src/third_party/llvm-project/clang/utils/analyzer/CmpRuns.py - cobalt - Git at Google

 #!/usr/bin/env python

 """
 CmpRuns - A simple tool for comparing two static analyzer runs to determine
 which reports have been added, removed, or changed.

 This is designed to support automated testing using the static analyzer, from
 two perspectives:
   1. To monitor changes in the static analyzer's reports on real code bases,
      for regression testing.

   2. For use by end users who want to integrate regular static analyzer testing
      into a buildbot like environment.

 Usage:

     # Load the results of both runs, to obtain lists of the corresponding
     # AnalysisDiagnostic objects.
     #
     resultsA = loadResultsFromSingleRun(singleRunInfoA, deleteEmpty)
     resultsB = loadResultsFromSingleRun(singleRunInfoB, deleteEmpty)

     # Generate a relation from diagnostics in run A to diagnostics in run B
     # to obtain a list of triples (a, b, confidence).
     diff = compareResults(resultsA, resultsB)

 """

 from collections import defaultdict

 from math import log
 from optparse import OptionParser
 import json
 import os
 import plistlib
 import re
 import sys

 STATS_REGEXP = re.compile(r"Statistics: (\{.+\})", re.MULTILINE | re.DOTALL)

 class Colors:
     """
     Color for terminal highlight.
     """
     RED = '\x1b[2;30;41m'
     GREEN = '\x1b[6;30;42m'
     CLEAR = '\x1b[0m'

 # Information about analysis run:
 # path - the analysis output directory
 # root - the name of the root directory, which will be disregarded when
 # determining the source file name
 class SingleRunInfo:
     def __init__(self, path, root="", verboseLog=None):
         self.path = path
         self.root = root.rstrip("/\\")
         self.verboseLog = verboseLog


 class AnalysisDiagnostic:
     def __init__(self, data, report, htmlReport):
         self._data = data
         self._loc = self._data['location']
         self._report = report
         self._htmlReport = htmlReport
         self._reportSize = len(self._data['path'])

     def getFileName(self):
         root = self._report.run.root
         fileName = self._report.files[self._loc['file']]
         if fileName.startswith(root) and len(root) > 0:
             return fileName[len(root) + 1:]
         return fileName

     def getLine(self):
         return self._loc['line']

     def getColumn(self):
         return self._loc['col']

     def getPathLength(self):
         return self._reportSize

     def getCategory(self):
         return self._data['category']

     def getDescription(self):
         return self._data['description']

     def getIssueIdentifier(self):
         id = self.getFileName() + "+"
         if 'issue_context' in self._data:
             id += self._data['issue_context'] + "+"
         if 'issue_hash_content_of_line_in_context' in self._data:
             id += str(self._data['issue_hash_content_of_line_in_context'])
         return id

     def getReport(self):
         if self._htmlReport is None:
             return " "
         return os.path.join(self._report.run.path, self._htmlReport)

     def getReadableName(self):
         if 'issue_context' in self._data:
             funcnamePostfix = "#" + self._data['issue_context']
         else:
             funcnamePostfix = ""
         return '%s%s:%d:%d, %s: %s' % (self.getFileName(),
                                        funcnamePostfix,
                                        self.getLine(),
                                        self.getColumn(), self.getCategory(),
                                        self.getDescription())

     # Note, the data format is not an API and may change from one analyzer
     # version to another.
     def getRawData(self):
         return self._data


 class AnalysisReport:
     def __init__(self, run, files):
         self.run = run
         self.files = files
         self.diagnostics = []


 class AnalysisRun:
     def __init__(self, info):
         self.path = info.path
         self.root = info.root
         self.info = info
         self.reports = []
         # Cumulative list of all diagnostics from all the reports.
         self.diagnostics = []
         self.clang_version = None
         self.stats = []

     def getClangVersion(self):
         return self.clang_version

     def readSingleFile(self, p, deleteEmpty):
         data = plistlib.readPlist(p)
         if 'statistics' in data:
             self.stats.append(json.loads(data['statistics']))
             data.pop('statistics')

         # We want to retrieve the clang version even if there are no
         # reports. Assume that all reports were created using the same
         # clang version (this is always true and is more efficient).
         if 'clang_version' in data:
             if self.clang_version is None:
                 self.clang_version = data.pop('clang_version')
             else:
                 data.pop('clang_version')

         # Ignore/delete empty reports.
         if not data['files']:
             if deleteEmpty:
                 os.remove(p)
             return

