upstream/mercurial-mirror Files · contrib/revsetbenchmarks.py

filemerge: add support for partial conflict resolution by external tool...

filemerge: add support for partial conflict resolution by external tool A common class of merge conflicts is in imports/#includes/etc. It's relatively easy to write a tool that can resolve these conflicts, perhaps by naively just unioning the statements and leaving any cleanup to other tools to do later [1]. Such specialized tools cannot generally resolve all conflicts in a file, of course. Let's therefore call them "partial merge tools". Note that the internal simplemerge algorithm is such a partial merge tool - one that only resolves trivial "conflicts" where one side is unchanged or both sides change in the same way. One can also imagine having smarter language-aware partial tools that merge the AST. It may be useful for such tools to interactively let the user resolve any conflicts it can't resolve itself. However, having the option of implementing it as a partial merge tool means that the developer doesn't *need* to create a UI for it. Instead, the user can resolve any remaining conflicts with their regular merge tool (e.g. `:merge3` or `meld). We don't currently have a way to let the user define such partial merge tools. That's what this patch addresses. It lets the user configure partial merge tools to run. Each tool can be configured to run only on files matching certain patterns (e.g. "*.py"). The tool takes three inputs (local, base, other) and resolves conflicts by updating these in place. For example, let's say the inputs are these: base: ``` import sys def main(): print('Hello') ``` local: ``` import os import sys def main(): print('Hi') ``` other: ``` import re import sys def main(): print('Howdy') ``` A partial merge tool could now resolve the conflicting imports by replacing the import statements in *all* files by the following snippet, while leaving the remainder of the files unchanged. ``` import os import re import sys ``` As a result, simplemerge and any regular merge tool that runs after the partial merge tool(s) will consider the imports to be non-conflicting and will only present the conflict in `main()` to the user. Differential Revision: https://phab.mercurial-scm.org/D12356

Gregory Szorc - - Load All Authors

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      #!/usr/bin/env python3

      # Measure the performance of a list of revsets against multiple revisions

      # defined by parameter. Checkout one by one and run perfrevset with every

      # revset in the list to benchmark its performance.

      #

      # You should run this from the root of your mercurial repository.

      #

      # call with --help for details

      import math

      import optparse  # cannot use argparse, python 2.7 only

      import os

      import re

      import subprocess

      import sys

      DEFAULTVARIANTS = [

          'plain',

          'min',

          'max',

          'first',

          'last',

          'reverse',

          'reverse+first',

          'reverse+last',

          'sort',

          'sort+first',

          'sort+last',

      ]

      def check_output(*args, **kwargs):

          kwargs.setdefault('stderr', subprocess.PIPE)

          kwargs.setdefault('stdout', subprocess.PIPE)

          proc = subprocess.Popen(*args, **kwargs)

          output, error = proc.communicate()

          if proc.returncode != 0:

              raise subprocess.CalledProcessError(proc.returncode, ' '.join(args[0]))

          return output

      def update(rev):

          """update the repo to a revision"""

          try:

              subprocess.check_call(['hg', 'update', '--quiet', '--check', str(rev)])

              check_output(

                  ['make', 'local'], stderr=None

              )  # suppress output except for error/warning

          except subprocess.CalledProcessError as exc:

              print('update to revision %s failed, aborting' % rev, file=sys.stderr)

              sys.exit(exc.returncode)

      def hg(cmd, repo=None):

          """run a mercurial command

          <cmd> is the list of command + argument,

          <repo> is an optional repository path to run this command in."""

          fullcmd = ['./hg']

          if repo is not None:

              fullcmd += ['-R', repo]

          fullcmd += [

              '--config',

              'extensions.perf=' + os.path.join(contribdir, 'perf.py'),

          ]

          fullcmd += cmd

          return check_output(fullcmd, stderr=subprocess.STDOUT)

      def perf(revset, target=None, contexts=False):

          """run benchmark for this very revset"""

          try:

              args = ['perfrevset']

              if contexts:

                  args.append('--contexts')

              args.append('--')

              args.append(revset)

              output = hg(args, repo=target)

              return parseoutput(output)

          except subprocess.CalledProcessError as exc:

              print(

                  'abort: cannot run revset benchmark: %s' % exc.cmd, file=sys.stderr

              )

              if getattr(exc, 'output', None) is None:  # no output before 2.7

                  print('(no output)', file=sys.stderr)

              else:

                  print(exc.output, file=sys.stderr)

              return None

      outputre = re.compile(

          br'! wall (\d+.\d+) comb (\d+.\d+) user (\d+.\d+) '

          br'sys (\d+.\d+) \(best of (\d+)\)'

      )

      def parseoutput(output):

          """parse a textual output into a dict

          We cannot just use json because we want to compare with old

          versions of Mercurial that may not support json output.

