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714 lines
29 KiB
Python
714 lines
29 KiB
Python
# Created By: Virgil Dupras
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# Created On: 2006/02/23
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# $Id$
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# Copyright 2010 Hardcoded Software (http://www.hardcoded.net)
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#
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# This software is licensed under the "HS" License as described in the "LICENSE" file,
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# which should be included with this package. The terms are also available at
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# http://www.hardcoded.net/licenses/hs_license
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import StringIO
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import os.path as op
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from lxml import etree
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from hsutil.path import Path
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from hsutil.testcase import TestCase
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from hsutil.misc import first
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from . import engine_test, data
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from .. import engine
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from ..results import Results
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class NamedObject(engine_test.NamedObject):
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path = property(lambda x:Path('basepath') + x.name)
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is_ref = False
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def __nonzero__(self):
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return False #Make sure that operations are made correctly when the bool value of files is false.
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# Returns a group set that looks like that:
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# "foo bar" (1)
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# "bar bleh" (1024)
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# "foo bleh" (1)
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# "ibabtu" (1)
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# "ibabtu" (1)
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def GetTestGroups():
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objects = [NamedObject("foo bar"),NamedObject("bar bleh"),NamedObject("foo bleh"),NamedObject("ibabtu"),NamedObject("ibabtu")]
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objects[1].size = 1024
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matches = engine.getmatches(objects) #we should have 5 matches
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groups = engine.get_groups(matches) #We should have 2 groups
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for g in groups:
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g.prioritize(lambda x:objects.index(x)) #We want the dupes to be in the same order as the list is
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groups.sort(key=len, reverse=True) # We want the group with 3 members to be first.
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return (objects,matches,groups)
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class TCResultsEmpty(TestCase):
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def setUp(self):
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self.results = Results(data)
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def test_apply_invalid_filter(self):
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# If the applied filter is an invalid regexp, just ignore the filter.
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self.results.apply_filter('[') # invalid
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self.test_stat_line() # make sure that the stats line isn't saying we applied a '[' filter
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def test_stat_line(self):
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self.assertEqual("0 / 0 (0.00 B / 0.00 B) duplicates marked.",self.results.stat_line)
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def test_groups(self):
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self.assertEqual(0,len(self.results.groups))
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def test_get_group_of_duplicate(self):
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self.assert_(self.results.get_group_of_duplicate('foo') is None)
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def test_save_to_xml(self):
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f = StringIO.StringIO()
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self.results.save_to_xml(f)
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f.seek(0)
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doc = etree.parse(f)
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root = doc.getroot()
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self.assertEqual('results', root.tag)
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class TCResultsWithSomeGroups(TestCase):
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def setUp(self):
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self.results = Results(data)
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self.objects,self.matches,self.groups = GetTestGroups()
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self.results.groups = self.groups
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def test_stat_line(self):
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self.assertEqual("0 / 3 (0.00 B / 1.01 KB) duplicates marked.",self.results.stat_line)
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def test_groups(self):
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self.assertEqual(2,len(self.results.groups))
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def test_get_group_of_duplicate(self):
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for o in self.objects:
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g = self.results.get_group_of_duplicate(o)
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self.assert_(isinstance(g, engine.Group))
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self.assert_(o in g)
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self.assert_(self.results.get_group_of_duplicate(self.groups[0]) is None)
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def test_remove_duplicates(self):
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g1,g2 = self.results.groups
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self.results.remove_duplicates([g1.dupes[0]])
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self.assertEqual(2,len(g1))
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self.assert_(g1 in self.results.groups)
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self.results.remove_duplicates([g1.ref])
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self.assertEqual(2,len(g1))
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self.assert_(g1 in self.results.groups)
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self.results.remove_duplicates([g1.dupes[0]])
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self.assertEqual(0,len(g1))
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self.assert_(g1 not in self.results.groups)
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self.results.remove_duplicates([g2.dupes[0]])
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self.assertEqual(0,len(g2))
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self.assert_(g2 not in self.results.groups)
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self.assertEqual(0,len(self.results.groups))
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def test_remove_duplicates_with_ref_files(self):
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g1,g2 = self.results.groups
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self.objects[0].is_ref = True
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self.objects[1].is_ref = True
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self.results.remove_duplicates([self.objects[2]])
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self.assertEqual(0,len(g1))
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self.assert_(g1 not in self.results.groups)
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def test_make_ref(self):
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g = self.results.groups[0]
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d = g.dupes[0]
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self.results.make_ref(d)
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self.assert_(d is g.ref)
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def test_sort_groups(self):
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self.results.make_ref(self.objects[1]) #We want to make the 1024 sized object to go ref.