         # Extract the HTML reports, if they exists.
         if 'HTMLDiagnostics_files' in data['diagnostics'][0]:
             htmlFiles = []
             for d in data['diagnostics']:
                 # FIXME: Why is this named files, when does it have multiple
                 # files?
                 assert len(d['HTMLDiagnostics_files']) == 1
                 htmlFiles.append(d.pop('HTMLDiagnostics_files')[0])
         else:
             htmlFiles = [None] * len(data['diagnostics'])

         report = AnalysisReport(self, data.pop('files'))
         diagnostics = [AnalysisDiagnostic(d, report, h)
                        for d, h in zip(data.pop('diagnostics'), htmlFiles)]

         assert not data

         report.diagnostics.extend(diagnostics)
         self.reports.append(report)
         self.diagnostics.extend(diagnostics)


 def loadResults(path, opts, root="", deleteEmpty=True):
     """
     Backwards compatibility API.
     """
     return loadResultsFromSingleRun(SingleRunInfo(path, root, opts.verboseLog),
                                     deleteEmpty)


 def loadResultsFromSingleRun(info, deleteEmpty=True):
     """
     # Load results of the analyzes from a given output folder.
     # - info is the SingleRunInfo object
     # - deleteEmpty specifies if the empty plist files should be deleted

     """
     path = info.path
     run = AnalysisRun(info)

     if os.path.isfile(path):
         run.readSingleFile(path, deleteEmpty)
     else:
         for (dirpath, dirnames, filenames) in os.walk(path):
             for f in filenames:
                 if (not f.endswith('plist')):
                     continue
                 p = os.path.join(dirpath, f)
                 run.readSingleFile(p, deleteEmpty)

     return run


 def cmpAnalysisDiagnostic(d):
     return d.getIssueIdentifier()


 def compareResults(A, B, opts):
     """
     compareResults - Generate a relation from diagnostics in run A to
     diagnostics in run B.

     The result is the relation as a list of triples (a, b) where
     each element {a,b} is None or a matching element from the respective run
     """

     res = []

     # Map size_before -> size_after
     path_difference_data = []

     # Quickly eliminate equal elements.
     neqA = []
     neqB = []
     eltsA = list(A.diagnostics)
     eltsB = list(B.diagnostics)
     eltsA.sort(key=cmpAnalysisDiagnostic)
     eltsB.sort(key=cmpAnalysisDiagnostic)
     while eltsA and eltsB:
         a = eltsA.pop()
         b = eltsB.pop()
         if (a.getIssueIdentifier() == b.getIssueIdentifier()):
             if a.getPathLength() != b.getPathLength():
                 if opts.relative_path_histogram:
                     path_difference_data.append(
                         float(a.getPathLength()) / b.getPathLength())
                 elif opts.relative_log_path_histogram:
                     path_difference_data.append(
                         log(float(a.getPathLength()) / b.getPathLength()))
                 elif opts.absolute_path_histogram:
                     path_difference_data.append(
                         a.getPathLength() - b.getPathLength())

             res.append((a, b))
         elif a.getIssueIdentifier() > b.getIssueIdentifier():
             eltsB.append(b)
             neqA.append(a)
         else:
             eltsA.append(a)
             neqB.append(b)
     neqA.extend(eltsA)
     neqB.extend(eltsB)

     # FIXME: Add fuzzy matching. One simple and possible effective idea would
     # be to bin the diagnostics, print them in a normalized form (based solely
     # on the structure of the diagnostic), compute the diff, then use that as
     # the basis for matching. This has the nice property that we don't depend
     # in any way on the diagnostic format.

     for a in neqA:
         res.append((a, None))
     for b in neqB:
         res.append((None, b))

     if opts.relative_log_path_histogram or opts.relative_path_histogram or \
             opts.absolute_path_histogram:
         from matplotlib import pyplot
         pyplot.hist(path_difference_data, bins=100)
         pyplot.show()

     return res

 def deriveStats(results):
     # Assume all keys are the same in each statistics bucket.
     combined_data = defaultdict(list)
     for stat in results.stats:
         for key, value in stat.iteritems():
             combined_data[key].append(value)
     combined_stats = {}
     for key, values in combined_data.iteritems():
         combined_stats[str(key)] = {
             "max": max(values),
             "min": min(values),
             "mean": sum(values) / len(values),
             "median": sorted(values)[len(values) / 2],
             "total": sum(values)
         }
     return combined_stats


