#!/usr/bin/env python3 # -*- coding: utf-8 -*- # Copyright 2015-2022 Mike Fährmann # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License version 2 as # published by the Free Software Foundation. import os import sys import unittest import io import random import string import datetime import http.cookiejar sys.path.insert(0, os.path.dirname(os.path.dirname(os.path.abspath(__file__)))) from gallery_dl import util, text, exception # noqa E402 class TestRange(unittest.TestCase): def test_parse_range(self, f=util.RangePredicate.parse_range): self.assertEqual( f(""), []) self.assertEqual( f("1-2"), [(1, 2)]) self.assertEqual( f("-"), [(1, sys.maxsize)]) self.assertEqual( f("-2,4,6-8,10-"), [(1, 2), (4, 4), (6, 8), (10, sys.maxsize)]) self.assertEqual( f(" - 3 , 4- 4, 2-6"), [(1, 3), (4, 4), (2, 6)]) def test_optimize_range(self, f=util.RangePredicate.optimize_range): self.assertEqual( f([]), []) self.assertEqual( f([(2, 4)]), [(2, 4)]) self.assertEqual( f([(2, 4), (6, 8), (10, 12)]), [(2, 4), (6, 8), (10, 12)]) self.assertEqual( f([(2, 4), (4, 6), (5, 8)]), [(2, 8)]) self.assertEqual( f([(1, 1), (2, 2), (3, 6), (8, 9)]), [(1, 6), (8, 9)]) class TestPredicate(unittest.TestCase): def test_range_predicate(self): dummy = None pred = util.RangePredicate(" - 3 , 4- 4, 2-6") for i in range(6): self.assertTrue(pred(dummy, dummy)) with self.assertRaises(exception.StopExtraction): bool(pred(dummy, dummy)) pred = util.RangePredicate("1, 3, 5") self.assertTrue(pred(dummy, dummy)) self.assertFalse(pred(dummy, dummy)) self.assertTrue(pred(dummy, dummy)) self.assertFalse(pred(dummy, dummy)) self.assertTrue(pred(dummy, dummy)) with self.assertRaises(exception.StopExtraction): bool(pred(dummy, dummy)) pred = util.RangePredicate("") with self.assertRaises(exception.StopExtraction): bool(pred(dummy, dummy)) def test_unique_predicate(self): dummy = None pred = util.UniquePredicate() # no duplicates self.assertTrue(pred("1", dummy)) self.assertTrue(pred("2", dummy)) self.assertFalse(pred("1", dummy)) self.assertFalse(pred("2", dummy)) self.assertTrue(pred("3", dummy)) self.assertFalse(pred("3", dummy)) # duplicates for "text:" self.assertTrue(pred("text:123", dummy)) self.assertTrue(pred("text:123", dummy)) self.assertTrue(pred("text:123", dummy)) def test_filter_predicate(self): url = "" pred = util.FilterPredicate("a < 3") self.assertTrue(pred(url, {"a": 2})) self.assertFalse(pred(url, {"a": 3})) with self.assertRaises(SyntaxError): util.FilterPredicate("(") with self.assertRaises(exception.FilterError): util.FilterPredicate("a > 1")(url, {"a": None}) with self.assertRaises(exception.FilterError): util.FilterPredicate("b > 1")(url, {"a": 2}) def test_build_predicate(self): pred = util.build_predicate([]) self.assertIsInstance(pred, type(lambda: True)) pred = util.build_predicate([util.UniquePredicate()]) self.assertIsInstance(pred, util.UniquePredicate) pred = util.build_predicate([util.UniquePredicate(), util.UniquePredicate()]) self.assertIs(pred.func, util.chain_predicates) class TestISO639_1(unittest.TestCase): def test_code_to_language(self): d = "default" self._run_test(util.code_to_language, { ("en",): "English", ("FR",): "French", ("ja",): "Japanese", ("xx",): None, ("" ,): None, (None,): None, ("en", d): "English", ("FR", d): "French", ("xx", d): d, ("" , d): d, (None, d): d, }) def