1, 0)
|
|
|
|
x = [Dummy() for _ in range(5)]
|
|
|
|
xnew = cbook._reshape_2D(x, 'x')
|
|
assert np.shape(xnew) == (1, 5)
|
|
|
|
x = np.arange(5)
|
|
xnew = cbook._reshape_2D(x, 'x')
|
|
assert np.shape(xnew) == (1, 5)
|
|
|
|
x = [[Dummy() for _ in range(5)] for _ in range(3)]
|
|
xnew = cbook._reshape_2D(x, 'x')
|
|
assert np.shape(xnew) == (3, 5)
|
|
|
|
# this is strange behaviour, but...
|
|
x = np.random.rand(3, 5)
|
|
xnew = cbook._reshape_2D(x, 'x')
|
|
assert np.shape(xnew) == (5, 3)
|
|
|
|
# Test a list of lists which are all of length 1
|
|
x = [[1], [2], [3]]
|
|
xnew = cbook._reshape_2D(x, 'x')
|
|
assert isinstance(xnew, list)
|
|
assert isinstance(xnew[0], np.ndarray) and xnew[0].shape == (1,)
|
|
assert isinstance(xnew[1], np.ndarray) and xnew[1].shape == (1,)
|
|
assert isinstance(xnew[2], np.ndarray) and xnew[2].shape == (1,)
|
|
|
|
# Test a list of zero-dimensional arrays
|
|
x = [np.array(0), np.array(1), np.array(2)]
|
|
xnew = cbook._reshape_2D(x, 'x')
|
|
assert isinstance(xnew, list)
|
|
assert len(xnew) == 1
|
|
assert isinstance(xnew[0], np.ndarray) and xnew[0].shape == (3,)
|
|
|
|
# Now test with a list of lists with different lengths, which means the
|
|
# array will internally be converted to a 1D object array of lists
|
|
x = [[1, 2, 3], [3, 4], [2]]
|
|
xnew = cbook._reshape_2D(x, 'x')
|
|
assert isinstance(xnew, list)
|
|
assert isinstance(xnew[0], np.ndarray) and xnew[0].shape == (3,)
|
|
assert isinstance(xnew[1], np.ndarray) and xnew[1].shape == (2,)
|
|
assert isinstance(xnew[2], np.ndarray) and xnew[2].shape == (1,)
|
|
|
|
# We now need to make sure that this works correctly for Numpy subclasses
|
|
# where iterating over items can return subclasses too, which may be
|
|
# iterable even if they are scalars. To emulate this, we make a Numpy
|
|
# array subclass that returns Numpy 'scalars' when iterating or accessing
|
|
# values, and these are technically iterable if checking for example
|
|
# isinstance(x, collections.abc.Iterable).
|
|
|
|
class ArraySubclass(np.ndarray):
|
|
|
|
def __iter__(self):
|
|
for value in super().__iter__():
|
|
yield np.array(value)
|
|
|
|
def __getitem__(self, item):
|
|
return np.array(super().__getitem__(item))
|
|
|
|
v = np.arange(10, dtype=float)
|
|
x = ArraySubclass((10,), dtype=float, buffer=v.data)
|
|
|
|
xnew = cbook._reshape_2D(x, 'x')
|
|
|
|
# We check here that the array wasn't split up into many individual
|
|
# ArraySubclass, which is what used to happen due to a bug in _reshape_2D
|
|
assert len(xnew) == 1
|
|
assert isinstance(xnew[0], ArraySubclass)
|
|
|
|
# check list of strings:
|
|
x = ['a', 'b', 'c', 'c', 'dd', 'e', 'f', 'ff', 'f']
|
|
xnew = cbook._reshape_2D(x, 'x')
|
|
assert len(xnew[0]) == len(x)
|
|
assert isinstance(xnew[0], np.ndarray)
|
|
|
|
|
|
def test_reshape2d_pandas(pd):
|
|
# separate to allow the rest of the tests to run if no pandas...
|
|
X = np.arange(30).reshape(10, 3)
|
|
x = pd.DataFrame(X, columns=["a", "b", "c"])
|
|
Xnew = cbook._reshape_2D(x, 'x')
|
|
# Need to check each row because _reshape_2D returns a list of arrays:
|
|
for x, xnew in zip(X.T, Xnew):
|
|
np.testing.assert_array_equal(x, xnew)
|
|
|
|
|
|
def test_reshape2d_xarray(xr):