 def compareStats(resultsA, resultsB):
     statsA = deriveStats(resultsA)
     statsB = deriveStats(resultsB)
     keys = sorted(statsA.keys())
     for key in keys:
         print key
         for kkey in statsA[key]:
             valA = float(statsA[key][kkey])
             valB = float(statsB[key][kkey])
             report = "%.3f -> %.3f" % (valA, valB)
             # Only apply highlighting when writing to TTY and it's not Windows
             if sys.stdout.isatty() and os.name != 'nt':
                 if valB != 0:
                     ratio = (valB - valA) / valB
                     if ratio < -0.2:
                         report = Colors.GREEN + report + Colors.CLEAR
                     elif ratio > 0.2:
                         report = Colors.RED + report + Colors.CLEAR
             print "\t %s %s" % (kkey, report)

 def dumpScanBuildResultsDiff(dirA, dirB, opts, deleteEmpty=True,
                              Stdout=sys.stdout):
     # Load the run results.
     resultsA = loadResults(dirA, opts, opts.rootA, deleteEmpty)
     resultsB = loadResults(dirB, opts, opts.rootB, deleteEmpty)
     if opts.show_stats:
         compareStats(resultsA, resultsB)
     if opts.stats_only:
         return

     # Open the verbose log, if given.
     if opts.verboseLog:
         auxLog = open(opts.verboseLog, "wb")
     else:
         auxLog = None

     diff = compareResults(resultsA, resultsB, opts)
     foundDiffs = 0
     totalAdded = 0
     totalRemoved = 0
     for res in diff:
         a, b = res
         if a is None:
             Stdout.write("ADDED: %r\n" % b.getReadableName())
             foundDiffs += 1
             totalAdded += 1
             if auxLog:
                 auxLog.write("('ADDED', %r, %r)\n" % (b.getReadableName(),
                                                       b.getReport()))
         elif b is None:
             Stdout.write("REMOVED: %r\n" % a.getReadableName())
             foundDiffs += 1
             totalRemoved += 1
             if auxLog:
                 auxLog.write("('REMOVED', %r, %r)\n" % (a.getReadableName(),
                                                         a.getReport()))
         else:
             pass

     TotalReports = len(resultsB.diagnostics)
     Stdout.write("TOTAL REPORTS: %r\n" % TotalReports)
     Stdout.write("TOTAL ADDED: %r\n" % totalAdded)
     Stdout.write("TOTAL REMOVED: %r\n" % totalRemoved)
     if auxLog:
         auxLog.write("('TOTAL NEW REPORTS', %r)\n" % TotalReports)
         auxLog.write("('TOTAL DIFFERENCES', %r)\n" % foundDiffs)
         auxLog.close()

     return foundDiffs, len(resultsA.diagnostics), len(resultsB.diagnostics)

 def generate_option_parser():
     parser = OptionParser("usage: %prog [options] [dir A] [dir B]")
     parser.add_option("", "--rootA", dest="rootA",
                       help="Prefix to ignore on source files for directory A",
                       action="store", type=str, default="")
     parser.add_option("", "--rootB", dest="rootB",
                       help="Prefix to ignore on source files for directory B",
                       action="store", type=str, default="")
     parser.add_option("", "--verbose-log", dest="verboseLog",
                       help="Write additional information to LOG \
                            [default=None]",
                       action="store", type=str, default=None,
                       metavar="LOG")
     parser.add_option("--relative-path-differences-histogram",
                       action="store_true", dest="relative_path_histogram",
                       default=False,
                       help="Show histogram of relative paths differences. \
                             Requires matplotlib")
     parser.add_option("--relative-log-path-differences-histogram",
                       action="store_true", dest="relative_log_path_histogram",
                       default=False,
                       help="Show histogram of log relative paths differences. \
                             Requires matplotlib")
     parser.add_option("--absolute-path-differences-histogram",
                       action="store_true", dest="absolute_path_histogram",
                       default=False,
                       help="Show histogram of absolute paths differences. \
                             Requires matplotlib")
     parser.add_option("--stats-only", action="store_true", dest="stats_only",
                       default=False, help="Only show statistics on reports")
     parser.add_option("--show-stats", action="store_true", dest="show_stats",
                       default=False, help="Show change in statistics")
     return parser


 def main():
     parser = generate_option_parser()
     (opts, args) = parser.parse_args()

     if len(args) != 2:
         parser.error("invalid number of arguments")

     dirA, dirB = args

     dumpScanBuildResultsDiff(dirA, dirB, opts)


 if __name__ == '__main__':
     main()
	#!/usr/bin/env python

	"""
	CmpRuns - A simple tool for comparing two static analyzer runs to determine
	which reports have been added, removed, or changed.