          """

          match = outputre.search(output)

          if not match:

              print('abort: invalid output:', file=sys.stderr)

              print(output, file=sys.stderr)

              sys.exit(1)

          return {

              'comb': float(match.group(2)),

              'count': int(match.group(5)),

              'sys': float(match.group(3)),

              'user': float(match.group(4)),

              'wall': float(match.group(1)),

          }

      def printrevision(rev):

          """print data about a revision"""

          sys.stdout.write("Revision ")

          sys.stdout.flush()

          subprocess.check_call(

              [

                  'hg',

                  'log',

                  '--rev',

                  str(rev),

                  '--template',

                  '{if(tags, " ({tags})")} ' '{rev}:{node|short}: {desc|firstline}\n',

              ]

          )

      def idxwidth(nbidx):

          """return the max width of number used for index

          This is similar to log10(nbidx), but we use custom code here

          because we start with zero and we'd rather not deal with all the

          extra rounding business that log10 would imply.

          """

          nbidx -= 1  # starts at 0

          idxwidth = 0

          while nbidx:

              idxwidth += 1

              nbidx //= 10

          if not idxwidth:

              idxwidth = 1

          return idxwidth

      def getfactor(main, other, field, sensitivity=0.05):

          """return the relative factor between values for 'field' in main and other

          Return None if the factor is insignificant (less than <sensitivity>

          variation)."""

          factor = 1

          if main is not None:

              factor = other[field] / main[field]

          low, high = 1 - sensitivity, 1 + sensitivity

          if low < factor < high:

              return None

          return factor

      def formatfactor(factor):

          """format a factor into a 4 char string

           22%

          156%

          x2.4

           x23

          x789

          x1e4

          x5x7

          """

          if factor is None:

              return '    '

          elif factor < 2:

              return '%3i%%' % (factor * 100)

          elif factor < 10:

              return 'x%3.1f' % factor

          elif factor < 1000:

              return '%4s' % ('x%i' % factor)

          else:

              order = int(math.log(factor)) + 1

              while math.log(factor) > 1:

                  factor //= 0

              return 'x%ix%i' % (factor, order)

      def formattiming(value):

          """format a value to strictly 8 char, dropping some precision if needed"""

          if value < 10 ** 7:

              return ('%.6f' % value)[:8]

          else:

              # value is HUGE very unlikely to happen (4+ month run)

              return '%i' % value

      _marker = object()

      def printresult(variants, idx, data, maxidx, verbose=False, reference=_marker):

          """print a line of result to stdout"""

          mask = '%%0%ii) %%s' % idxwidth(maxidx)

          out = []

          for var in variants:

              if data[var] is None:

                  out.append('error   ')

                  out.append(' ' * 4)

                  continue

              out.append(formattiming(data[var]['wall']))

              if reference is not _marker:

                  factor = None

                  if reference is not None:

                      factor = getfactor(reference[var], data[var], 'wall')

                  out.append(formatfactor(factor))

              if verbose:

                  out.append(formattiming(data[var]['comb']))

                  out.append(formattiming(data[var]['user']))

                  out.append(formattiming(data[var]['sys']))

                  out.append('%6d' % data[var]['count'])

          print(mask % (idx, ' '.join(out)))

      def printheader(variants, maxidx, verbose=False, relative=False):

          header = [' ' * (idxwidth(maxidx) + 1)]

          for var in variants:

              if not var:

                  var = 'iter'

              if len(var) > 8:

                  var = var[:3] + '..' + var[-3:]

              header.append('%-8s' % var)

              if relative:

                  header.append('    ')

              if verbose:

                  header.append('%-8s' % 'comb')

                  header.append('%-8s' % 'user')

                  header.append('%-8s' % 'sys')

                  header.append('%6s' % 'count')

          print(' '.join(header))

      def getrevs(spec):