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g1,g2 = self.groups
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self.results.sort_groups(2) #2 is the key for size
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self.assert_(self.results.groups[0] is g2)
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self.assert_(self.results.groups[1] is g1)
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self.results.sort_groups(2,False)
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self.assert_(self.results.groups[0] is g1)
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self.assert_(self.results.groups[1] is g2)
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def test_set_groups_when_sorted(self):
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self.results.make_ref(self.objects[1]) #We want to make the 1024 sized object to go ref.
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self.results.sort_groups(2)
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objects,matches,groups = GetTestGroups()
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g1,g2 = groups
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g1.switch_ref(objects[1])
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self.results.groups = groups
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self.assert_(self.results.groups[0] is g2)
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self.assert_(self.results.groups[1] is g1)
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def test_get_dupe_list(self):
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self.assertEqual([self.objects[1],self.objects[2],self.objects[4]],self.results.dupes)
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def test_dupe_list_is_cached(self):
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self.assert_(self.results.dupes is self.results.dupes)
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def test_dupe_list_cache_is_invalidated_when_needed(self):
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o1,o2,o3,o4,o5 = self.objects
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self.assertEqual([o2,o3,o5],self.results.dupes)
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self.results.make_ref(o2)
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self.assertEqual([o1,o3,o5],self.results.dupes)
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objects,matches,groups = GetTestGroups()
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o1,o2,o3,o4,o5 = objects
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self.results.groups = groups
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self.assertEqual([o2,o3,o5],self.results.dupes)
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def test_dupe_list_sort(self):
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o1,o2,o3,o4,o5 = self.objects
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o1.size = 5
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o2.size = 4
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o3.size = 3
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o4.size = 2
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o5.size = 1
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self.results.sort_dupes(2)
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self.assertEqual([o5,o3,o2],self.results.dupes)
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self.results.sort_dupes(2,False)
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self.assertEqual([o2,o3,o5],self.results.dupes)
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def test_dupe_list_remember_sort(self):
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o1,o2,o3,o4,o5 = self.objects
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o1.size = 5
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o2.size = 4
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o3.size = 3
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o4.size = 2
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o5.size = 1
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self.results.sort_dupes(2)
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self.results.make_ref(o2)
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self.assertEqual([o5,o3,o1],self.results.dupes)
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def test_dupe_list_sort_delta_values(self):
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o1,o2,o3,o4,o5 = self.objects
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o1.size = 10
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o2.size = 2 #-8
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o3.size = 3 #-7
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o4.size = 20
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o5.size = 1 #-19
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self.results.sort_dupes(2,delta=True)
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self.assertEqual([o5,o2,o3],self.results.dupes)
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def test_sort_empty_list(self):
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#There was an infinite loop when sorting an empty list.
