# Licensed under the Apache License: http://www.apache.org/licenses/LICENSE-2.0 # For details: https://bitbucket.org/ned/coveragepy/src/default/NOTICE.txt """Tests for coverage.data""" import glob import json import os import os.path import re import mock from coverage.backward import StringIO from coverage.data import CoverageData, CoverageDataFiles, debug_main, canonicalize_json_data from coverage.debug import DebugControlString from coverage.files import PathAliases, canonical_filename from coverage.misc import CoverageException from tests.coveragetest import CoverageTest LINES_1 = { 'a.py': {1: None, 2: None}, 'b.py': {3: None}, } SUMMARY_1 = {'a.py': 2, 'b.py': 1} MEASURED_FILES_1 = ['a.py', 'b.py'] A_PY_LINES_1 = [1, 2] B_PY_LINES_1 = [3] LINES_2 = { 'a.py': {1: None, 5: None}, 'c.py': {17: None}, } SUMMARY_1_2 = {'a.py': 3, 'b.py': 1, 'c.py': 1} MEASURED_FILES_1_2 = ['a.py', 'b.py', 'c.py'] ARCS_3 = { 'x.py': { (-1, 1): None, (1, 2): None, (2, 3): None, (3, -1): None, }, 'y.py': { (-1, 17): None, (17, 23): None, (23, -1): None, }, } X_PY_ARCS_3 = [(-1, 1), (1, 2), (2, 3), (3, -1)] Y_PY_ARCS_3 = [(-1, 17), (17, 23), (23, -1)] SUMMARY_3 = {'x.py': 3, 'y.py': 2} MEASURED_FILES_3 = ['x.py', 'y.py'] X_PY_LINES_3 = [1, 2, 3] Y_PY_LINES_3 = [17, 23] ARCS_4 = { 'x.py': { (-1, 2): None, (2, 5): None, (5, -1): None, }, 'z.py': { (-1, 1000): None, (1000, -1): None, }, } SUMMARY_3_4 = {'x.py': 4, 'y.py': 2, 'z.py': 1} MEASURED_FILES_3_4 = ['x.py', 'y.py', 'z.py'] class DataTestHelpers(CoverageTest): """Test helpers for data tests.""" def assert_line_counts(self, covdata, line_counts, fullpath=False): """Check that the line_counts of `covdata` is `line_counts`.""" self.assertEqual(covdata.line_counts(fullpath), line_counts) def assert_measured_files(self, covdata, measured): """Check that `covdata`'s measured files are `measured`.""" self.assertCountEqual(covdata.measured_files(), measured) def assert_lines1_data(self, covdata): """Check that `covdata` has the data from LINES1.""" self.assert_line_counts(covdata, SUMMARY_1) self.assert_measured_files(covdata, MEASURED_FILES_1) self.assertCountEqual(covdata.lines("a.py"), A_PY_LINES_1) self.assertEqual(covdata.run_infos(), []) self.assertFalse(covdata.has_arcs()) def assert_arcs3_data(self, covdata): """Check that `covdata` has the data from ARCS3.""" self.assert_line_counts(covdata, SUMMARY_3) self.assert_measured_files(covdata, MEASURED_FILES_3) self.assertCountEqual(covdata.lines("x.py"), X_PY_LINES_3) self.assertCountEqual(covdata.arcs("x.py"), X_PY_ARCS_3) self.assertCountEqual(covdata.lines("y.py"), Y_PY_LINES_3) self.assertCountEqual(covdata.arcs("y.py"), Y_PY_ARCS_3) self.assertTrue(covdata.has_arcs()) self.assertEqual(covdata.run_infos(), []) class CoverageDataTest(DataTestHelpers, CoverageTest): """Test cases for CoverageData.""" run_in_temp_dir = False def test_empty_data_is_false(self): covdata = CoverageData() self.assertFalse(covdata) def test_line_data_is_true(self): covdata = CoverageData() covdata.add_lines(LINES_1) self.assertTrue(covdata) def test_arc_data_is_true(self): covdata = CoverageData() covdata.add_arcs(ARCS_3) self.assertTrue(covdata) def test_empty_line_data_is_false(self): covdata = CoverageData() covdata.add_lines({}) self.assertFalse(covdata) def