test_language_to_code(self): d = "default" self._run_test(util.language_to_code, { ("English",): "en", ("fRENch",): "fr", ("Japanese",): "ja", ("xx",): None, ("" ,): None, (None,): None, ("English", d): "en", ("fRENch", d): "fr", ("xx", d): d, ("" , d): d, (None, d): d, }) def _run_test(self, func, tests): for args, result in tests.items(): self.assertEqual(func(*args), result) class TestCookiesTxt(unittest.TestCase): def test_load_cookiestxt(self): def _assert(content, expected): cookies = util.load_cookiestxt(io.StringIO(content, None)) for c, e in zip(cookies, expected): self.assertEqual(c.__dict__, e.__dict__) _assert("", []) _assert("\n\n\n", []) _assert("$ Comment", []) _assert("# Comment", []) _assert(" # Comment \n\n $ Comment ", []) _assert( ".example.org\tTRUE\t/\tTRUE\t0\tname\tvalue", [self._cookie("name", "value", ".example.org")], ) _assert( ".example.org\tTRUE\t/\tTRUE\t\tname\t", [self._cookie("name", "", ".example.org")], ) _assert( "\tTRUE\t/\tTRUE\t\tname\t", [self._cookie("name", "", "")], ) _assert( "# Netscape HTTP Cookie File\n" "\n" "# default\n" ".example.org TRUE / FALSE 0 n1 v1\n" ".example.org TRUE / TRUE 2145945600 n2 v2\n" ".example.org TRUE /path FALSE 0 n3\n" "\n" " # # extra # # \n" "www.example.org FALSE / FALSE n4 \n" "www.example.org FALSE /path FALSE 100 n5 v5\n", [ self._cookie( "n1", "v1", ".example.org", True, "/", False), self._cookie( "n2", "v2", ".example.org", True, "/", True, 2145945600), self._cookie( "n3", None, ".example.org", True, "/path", False), self._cookie( "n4", "" , "www.example.org", False, "/", False), self._cookie( "n5", "v5", "www.example.org", False, "/path", False, 100), ], ) with self.assertRaises(ValueError): util.load_cookiestxt("example.org\tTRUE\t/\tTRUE\t0\tname") def test_save_cookiestxt(self): def _assert(cookies, expected): fp = io.StringIO(newline=None) util.save_cookiestxt(fp, cookies) self.assertMultiLineEqual(fp.getvalue(), expected) _assert([], "# Netscape HTTP Cookie File\n\n") _assert( [self._cookie("name", "value", ".example.org")], "# Netscape HTTP Cookie File\n\n" ".example.org\tTRUE\t/\tTRUE\t0\tname\tvalue\n", ) _assert( [ self._cookie( "n1", "v1", ".example.org", True, "/", False), self._cookie( "n2", "v2", ".example.org", True, "/", True, 2145945600), self._cookie( "n3", None, ".example.org", True, "/path", False), self._cookie( "n4", "" , "www.example.org", False, "/", False), self._cookie( "n5", "v5", "www.example.org", False, "/path", False, 100), self._cookie( "n6", "v6", "", False), ], "# Netscape HTTP Cookie File\n" "\n" ".example.org TRUE / FALSE 0 n1 v1\n" ".example.org TRUE / TRUE 2145945600 n2 v2\n" ".example.org TRUE /path FALSE 0 n3\n" "www.example.org FALSE / FALSE 0 n4 \n" "www.example.org FALSE /path FALSE 100 n5 v5\n", ) def _cookie(self, name, value, domain, domain_specified=True, path="/", secure=True, expires=None): return http.cookiejar.Cookie( 0, name, value, None, False, domain, domain_specified, domain.startswith("."), path, False, secure, expires, False, None, None, {}, ) class TestOther(unittest.TestCase): def test_bencode(self): self.assertEqual(util.bencode(0), "") self.assertEqual(util.bencode(123), "123") self.assertEqual(util.bencode(123, "01"), "1111011") self.assertEqual(util.bencode(123, "BA"), "AAAABAA") def