          """get the list of rev matched by a revset"""

          try:

              out = check_output(['hg', 'log', '--template={rev}\n', '--rev', spec])

          except subprocess.CalledProcessError as exc:

              print("abort, can't get revision from %s" % spec, file=sys.stderr)

              sys.exit(exc.returncode)

          return [r for r in out.split() if r]

      def applyvariants(revset, variant):

          if variant == 'plain':

              return revset

          for var in variant.split('+'):

              revset = '%s(%s)' % (var, revset)

          return revset

      helptext = """This script will run multiple variants of provided revsets using

      different revisions in your mercurial repository. After the benchmark are run

      summary output is provided. Use it to demonstrate speed improvements or pin

      point regressions. Revsets to run are specified in a file (or from stdin), one

      revsets per line. Line starting with '#' will be ignored, allowing insertion of

      comments."""

      parser = optparse.OptionParser(

          usage="usage: %prog [options] <revs>", description=helptext

      )

      parser.add_option(

          "-f",

          "--file",

          help="read revset from FILE (stdin if omitted)",

          metavar="FILE",

      )

      parser.add_option("-R", "--repo", help="run benchmark on REPO", metavar="REPO")

      parser.add_option(

          "-v",

          "--verbose",

          action='store_true',

          help="display all timing data (not just best total time)",

      )

      parser.add_option(

          "",

          "--variants",

          default=','.join(DEFAULTVARIANTS),

          help="comma separated list of variant to test "

          "(eg: plain,min,sorted) (plain = no modification)",

      )

      parser.add_option(

          '',

          '--contexts',

          action='store_true',

          help='obtain changectx from results instead of integer revs',

      )

      (options, args) = parser.parse_args()

      if not args:

          parser.print_help()

          sys.exit(255)

      # the directory where both this script and the perf.py extension live.

      contribdir = os.path.dirname(__file__)

      revsetsfile = sys.stdin

      if options.file:

          revsetsfile = open(options.file)

      revsets = [l.strip() for l in revsetsfile if not l.startswith('#')]

      revsets = [l for l in revsets if l]

      print("Revsets to benchmark")

      print("----------------------------")

      for idx, rset in enumerate(revsets):

          print("%i) %s" % (idx, rset))

      print("----------------------------")

      print()

      revs = []

      for a in args:

          revs.extend(getrevs(a))

      variants = options.variants.split(',')

      results = []

      for r in revs:

          print("----------------------------")

          printrevision(r)

          print("----------------------------")

          update(r)

          res = []

          results.append(res)

          printheader(variants, len(revsets), verbose=options.verbose)

          for idx, rset in enumerate(revsets):

              varres = {}

              for var in variants:

                  varrset = applyvariants(rset, var)

                  data = perf(varrset, target=options.repo, contexts=options.contexts)

                  varres[var] = data

              res.append(varres)

              printresult(

                  variants, idx, varres, len(revsets), verbose=options.verbose

              )

              sys.stdout.flush()

          print("----------------------------")

      print(

          """

      Result by revset

      ================

      """

      )

      print('Revision:')

      for idx, rev in enumerate(revs):

          sys.stdout.write('%i) ' % idx)

          sys.stdout.flush()

          printrevision(rev)

      print()

      print()

      for ridx, rset in enumerate(revsets):

          print("revset #%i: %s" % (ridx, rset))

          printheader(variants, len(results), verbose=options.verbose, relative=True)

          ref = None

          for idx, data in enumerate(results):

              printresult(

                  variants,

                  idx,

                  data[ridx],

                  len(results),

                  verbose=options.verbose,

                  reference=ref,

              )

              ref = data[ridx]

          print()

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				#!/usr/bin/env python3

				# Measure the performance of a list of revsets against multiple revisions
				# defined by parameter. Checkout one by one and run perfrevset with every
				# revset in the list to benchmark its performance.
				#
				# You should run this from the root of your mercurial repository.
				#
				# call with --help for details

				import math
				import optparse # cannot use argparse, python 2.7 only
				import os
				import re
				import subprocess
				import sys

				DEFAULTVARIANTS = [
				'plain',
				'min',
				'max',
				'first',
				'last',
				'reverse',
				'reverse+first',
				'reverse+last',
				'sort',
				'sort+first',
				'sort+last',
				]


				def check_output(args, *kwargs):
				kwargs.setdefault('stderr', subprocess.PIPE)
				kwargs.setdefault('stdout', subprocess.PIPE)
				proc = subprocess.Popen(args, *kwargs)
				output, error = proc.communicate()
				if proc.returncode != 0:
				raise subprocess.CalledProcessError(proc.returncode, ' '.join(args[0]))
				return output


				def update(rev):
				"""update the repo to a revision"""
				try:
				subprocess.check_call(['hg', 'update', '--quiet', '--check', str(rev)])
				check_output(
				['make', 'local'], stderr=None
				) # suppress output except for error/warning
				except subprocess.CalledProcessError as exc:
				print('update to revision %s failed, aborting' % rev, file=sys.stderr)
				sys.exit(exc.returncode)


