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|
# SPDX-License-Identifier: CC0-1.0
# Copyright (C) 2022 Wojtek Kosior <koszko@koszko.org>
#
# Available under the terms of Creative Commons Zero v1.0 Universal.
import pytest
import re
import dataclasses as dc
from immutables import Map
from hydrilla import pattern_tree
from .url_patterns_common import *
@pytest.mark.parametrize('_in, out', [
(Map(), True),
({'children': Map(non_empty='non_emtpy')}, False),
({'literal_match': 'non-None'}, False),
({'children': Map(non_empty='non_emtpy')}, False),
({'literal_match': 'non-None', 'children': 'non-empty'}, False)
])
def test_pattern_tree_node_is_empty(_in, out):
"""...."""
assert pattern_tree.PatternTreeNode(**_in).is_empty() == out
def test_pattern_tree_node_update_literal_match():
"""...."""
node1 = pattern_tree.PatternTreeNode()
node2 = node1.update_literal_match('dummy match item')
assert node1.literal_match is None
assert node2.literal_match == 'dummy match item'
def test_pattern_tree_node_get_child():
"""...."""
node = pattern_tree.PatternTreeNode(children=Map(dummy_key='dummy_val'))
assert node.get_child('dummy_key') == 'dummy_val'
assert node.get_child('other_key') is None
def test_pattern_tree_node_remove_child():
"""...."""
node1 = pattern_tree.PatternTreeNode(children=Map(dummy_key='dummy_val'))
node2 = node1.remove_child('dummy_key')
assert node1.children == Map(dummy_key='dummy_val')
assert node2.children == Map()
def test_pattern_tree_node_set_child():
"""...."""
node1 = pattern_tree.PatternTreeNode(children=Map(dummy_key='dummy_val'))
node2 = node1.set_child('other_key', 'other_val')
assert node1.children == Map(dummy_key='dummy_val')
assert node2.children == Map(dummy_key='dummy_val', other_key='other_val')
@pytest.mark.parametrize('root_empty', [True, False])
def test_pattern_tree_branch_is_empty(root_empty):
"""...."""
class DummyEmptyRoot:
"""...."""
is_empty = lambda: root_empty
branch = pattern_tree.PatternTreeBranch(root_node=DummyEmptyRoot)
assert branch.is_empty() == root_empty
# def test_pattern_tree_branch_copy():
# """...."""
# class DummyRoot:
# """...."""
# pass
# branch1 = pattern_tree.PatternTreeBranch(root_node=DummyRoot)
# branch2 = branch1.copy()
# assert branch1 is not branch2
# for val_b1, val_b2 in zip(dc.astuple(branch1), dc.astuple(branch2)):
# assert val_b1 is val_b2
@pytest.fixture
def empty_branch():
"""...."""
return pattern_tree.PatternTreeBranch(
root_node = pattern_tree.PatternTreeNode()
)
@pytest.fixture
def branch_with_a_b():
"""...."""
return pattern_tree.PatternTreeBranch(
root_node = pattern_tree.PatternTreeNode(
children = Map(
a = pattern_tree.PatternTreeNode(
children = Map(
b = pattern_tree.PatternTreeNode(
literal_match = frozenset({'myitem'})
)
)
)
)
)
)
def test_pattern_tree_branch_update_add_first(empty_branch, branch_with_a_b):
"""...."""
updated_branch = empty_branch.update(
['a', 'b'],
lambda s: frozenset({*(s or []), 'myitem'})
)
assert updated_branch == branch_with_a_b
assert empty_branch.root_node.children == Map()
def test_pattern_tree_branch_update_add_second(branch_with_a_b):
"""...."""
updated_branch = branch_with_a_b.update(
['a', 'b'],
lambda s: frozenset({*(s or []), 'myotheritem'})
)
leaf_node = updated_branch.root_node.children['a'].children['b']
assert leaf_node.literal_match == frozenset({'myitem', 'myotheritem'})
def test_pattern_tree_branch_update_add_different_path(branch_with_a_b):
"""...."""
updated_branch = branch_with_a_b.update(
['a', 'not_b'],
lambda s: frozenset({*(s or []), 'myotheritem'})
)
for segment, item in [('b', 'myitem'), ('not_b', 'myotheritem')]:
leaf_node = updated_branch.root_node.children['a'].children[segment]
assert leaf_node.literal_match == frozenset({item})
# def test_pattern_tree_branch_update_is_value_copied(branch_with_a_b):
# """...."""
# updated_branch = branch_with_a_b.update(['a', 'b'], lambda s: s)
# leaf_node_orig = updated_branch.root_node.children['a'].children['b']
# leaf_node_new = branch_with_a_b.root_node.children['a'].children['b']
# assert leaf_node_orig.literal_match == leaf_node_new.literal_match
# assert leaf_node_orig.literal_match is not leaf_node_new.literal_match
def test_pattern_tree_branch_remove(branch_with_a_b, empty_branch):
"""...."""
