# test_line_ending.py -- Tests for the line ending functions # Copyright (C) 2018-2019 Boris Feld # # Dulwich is dual-licensed under the Apache License, Version 2.0 and the GNU # General Public License as public by the Free Software Foundation; version 2.0 # or (at your option) any later version. You can redistribute it and/or # modify it under the terms of either of these two licenses. # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # # You should have received a copy of the licenses; if not, see # for a copy of the GNU General Public License # and for a copy of the Apache # License, Version 2.0. # """Tests for the line ending conversion.""" from dulwich.line_ending import ( convert_crlf_to_lf, convert_lf_to_crlf, get_checkin_filter_autocrlf, get_checkout_filter_autocrlf, normalize_blob, ) from dulwich.objects import Blob from . import TestCase class LineEndingConversion(TestCase): """Test the line ending conversion functions in various cases.""" def test_convert_crlf_to_lf_no_op(self): self.assertEqual(convert_crlf_to_lf(b"foobar"), b"foobar") def test_convert_crlf_to_lf(self): self.assertEqual(convert_crlf_to_lf(b"line1\r\nline2"), b"line1\nline2") def test_convert_crlf_to_lf_mixed(self): self.assertEqual(convert_crlf_to_lf(b"line1\r\n\nline2"), b"line1\n\nline2") def test_convert_lf_to_crlf_no_op(self): self.assertEqual(convert_lf_to_crlf(b"foobar"), b"foobar") def test_convert_lf_to_crlf(self): self.assertEqual(convert_lf_to_crlf(b"line1\nline2"), b"line1\r\nline2") def test_convert_lf_to_crlf_mixed(self): self.assertEqual(convert_lf_to_crlf(b"line1\r\n\nline2"), b"line1\r\n\r\nline2") class GetLineEndingAutocrlfFilters(TestCase): def test_get_checkin_filter_autocrlf_default(self): checkin_filter = get_checkin_filter_autocrlf(b"false") self.assertEqual(checkin_filter, None) def test_get_checkin_filter_autocrlf_true(self): checkin_filter = get_checkin_filter_autocrlf(b"true") self.assertEqual(checkin_filter, convert_crlf_to_lf) def test_get_checkin_filter_autocrlf_input(self): checkin_filter = get_checkin_filter_autocrlf(b"input") self.assertEqual(checkin_filter, convert_crlf_to_lf) def test_get_checkout_filter_autocrlf_default(self): checkout_filter = get_checkout_filter_autocrlf(b"false") self.assertEqual(checkout_filter, None) def test_get_checkout_filter_autocrlf_true(self): checkout_filter = get_checkout_filter_autocrlf(b"true") self.assertEqual(checkout_filter, convert_lf_to_crlf) def test_get_checkout_filter_autocrlf_input(self): checkout_filter = get_checkout_filter_autocrlf(b"input") self.assertEqual(checkout_filter, None) class NormalizeBlobTestCase(TestCase): def test_normalize_to_lf_no_op(self): base_content = b"line1\nline2" base_sha = "f8be7bb828880727816015d21abcbc37d033f233" base_blob = Blob() base_blob.set_raw_string(base_content) self.assertEqual(base_blob.as_raw_chunks(), [base_content]) self.assertEqual(base_blob.sha().hexdigest(), base_sha) filtered_blob = normalize_blob( base_blob, convert_crlf_to_lf, binary_detection=False ) self.assertEqual(filtered_blob.as_raw_chunks(), [base_content]) self.assertEqual(filtered_blob.sha().hexdigest(), base_sha) def test_normalize_to_lf(self): base_content = b"line1\r\nline2" base_sha = "3a1bd7a52799fe5cf6411f1d35f4c10bacb1db96" base_blob = Blob() base_blob.set_raw_string(base_content) self.assertEqual(base_blob.as_raw_chunks(), [base_content]) self.assertEqual(base_blob.sha().hexdigest(), base_sha) filtered_blob = normalize_blob( base_blob, convert_crlf_to_lf, binary_detection=False ) normalized_content = b"line1\nline2" normalized_sha = "f8be7bb828880727816015d21abcbc37d033f233" self.assertEqual(filtered_blob.as_raw_chunks(), [normalized_content]) self.assertEqual(filtered_blob.sha().hexdigest(), normalized_sha) def test_normalize_to_lf_binary(self): base_content = b"line1\r\nline2\0" base_sha = "b44504193b765f7cd79673812de8afb55b372ab2" base_blob = Blob() base_blob.set_raw_string(base_content) self.assertEqual(base_blob.as_raw_chunks(), [base_content]) self.assertEqual(base_blob.sha().hexdigest(), base_sha) filtered_blob = normalize_blob( base_blob, convert_crlf_to_lf, binary_detection=True ) self.assertEqual(filtered_blob.as_raw_chunks(), [base_content]) self.assertEqual(filtered_blob.sha().hexdigest(), base_sha) def test_normalize_to_crlf_no_op(self): base_content = b"line1\r\nline2" base_sha = "3a1bd7a52799fe5cf6411f1d35f4c10bacb1db96" base_blob = Blob() base_blob.set_raw_string(base_content) self.assertEqual(base_blob.as_raw_chunks(), [base_content]) self.assertEqual(base_blob.sha().hexdigest(), base_sha) filtered_blob = normalize_blob( base_blob, convert_lf_to_crlf, binary_detection=False ) self.assertEqual(filtered_blob.as_raw_chunks(), [base_content]) self.assertEqual(filtered_blob.sha().hexdigest(), base_sha) def test_normalize_to_crlf(self): base_content = b"line1\nline2" base_sha = "f8be7bb828880727816015d21abcbc37d033f233" base_blob = Blob() base_blob.set_raw_string(base_content) self.assertEqual(base_blob.as_raw_chunks(), [base_content]) self.assertEqual(base_blob.sha().hexdigest(), base_sha) filtered_blob = normalize_blob( base_blob, convert_lf_to_crlf, binary_detection=False ) normalized_content = b"line1\r\nline2" normalized_sha = "3a1bd7a52799fe5cf6411f1d35f4c10bacb1db96" self.assertEqual(filtered_blob.as_raw_chunks(), [normalized_content]) self.assertEqual(filtered_blob.sha().hexdigest(), normalized_sha) def test_normalize_to_crlf_binary(self): base_content = b"line1\r\nline2\0" base_sha = "b44504193b765f7cd79673812de8afb55b372ab2" base_blob = Blob() base_blob.set_raw_string(base_content) self.assertEqual(base_blob.as_raw_chunks(), [base_content]) self.assertEqual(base_blob.sha().hexdigest(), base_sha) filtered_blob = normalize_blob( base_blob, convert_lf_to_crlf, binary_detection=True ) self.assertEqual(filtered_blob.as_raw_chunks(), [base_content]) self.assertEqual(filtered_blob.sha().hexdigest(), base_sha)