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r = Results(data)
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r.sort_dupes(0)
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self.assertEqual([],r.dupes)
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def test_dupe_list_update_on_remove_duplicates(self):
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o1,o2,o3,o4,o5 = self.objects
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self.assertEqual(3,len(self.results.dupes))
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self.results.remove_duplicates([o2])
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self.assertEqual(2,len(self.results.dupes))
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class TCResultsMarkings(TestCase):
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def setUp(self):
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self.results = Results(data)
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self.objects,self.matches,self.groups = GetTestGroups()
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self.results.groups = self.groups
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def test_stat_line(self):
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self.assertEqual("0 / 3 (0.00 B / 1.01 KB) duplicates marked.",self.results.stat_line)
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self.results.mark(self.objects[1])
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self.assertEqual("1 / 3 (1.00 KB / 1.01 KB) duplicates marked.",self.results.stat_line)
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self.results.mark_invert()
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self.assertEqual("2 / 3 (2.00 B / 1.01 KB) duplicates marked.",self.results.stat_line)
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self.results.mark_invert()
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self.results.unmark(self.objects[1])
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self.results.mark(self.objects[2])
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self.results.mark(self.objects[4])
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self.assertEqual("2 / 3 (2.00 B / 1.01 KB) duplicates marked.",self.results.stat_line)
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self.results.mark(self.objects[0]) #this is a ref, it can't be counted
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self.assertEqual("2 / 3 (2.00 B / 1.01 KB) duplicates marked.",self.results.stat_line)
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self.results.groups = self.groups
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self.assertEqual("0 / 3 (0.00 B / 1.01 KB) duplicates marked.",self.results.stat_line)
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def test_with_ref_duplicate(self):
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self.objects[1].is_ref = True
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self.results.groups = self.groups
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self.assert_(not self.results.mark(self.objects[1]))
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self.results.mark(self.objects[2])
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self.assertEqual("1 / 2 (1.00 B / 2.00 B) duplicates marked.",self.results.stat_line)
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def test_perform_on_marked(self):
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def log_object(o):
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log.append(o)
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return True
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log = []
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self.results.mark_all()
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self.results.perform_on_marked(log_object,False)
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self.assert_(self.objects[1] in log)
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self.assert_(self.objects[2] in log)
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self.assert_(self.objects[4] in log)
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self.assertEqual(3,len(log))
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log = []
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self.results.mark_none()
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self.results.mark(self.objects[4])
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self.results.perform_on_marked(log_object,True)
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self.assertEqual(1,len(log))
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self.assert_(self.objects[4] in log)
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self.assertEqual(1,len(self.results.groups))
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def test_perform_on_marked_with_problems(self):
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def log_object(o):
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log.append(o)
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return o is not self.objects[1]
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log = []
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self.results.mark_all()
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self.assert_(self.results.is_marked(self.objects[1]))
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self.assertEqual(1,self.results.perform_on_marked(log_object, True))
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self.assertEqual(3,len(log))
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self.assertEqual(1,len(self.results.groups))
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self.assertEqual(2,len(self.results.groups[0]))
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self.assert_(self.objects[1] in self.results.groups[0])
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self.assert_(not self.results.is_marked(self.objects[2]))
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self.assert_(self.results.is_marked(self.objects[1]))
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def test_perform_on_marked_with_ref(self):
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def log_object(o):
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log.append(o)
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return True
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log = []
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self.objects[0].is_ref = True
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self.objects[1].is_ref = True
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self.results.mark_all()
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self.results.perform_on_marked(log_object,True)
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self.assert_(self.objects[1] not in log)
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self.assert_(self.objects[2] in log)
