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5af4b0792f
r276409 changed the coverage summary format. Update the script so that it can parse the new output, and incorporate the new information into its warnings. llvm-svn: 276446
140 lines
5.1 KiB
Python
Executable File
140 lines
5.1 KiB
Python
Executable File
#!/usr/bin/env python
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'''Compare two coverage summaries for regressions.
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You can create a coverage summary by using the `llvm-cov report` command.
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Alternatively, you can use `utils/prepare-code-coverage-artifact.py` which
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creates summaries as well as file-based html reports.
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'''
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from __future__ import print_function
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import argparse
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import collections
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import re
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import sys
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# This threshold must be in [0, 1]. The lower the threshold, the less likely
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# it is that a regression will be flagged and vice versa.
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kThresh = 1.0
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FileCoverage = collections.namedtuple('FileCoverage',
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['Regions', 'MissedRegions', 'RegionCoverage',
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'Functions', 'MissedFunctions', 'Executed',
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'Lines', 'MissedLines', 'LineCoverage'])
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CoverageEntry = re.compile(r'^(.*)'
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r' +(\d+) +(\d+) +([\d.]+)%'
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r' +(\d+) +(\d+) +([\d.]+)%'
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r' +(\d+) +(\d+) +([\d.]+)%$')
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def parse_file_coverage_line(line):
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'''Parse @line as a summary of a file's coverage information.
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>>> parse_file_coverage_line('report.cpp 5 2 60.00% 4 1 75.00% 13 4 69.23%')
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('report.cpp', FileCoverage(\
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Regions=5, MissedRegions=2, RegionCoverage=60.0, \
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Functions=4, MissedFunctions=1, Executed=75.0, \
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Lines=13, MissedLines=4, LineCoverage=69.23))
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'''
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m = re.match(CoverageEntry, line)
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if not m:
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print("Could not read coverage summary:", line)
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exit(1)
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groups = m.groups()
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filename = groups[0].strip()
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regions = int(groups[1])
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missed_regions = int(groups[2])
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region_coverage = float(groups[3])
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functions = int(groups[4])
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missed_functions = int(groups[5])
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executed = float(groups[6])
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lines = int(groups[7])
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missed_lines = int(groups[8])
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line_coverage = float(groups[9])
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return (filename,
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FileCoverage(regions, missed_regions, region_coverage,
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functions, missed_functions, executed,
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lines, missed_lines, line_coverage))
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def parse_summary(path):
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'''Parse the summary at @path. Return a dictionary mapping filenames to
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FileCoverage instances.'''
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with open(path, 'r') as f:
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lines = f.readlines()
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# Drop the header and the cell dividers. Include "TOTAL" in this list.
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file_coverages = lines[2:-2] + [lines[-1]]
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summary = {}
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for line in file_coverages:
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filename, fc = parse_file_coverage_line(line)
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summary[filename] = fc
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return summary
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def find_coverage_regressions(old_coverage, new_coverage):
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'''Given two coverage summaries, generate coverage regressions of the form:
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(filename, old FileCoverage, new FileCoverage).'''
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for filename in old_coverage.keys():
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if filename not in new_coverage:
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continue
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old_fc = old_coverage[filename]
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new_fc = new_coverage[filename]
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if new_fc.RegionCoverage < kThresh * old_fc.RegionCoverage or \
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new_fc.Executed < kThresh * old_fc.Executed:
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yield (filename, old_fc, new_fc)
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def print_regression(filename, old_fc, new_fc):
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'''Pretty-print a coverage regression in @filename. @old_fc is the old
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FileCoverage and @new_fc is the new one.
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>>> print_regression('foo.cpp', \
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FileCoverage(10, 5, 50.0, 10, 10, 0, 20, 10, 50.0), \
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FileCoverage(10, 7, 30.0, 10, 10, 0, 20, 14, 30.0))
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Code coverage regression:
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File: foo.cpp
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Change in function coverage: 0.00% (0/10 -> 0/10)
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Change in line coverage : -20.00% (10/20 -> 6/20)
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Change in region coverage : -20.00% (5/10 -> 3/10)
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'''
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func_coverage_delta = new_fc.Executed - old_fc.Executed
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line_coverage_delta = new_fc.LineCoverage - old_fc.LineCoverage
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region_coverage_delta = new_fc.RegionCoverage - old_fc.RegionCoverage
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print("Code coverage regression:")
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print(" File:", filename)
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print(" Change in function coverage: {0:.2f}% ({1}/{2} -> {3}/{4})".format(
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func_coverage_delta, old_fc.Functions - old_fc.MissedFunctions,
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old_fc.Functions, new_fc.Functions - new_fc.MissedFunctions,
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new_fc.Functions))
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print(" Change in line coverage : {0:.2f}% ({1}/{2} -> {3}/{4})".format(
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line_coverage_delta, old_fc.Lines - old_fc.MissedLines, old_fc.Lines,
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new_fc.Lines - new_fc.MissedLines, new_fc.Lines))
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print(" Change in region coverage : {0:.2f}% ({1}/{2} -> {3}/{4})".format(
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region_coverage_delta, old_fc.Regions - old_fc.MissedRegions,
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old_fc.Regions, new_fc.Regions - new_fc.MissedRegions, new_fc.Regions))
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if __name__ == '__main__':
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parser = argparse.ArgumentParser(description=__doc__)
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parser.add_argument('old_summary', help='Path to the old coverage summary')
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parser.add_argument('new_summary', help='Path to the new coverage summary')
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args = parser.parse_args()
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old_coverage = parse_summary(args.old_summary)
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new_coverage = parse_summary(args.new_summary)
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num_regressions = 0
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for filename, old_fc, new_fc in \
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find_coverage_regressions(old_coverage, new_coverage):
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print_regression(filename, old_fc, new_fc)
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num_regressions += 1
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if num_regressions > 0:
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exit(1)
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exit(0)
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