	This is designed to support automated testing using the static analyzer, from
	two perspectives:
	1. To monitor changes in the static analyzer's reports on real code bases,
	for regression testing.

	2. For use by end users who want to integrate regular static analyzer testing
	into a buildbot like environment.

	Usage:

	# Load the results of both runs, to obtain lists of the corresponding
	# AnalysisDiagnostic objects.
	#
	resultsA = loadResultsFromSingleRun(singleRunInfoA, deleteEmpty)
	resultsB = loadResultsFromSingleRun(singleRunInfoB, deleteEmpty)

	# Generate a relation from diagnostics in run A to diagnostics in run B
	# to obtain a list of triples (a, b, confidence).
	diff = compareResults(resultsA, resultsB)

	"""

	from collections import defaultdict

	from math import log
	from optparse import OptionParser
	import json
	import os
	import plistlib
	import re
	import sys

	STATS_REGEXP = re.compile(r"Statistics: (\{.+\})", re.MULTILINE \| re.DOTALL)

	class Colors:
	"""
	Color for terminal highlight.
	"""
	RED = '\x1b[2;30;41m'
	GREEN = '\x1b[6;30;42m'
	CLEAR = '\x1b[0m'

	# Information about analysis run:
	# path - the analysis output directory
	# root - the name of the root directory, which will be disregarded when
	# determining the source file name
	class SingleRunInfo:
	def __init__(self, path, root="", verboseLog=None):
	self.path = path
	self.root = root.rstrip("/\\")
	self.verboseLog = verboseLog


	class AnalysisDiagnostic:
	def __init__(self, data, report, htmlReport):
	self._data = data
	self._loc = self._data['location']
	self._report = report
	self._htmlReport = htmlReport
	self._reportSize = len(self._data['path'])

	def getFileName(self):
	root = self._report.run.root
	fileName = self._report.files[self._loc['file']]
	if fileName.startswith(root) and len(root) > 0:
	return fileName[len(root) + 1:]
	return fileName

	def getLine(self):
	return self._loc['line']

	def getColumn(self):
	return self._loc['col']

	def getPathLength(self):
	return self._reportSize

	def getCategory(self):
	return self._data['category']

	def getDescription(self):
	return self._data['description']

	def getIssueIdentifier(self):
	id = self.getFileName() + "+"
	if 'issue_context' in self._data:
	id += self._data['issue_context'] + "+"
	if 'issue_hash_content_of_line_in_context' in self._data:
	id += str(self._data['issue_hash_content_of_line_in_context'])
	return id

	def getReport(self):
	if self._htmlReport is None:
	return " "
	return os.path.join(self._report.run.path, self._htmlReport)

	def getReadableName(self):
	if 'issue_context' in self._data:
	funcnamePostfix = "#" + self._data['issue_context']
	else:
	funcnamePostfix = ""
	return '%s%s:%d:%d, %s: %s' % (self.getFileName(),
	funcnamePostfix,
	self.getLine(),
	self.getColumn(), self.getCategory(),
	self.getDescription())

	# Note, the data format is not an API and may change from one analyzer
	# version to another.
	def getRawData(self):
	return self._data


	class AnalysisReport:
	def __init__(self, run, files):
	self.run = run
	self.files = files
	self.diagnostics = []


	class AnalysisRun:
	def __init__(self, info):
	self.path = info.path
	self.root = info.root
	self.info = info
	self.reports = []
	# Cumulative list of all diagnostics from all the reports.
	self.diagnostics = []
	self.clang_version = None
	self.stats = []

	def getClangVersion(self):
	return self.clang_version

	def readSingleFile(self, p, deleteEmpty):
	data = plistlib.readPlist(p)
	if 'statistics' in data:
	self.stats.append(json.loads(data['statistics']))
	data.pop('statistics')

	# We want to retrieve the clang version even if there are no
	# reports. Assume that all reports were created using the same
	# clang version (this is always true and is more efficient).
	if 'clang_version' in data:
	if self.clang_version is None:
	self.clang_version = data.pop('clang_version')
	else:
	data.pop('clang_version')