test_bdecode(self): self.assertEqual(util.bdecode(""), 0) self.assertEqual(util.bdecode("123"), 123) self.assertEqual(util.bdecode("1111011", "01"), 123) self.assertEqual(util.bdecode("AAAABAA", "BA"), 123) def test_bencode_bdecode(self): for _ in range(100): value = random.randint(0, 1000000) for alphabet in ("01", "0123456789", string.ascii_letters): result = util.bdecode(util.bencode(value, alphabet), alphabet) self.assertEqual(result, value) def test_advance(self): items = range(5) self.assertCountEqual( util.advance(items, 0), items) self.assertCountEqual( util.advance(items, 3), range(3, 5)) self.assertCountEqual( util.advance(items, 9), []) self.assertCountEqual( util.advance(util.advance(items, 1), 2), range(3, 5)) def test_unique(self): self.assertSequenceEqual( list(util.unique("")), "") self.assertSequenceEqual( list(util.unique("AABBCC")), "ABC") self.assertSequenceEqual( list(util.unique("ABABABCAABBCC")), "ABC") self.assertSequenceEqual( list(util.unique([1, 2, 1, 3, 2, 1])), [1, 2, 3]) def test_unique_sequence(self): self.assertSequenceEqual( list(util.unique_sequence("")), "") self.assertSequenceEqual( list(util.unique_sequence("AABBCC")), "ABC") self.assertSequenceEqual( list(util.unique_sequence("ABABABCAABBCC")), "ABABABCABC") self.assertSequenceEqual( list(util.unique_sequence([1, 2, 1, 3, 2, 1])), [1, 2, 1, 3, 2, 1]) def test_contains(self): c = [1, "2", 3, 4, "5", "foo"] self.assertTrue(util.contains(c, 1)) self.assertTrue(util.contains(c, "foo")) self.assertTrue(util.contains(c, [1, 3, "5"])) self.assertTrue(util.contains(c, ["a", "b", "5"])) self.assertFalse(util.contains(c, "bar")) self.assertFalse(util.contains(c, [2, 5, "bar"])) s = "1 2 3 asd qwe y(+)c f(+)(-) bar" self.assertTrue(util.contains(s, "y(+)c")) self.assertTrue(util.contains(s, ["asd", "qwe", "yxc"])) self.assertTrue(util.contains(s, ["sdf", "dfg", "qwe"])) self.assertFalse(util.contains(s, "tag1")) self.assertFalse(util.contains(s, ["tag1", "tag2", "tag3"])) s = "1, 2, 3, asd, qwe, y(+)c, f(+)(-), bar" self.assertTrue(util.contains(s, "y(+)c", ", ")) self.assertTrue(util.contains(s, ["sdf", "dfg", "qwe"], ", ")) self.assertFalse(util.contains(s, "tag1", ", ")) def test_raises(self): func = util.raises(Exception) with self.assertRaises(Exception): func() func = util.raises(ValueError) with self.assertRaises(ValueError): func(1) with self.assertRaises(ValueError): func(2) with self.assertRaises(ValueError): func(3) def test_identity(self): for value in (123, "foo", [1, 2, 3], (1, 2, 3), {1: 2}, None): self.assertIs(util.identity(value), value) def test_noop(self): self.assertEqual(util.noop(), None) def test_compile_expression(self): expr = util.compile_expression("1 + 2 * 3") self.assertEqual(expr(), 7) self.assertEqual(expr({"a": 1, "b": 2, "c": 3}), 7) self.assertEqual(expr({"a": 9, "b": 9, "c": 9}), 7) expr = util.compile_expression("a + b * c") self.assertEqual(expr({"a": 1, "b": 2, "c": 3}), 7) self.assertEqual(expr({"a": 9, "b": 9, "c": 9}), 90) with self.assertRaises(NameError): expr() with self.assertRaises(NameError): expr({"a": 2}) with self.assertRaises(SyntaxError): util.compile_expression("") with