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# Copyright 2016 the V8 project authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
# Requires python-coverage. Native python coverage version >= 3.7.1 should
# be installed to get the best speed.
import copy
import coverage
import logging
import json
import os
import shutil
import sys
import tempfile
import unittest
# Directory of this file.
LOCATION = os.path.dirname(os.path.abspath(__file__))
# V8 checkout directory.
BASE_DIR = os.path.dirname(os.path.dirname(LOCATION))
# Executable location.
BUILD_DIR = os.path.join(BASE_DIR, 'out', 'Release')
def abs_line(line):
"""Absolute paths as output by the llvm symbolizer."""
return '%s/%s' % (BUILD_DIR, line)
#------------------------------------------------------------------------------
# Data for test_process_symbolizer_output. This simulates output from the
# llvm symbolizer. The paths are not normlized.
SYMBOLIZER_OUTPUT = (
abs_line('../../src/foo.cc:87:7\n') +
abs_line('../../src/foo.cc:92:0\n') + # Test sorting.
abs_line('../../src/baz/bar.h:1234567:0\n') + # Test large line numbers.
abs_line('../../src/foo.cc:92:0\n') + # Test duplicates.
abs_line('../../src/baz/bar.h:0:0\n') + # Test subdirs.
'/usr/include/cool_stuff.h:14:2\n' + # Test dropping absolute paths.
abs_line('../../src/foo.cc:87:10\n') + # Test dropping character indexes.
abs_line('../../third_party/icu.cc:0:0\n') + # Test dropping excluded dirs.
abs_line('../../src/baz/bar.h:11:0\n')
)
# The expected post-processed output maps relative file names to line numbers.
# The numbers are sorted and unique.
EXPECTED_PROCESSED_OUTPUT = {
'src/baz/bar.h': [0, 11, 1234567],
'src/foo.cc': [87, 92],
}
#------------------------------------------------------------------------------
# Data for test_merge_instrumented_line_results. A list of absolute paths to
# all executables.
EXE_LIST = [
'/path/to/d8',
'/path/to/cctest',
'/path/to/unittests',
]
# Post-processed llvm symbolizer output as returned by
# process_symbolizer_output. These are lists of this output for merging.
INSTRUMENTED_LINE_RESULTS = [
{
'src/baz/bar.h': [0, 3, 7],
'src/foo.cc': [11],
},
{
'src/baz/bar.h': [3, 7, 8],
'src/baz.cc': [2],
'src/foo.cc': [1, 92],
},
{
'src/baz.cc': [1],
'src/foo.cc': [92, 93],
},
]
# This shows initial instrumentation. No lines are covered, hence,
# the coverage mask is 0 for all lines. The line tuples remain sorted by
# line number and contain no duplicates.
EXPECTED_INSTRUMENTED_LINES_DATA = {
'version': 1,
'tests': ['cctest', 'd8', 'unittests'],
'files': {
'src/baz/bar.h': [[0, 0], [3, 0], [7, 0], [8, 0]],
'src/baz.cc': [[1, 0], [2, 0]],
'src/foo.cc': [[1, 0], [11, 0], [92, 0], [93, 0]],
},
}
#------------------------------------------------------------------------------
# Data for test_merge_covered_line_results. List of post-processed
# llvm-symbolizer output as a tuple including the executable name of each data
# set.
COVERED_LINE_RESULTS = [
({
'src/baz/bar.h': [3, 7],
'src/foo.cc': [11],
}, 'd8'),
({
'src/baz/bar.h': [3, 7],
'src/baz.cc': [2],
'src/foo.cc': [1],
}, 'cctest'),
({
'src/foo.cc': [92],
'src/baz.cc': [2],
}, 'unittests'),
]
# This shows initial instrumentation + coverage. The mask bits are:
# cctest: 1, d8: 2, unittests:4. So a line covered by cctest and unittests
# has a coverage mask of 0b101, e.g. line 2 in src/baz.cc.
EXPECTED_COVERED_LINES_DATA = {
'version': 1,
'tests': ['cctest', 'd8', 'unittests'],
'files': {
'src/baz/bar.h': [[0, 0b0], [3, 0b11], [7, 0b11], [8, 0b0]],
'src/baz.cc': [[1, 0b0], [2, 0b101]],
'src/foo.cc': [[1, 0b1], [11, 0b10], [92, 0b100], [93, 0b0]],
},
}
#------------------------------------------------------------------------------
# Data for test_split.
EXPECTED_SPLIT_FILES = [
(
os.path.join('src', 'baz', 'bar.h.json'),
{
'version': 1,
'tests': ['cctest', 'd8', 'unittests'],
'files': {
'src/baz/bar.h': [[0, 0b0], [3, 0b11], [7, 0b11], [8, 0b0]],
},
},
),
(
os.path.join('src', 'baz.cc.json'),
{
'version': 1,
'tests': ['cctest', 'd8', 'unittests'],
'files': {
'src/baz.cc': [[1, 0b0], [2, 0b101]],
},
},
),
(
os.path.join('src', 'foo.cc.json'),
{
'version': 1,
'tests': ['cctest', 'd8', 'unittests'],
'files': {
'src/foo.cc': [[1, 0b1], [11, 0b10], [92, 0b100], [93, 0b0]],
},
},
),
]
class FormatterTests(unittest.TestCase):
@classmethod
def setUpClass(cls):
sys.path.append(LOCATION)
cls._cov = coverage.coverage(
include=([os.path.join(LOCATION, 'sancov_formatter.py')]))
cls._cov.start()
import sancov_formatter
global sancov_formatter
@classmethod
def tearDownClass(cls):
cls._cov.stop()
cls._cov.report()
def test_process_symbolizer_output(self):
result = sancov_formatter.process_symbolizer_output(SYMBOLIZER_OUTPUT)
self.assertEquals(EXPECTED_PROCESSED_OUTPUT, result)
def test_merge_instrumented_line_results(self):
result = sancov_formatter.merge_instrumented_line_results(
EXE_LIST, INSTRUMENTED_LINE_RESULTS)
self.assertEquals(EXPECTED_INSTRUMENTED_LINES_DATA, result)
def test_merge_covered_line_results(self):
data = copy.deepcopy(EXPECTED_INSTRUMENTED_LINES_DATA)
sancov_formatter.merge_covered_line_results(
data, COVERED_LINE_RESULTS)
self.assertEquals(EXPECTED_COVERED_LINES_DATA, data)
def test_split(self):
_, json_input = tempfile.mkstemp(prefix='tmp_coverage_test_split')
with open(json_input, 'w') as f:
json.dump(EXPECTED_COVERED_LINES_DATA, f)
output_dir = tempfile.mkdtemp(prefix='tmp_coverage_test_split')
try:
sancov_formatter.main([
'split',
'--json-input', json_input,
'--output-dir', output_dir,
])
for file_name, expected_data in EXPECTED_SPLIT_FILES:
full_path = os.path.join(output_dir, file_name)
self.assertTrue(os.path.exists(full_path))
with open(full_path) as f:
self.assertEquals(expected_data, json.load(f))
finally:
os.remove(json_input)
shutil.rmtree(output_dir)