|
|
# separate to allow the rest of the tests to run if no xarray...
|
|
X = np.arange(30).reshape(10, 3)
|
|
x = xr.DataArray(X, dims=["x", "y"])
|
|
Xnew = cbook._reshape_2D(x, 'x')
|
|
# Need to check each row because _reshape_2D returns a list of arrays:
|
|
for x, xnew in zip(X.T, Xnew):
|
|
np.testing.assert_array_equal(x, xnew)
|
|
|
|
|
|
def test_index_of_pandas(pd):
|
|
# separate to allow the rest of the tests to run if no pandas...
|
|
X = np.arange(30).reshape(10, 3)
|
|
x = pd.DataFrame(X, columns=["a", "b", "c"])
|
|
Idx, Xnew = cbook.index_of(x)
|
|
np.testing.assert_array_equal(X, Xnew)
|
|
IdxRef = np.arange(10)
|
|
np.testing.assert_array_equal(Idx, IdxRef)
|
|
|
|
|
|
def test_index_of_xarray(xr):
|
|
# separate to allow the rest of the tests to run if no xarray...
|
|
X = np.arange(30).reshape(10, 3)
|
|
x = xr.DataArray(X, dims=["x", "y"])
|
|
Idx, Xnew = cbook.index_of(x)
|
|
np.testing.assert_array_equal(X, Xnew)
|
|
IdxRef = np.arange(10)
|
|
np.testing.assert_array_equal(Idx, IdxRef)
|
|
|
|
|
|
def test_contiguous_regions():
|
|
a, b, c = 3, 4, 5
|
|
# Starts and ends with True
|
|
mask = [True]*a + [False]*b + [True]*c
|
|
expected = [(0, a), (a+b, a+b+c)]
|
|
assert cbook.contiguous_regions(mask) == expected
|
|
d, e = 6, 7
|
|
# Starts with True ends with False
|
|
mask = mask + [False]*e
|
|
assert cbook.contiguous_regions(mask) == expected
|
|
# Starts with False ends with True
|
|
mask = [False]*d + mask[:-e]
|
|
expected = [(d, d+a), (d+a+b, d+a+b+c)]
|
|
assert cbook.contiguous_regions(mask) == expected
|
|
# Starts and ends with False
|
|
mask = mask + [False]*e
|
|
assert cbook.contiguous_regions(mask) == expected
|
|
# No True in mask
|
|
assert cbook.contiguous_regions([False]*5) == []
|
|
# Empty mask
|
|
assert cbook.contiguous_regions([]) == []
|
|
|
|
|
|
def test_safe_first_element_pandas_series(pd):
|
|
# deliberately create a pandas series with index not starting from 0
|
|
s = pd.Series(range(5), index=range(10, 15))
|
|
actual = cbook._safe_first_finite(s)
|
|
assert actual == 0
|
|
|
|
|
|
def test_warn_external(recwarn):
|
|
_api.warn_external("oops")
|
|
assert len(recwarn) == 1
|
|
assert recwarn[0].filename == __file__
|
|
|
|
|
|
def test_array_patch_perimeters():
|
|
# This compares the old implementation as a reference for the
|
|
# vectorized one.
|
|
def check(x, rstride, cstride):
|
|
rows, cols = x.shape
|
|
row_inds = [*range(0, rows-1, rstride), rows-1]
|
|
col_inds = [*range(0, cols-1, cstride), cols-1]
|
|
polys = []
|
|
for rs, rs_next in zip(row_inds[:-1], row_inds[1:]):
|
|
for cs, cs_next in zip(col_inds[:-1], col_inds[1:]):
|
|
# +1 ensures we share edges between polygons
|
|
ps = cbook._array_perimeter(x[rs:rs_next+1, cs:cs_next+1]).T
|
|
polys.append(ps)
|
|
polys = np.asarray(polys)
|
|
assert np.array_equal(polys,
|
|
cbook._array_patch_perimeters(
|
|
x, rstride=rstride, cstride=cstride))
|
|
|
|
def divisors(n):
|
|
return [i for i in range(1, n + 1) if n % i == 0]
|
|
|
|
for rows, cols in [(5, 5), (7, 14), (13, 9)]:
|
|
x = np.arange(rows * cols).reshape(rows, cols)
|
|
for rstride, cstride in itertools.product(divisors(rows - 1),
|
|
divisors(cols - 1)):
|
|
check(x, rstride=rstride, cstride=cstride)
|
|
|
|
|
|
def test_setattr_cm():
|
|
class A:
|
|
cls_level = object()
|
|
override = object()
|
|
|
|
def __init__(self):
|
|
self.aardvark = 'aardvark'
|
|
self.override = 'override'
|
|
self._p = 'p'
|
|
|
|
def meth(self):
|
|
...