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self.assert_(self.objects[4] in log)
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self.assertEqual(2,len(log))
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self.assertEqual(0,len(self.results.groups))
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def test_perform_on_marked_remove_objects_only_at_the_end(self):
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def check_groups(o):
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self.assertEqual(3,len(g1))
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self.assertEqual(2,len(g2))
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return True
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g1,g2 = self.results.groups
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self.results.mark_all()
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self.results.perform_on_marked(check_groups,True)
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self.assertEqual(0,len(g1))
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self.assertEqual(0,len(g2))
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self.assertEqual(0,len(self.results.groups))
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def test_remove_duplicates(self):
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g1 = self.results.groups[0]
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g2 = self.results.groups[1]
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self.results.mark(g1.dupes[0])
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self.assertEqual("1 / 3 (1.00 KB / 1.01 KB) duplicates marked.",self.results.stat_line)
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self.results.remove_duplicates([g1.dupes[1]])
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self.assertEqual("1 / 2 (1.00 KB / 1.01 KB) duplicates marked.",self.results.stat_line)
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self.results.remove_duplicates([g1.dupes[0]])
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self.assertEqual("0 / 1 (0.00 B / 1.00 B) duplicates marked.",self.results.stat_line)
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def test_make_ref(self):
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g = self.results.groups[0]
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d = g.dupes[0]
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self.results.mark(d)
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self.assertEqual("1 / 3 (1.00 KB / 1.01 KB) duplicates marked.",self.results.stat_line)
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self.results.make_ref(d)
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self.assertEqual("0 / 3 (0.00 B / 3.00 B) duplicates marked.",self.results.stat_line)
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self.results.make_ref(d)
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self.assertEqual("0 / 3 (0.00 B / 3.00 B) duplicates marked.",self.results.stat_line)
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def test_SaveXML(self):
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self.results.mark(self.objects[1])
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self.results.mark_invert()
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f = StringIO.StringIO()
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self.results.save_to_xml(f)
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f.seek(0)
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doc = etree.parse(f)
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root = doc.getroot()
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g1, g2 = root.iterchildren('group')
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d1, d2, d3 = g1.iterchildren('file')
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self.assertEqual('n', d1.get('marked'))
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self.assertEqual('n', d2.get('marked'))
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self.assertEqual('y', d3.get('marked'))
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d1, d2 = g2.iterchildren('file')
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self.assertEqual('n', d1.get('marked'))
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self.assertEqual('y', d2.get('marked'))
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def test_LoadXML(self):
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def get_file(path):
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return [f for f in self.objects if str(f.path) == path][0]
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self.objects[4].name = 'ibabtu 2' #we can't have 2 files with the same path
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self.results.mark(self.objects[1])
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self.results.mark_invert()
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f = StringIO.StringIO()
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self.results.save_to_xml(f)
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f.seek(0)
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r = Results(data)
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r.load_from_xml(f,get_file)
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self.assert_(not r.is_marked(self.objects[0]))
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self.assert_(not r.is_marked(self.objects[1]))
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self.assert_(r.is_marked(self.objects[2]))
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self.assert_(not r.is_marked(self.objects[3]))
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self.assert_(r.is_marked(self.objects[4]))
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class TCResultsXML(TestCase):
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def setUp(self):
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self.results = Results(data)
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self.objects, self.matches, self.groups = GetTestGroups()
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self.results.groups = self.groups
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def get_file(self, path): # use this as a callback for load_from_xml
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return [o for o in self.objects if o.path == path][0]
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def test_save_to_xml(self):
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self.objects[0].is_ref = True
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self.objects[0].words = [['foo','bar']]
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f = StringIO.StringIO()
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self.results.save_to_xml(f)
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f.seek(0)