self.assertRaises(SyntaxError): util.compile_expression("x++") expr = util.compile_expression("1 and abort()") with self.assertRaises(exception.StopExtraction): expr() def test_build_duration_func(self, f=util.build_duration_func): def test_single(df, v): for _ in range(10): self.assertEqual(df(), v) def test_range(df, lower, upper): for __ in range(10): v = df() self.assertGreaterEqual(v, lower) self.assertLessEqual(v, upper) for v in (0, 0.0, "", None, (), []): self.assertIsNone(f(v)) for v in (0, 0.0, "", None, (), []): test_single(f(v, 1.0), 1.0) test_single(f(3), 3) test_single(f(3.0), 3.0) test_single(f("3"), 3) test_single(f("3.0-"), 3) test_single(f(" 3 -"), 3) test_range(f((2, 4)), 2, 4) test_range(f([2, 4]), 2, 4) test_range(f("2-4"), 2, 4) test_range(f(" 2.0 - 4 "), 2, 4) def test_extractor_filter(self): # empty func = util.build_extractor_filter("") self.assertEqual(func(TestExtractor) , True) self.assertEqual(func(TestExtractorParent), True) self.assertEqual(func(TestExtractorAlt) , True) # category func = util.build_extractor_filter("test_category") self.assertEqual(func(TestExtractor) , False) self.assertEqual(func(TestExtractorParent), False) self.assertEqual(func(TestExtractorAlt) , True) # subcategory func = util.build_extractor_filter("*:test_subcategory") self.assertEqual(func(TestExtractor) , False) self.assertEqual(func(TestExtractorParent), True) self.assertEqual(func(TestExtractorAlt) , False) # basecategory func = util.build_extractor_filter("test_basecategory") self.assertEqual(func(TestExtractor) , False) self.assertEqual(func(TestExtractorParent), False) self.assertEqual(func(TestExtractorAlt) , False) # category-subcategory pair func = util.build_extractor_filter("test_category:test_subcategory") self.assertEqual(func(TestExtractor) , False) self.assertEqual(func(TestExtractorParent), True) self.assertEqual(func(TestExtractorAlt) , True) # combination func = util.build_extractor_filter( ["test_category", "*:test_subcategory"]) self.assertEqual(func(TestExtractor) , False) self.assertEqual(func(TestExtractorParent), False) self.assertEqual(func(TestExtractorAlt) , False) # whitelist func = util.build_extractor_filter( "test_category:test_subcategory", negate=False) self.assertEqual(func(TestExtractor) , True) self.assertEqual(func(TestExtractorParent), False) self.assertEqual(func(TestExtractorAlt) , False) func = util.build_extractor_filter( ["test_category:test_subcategory", "*:test_subcategory_parent"], negate=False) self.assertEqual(func(TestExtractor) , True) self.assertEqual(func(TestExtractorParent), True) self.assertEqual(func(TestExtractorAlt) , False) def test_generate_token(self): tokens = set() for _ in range(100): token = util.generate_token() tokens.add(token) self.assertEqual(len(token), 16 * 2) self.assertRegex(token, r"^[0-9a-f]+$") self.assertGreaterEqual(len(tokens), 99) token = util.generate_token(80) self.assertEqual(len(token), 80 * 2) self.assertRegex(token, r"^[0-9a-f]+$") def test_format_value(self): self.assertEqual(util.format_value(0) , "0") self.assertEqual(util.format_value(1) , "1") self.assertEqual(util.format_value(12) , "12") self.assertEqual(util.format_value(123) , "123") self.assertEqual(util.format_value(1234) , "1.23k") self.assertEqual(util.format_value(12345) , "12.34k") self.assertEqual(util.format_value(123456) , "123.45k") self.assertEqual(util.format_value(1234567) , "1.23M") self.assertEqual(util.format_value(12345678) , "12.34M") self.assertEqual(util.format_value(123456789) , "123.45M") self.assertEqual(util.format_value(1234567890), "1.23G") def