				def hg(cmd, repo=None):
				"""run a mercurial command

				<cmd> is the list of command + argument,
				<repo> is an optional repository path to run this command in."""
				fullcmd = ['./hg']
				if repo is not None:
				fullcmd += ['-R', repo]
				fullcmd += [
				'--config',
				'extensions.perf=' + os.path.join(contribdir, 'perf.py'),
				]
				fullcmd += cmd
				return check_output(fullcmd, stderr=subprocess.STDOUT)


				def perf(revset, target=None, contexts=False):
				"""run benchmark for this very revset"""
				try:
				args = ['perfrevset']
				if contexts:
				args.append('--contexts')
				args.append('--')
				args.append(revset)
				output = hg(args, repo=target)
				return parseoutput(output)
				except subprocess.CalledProcessError as exc:
				print(
				'abort: cannot run revset benchmark: %s' % exc.cmd, file=sys.stderr
				)
				if getattr(exc, 'output', None) is None: # no output before 2.7
				print('(no output)', file=sys.stderr)
				else:
				print(exc.output, file=sys.stderr)
				return None


				outputre = re.compile(
				br'! wall (\d+.\d+) comb (\d+.\d+) user (\d+.\d+) '
				br'sys (\d+.\d+) \(best of (\d+)\)'
				)


				def parseoutput(output):
				"""parse a textual output into a dict

				We cannot just use json because we want to compare with old
				versions of Mercurial that may not support json output.
				"""
				match = outputre.search(output)
				if not match:
				print('abort: invalid output:', file=sys.stderr)
				print(output, file=sys.stderr)
				sys.exit(1)
				return {
				'comb': float(match.group(2)),
				'count': int(match.group(5)),
				'sys': float(match.group(3)),
				'user': float(match.group(4)),
				'wall': float(match.group(1)),
				}


				def printrevision(rev):
				"""print data about a revision"""
				sys.stdout.write("Revision ")
				sys.stdout.flush()
				subprocess.check_call(
				[
				'hg',
				'log',
				'--rev',
				str(rev),
				'--template',
				'{if(tags, " ({tags})")} ' '{rev}:{node\|short}: {desc\|firstline}\n',
				]
				)


				def idxwidth(nbidx):
				"""return the max width of number used for index

				This is similar to log10(nbidx), but we use custom code here
				because we start with zero and we'd rather not deal with all the
				extra rounding business that log10 would imply.
				"""
				nbidx -= 1 # starts at 0
				idxwidth = 0
				while nbidx:
				idxwidth += 1
				nbidx //= 10
				if not idxwidth:
				idxwidth = 1
				return idxwidth


				def getfactor(main, other, field, sensitivity=0.05):
				"""return the relative factor between values for 'field' in main and other

				Return None if the factor is insignificant (less than <sensitivity>
				variation)."""
				factor = 1
				if main is not None:
				factor = other[field] / main[field]
				low, high = 1 - sensitivity, 1 + sensitivity
				if low < factor < high:
				return None
				return factor


				def formatfactor(factor):
				"""format a factor into a 4 char string

				22%
				156%
				x2.4
				x23
				x789
				x1e4
				x5x7

				"""
				if factor is None:
				return ' '
				elif factor < 2:
				return '%3i%%' % (factor * 100)
				elif factor < 10:
				return 'x%3.1f' % factor
				elif factor < 1000:
				return '%4s' % ('x%i' % factor)
				else:
				order = int(math.log(factor)) + 1
				while math.log(factor) > 1:
				factor //= 0
				return 'x%ix%i' % (factor, order)


				def formattiming(value):
				"""format a value to strictly 8 char, dropping some precision if needed"""
				if value < 10 ** 7:
				return ('%.6f' % value)[:8]
				else:
				# value is HUGE very unlikely to happen (4+ month run)
				return '%i' % value