test_empty_arc_data_is_false(self): covdata = CoverageData() covdata.add_arcs({}) self.assertFalse(covdata) def test_adding_lines(self): covdata = CoverageData() covdata.add_lines(LINES_1) self.assert_lines1_data(covdata) def test_adding_arcs(self): covdata = CoverageData() covdata.add_arcs(ARCS_3) self.assert_arcs3_data(covdata) def test_ok_to_add_lines_twice(self): covdata = CoverageData() covdata.add_lines(LINES_1) covdata.add_lines(LINES_2) self.assert_line_counts(covdata, SUMMARY_1_2) self.assert_measured_files(covdata, MEASURED_FILES_1_2) def test_ok_to_add_arcs_twice(self): covdata = CoverageData() covdata.add_arcs(ARCS_3) covdata.add_arcs(ARCS_4) self.assert_line_counts(covdata, SUMMARY_3_4) self.assert_measured_files(covdata, MEASURED_FILES_3_4) def test_cant_add_arcs_with_lines(self): covdata = CoverageData() covdata.add_lines(LINES_1) with self.assertRaisesRegex(CoverageException, "Can't add arcs to existing line data"): covdata.add_arcs(ARCS_3) def test_cant_add_lines_with_arcs(self): covdata = CoverageData() covdata.add_arcs(ARCS_3) with self.assertRaisesRegex(CoverageException, "Can't add lines to existing arc data"): covdata.add_lines(LINES_1) def test_touch_file_with_lines(self): covdata = CoverageData() covdata.add_lines(LINES_1) covdata.touch_file('zzz.py') self.assert_measured_files(covdata, MEASURED_FILES_1 + ['zzz.py']) def test_touch_file_with_arcs(self): covdata = CoverageData() covdata.add_arcs(ARCS_3) covdata.touch_file('zzz.py') self.assert_measured_files(covdata, MEASURED_FILES_3 + ['zzz.py']) def test_no_lines_vs_unmeasured_file(self): covdata = CoverageData() covdata.add_lines(LINES_1) covdata.touch_file('zzz.py') self.assertEqual(covdata.lines('zzz.py'), []) self.assertIsNone(covdata.lines('no_such_file.py')) def test_run_info(self): covdata = CoverageData() self.assertEqual(covdata.run_infos(), []) covdata.add_run_info(hello="there") self.assertEqual(covdata.run_infos(), [{"hello": "there"}]) covdata.add_run_info(count=17) self.assertEqual(covdata.run_infos(), [{"hello": "there", "count": 17}]) def test_no_arcs_vs_unmeasured_file(self): covdata = CoverageData() covdata.add_arcs(ARCS_3) covdata.touch_file('zzz.py') self.assertEqual(covdata.lines('zzz.py'), []) self.assertIsNone(covdata.lines('no_such_file.py')) self.assertEqual(covdata.arcs('zzz.py'), []) self.assertIsNone(covdata.arcs('no_such_file.py')) def test_file_tracer_name(self): covdata = CoverageData() covdata.add_lines({ "p1.foo": dict.fromkeys([1, 2, 3]), "p2.html": dict.fromkeys([10, 11, 12]), "main.py": dict.fromkeys([20]), }) covdata.add_file_tracers({"p1.foo": "p1.plugin", "p2.html": "p2.plugin"}) self.assertEqual(covdata.file_tracer("p1.foo"), "p1.plugin") self.assertEqual(covdata.file_tracer("main.py"), "") self.assertIsNone(covdata.file_tracer("p3.not_here")) def test_cant_file_tracer_unmeasured_files(self): covdata = CoverageData() msg = "Can't add file tracer data for unmeasured file 'p1.foo'" with self.assertRaisesRegex(CoverageException, msg): covdata.add_file_tracers({"p1.foo": "p1.plugin"}) covdata.add_lines({"p2.html": dict.fromkeys([10, 11, 12])}) with self.assertRaisesRegex(CoverageException, msg): covdata.add_file_tracers({"p1.foo": "p1.plugin"}) def test_cant_change_file_tracer_name(self): covdata = CoverageData() covdata.add_lines({"p1.foo": dict.fromkeys([1, 