	# Ignore/delete empty reports.
	if not data['files']:
	if deleteEmpty:
	os.remove(p)
	return

	# Extract the HTML reports, if they exists.
	if 'HTMLDiagnostics_files' in data['diagnostics'][0]:
	htmlFiles = []
	for d in data['diagnostics']:
	# FIXME: Why is this named files, when does it have multiple
	# files?
	assert len(d['HTMLDiagnostics_files']) == 1
	htmlFiles.append(d.pop('HTMLDiagnostics_files')[0])
	else:
	htmlFiles = [None] * len(data['diagnostics'])

	report = AnalysisReport(self, data.pop('files'))
	diagnostics = [AnalysisDiagnostic(d, report, h)
	for d, h in zip(data.pop('diagnostics'), htmlFiles)]

	assert not data

	report.diagnostics.extend(diagnostics)
	self.reports.append(report)
	self.diagnostics.extend(diagnostics)


	def loadResults(path, opts, root="", deleteEmpty=True):
	"""
	Backwards compatibility API.
	"""
	return loadResultsFromSingleRun(SingleRunInfo(path, root, opts.verboseLog),
	deleteEmpty)


	def loadResultsFromSingleRun(info, deleteEmpty=True):
	"""
	# Load results of the analyzes from a given output folder.
	# - info is the SingleRunInfo object
	# - deleteEmpty specifies if the empty plist files should be deleted

	"""
	path = info.path
	run = AnalysisRun(info)

	if os.path.isfile(path):
	run.readSingleFile(path, deleteEmpty)
	else:
	for (dirpath, dirnames, filenames) in os.walk(path):
	for f in filenames:
	if (not f.endswith('plist')):
	continue
	p = os.path.join(dirpath, f)
	run.readSingleFile(p, deleteEmpty)

	return run


	def cmpAnalysisDiagnostic(d):
	return d.getIssueIdentifier()


	def compareResults(A, B, opts):
	"""
	compareResults - Generate a relation from diagnostics in run A to
	diagnostics in run B.

	The result is the relation as a list of triples (a, b) where
	each element {a,b} is None or a matching element from the respective run
	"""

	res = []

	# Map size_before -> size_after
	path_difference_data = []

	# Quickly eliminate equal elements.
	neqA = []
	neqB = []
	eltsA = list(A.diagnostics)
	eltsB = list(B.diagnostics)
	eltsA.sort(key=cmpAnalysisDiagnostic)
	eltsB.sort(key=cmpAnalysisDiagnostic)
	while eltsA and eltsB:
	a = eltsA.pop()
	b = eltsB.pop()
	if (a.getIssueIdentifier() == b.getIssueIdentifier()):
	if a.getPathLength() != b.getPathLength():
	if opts.relative_path_histogram:
	path_difference_data.append(
	float(a.getPathLength()) / b.getPathLength())
	elif opts.relative_log_path_histogram:
	path_difference_data.append(
	log(float(a.getPathLength()) / b.getPathLength()))
	elif opts.absolute_path_histogram:
	path_difference_data.append(
	a.getPathLength() - b.getPathLength())

	res.append((a, b))
	elif a.getIssueIdentifier() > b.getIssueIdentifier():
	eltsB.append(b)
	neqA.append(a)
	else:
	eltsA.append(a)
	neqB.append(b)
	neqA.extend(eltsA)
	neqB.extend(eltsB)

	# FIXME: Add fuzzy matching. One simple and possible effective idea would
	# be to bin the diagnostics, print them in a normalized form (based solely
	# on the structure of the diagnostic), compute the diff, then use that as
	# the basis for matching. This has the nice property that we don't depend
	# in any way on the diagnostic format.

	for a in neqA:
	res.append((a, None))
	for b in neqB:
	res.append((None, b))

	if opts.relative_log_path_histogram or opts.relative_path_histogram or \
	opts.absolute_path_histogram:
	from matplotlib import pyplot
	pyplot.hist(path_difference_data, bins=100)
	pyplot.show()

	return res

	def deriveStats(results):
	# Assume all keys are the same in each statistics bucket.
	combined_data = defaultdict(list)
	for stat in results.stats:
	for key, value in stat.iteritems():
	combined_data[key].append(value)
	combined_stats = {}
	for key, values in combined_data.iteritems():
	combined_stats[str(key)] = {
	"max": max(values),
	"min": min(values),
	"mean": sum(values) / len(values),
	"median": sorted(values)[len(values) / 2],
	"total": sum(values)
	}
	return combined_stats