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doc = etree.parse(f)
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root = doc.getroot()
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self.assertEqual('results', root.tag)
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self.assertEqual(2, len(root))
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self.assertEqual(2, len([c for c in root if c.tag == 'group']))
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g1, g2 = root
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self.assertEqual(6,len(g1))
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self.assertEqual(3,len([c for c in g1 if c.tag == 'file']))
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self.assertEqual(3,len([c for c in g1 if c.tag == 'match']))
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d1, d2, d3 = [c for c in g1 if c.tag == 'file']
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self.assertEqual(op.join('basepath','foo bar'),d1.get('path'))
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self.assertEqual(op.join('basepath','bar bleh'),d2.get('path'))
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self.assertEqual(op.join('basepath','foo bleh'),d3.get('path'))
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self.assertEqual('y',d1.get('is_ref'))
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self.assertEqual('n',d2.get('is_ref'))
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self.assertEqual('n',d3.get('is_ref'))
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self.assertEqual('foo,bar',d1.get('words'))
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self.assertEqual('bar,bleh',d2.get('words'))
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self.assertEqual('foo,bleh',d3.get('words'))
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self.assertEqual(3,len(g2))
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self.assertEqual(2,len([c for c in g2 if c.tag == 'file']))
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self.assertEqual(1,len([c for c in g2 if c.tag == 'match']))
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d1, d2 = [c for c in g2 if c.tag == 'file']
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self.assertEqual(op.join('basepath','ibabtu'),d1.get('path'))
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self.assertEqual(op.join('basepath','ibabtu'),d2.get('path'))
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self.assertEqual('n',d1.get('is_ref'))
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self.assertEqual('n',d2.get('is_ref'))
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self.assertEqual('ibabtu',d1.get('words'))
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self.assertEqual('ibabtu',d2.get('words'))
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def test_LoadXML(self):
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def get_file(path):
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return [f for f in self.objects if str(f.path) == path][0]
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self.objects[0].is_ref = True
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self.objects[4].name = 'ibabtu 2' #we can't have 2 files with the same path
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f = StringIO.StringIO()
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self.results.save_to_xml(f)
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f.seek(0)
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r = Results(data)
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r.load_from_xml(f,get_file)
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self.assertEqual(2,len(r.groups))
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g1,g2 = r.groups
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self.assertEqual(3,len(g1))
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self.assert_(g1[0].is_ref)
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self.assert_(not g1[1].is_ref)
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self.assert_(not g1[2].is_ref)
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self.assert_(g1[0] is self.objects[0])
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self.assert_(g1[1] is self.objects[1])
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self.assert_(g1[2] is self.objects[2])
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self.assertEqual(['foo','bar'],g1[0].words)
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self.assertEqual(['bar','bleh'],g1[1].words)
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self.assertEqual(['foo','bleh'],g1[2].words)
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self.assertEqual(2,len(g2))
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self.assert_(not g2[0].is_ref)
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self.assert_(not g2[1].is_ref)
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self.assert_(g2[0] is self.objects[3])
|
|
self.assert_(g2[1] is self.objects[4])
|
|
self.assertEqual(['ibabtu'],g2[0].words)
|
|
self.assertEqual(['ibabtu'],g2[1].words)
|
|
|
|
def test_LoadXML_with_filename(self):
|
|
def get_file(path):
|
|
return [f for f in self.objects if str(f.path) == path][0]
|
|
|
|
filename = op.join(self.tmpdir(), 'dupeguru_results.xml')
|
|
self.objects[4].name = 'ibabtu 2' #we can't have 2 files with the same path
|
|
self.results.save_to_xml(filename)
|
|
r = Results(data)
|
|
r.load_from_xml(filename,get_file)
|
|
self.assertEqual(2,len(r.groups))
|
|
|
|
def test_LoadXML_with_some_files_that_dont_exist_anymore(self):
|
|
def get_file(path):
|
|
if path.endswith('ibabtu 2'):
|
|
return None
|
|
return [f for f in self.objects if str(f.path) == path][0]
|
|
|
|
self.objects[4].name = 'ibabtu 2' #we can't have 2 files with the same path
|
|
f = StringIO.StringIO()
|
|
self.results.save_to_xml(f)
|
|
f.seek(0)
|
|
r = Results(data)
|
|
r.load_from_xml(f,get_file)
|
|
self.assertEqual(1,len(r.groups))
|
|
self.assertEqual(3,len(r.groups[0]))
|
|
|
|
def test_LoadXML_missing_attributes_and_bogus_elements(self):
|
|
def get_file(path):
|
|
return [f for f in self.objects if str(f.path) == path][0]
|
|
|
|
root = etree.Element('foobar') #The root element shouldn't matter, really.
|
|
group_node = etree.SubElement(root, 'group')
|
|
dupe_node = etree.SubElement(group_node, 'file') #Perfectly correct file
|
|
dupe_node.set('path', op.join('basepath','foo bar'))
|
|
dupe_node.set('is_ref', 'y')
|
|
dupe_node.set('words', 'foo,bar')
|
|
dupe_node = etree.SubElement(group_node, 'file') #is_ref missing, default to 'n'
|
|
dupe_node.set('path',op.join('basepath','foo bleh'))
|
|
dupe_node.set('words','foo,bleh')
|
|
dupe_node = etree.SubElement(group_node, 'file') #words are missing, valid.
|
|
dupe_node.set('path',op.join('basepath','bar bleh'))
|
|
dupe_node = etree.SubElement(group_node, 'file') #path is missing, invalid.