2, 3])}) covdata.add_file_tracers({"p1.foo": "p1.plugin"}) msg = "Conflicting file tracer name for 'p1.foo': 'p1.plugin' vs 'p1.plugin.foo'" with self.assertRaisesRegex(CoverageException, msg): covdata.add_file_tracers({"p1.foo": "p1.plugin.foo"}) def test_update_lines(self): covdata1 = CoverageData() covdata1.add_lines(LINES_1) covdata2 = CoverageData() covdata2.add_lines(LINES_2) covdata3 = CoverageData() covdata3.update(covdata1) covdata3.update(covdata2) self.assert_line_counts(covdata3, SUMMARY_1_2) self.assert_measured_files(covdata3, MEASURED_FILES_1_2) self.assertEqual(covdata3.run_infos(), []) def test_update_arcs(self): covdata1 = CoverageData() covdata1.add_arcs(ARCS_3) covdata2 = CoverageData() covdata2.add_arcs(ARCS_4) covdata3 = CoverageData() covdata3.update(covdata1) covdata3.update(covdata2) self.assert_line_counts(covdata3, SUMMARY_3_4) self.assert_measured_files(covdata3, MEASURED_FILES_3_4) self.assertEqual(covdata3.run_infos(), []) def test_update_run_info(self): covdata1 = CoverageData() covdata1.add_arcs(ARCS_3) covdata1.add_run_info(hello="there", count=17) covdata2 = CoverageData() covdata2.add_arcs(ARCS_4) covdata2.add_run_info(hello="goodbye", count=23) covdata3 = CoverageData() covdata3.update(covdata1) covdata3.update(covdata2) self.assertEqual(covdata3.run_infos(), [ {'hello': 'there', 'count': 17}, {'hello': 'goodbye', 'count': 23}, ]) def test_update_cant_mix_lines_and_arcs(self): covdata1 = CoverageData() covdata1.add_lines(LINES_1) covdata2 = CoverageData() covdata2.add_arcs(ARCS_3) with self.assertRaisesRegex(CoverageException, "Can't combine arc data with line data"): covdata1.update(covdata2) with self.assertRaisesRegex(CoverageException, "Can't combine line data with arc data"): covdata2.update(covdata1) def test_update_file_tracers(self): covdata1 = CoverageData() covdata1.add_lines({ "p1.html": dict.fromkeys([1, 2, 3, 4]), "p2.html": dict.fromkeys([5, 6, 7]), "main.py": dict.fromkeys([10, 11, 12]), }) covdata1.add_file_tracers({ "p1.html": "html.plugin", "p2.html": "html.plugin2", }) covdata2 = CoverageData() covdata2.add_lines({ "p1.html": dict.fromkeys([3, 4, 5, 6]), "p2.html": dict.fromkeys([7, 8, 9]), "p3.foo": dict.fromkeys([1000, 1001]), "main.py": dict.fromkeys([10, 11, 12]), }) covdata2.add_file_tracers({ "p1.html": "html.plugin", "p2.html": "html.plugin2", "p3.foo": "foo_plugin", }) covdata3 = CoverageData() covdata3.update(covdata1) covdata3.update(covdata2) self.assertEqual(covdata3.file_tracer("p1.html"), "html.plugin") self.assertEqual(covdata3.file_tracer("p2.html"), "html.plugin2") self.assertEqual(covdata3.file_tracer("p3.foo"), "foo_plugin") self.assertEqual(covdata3.file_tracer("main.py"), "") def test_update_conflicting_file_tracers(self): covdata1 = CoverageData() covdata1.add_lines({"p1.html": dict.fromkeys([1, 2, 3])}) covdata1.add_file_tracers({"p1.html": "html.plugin"}) covdata2 = CoverageData() covdata2.add_lines({"p1.html": dict.fromkeys([1, 2, 3])}) covdata2.add_file_tracers({"p1.html": "html.other_plugin"}) msg = "Conflicting file tracer name for 'p1.html': 'html.plugin' vs 'html.other_plugin'" with self.assertRaisesRegex(CoverageException, msg): covdata1.update(covdata2) msg = "Conflicting file tracer name for 'p1.html': 'html.other_plugin' vs 'html.plugin'" with