updated_branch = branch_with_a_b.update(['a', 'b'], lambda s: None)
assert updated_branch == empty_branch
def test_pattern_tree_branch_search_empty(empty_branch):
"""...."""
assert [*empty_branch.search(['a', 'b'])] == []
@pytest.fixture
def branch_with_wildcards():
"""...."""
return pattern_tree.PatternTreeBranch(
root_node = pattern_tree.PatternTreeNode(
children = Map(
a = pattern_tree.PatternTreeNode(
children = Map(
b = pattern_tree.PatternTreeNode(
children = Map({
'c': pattern_tree.PatternTreeNode(
literal_match = 'dummy/c'
),
'*': pattern_tree.PatternTreeNode(
literal_match = 'dummy/*'
),
'**': pattern_tree.PatternTreeNode(
literal_match = 'dummy/**'
),
'***': pattern_tree.PatternTreeNode(
literal_match = 'dummy/***'
)
})
)
)
)
)
)
)
@pytest.mark.parametrize('_in, out', [
(['a'], []),
(['a', 'x', 'y', 'z'], []),
(['a', 'b'], ['dummy/***']),
(['a', 'b', 'c'], ['dummy/c', 'dummy/*', 'dummy/***']),
(['a', 'b', 'u'], ['dummy/*', 'dummy/***']),
(['a', 'b', '*'], ['dummy/*', 'dummy/***']),
(['a', 'b', '**'], ['dummy/**', 'dummy/*', 'dummy/***']),
(['a', 'b', '***'], ['dummy/***', 'dummy/*']),
(['a', 'b', 'u', 'l'], ['dummy/**', 'dummy/***']),
(['a', 'b', 'u', 'l', 'y'], ['dummy/**', 'dummy/***'])
])
def test_pattern_tree_branch_search_wildcards(_in, out, branch_with_wildcards):
"""...."""
assert [*branch_with_wildcards.search(_in)] == out
def test_filter_by_trailing_slash(sample_url_parsed):
"""...."""
sample_url_parsed2 = dc.replace(sample_url_parsed, has_trailing_slash=True)
item1 = pattern_tree.StoredTreeItem(sample_url_parsed, 'dummy_it1')
item2 = pattern_tree.StoredTreeItem(sample_url_parsed2, 'dummy_it2')
assert pattern_tree.filter_by_trailing_slash((item1, item2), False) == \
frozenset({item1})
assert pattern_tree.filter_by_trailing_slash((item1, item2), True) == \
frozenset({item2})
@pytest.mark.parametrize('register_mode', [True, False])
@pytest.mark.parametrize('empty_at_start', [True, False])
@pytest.mark.parametrize('empty_at_end', [True, False])
def test_pattern_tree_privatemethod_register(
register_mode,
empty_at_start,
empty_at_end,
monkeypatch,
sample_url_parsed
):
"""...."""
dummy_it = pattern_tree.StoredTreeItem(sample_url_parsed, 'dummy_it')
other_dummy_it = pattern_tree.StoredTreeItem(
sample_url_parsed,
'other_dummy_it'
)
class MockedTreeBranch:
"""...."""
def is_empty(self):
"""...."""
return empty_at_end
def update(self, segments, item_updater):
"""...."""
if segments == ('com', 'example'):
return self._update_as_domain_branch(item_updater)
else:
assert segments == ('aa', 'bb')
return self._update_as_path_branch(item_updater)
def _update_as_domain_branch(self, item_updater):
"""...."""
for updater_input in (None, MockedTreeBranch()):
updated = item_updater(updater_input)
if empty_at_end:
assert updated is None
else:
assert type(updated) is MockedTreeBranch
return MockedTreeBranch()
def _update_as_path_branch(self, item_updater):
"""...."""
set_with_1_item = frozenset()
set_with_2_items = frozenset({dummy_it, other_dummy_it})
for updater_input in (None, set_with_1_item, set_with_2_items):
updated = item_updater(updater_input)
if register_mode:
assert dummy_it in updated
elif updater_input is set_with_2_items:
assert dummy_it not in updated
else:
assert updated is None
return MockedTreeBranch()
monkeypatch.setattr(pattern_tree, 'PatternTreeBranch', MockedTreeBranch)
initial_root = Map() if empty_at_start else \
Map({('http', 80): MockedTreeBranch()})
tree = pattern_tree.PatternTree(_by_scheme_and_port=initial_root)
new_tree = tree._register(
sample_url_parsed,
'dummy_it',
register=register_mode
)
assert new_tree is not tree
if empty_at_end:
assert new_tree._by_scheme_and_port == Map()
else:
assert len(new_tree._by_scheme_and_port) == 1
assert type(new_tree._by_scheme_and_port[('http', 80)]) is \
MockedTreeBranch
# @pytest.mark.parametrize('register_mode', [True, False])
# def test_pattern_tree_privatemethod_register(
# register_mode,
# monkeypatch,
# sample_url_parsed
# ):
# """...."""
# registered_count = 0
# def mocked_parse_pattern(url_pattern):
# """...."""
# assert url_pattern == 'dummy_pattern'
# for _ in range(2):
# yield sample_url_parsed
# monkeypatch.setattr(pattern_tree, 'parse_pattern', mocked_parse_pattern)
# def mocked_reconstruct_url(self):
# """...."""
# return 'dummy_reconstructed_pattern'
# monkeypatch.setattr(pattern_tree.ParsedUrl, 'reconstruct_url',
# mocked_reconstruct_url)
# def mocked_register_with_parsed_pattern(
# self,
# parsed_pat,
# wrapped_item,
# register=True
# ):
# """...."""
# nonlocal registered_count
# assert parsed_pat is sample_url_parsed
# assert wrapped_item.pattern == 'dummy_reconstructed_pattern'
# assert register == register_mode
# registered_count += 1
# return 'dummy_new_tree' if registered_count == 2 else dc.replace(self)
# monkeypatch.setattr(
# pattern_tree.PatternTree,
# '_register_with_parsed_pattern',
# mocked_register_with_parsed_pattern
# )
# pattern_tree = pattern_tree.PatternTree()
# new_tree = pattern_tree._register(
# 'dummy_pattern',
# 'dummy_item',
# register_mode
# )
# assert new_tree == 'dummy_new_tree'
@pytest.mark.parametrize('method_name, register_mode', [
('register', True),
('deregister', False)
])
def test_pattern_tree_register(method_name, register_mode, monkeypatch):
"""...."""
def mocked_privatemethod_register(self, parsed_pat, item, register=True):
"""...."""
assert (parsed_pat, item, register) == \
('dummy_pattern', 'dummy_url', register_mode)
return 'dummy_new_tree'
monkeypatch.setattr(
pattern_tree.PatternTree,
'_register',
mocked_privatemethod_register
)
method = getattr(pattern_tree.PatternTree(), method_name)
assert method('dummy_pattern', 'dummy_url') == 'dummy_new_tree'
@pytest.fixture
def mock_parse_url(monkeypatch, sample_url_parsed):
"""...."""
def mocked_parse_url(url):
"""...."""
assert url == 'dummy_url'
return dc.replace(
sample_url_parsed,
**getattr(mocked_parse_url, 'url_mod', {})
)
monkeypatch.setattr(pattern_tree, 'parse_url', mocked_parse_url)
return mocked_parse_url
@pytest.mark.usefixtures('mock_parse_url')
def test_pattern_tree_search_empty(sample_url_parsed):
"""...."""
for url in ('dummy_url', sample_url_parsed):
assert [*pattern_tree.PatternTree().search(url)] == []
@pytest.mark.parametrize('url_mod, out', [
({},
['dummy_set_A', 'dummy_set_B', 'dummy_set_C']),
({'has_trailing_slash': True},
['dummy_set_A_with_slash', 'dummy_set_A',
'dummy_set_B_with_slash', 'dummy_set_B',
'dummy_set_C_with_slash', 'dummy_set_C'])
])
def test_pattern_tree_search(
url_mod,
out,
monkeypatch,
sample_url_parsed,
mock_parse_url,
):
"""...."""
mock_parse_url.url_mod = url_mod
dummy_tree_contents = [
['dummy_set_A', 'dummy_set_B'],
[],
['dummy_empty_set'] * 3,
['dummy_set_C']
]
def mocked_filter_by_trailing_slash(items, with_slash):
"""...."""
if items == 'dummy_empty_set':
return frozenset()
return items + ('_with_slash' if with_slash else '')
monkeypatch.setattr(pattern_tree, 'filter_by_trailing_slash',
mocked_filter_by_trailing_slash)
class MockedDomainBranch:
"""...."""
def search(self, labels):
"""...."""
assert labels == sample_url_parsed.domain_labels
for item_sets in dummy_tree_contents:
class MockedPathBranch:
"""...."""
def search(self, segments, item_sets=item_sets):
"""...."""
assert segments == sample_url_parsed.path_segments
for dummy_items_set in item_sets:
yield dummy_items_set
yield MockedPathBranch()
tree = pattern_tree.PatternTree(
_by_scheme_and_port = {('http', 80): MockedDomainBranch()}
)
for url in ('dummy_url', mock_parse_url('dummy_url')):
assert [*tree.search(url)] == out
|