|
|
dupe_node.set('words','foo,bleh')
|
|
dupe_node = etree.SubElement(group_node, 'foobar') #Invalid element name
|
|
dupe_node.set('path',op.join('basepath','bar bleh'))
|
|
dupe_node.set('is_ref','y')
|
|
dupe_node.set('words','bar,bleh')
|
|
match_node = etree.SubElement(group_node, 'match') # match pointing to a bad index
|
|
match_node.set('first', '42')
|
|
match_node.set('second', '45')
|
|
match_node = etree.SubElement(group_node, 'match') # match with missing attrs
|
|
match_node = etree.SubElement(group_node, 'match') # match with non-int values
|
|
match_node.set('first', 'foo')
|
|
match_node.set('second', 'bar')
|
|
match_node.set('percentage', 'baz')
|
|
group_node = etree.SubElement(root, 'foobar') #invalid group
|
|
group_node = etree.SubElement(root, 'group') #empty group
|
|
f = StringIO.StringIO()
|
|
tree = etree.ElementTree(root)
|
|
tree.write(f, encoding='utf-8')
|
|
f.seek(0)
|
|
r = Results(data)
|
|
r.load_from_xml(f, get_file)
|
|
self.assertEqual(1,len(r.groups))
|
|
self.assertEqual(3,len(r.groups[0]))
|
|
|
|
def test_xml_non_ascii(self):
|
|
def get_file(path):
|
|
if path == op.join('basepath',u'\xe9foo bar'):
|
|
return objects[0]
|
|
if path == op.join('basepath',u'bar bleh'):
|
|
return objects[1]
|
|
|
|
objects = [NamedObject(u"\xe9foo bar",True),NamedObject("bar bleh",True)]
|
|
matches = engine.getmatches(objects) #we should have 5 matches
|
|
groups = engine.get_groups(matches) #We should have 2 groups
|
|
for g in groups:
|
|
g.prioritize(lambda x:objects.index(x)) #We want the dupes to be in the same order as the list is
|
|
results = Results(data)
|
|
results.groups = groups
|
|
f = StringIO.StringIO()
|
|
results.save_to_xml(f)
|
|
f.seek(0)
|
|
r = Results(data)
|
|
r.load_from_xml(f,get_file)
|
|
g = r.groups[0]
|
|
self.assertEqual(u"\xe9foo bar",g[0].name)
|
|
self.assertEqual(['efoo','bar'],g[0].words)
|
|
|
|
def test_load_invalid_xml(self):
|
|
f = StringIO.StringIO()
|
|
f.write('<this is invalid')
|
|
f.seek(0)
|
|
r = Results(data)
|
|
r.load_from_xml(f,None)
|
|
self.assertEqual(0,len(r.groups))
|
|
|
|
def test_load_non_existant_xml(self):
|
|
r = Results(data)
|
|
try:
|
|
r.load_from_xml('does_not_exist.xml', None)
|
|
except IOError:
|
|
self.fail()
|
|
self.assertEqual(0,len(r.groups))
|
|
|
|
def test_remember_match_percentage(self):
|
|
group = self.groups[0]
|
|
d1, d2, d3 = group
|
|
fake_matches = set()
|
|
fake_matches.add(engine.Match(d1, d2, 42))
|
|
fake_matches.add(engine.Match(d1, d3, 43))
|
|
fake_matches.add(engine.Match(d2, d3, 46))
|
|
group.matches = fake_matches
|
|
f = StringIO.StringIO()
|
|
results = self.results
|
|
results.save_to_xml(f)
|
|
f.seek(0)
|
|
results = Results(data)
|
|
results.load_from_xml(f, self.get_file)
|
|
group = results.groups[0]
|
|
d1, d2, d3 = group
|
|
match = group.get_match_of(d2) #d1 - d2
|
|
self.assertEqual(42, match[2])
|
|
match = group.get_match_of(d3) #d1 - d3
|
|
self.assertEqual(43, match[2])
|
|
group.switch_ref(d2)
|
|
match = group.get_match_of(d3) #d2 - d3
|
|
self.assertEqual(46, match[2])
|
|
|
|
def test_save_and_load(self):
|
|
# previously, when reloading matches, they wouldn't be reloaded as namedtuples
|
|
f = StringIO.StringIO()
|
|
self.results.save_to_xml(f)
|
|
f.seek(0)
|
|
self.results.load_from_xml(f, self.get_file)
|
|
first(self.results.groups[0].matches).percentage
|
|
|
|
|
|
class TCResultsFilter(TestCase):
|
|
def setUp(self):
|
|
self.results = Results(data)
|
|
self.objects, self.matches, self.groups = GetTestGroups()
|
|
self.results.groups = self.groups
|
|
self.results.apply_filter(r'foo')
|
|
|
|
def test_groups(self):
|
|
self.assertEqual(1, len(self.results.groups))
|
|
self.assert_(self.results.groups[0] is self.groups[0])
|
|
|
|
def test_dupes(self):