self.assertRaisesRegex(CoverageException, msg): covdata2.update(covdata1) def test_update_file_tracer_vs_no_file_tracer(self): covdata1 = CoverageData() covdata1.add_lines({"p1.html": dict.fromkeys([1, 2, 3])}) covdata1.add_file_tracers({"p1.html": "html.plugin"}) covdata2 = CoverageData() covdata2.add_lines({"p1.html": dict.fromkeys([1, 2, 3])}) msg = "Conflicting file tracer name for 'p1.html': 'html.plugin' vs ''" with self.assertRaisesRegex(CoverageException, msg): covdata1.update(covdata2) msg = "Conflicting file tracer name for 'p1.html': '' vs 'html.plugin'" with self.assertRaisesRegex(CoverageException, msg): covdata2.update(covdata1) def test_add_to_hash_with_lines(self): covdata = CoverageData() covdata.add_lines(LINES_1) hasher = mock.Mock() covdata.add_to_hash("a.py", hasher) self.assertEqual(hasher.method_calls, [ mock.call.update([1, 2]), # lines mock.call.update(""), # file_tracer name ]) def test_add_to_hash_with_arcs(self): covdata = CoverageData() covdata.add_arcs(ARCS_3) covdata.add_file_tracers({"y.py": "hologram_plugin"}) hasher = mock.Mock() covdata.add_to_hash("y.py", hasher) self.assertEqual(hasher.method_calls, [ mock.call.update([(-1, 17), (17, 23), (23, -1)]), # arcs mock.call.update("hologram_plugin"), # file_tracer name ]) def test_add_to_lines_hash_with_missing_file(self): # https://bitbucket.org/ned/coveragepy/issues/403 covdata = CoverageData() covdata.add_lines(LINES_1) hasher = mock.Mock() covdata.add_to_hash("missing.py", hasher) self.assertEqual(hasher.method_calls, [ mock.call.update([]), mock.call.update(None), ]) def test_add_to_arcs_hash_with_missing_file(self): # https://bitbucket.org/ned/coveragepy/issues/403 covdata = CoverageData() covdata.add_arcs(ARCS_3) covdata.add_file_tracers({"y.py": "hologram_plugin"}) hasher = mock.Mock() covdata.add_to_hash("missing.py", hasher) self.assertEqual(hasher.method_calls, [ mock.call.update([]), mock.call.update(None), ]) def test_empty_lines_are_still_lines(self): covdata = CoverageData() covdata.add_lines({}) covdata.touch_file("abc.py") self.assertFalse(covdata.has_arcs()) def test_empty_arcs_are_still_arcs(self): covdata = CoverageData() covdata.add_arcs({}) covdata.touch_file("abc.py") self.assertTrue(covdata.has_arcs()) def test_read_and_write_are_opposites(self): covdata1 = CoverageData() covdata1.add_arcs(ARCS_3) stringio = StringIO() covdata1.write_fileobj(stringio) stringio.seek(0) covdata2 = CoverageData() covdata2.read_fileobj(stringio) self.assert_arcs3_data(covdata2) class CoverageDataTestInTempDir(DataTestHelpers, CoverageTest): """Tests of CoverageData that need a temporary directory to make files.""" def test_read_write_lines(self): covdata1 = CoverageData() covdata1.add_lines(LINES_1) covdata1.write_file("lines.dat") covdata2 = CoverageData() covdata2.read_file("lines.dat") self.assert_lines1_data(covdata2) def test_read_write_arcs(self): covdata1 = CoverageData() covdata1.add_arcs(ARCS_3) covdata1.write_file("arcs.dat") covdata2 = CoverageData() covdata2.read_file("arcs.dat") self.assert_arcs3_data(covdata2) def test_read_errors(self): covdata = CoverageData() msg = r"Couldn't read data from '{0}': \S+" self.make_file("xyzzy.dat", "xyzzy") with self.assertRaisesRegex(CoverageException, msg.format("xyzzy.dat")): covdata.read_file("xyzzy.dat") self.make_file("empty.dat", "") with