	def compareStats(resultsA, resultsB):
	statsA = deriveStats(resultsA)
	statsB = deriveStats(resultsB)
	keys = sorted(statsA.keys())
	for key in keys:
	print key
	for kkey in statsA[key]:
	valA = float(statsA[key][kkey])
	valB = float(statsB[key][kkey])
	report = "%.3f -> %.3f" % (valA, valB)
	# Only apply highlighting when writing to TTY and it's not Windows
	if sys.stdout.isatty() and os.name != 'nt':
	if valB != 0:
	ratio = (valB - valA) / valB
	if ratio < -0.2:
	report = Colors.GREEN + report + Colors.CLEAR
	elif ratio > 0.2:
	report = Colors.RED + report + Colors.CLEAR
	print "\t %s %s" % (kkey, report)

	def dumpScanBuildResultsDiff(dirA, dirB, opts, deleteEmpty=True,
	Stdout=sys.stdout):
	# Load the run results.
	resultsA = loadResults(dirA, opts, opts.rootA, deleteEmpty)
	resultsB = loadResults(dirB, opts, opts.rootB, deleteEmpty)
	if opts.show_stats:
	compareStats(resultsA, resultsB)
	if opts.stats_only:
	return

	# Open the verbose log, if given.
	if opts.verboseLog:
	auxLog = open(opts.verboseLog, "wb")
	else:
	auxLog = None

	diff = compareResults(resultsA, resultsB, opts)
	foundDiffs = 0
	totalAdded = 0
	totalRemoved = 0
	for res in diff:
	a, b = res
	if a is None:
	Stdout.write("ADDED: %r\n" % b.getReadableName())
	foundDiffs += 1
	totalAdded += 1
	if auxLog:
	auxLog.write("('ADDED', %r, %r)\n" % (b.getReadableName(),
	b.getReport()))
	elif b is None:
	Stdout.write("REMOVED: %r\n" % a.getReadableName())
	foundDiffs += 1
	totalRemoved += 1
	if auxLog:
	auxLog.write("('REMOVED', %r, %r)\n" % (a.getReadableName(),
	a.getReport()))
	else:
	pass

	TotalReports = len(resultsB.diagnostics)
	Stdout.write("TOTAL REPORTS: %r\n" % TotalReports)
	Stdout.write("TOTAL ADDED: %r\n" % totalAdded)
	Stdout.write("TOTAL REMOVED: %r\n" % totalRemoved)
	if auxLog:
	auxLog.write("('TOTAL NEW REPORTS', %r)\n" % TotalReports)
	auxLog.write("('TOTAL DIFFERENCES', %r)\n" % foundDiffs)
	auxLog.close()

	return foundDiffs, len(resultsA.diagnostics), len(resultsB.diagnostics)

	def generate_option_parser():
	parser = OptionParser("usage: %prog [options] [dir A] [dir B]")
	parser.add_option("", "--rootA", dest="rootA",
	help="Prefix to ignore on source files for directory A",
	action="store", type=str, default="")
	parser.add_option("", "--rootB", dest="rootB",
	help="Prefix to ignore on source files for directory B",
	action="store", type=str, default="")
	parser.add_option("", "--verbose-log", dest="verboseLog",
	help="Write additional information to LOG \
	[default=None]",
	action="store", type=str, default=None,
	metavar="LOG")
	parser.add_option("--relative-path-differences-histogram",
	action="store_true", dest="relative_path_histogram",
	default=False,
	help="Show histogram of relative paths differences. \
	Requires matplotlib")
	parser.add_option("--relative-log-path-differences-histogram",
	action="store_true", dest="relative_log_path_histogram",
	default=False,
	help="Show histogram of log relative paths differences. \
	Requires matplotlib")
	parser.add_option("--absolute-path-differences-histogram",
	action="store_true", dest="absolute_path_histogram",
	default=False,
	help="Show histogram of absolute paths differences. \
	Requires matplotlib")
	parser.add_option("--stats-only", action="store_true", dest="stats_only",
	default=False, help="Only show statistics on reports")
	parser.add_option("--show-stats", action="store_true", dest="show_stats",
	default=False, help="Show change in statistics")
	return parser


	def main():
	parser = generate_option_parser()
	(opts, args) = parser.parse_args()

	if len(args) != 2:
	parser.error("invalid number of arguments")

	dirA, dirB = args

	dumpScanBuildResultsDiff(dirA, dirB, opts)


	if __name__ == '__main__':
	main()