|
|
# There are 2 objects matching. The first one is ref. Only the 3rd one is supposed to be in dupes.
|
|
self.assertEqual(1, len(self.results.dupes))
|
|
self.assert_(self.results.dupes[0] is self.objects[2])
|
|
|
|
def test_cancel_filter(self):
|
|
self.results.apply_filter(None)
|
|
self.assertEqual(3, len(self.results.dupes))
|
|
self.assertEqual(2, len(self.results.groups))
|
|
|
|
def test_dupes_reconstructed_filtered(self):
|
|
# make_ref resets self.__dupes to None. When it's reconstructed, we want it filtered
|
|
dupe = self.results.dupes[0] #3rd object
|
|
self.results.make_ref(dupe)
|
|
self.assertEqual(1, len(self.results.dupes))
|
|
self.assert_(self.results.dupes[0] is self.objects[0])
|
|
|
|
def test_include_ref_dupes_in_filter(self):
|
|
# When only the ref of a group match the filter, include it in the group
|
|
self.results.apply_filter(None)
|
|
self.results.apply_filter(r'foo bar')
|
|
self.assertEqual(1, len(self.results.groups))
|
|
self.assertEqual(0, len(self.results.dupes))
|
|
|
|
def test_filters_build_on_one_another(self):
|
|
self.results.apply_filter(r'bar')
|
|
self.assertEqual(1, len(self.results.groups))
|
|
self.assertEqual(0, len(self.results.dupes))
|
|
|
|
def test_stat_line(self):
|
|
expected = '0 / 1 (0.00 B / 1.00 B) duplicates marked. filter: foo'
|
|
self.assertEqual(expected, self.results.stat_line)
|
|
self.results.apply_filter(r'bar')
|
|
expected = '0 / 0 (0.00 B / 0.00 B) duplicates marked. filter: foo --> bar'
|
|
self.assertEqual(expected, self.results.stat_line)
|
|
self.results.apply_filter(None)
|
|
expected = '0 / 3 (0.00 B / 1.01 KB) duplicates marked.'