self.assertRaisesRegex(CoverageException, msg.format("empty.dat")): covdata.read_file("empty.dat") with self.assertRaisesRegex(CoverageException, msg.format("nonexistent.dat")): covdata.read_file("nonexistent.dat") self.make_file("misleading.dat", CoverageData._GO_AWAY + " this isn't JSON") with self.assertRaisesRegex(CoverageException, msg.format("misleading.dat")): covdata.read_file("misleading.dat") # After all that, no data should be in our CoverageData. self.assertFalse(covdata) def test_debug_main(self): covdata1 = CoverageData() covdata1.add_lines(LINES_1) covdata1.write_file(".coverage") debug_main([]) covdata2 = CoverageData() covdata2.add_arcs(ARCS_3) covdata2.add_file_tracers({"y.py": "magic_plugin"}) covdata2.add_run_info(version="v3.14", chunks=["z", "a"]) covdata2.write_file("arcs.dat") covdata3 = CoverageData() covdata3.write_file("empty.dat") debug_main(["arcs.dat", "empty.dat"]) expected = { ".coverage": { "lines": { "a.py": [1, 2], "b.py": [3], }, }, "arcs.dat": { "arcs": { "x.py": [[-1, 1], [1, 2], [2, 3], [3, -1]], "y.py": [[-1, 17], [17, 23], [23, -1]], }, "file_tracers": {"y.py": "magic_plugin"}, "runs": [ { "chunks": ["z", "a"], "version": "v3.14", }, ], }, "empty.dat": {}, } pieces = re.split(r"(?m)-+ ([\w.]+) -+$", self.stdout()) for name, json_out in zip(pieces[1::2], pieces[2::2]): json_got = json.loads(json_out) canonicalize_json_data(json_got) self.assertEqual(expected[name], json_got) class CoverageDataFilesTest(DataTestHelpers, CoverageTest): """Tests of CoverageDataFiles.""" no_files_in_temp_dir = True def setUp(self): super(CoverageDataFilesTest, self).setUp() self.data_files = CoverageDataFiles() def test_reading_missing(self): self.assert_doesnt_exist(".coverage") covdata = CoverageData() self.data_files.read(covdata) self.assert_line_counts(covdata, {}) def test_writing_and_reading(self): covdata1 = CoverageData() covdata1.add_lines(LINES_1) self.data_files.write(covdata1) covdata2 = CoverageData() self.data_files.read(covdata2) self.assert_line_counts(covdata2, SUMMARY_1) def test_debug_output_with_debug_option(self): # With debug option dataio, we get debug output about reading and # writing files. debug = DebugControlString(options=["dataio"]) covdata1 = CoverageData(debug=debug) covdata1.add_lines(LINES_1) self.data_files.write(covdata1) covdata2 = CoverageData(debug=debug) self.data_files.read(covdata2) self.assert_line_counts(covdata2, SUMMARY_1) self.assertRegex( debug.get_output(), r"^Writing data to '.*\.coverage'\n" r"Reading data from '.*\.coverage'\n$" ) def test_debug_output_without_debug_option(self): # With a debug object, but not the dataio option, we don't get debug # output. debug = DebugControlString(options=[]) covdata1 = CoverageData(debug=debug) covdata1.add_lines(LINES_1) self.data_files.write(covdata1) covdata2 = CoverageData(debug=debug) self.data_files.read(covdata2) self.assert_line_counts(covdata2, SUMMARY_1) self.assertEqual(debug.get_output(), "") def test_explicit_suffix(self): self.assert_doesnt_exist(".coverage.SUFFIX") covdata = CoverageData() covdata.add_lines(LINES_1) self.data_files.write(covdata, suffix='SUFFIX') self.assert_exists(".coverage.SUFFIX") self.assert_doesnt_exist(".coverage") def test_true_suffix(self): self.assertEqual(glob.glob(".coverage.