				_marker = object()


				def printresult(variants, idx, data, maxidx, verbose=False, reference=_marker):
				"""print a line of result to stdout"""
				mask = '%%0%ii) %%s' % idxwidth(maxidx)

				out = []
				for var in variants:
				if data[var] is None:
				out.append('error ')
				out.append(' ' * 4)
				continue
				out.append(formattiming(data[var]['wall']))
				if reference is not _marker:
				factor = None
				if reference is not None:
				factor = getfactor(reference[var], data[var], 'wall')
				out.append(formatfactor(factor))
				if verbose:
				out.append(formattiming(data[var]['comb']))
				out.append(formattiming(data[var]['user']))
				out.append(formattiming(data[var]['sys']))
				out.append('%6d' % data[var]['count'])
				print(mask % (idx, ' '.join(out)))


				def printheader(variants, maxidx, verbose=False, relative=False):
				header = [' ' * (idxwidth(maxidx) + 1)]
				for var in variants:
				if not var:
				var = 'iter'
				if len(var) > 8:
				var = var[:3] + '..' + var[-3:]
				header.append('%-8s' % var)
				if relative:
				header.append(' ')
				if verbose:
				header.append('%-8s' % 'comb')
				header.append('%-8s' % 'user')
				header.append('%-8s' % 'sys')
				header.append('%6s' % 'count')
				print(' '.join(header))


				def getrevs(spec):
				"""get the list of rev matched by a revset"""
				try:
				out = check_output(['hg', 'log', '--template={rev}\n', '--rev', spec])
				except subprocess.CalledProcessError as exc:
				print("abort, can't get revision from %s" % spec, file=sys.stderr)
				sys.exit(exc.returncode)
				return [r for r in out.split() if r]


				def applyvariants(revset, variant):
				if variant == 'plain':
				return revset
				for var in variant.split('+'):
				revset = '%s(%s)' % (var, revset)
				return revset


				helptext = """This script will run multiple variants of provided revsets using
				different revisions in your mercurial repository. After the benchmark are run
				summary output is provided. Use it to demonstrate speed improvements or pin
				point regressions. Revsets to run are specified in a file (or from stdin), one
				revsets per line. Line starting with '#' will be ignored, allowing insertion of
				comments."""
				parser = optparse.OptionParser(
				usage="usage: %prog [options] <revs>", description=helptext
				)
				parser.add_option(
				"-f",
				"--file",
				help="read revset from FILE (stdin if omitted)",
				metavar="FILE",
				)
				parser.add_option("-R", "--repo", help="run benchmark on REPO", metavar="REPO")

				parser.add_option(
				"-v",
				"--verbose",
				action='store_true',
				help="display all timing data (not just best total time)",
				)

				parser.add_option(
				"",
				"--variants",
				default=','.join(DEFAULTVARIANTS),
				help="comma separated list of variant to test "
				"(eg: plain,min,sorted) (plain = no modification)",
				)
				parser.add_option(
				'',
				'--contexts',
				action='store_true',
				help='obtain changectx from results instead of integer revs',
				)

				(options, args) = parser.parse_args()

				if not args:
				parser.print_help()
				sys.exit(255)

				# the directory where both this script and the perf.py extension live.
				contribdir = os.path.dirname(__file__)

				revsetsfile = sys.stdin
				if options.file:
				revsetsfile = open(options.file)

				revsets = [l.strip() for l in revsetsfile if not l.startswith('#')]
				revsets = [l for l in revsets if l]

				print("Revsets to benchmark")
				print("----------------------------")

				for idx, rset in enumerate(revsets):
				print("%i) %s" % (idx, rset))

				print("----------------------------")
				print()

				revs = []
				for a in args:
				revs.extend(getrevs(a))

				variants = options.variants.split(',')

				results = []
				for r in revs:
				print("----------------------------")
				printrevision(r)
				print("----------------------------")
				update(r)
				res = []
				results.append(res)
				printheader(variants, len(revsets), verbose=options.verbose)
				for idx, rset in enumerate(revsets):
				varres = {}
				for var in variants:
				varrset = applyvariants(rset, var)
				data = perf(varrset, target=options.repo, contexts=options.contexts)
				varres[var] = data
				res.append(varres)
				printresult(
				variants, idx, varres, len(revsets), verbose=options.verbose
				)
				sys.stdout.flush()
				print("----------------------------")


				print(
				"""

				Result by revset
				================
				"""
				)

				print('Revision:')
				for idx, rev in enumerate(revs):
				sys.stdout.write('%i) ' % idx)
				sys.stdout.flush()
				printrevision(rev)

				print()
				print()

				for ridx, rset in enumerate(revsets):

				print("revset #%i: %s" % (ridx, rset))
				printheader(variants, len(results), verbose=options.verbose, relative=True)
				ref = None
				for idx, data in enumerate(results):
				printresult(
				variants,
				idx,
				data[ridx],
				len(results),
				verbose=options.verbose,
				reference=ref,
				)
				ref = data[ridx]
				print()