|
|
self.assertEqual(expected, self.results.stat_line)
|
|
|
|
def test_mark_count_is_filtered_as_well(self):
|
|
self.results.apply_filter(None)
|
|
# We don't want to perform mark_all() because we want the mark list to contain objects
|
|
for dupe in self.results.dupes:
|
|
self.results.mark(dupe)
|
|
self.results.apply_filter(r'foo')
|
|
expected = '1 / 1 (1.00 B / 1.00 B) duplicates marked. filter: foo'
|
|
self.assertEqual(expected, self.results.stat_line)
|
|
|
|
def test_sort_groups(self):
|
|
self.results.apply_filter(None)
|
|
self.results.make_ref(self.objects[1]) # to have the 1024 b obkect as ref
|
|
g1,g2 = self.groups
|
|
self.results.apply_filter('a') # Matches both group
|
|
self.results.sort_groups(2) #2 is the key for size
|
|
self.assert_(self.results.groups[0] is g2)
|
|
self.assert_(self.results.groups[1] is g1)
|
|
self.results.apply_filter(None)
|
|
self.assert_(self.results.groups[0] is g2)
|
|
self.assert_(self.results.groups[1] is g1)
|
|
self.results.sort_groups(2, False)
|
|
self.results.apply_filter('a')
|
|
self.assert_(self.results.groups[1] is g2)
|
|
self.assert_(self.results.groups[0] is g1)
|
|
|
|
def test_set_group(self):
|
|
#We want the new group to be filtered
|
|
self.objects, self.matches, self.groups = GetTestGroups()
|
|
self.results.groups = self.groups
|
|
self.assertEqual(1, len(self.results.groups))
|
|
self.assert_(self.results.groups[0] is self.groups[0])
|
|
|
|
def test_load_cancels_filter(self):
|
|
def get_file(path):
|
|
return [f for f in self.objects if str(f.path) == path][0]
|
|
|
|
filename = op.join(self.tmpdir(), 'dupeguru_results.xml')
|
|
self.objects[4].name = 'ibabtu 2' #we can't have 2 files with the same path
|
|
self.results.save_to_xml(filename)
|
|
r = Results(data)
|
|
r.apply_filter('foo')
|
|
r.load_from_xml(filename,get_file)
|
|
self.assertEqual(2,len(r.groups))
|
|
|
|
def test_remove_dupe(self):
|
|
self.results.remove_duplicates([self.results.dupes[0]])
|
|
self.results.apply_filter(None)
|
|
self.assertEqual(2,len(self.results.groups))
|
|
self.assertEqual(2,len(self.results.dupes))
|
|
self.results.apply_filter('ibabtu')
|
|
self.results.remove_duplicates([self.results.dupes[0]])
|
|
self.results.apply_filter(None)
|
|
self.assertEqual(1,len(self.results.groups))
|
|
self.assertEqual(1,len(self.results.dupes))
|
|
|
|
def test_filter_is_case_insensitive(self):
|
|
self.results.apply_filter(None)
|
|
self.results.apply_filter('FOO')
|
|
self.assertEqual(1, len(self.results.dupes))
|
|
|
|
def test_make_ref_on_filtered_out_doesnt_mess_stats(self):
|
|
# When filtered, a group containing filtered out dupes will display them as being reference.
|
|
# When calling make_ref on such a dupe, the total size and dupecount stats gets messed up
|
|
# because they are *not* counted in the stats in the first place.
|
|
g1, g2 = self.groups
|
|
bar_bleh = g1[1] # The "bar bleh" dupe is filtered out
|
|
self.results.make_ref(bar_bleh)
|
|
# Now the stats should display *2* markable dupes (instead of 1)
|
|
expected = '0 / 2 (0.00 B / 2.00 B) duplicates marked. filter: foo'
|
|
self.assertEqual(expected, self.results.stat_line)
|
|
self.results.apply_filter(None) # Now let's make sure our unfiltered results aren't fucked up
|
|
expected = '0 / 3 (0.00 B / 3.00 B) duplicates marked.'
|
|
self.assertEqual(expected, self.results.stat_line)
|
|
|
|
|
|
class TCResultsRefFile(TestCase):
|
|
def setUp(self):
|
|
self.results = Results(data)
|
|
self.objects, self.matches, self.groups = GetTestGroups()
|
|
self.objects[0].is_ref = True
|
|
self.objects[1].is_ref = True
|
|
self.results.groups = self.groups
|
|
|
|
def test_stat_line(self):
|
|
expected = '0 / 2 (0.00 B / 2.00 B) duplicates marked.'
|
|
self.assertEqual(expected, self.results.stat_line)
|
|
|
|
def test_make_ref(self):
|
|
d = self.results.groups[0].dupes[1] #non-ref
|
|
r = self.results.groups[0].ref
|
|
self.results.make_ref(d)
|
|
expected = '0 / 1 (0.00 B / 1.00 B) duplicates marked.'
|
|
self.assertEqual(expected, self.results.stat_line)
|
|
self.results.make_ref(r)
|
|
expected = '0 / 2 (0.00 B / 2.00 B) duplicates marked.'
|
|
self.assertEqual(expected, self.results.stat_line)
|
|
|