*"), []) # suffix=True will make a randomly named data file. covdata1 = CoverageData() covdata1.add_lines(LINES_1) self.data_files.write(covdata1, suffix=True) self.assert_doesnt_exist(".coverage") data_files1 = glob.glob(".coverage.*") self.assertEqual(len(data_files1), 1) # Another suffix=True will choose a different name. covdata2 = CoverageData() covdata2.add_lines(LINES_1) self.data_files.write(covdata2, suffix=True) self.assert_doesnt_exist(".coverage") data_files2 = glob.glob(".coverage.*") self.assertEqual(len(data_files2), 2) # In addition to being different, the suffixes have the pid in them. self.assertTrue(all(str(os.getpid()) in fn for fn in data_files2)) def test_combining(self): self.assert_doesnt_exist(".coverage.1") self.assert_doesnt_exist(".coverage.2") covdata1 = CoverageData() covdata1.add_lines(LINES_1) self.data_files.write(covdata1, suffix='1') self.assert_exists(".coverage.1") self.assert_doesnt_exist(".coverage.2") covdata2 = CoverageData() covdata2.add_lines(LINES_2) self.data_files.write(covdata2, suffix='2') self.assert_exists(".coverage.2") covdata3 = CoverageData() self.data_files.combine_parallel_data(covdata3) self.assert_line_counts(covdata3, SUMMARY_1_2) self.assert_measured_files(covdata3, MEASURED_FILES_1_2) self.assert_doesnt_exist(".coverage.1") self.assert_doesnt_exist(".coverage.2") def test_erasing(self): covdata1 = CoverageData() covdata1.add_lines(LINES_1) self.data_files.write(covdata1) covdata1.erase() self.assert_line_counts(covdata1, {}) self.data_files.erase() covdata2 = CoverageData() self.data_files.read(covdata2) self.assert_line_counts(covdata2, {}) def test_erasing_parallel(self): self.make_file("datafile.1") self.make_file("datafile.2") self.make_file(".coverage") data_files = CoverageDataFiles("datafile") data_files.erase(parallel=True) self.assert_doesnt_exist("datafile.1") self.assert_doesnt_exist("datafile.2") self.assert_exists(".coverage") def read_json_data_file(self, fname): """Read a JSON data file for testing the JSON directly.""" with open(fname, 'r') as fdata: go_away = fdata.read(len(CoverageData._GO_AWAY)) self.assertEqual(go_away, CoverageData._GO_AWAY) return json.load(fdata) def test_file_format(self): # Write with CoverageData, then read the JSON explicitly. covdata = CoverageData() covdata.add_lines(LINES_1) self.data_files.write(covdata) data = self.read_json_data_file(".coverage") lines = data['lines'] self.assertCountEqual(lines.keys(), MEASURED_FILES_1) self.assertCountEqual(lines['a.py'], A_PY_LINES_1) self.assertCountEqual(lines['b.py'], B_PY_LINES_1) # If not measuring branches, there's no arcs entry. self.assertNotIn('arcs', data) # If no file tracers were involved, there's no file_tracers entry. self.assertNotIn('file_tracers', data) def test_file_format_with_arcs(self): # Write with CoverageData, then read the JSON explicitly. covdata = CoverageData() covdata.add_arcs(ARCS_3) self.data_files.write(covdata) data = self.read_json_data_file(".coverage") self.assertNotIn('lines', data) arcs = data['arcs'] self.assertCountEqual(arcs.keys(), MEASURED_FILES_3) self.assertCountEqual(arcs['x.py'], map(list, X_PY_ARCS_3)) self.assertCountEqual(arcs['y.py'], map(list, Y_PY_ARCS_3)) # If no file tracers were involved, there's no file_tracers