test_combine_dict(self): self.assertEqual( util.combine_dict({}, {}), {}) self.assertEqual( util.combine_dict({1: 1, 2: 2}, {2: 4, 4: 8}), {1: 1, 2: 4, 4: 8}) self.assertEqual( util.combine_dict( {1: {11: 22, 12: 24}, 2: {13: 26, 14: 28}}, {1: {11: 33, 13: 39}, 2: "str"}), {1: {11: 33, 12: 24, 13: 39}, 2: "str"}) self.assertEqual( util.combine_dict( {1: {2: {3: {4: {"1": "a", "2": "b"}}}}}, {1: {2: {3: {4: {"1": "A", "3": "C"}}}}}), {1: {2: {3: {4: {"1": "A", "2": "b", "3": "C"}}}}}) def test_transform_dict(self): d = {} util.transform_dict(d, str) self.assertEqual(d, {}) d = {1: 123, 2: "123", 3: True, 4: None} util.transform_dict(d, str) self.assertEqual( d, {1: "123", 2: "123", 3: "True", 4: "None"}) d = {1: 123, 2: "123", 3: "foo", 4: {11: 321, 12: "321", 13: "bar"}} util.transform_dict(d, text.parse_int) self.assertEqual( d, {1: 123, 2: 123, 3: 0, 4: {11: 321, 12: 321, 13: 0}}) def test_filter_dict(self): d = {} r = util.filter_dict(d) self.assertEqual(r, d) self.assertIsNot(r, d) d = {"foo": 123, "bar": [], "baz": None} r = util.filter_dict(d) self.assertEqual(r, d) self.assertIsNot(r, d) d = {"foo": 123, "_bar": [], "__baz__": None} r = util.filter_dict(d) self.assertEqual(r, {"foo": 123}) def test_number_to_string(self, f=util.number_to_string): self.assertEqual(f(1) , "1") self.assertEqual(f(1.0) , "1.0") self.assertEqual(f("1.0") , "1.0") self.assertEqual(f([1]) , [1]) self.assertEqual(f({1: 2}), {1: 2}) self.assertEqual(f(True) , True) self.assertEqual(f(None) , None) def test_to_string(self, f=util.to_string): self.assertEqual(f(1) , "1") self.assertEqual(f(1.0) , "1.0") self.assertEqual(f("1.0"), "1.0") self.assertEqual(f("") , "") self.assertEqual(f(None) , "") self.assertEqual(f(0) , "") self.assertEqual(f(["a"]), "a") self.assertEqual(f([1]) , "1") self.assertEqual(f(["a", "b", "c"]), "a, b, c") self.assertEqual(f([1, 2, 3]), "1, 2, 3") def test_datetime_to_timestamp(self, f=util.datetime_to_timestamp): self.assertEqual(f(util.EPOCH), 0.0) self.assertEqual(f(datetime.datetime(2010, 1, 1)), 1262304000.0) self.assertEqual(f(datetime.datetime(2010, 1, 1, 0, 0, 0, 128000)), 1262304000.128000) with self.assertRaises(TypeError): f(None) def test_datetime_to_timestamp_string( self, f=util.datetime_to_timestamp_string): self.assertEqual(f(util.EPOCH), "0") self.assertEqual(f(datetime.datetime(2010, 1, 1)), "1262304000") self.assertEqual(f(None), "") def test_universal_none(self): obj = util.NONE self.assertFalse(obj) self.assertEqual(str(obj), str(None)) self.assertEqual(repr(obj), repr(None)) self.assertIs(obj.attr, obj) self.assertIs(obj["key"], obj) class TestExtractor(): category = "test_category" subcategory = "test_subcategory" basecategory = "test_basecategory" class TestExtractorParent(TestExtractor): category = "test_category" subcategory = "test_subcategory_parent" class TestExtractorAlt(TestExtractor): category = "test_category_alt" subcategory = "test_subcategory" if __name__ == '__main__': unittest.main()