kc3-lang/gnulib/gnulib-tool.py

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• Hash : f948d181
  Author :
  Date : 2024-04-11T21:49:45
  

  gnulib-tool.py: Optimize module set lookups.
  
  * gnulib-tool.py (profiler_args): New variable.
  * pygnulib/GLModuleSystem.py (GLModuleTable.transitive_closure): Turn
  handledmodules into a set.
  (GLModuleTable.transitive_closure_separately): For the 'in' test, use
  a set variable main_modules_set.
  

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• gnulib-tool.py

• #! /bin/sh
  #
  # Copyright (C) 2002-2024 Free Software Foundation, Inc.
  #
  # This program is free software: you can redistribute it and/or modify
  # it under the terms of the GNU General Public License as published by
  # the Free Software Foundation, either version 3 of the License, or
  # (at your option) any later version.
  #
  # This program is distributed in the hope that it will be useful,
  # but WITHOUT ANY WARRANTY; without even the implied warranty of
  # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  # GNU General Public License for more details.
  #
  # You should have received a copy of the GNU General Public License
  # along with this program.  If not, see <https://www.gnu.org/licenses/>.
  #
  
  # This program invokes the Python rewrite of gnulib-tool.
  # It is meant to behave identically to gnulib-tool, just faster.
  
  progname=$0
  
  # func_exit STATUS
  # exits with a given status.
  # This function needs to be used, rather than 'exit', when a 'trap' handler is
  # in effect that refers to $?.
  func_exit ()
  {
    (exit $1); exit $1
  }
  
  # func_fatal_error message
  # outputs to stderr a fatal error message, and terminates the program.
  # Input:
  # - progname                 name of this program
  func_fatal_error ()
  {
    echo "$progname: *** $1" 1>&2
    echo "$progname: *** Stop." 1>&2
    func_exit 1
  }
  
  # func_readlink SYMLINK
  # outputs the target of the given symlink.
  if (type readlink) > /dev/null 2>&1; then
    func_readlink ()
    {
      # Use the readlink program from GNU coreutils.
      readlink "$1"
    }
  else
    func_readlink ()
    {
      # Use two sed invocations. A single sed -n -e 's,^.* -> \(.*\)$,\1,p'
      # would do the wrong thing if the link target contains " -> ".
      LC_ALL=C ls -l "$1" | sed -e 's, -> ,#%%#,' | sed -n -e 's,^.*#%%#\(.*\)$,\1,p'
    }
  fi
  
  # func_gnulib_dir
  # locates the directory where the gnulib repository lives
  # Input:
  # - progname                 name of this program
  # Sets variables
  # - self_abspathname         absolute pathname of gnulib-tool
  # - gnulib_dir               absolute pathname of gnulib repository
  func_gnulib_dir ()
  {
    case "$progname" in
      /* | ?:*) self_abspathname="$progname" ;;
      */*) self_abspathname=`pwd`/"$progname" ;;
      *)
        # Look in $PATH.
        # Iterate through the elements of $PATH.
        # We use IFS=: instead of
        #   for d in `echo ":$PATH:" | sed -e 's/:::*/:.:/g' | sed -e 's/:/ /g'`
        # because the latter does not work when some PATH element contains spaces.
        # We use a canonicalized $pathx instead of $PATH, because empty PATH
        # elements are by definition equivalent to '.', however field splitting
        # according to IFS=: loses empty fields in many shells:
        #   - /bin/sh on OSF/1 and Solaris loses all empty fields (at the
        #     beginning, at the end, and in the middle),
        #   - /bin/sh on IRIX and /bin/ksh on IRIX and OSF/1 lose empty fields
        #     at the beginning and at the end,
        #   - GNU bash, /bin/sh on AIX and HP-UX, and /bin/ksh on AIX, HP-UX,
        #     Solaris lose empty fields at the end.
        # The 'case' statement is an optimization, to avoid evaluating the
        # explicit canonicalization command when $PATH contains no empty fields.
        self_abspathname=
        if test "$PATH_SEPARATOR" = ";"; then
          # On Windows, programs are searched in "." before $PATH.
          pathx=".;$PATH"
        else
          # On Unix, we have to convert empty PATH elements to ".".
          pathx="$PATH"
          case :$PATH: in
            *::*)
              pathx=`echo ":$PATH:" | sed -e 's/:::*/:.:/g' -e 's/^://' -e 's/:\$//'`
              ;;
          esac
        fi
        saved_IFS="$IFS"
        IFS="$PATH_SEPARATOR"
        for d in $pathx; do
          IFS="$saved_IFS"
          test -z "$d" && d=.
          if test -x "$d/$progname" && test ! -d "$d/$progname"; then
            self_abspathname="$d/$progname"
            break
          fi
        done
        IFS="$saved_IFS"
        if test -z "$self_abspathname"; then
          func_fatal_error "could not locate the gnulib-tool program - how did you invoke it?"
        fi
        ;;
    esac
    while test -h "$self_abspathname"; do
      # Resolve symbolic link.
      linkval=`func_readlink "$self_abspathname"`
      test -n "$linkval" || break
      case "$linkval" in
        /* | ?:* ) self_abspathname="$linkval" ;;
        * ) self_abspathname=`echo "$self_abspathname" | sed -e 's,/[^/]*$,,'`/"$linkval" ;;
      esac
    done
    gnulib_dir=`echo "$self_abspathname" | sed -e 's,/[^/]*$,,'`
  }
  
  func_gnulib_dir
  
  # Check the Python version.
  if (python3 --version) >/dev/null 2>/dev/null; then
    case `python3 --version 2>&1` in
      Python\ 3.[0-6] | Python\ 3.[0-6].*)
        func_fatal_error "python3 is too old (minimum required version is 3.7); try setting GNULIB_TOOL_IMPL=sh" ;;
      Python\ 3.*)
        ;;
      *)
        func_fatal_error "python3 version is unsupported" ;;
    esac
  else
    func_fatal_error "python3 not found; try setting GNULIB_TOOL_IMPL=sh"
  fi
  
  profiler_args=
  # For profiling, cf. <https://docs.python.org/3/library/profile.html>.
  #profiler_args="-m cProfile -s tottime"
  exec python3 $profiler_args "$gnulib_dir/.gnulib-tool.py" "$@"
  

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