entry. self.assertNotIn('file_tracers', data) def test_writing_to_other_file(self): data_files = CoverageDataFiles(".otherfile") covdata = CoverageData() covdata.add_lines(LINES_1) data_files.write(covdata) self.assert_doesnt_exist(".coverage") self.assert_exists(".otherfile") data_files.write(covdata, suffix="extra") self.assert_exists(".otherfile.extra") self.assert_doesnt_exist(".coverage") def test_combining_with_aliases(self): covdata1 = CoverageData() covdata1.add_lines({ '/home/ned/proj/src/a.py': {1: None, 2: None}, '/home/ned/proj/src/sub/b.py': {3: None}, '/home/ned/proj/src/template.html': {10: None}, }) covdata1.add_file_tracers({ '/home/ned/proj/src/template.html': 'html.plugin', }) self.data_files.write(covdata1, suffix='1') covdata2 = CoverageData() covdata2.add_lines({ r'c:\ned\test\a.py': {4: None, 5: None}, r'c:\ned\test\sub\b.py': {3: None, 6: None}, }) self.data_files.write(covdata2, suffix='2') covdata3 = CoverageData() aliases = PathAliases() aliases.add("/home/ned/proj/src/", "./") aliases.add(r"c:\ned\test", "./") self.data_files.combine_parallel_data(covdata3, aliases=aliases) apy = canonical_filename('./a.py') sub_bpy = canonical_filename('./sub/b.py') template_html = canonical_filename('./template.html') self.assert_line_counts(covdata3, {apy: 4, sub_bpy: 2, template_html: 1}, fullpath=True) self.assert_measured_files(covdata3, [apy, sub_bpy, template_html]) self.assertEqual(covdata3.file_tracer(template_html), 'html.plugin') def test_combining_from_different_directories(self): covdata1 = CoverageData() covdata1.add_lines(LINES_1) os.makedirs('cov1') covdata1.write_file('cov1/.coverage.1') covdata2 = CoverageData() covdata2.add_lines(LINES_2) os.makedirs('cov2') covdata2.write_file('cov2/.coverage.2') # This data won't be included. covdata_xxx = CoverageData() covdata_xxx.add_arcs(ARCS_3) covdata_xxx.write_file('.coverage.xxx') covdata3 = CoverageData() self.data_files.combine_parallel_data(covdata3, data_paths=['cov1', 'cov2']) self.assert_line_counts(covdata3, SUMMARY_1_2) self.assert_measured_files(covdata3, MEASURED_FILES_1_2) self.assert_doesnt_exist("cov1/.coverage.1") self.assert_doesnt_exist("cov2/.coverage.2") self.assert_exists(".coverage.xxx") def test_combining_from_files(self): covdata1 = CoverageData() covdata1.add_lines(LINES_1) os.makedirs('cov1') covdata1.write_file('cov1/.coverage.1') covdata2 = CoverageData() covdata2.add_lines(LINES_2) os.makedirs('cov2') covdata2.write_file('cov2/.coverage.2') # This data won't be included. covdata_xxx = CoverageData() covdata_xxx.add_arcs(ARCS_3) covdata_xxx.write_file('.coverage.xxx') covdata_xxx.write_file('cov2/.coverage.xxx') covdata3 = CoverageData() self.data_files.combine_parallel_data(covdata3, data_paths=['cov1', 'cov2/.coverage.2']) self.assert_line_counts(covdata3, SUMMARY_1_2) self.assert_measured_files(covdata3, MEASURED_FILES_1_2) self.assert_doesnt_exist("cov1/.coverage.1") self.assert_doesnt_exist("cov2/.coverage.2") self.assert_exists(".coverage.xxx") self.assert_exists("cov2/.coverage.xxx") def test_combining_from_nonexistent_directories(self): covdata = CoverageData() msg = "Couldn't combine from non-existent path 'xyzzy'" with self.assertRaisesRegex(CoverageException, msg): self.data_files.combine_parallel_data(covdata, data_paths=['xyzzy'])