|
|
|
|
@classmethod
|
|
def classy(cls):
|
|
...
|
|
|
|
@staticmethod
|
|
def static():
|
|
...
|
|
|
|
@property
|
|
def prop(self):
|
|
return self._p
|
|
|
|
@prop.setter
|
|
def prop(self, val):
|
|
self._p = val
|
|
|
|
class B(A):
|
|
...
|
|
|
|
other = A()
|
|
|
|
def verify_pre_post_state(obj):
|
|
# When you access a Python method the function is bound
|
|
# to the object at access time so you get a new instance
|
|
# of MethodType every time.
|
|
#
|
|
# https://docs.python.org/3/howto/descriptor.html#functions-and-methods
|
|
assert obj.meth is not obj.meth
|
|
# normal attribute should give you back the same instance every time
|
|
assert obj.aardvark is obj.aardvark
|
|
assert a.aardvark == 'aardvark'
|
|
# and our property happens to give the same instance every time
|
|
assert obj.prop is obj.prop
|
|
assert obj.cls_level is A.cls_level
|
|
assert obj.override == 'override'
|
|
assert not hasattr(obj, 'extra')
|
|
assert obj.prop == 'p'
|
|
assert obj.monkey == other.meth
|
|
assert obj.cls_level is A.cls_level
|
|
assert 'cls_level' not in obj.__dict__
|
|
assert 'classy' not in obj.__dict__
|
|
assert 'static' not in obj.__dict__
|
|
|
|
a = B()
|
|
|
|
a.monkey = other.meth
|
|
verify_pre_post_state(a)
|
|
with cbook._setattr_cm(
|
|
a, prop='squirrel',
|
|
aardvark='moose', meth=lambda: None,
|
|
override='boo', extra='extra',
|
|
monkey=lambda: None, cls_level='bob',
|
|
classy='classy', static='static'):
|
|
# because we have set a lambda, it is normal attribute access
|
|
# and the same every time
|
|
assert a.meth is a.meth
|
|
assert a.aardvark is a.aardvark
|
|
assert a.aardvark == 'moose'
|
|
assert a.override == 'boo'
|
|
assert a.extra == 'extra'
|
|
assert a.prop == 'squirrel'
|
|
assert a.monkey != other.meth
|
|
assert a.cls_level == 'bob'
|
|
assert a.classy == 'classy'
|
|
assert a.static == 'static'
|
|
|
|
verify_pre_post_state(a)
|
|
|
|
|
|
def test_format_approx():
|
|
f = cbook._format_approx
|
|
assert f(0, 1) == '0'
|
|
assert f(0, 2) == '0'
|
|
assert f(0, 3) == '0'
|
|
assert f(-0.0123, 1) == '-0'
|
|
assert f(1e-7, 5) == '0'
|
|
assert f(0.0012345600001, 5) == '0.00123'
|
|
assert f(-0.0012345600001, 5) == '-0.00123'
|
|
assert f(0.0012345600001, 8) == f(0.0012345600001, 10) == '0.00123456'
|
|
|
|
|
|
def test_safe_first_element_with_none():
|
|
datetime_lst = [date.today() + timedelta(days=i) for i in range(10)]
|
|
datetime_lst[0] = None
|
|
actual = cbook._safe_first_finite(datetime_lst)
|
|
assert actual is not None and actual == datetime_lst[1]
|
|
|
|
|
|
def test_strip_math():
|
|
assert strip_math(r'1 \times 2') == r'1 \times 2'
|
|
assert strip_math(r'$1 \times 2$') == '1 x 2'
|
|
assert strip_math(r'$\rm{hi}$') == 'hi'
|
|
|
|
|
|
@pytest.mark.parametrize('fmt, value, result', [
|
|
('%.2f m', 0.2, '0.20 m'),
|
|
('{:.2f} m', 0.2, '0.20 m'),
|
|
('{} m', 0.2, '0.2 m'),
|
|
('const', 0.2, 'const'),
|
|
('%d or {}', 0.2, '0 or {}'),
|
|
('{{{:,.0f}}}', 2e5, '{200,000}'),
|
|
('{:.2%}', 2/3, '66.67%'),
|
|
('$%g', 2.54, '$2.54'),
|
|
])
|
|
def test_auto_format_str(fmt, value, result):
|
|
"""Apply *value* to the format string *fmt*."""
|
|
assert cbook._auto_format_str(fmt, value) == result
|
|
assert cbook._auto_format_str(fmt, np.float64(value)) == result
|