Exemplo n.º 1
0
  def write(self):
    install_deps = self.graph.get_deps(gen_base.DT_INSTALL)
    install_sources = self.graph.get_all_sources(gen_base.DT_INSTALL)

    cp = configparser.ConfigParser()
    cp.read('gen-make.opts')
    if cp.has_option('options', '--installed-libs'):
      self.installed_libs = cp.get('options', '--installed-libs').split(',')
    else:
      self.installed_libs = []

    # ensure consistency between runs
    install_deps.sort()
    install_sources.sort(key = lambda s: s.name)

    class _eztdata(object):
      def __init__(self, **kw):
        vars(self).update(kw)

    data = _eztdata(
      modules=[ ],
      swig_langs=[ ],
      swig_c=[ ],
      target=[ ],
      itargets=[ ],
      areas=[ ],
      isources=[ ],
      deps=[ ],
      sql=[],
      )

    ########################################

    for target in install_sources:
      if isinstance(target, gen_base.TargetRaModule) or \
         isinstance(target, gen_base.TargetFsModule):
        # name of the module: strip 'libsvn_' and upper-case it
        name = target.name[7:].upper()

        # construct a list of the other .la libs to link against
        retreat = build_path_retreat(target.path)
        if target.name in self.installed_libs:
          deps = []
          link = [ '-l%s-%s' % (target.name[3:], self.version) ]
        else:
          deps = [ target.filename ]
          link = [ build_path_join(retreat, target.filename) ]
        for source in self.graph.get_sources(gen_base.DT_LINK, target.name):
          if not isinstance(source, gen_base.TargetLib) or source.external_lib:
            continue
          elif source.name in self.installed_libs:
            continue
          deps.append(source.filename)
          link.append(build_path_join(retreat, source.filename))

        data.modules.append(_eztdata(name=name, deps=deps, link=link))

    # write a list of directories in which things are built
    #   get all the test scripts' directories
    script_dirs = list(map(build_path_dirname, self.scripts + self.bdb_scripts))

    #   remove duplicate directories between targets and tests
    build_dirs = unique(self.target_dirs + script_dirs + self.swig_dirs)
    data.build_dirs = build_dirs

    # write lists of test files
    # deps = all, progs = not including those marked "testing = skip"
    data.bdb_test_deps = self.bdb_test_deps + self.bdb_scripts
    data.bdb_test_progs = self.bdb_test_progs + self.bdb_scripts
    data.test_deps = self.test_deps + self.scripts
    data.test_progs = self.test_progs + self.scripts
    data.test_helpers = self.test_helpers

    # write list of all manpages
    data.manpages = self.manpages

    # write a list of files to remove during "make clean"
    cfiles = [ ]
    for target in install_sources:
      # .la files are handled by the standard 'clean' rule; clean all the
      # other targets
      if not isinstance(target, gen_base.TargetScript) \
         and not isinstance(target, gen_base.TargetProject) \
         and not isinstance(target, gen_base.TargetI18N) \
         and not isinstance(target, gen_base.TargetJava) \
         and not target.external_lib \
         and target.filename[-3:] != '.la':
        cfiles.append(target.filename)
    for script in self.scripts:
      if script.endswith('.py'):
        cfiles.append(script + 'c')
    data.cfiles = sorted(cfiles)

    # here are all the SQL files and their generated headers. the Makefile
    # has an implicit rule for generating these, so there isn't much to do
    # except to clean them out. we only do that for 'make extraclean' since
    # these are included as part of the tarball. the files are transformed
    # by gen-make, and developers also get a Make rule to keep them updated.
    for hdrfile, sqlfile in sorted(self.graph.get_deps(gen_base.DT_SQLHDR),
                                   key=lambda t: t[0]):
      data.sql.append(_eztdata(header=hdrfile, source=sqlfile[0]))

    data.release_mode = ezt.boolean(self.release_mode)

    ########################################

    if not self.release_mode:
      swig_rules = StringIO()
      for swig in (generator.swig.header_wrappers,
                   generator.swig.checkout_swig_header,
                   generator.swig.external_runtime):
        gen = swig.Generator(self.conf, "swig")
        gen.write_makefile_rules(swig_rules)

      data.swig_rules = swig_rules.getvalue()

    ########################################

    # write dependencies and build rules for generated .c files
    swig_c_deps = sorted(self.graph.get_deps(gen_base.DT_SWIG_C),
                         key=lambda t: t[0].filename)

    swig_lang_deps = {}
    for lang in self.swig.langs:
      swig_lang_deps[lang] = []

    for objname, sources in swig_c_deps:
      swig_lang_deps[objname.lang].append(str(objname))

    for lang in self.swig.langs:
      data.swig_langs.append(_eztdata(short=self.swig.short[lang],
                                      deps=swig_lang_deps[lang]))

    ########################################

    if not self.release_mode:
      for objname, sources in swig_c_deps:
        data.swig_c.append(_eztdata(c_file=str(objname),
                                    deps=list(map(str, sources)),
                                    opts=self.swig.opts[objname.lang],
                                    source=str(sources[0])))

    ########################################

    for target_ob in install_sources:

      if isinstance(target_ob, gen_base.TargetScript):
        # there is nothing to build
        continue

      target = target_ob.name
      if isinstance(target_ob, gen_base.TargetJava):
        path = target_ob.output_dir
      else:
        path = target_ob.path

      retreat = build_path_retreat(path)

      # get the source items (.o and .la) for the link unit
      objects = [ ]
      objdeps = [ ]
      object_srcs = [ ]
      headers = [ ]
      header_classes = [ ]
      header_class_filenames = [ ]
      deps = [ ]
      libs = [ ]
      add_deps = target_ob.add_deps.split()

      for link_dep in self.graph.get_sources(gen_base.DT_LINK, target_ob.name):
        if isinstance(link_dep, gen_base.TargetJava):
          deps.append(link_dep.name)
        elif isinstance(link_dep, gen_base.TargetLinked):
          if link_dep.external_lib:
            libs.append(link_dep.external_lib)
          elif link_dep.external_project:
            # FIXME: This is a temporary workaround to fix build breakage
            # expeditiously.  It is of questionable validity for a build
            # node to have external_project but not have external_lib.
            pass
          elif link_dep.name in self.installed_libs:
            libs.append('-l%s-%s' % (link_dep.name[3:], self.version))
          else:
            # append the output of the target to our stated dependencies
            if not self.assume_shared_libs:
              deps.append(link_dep.filename)

            # link against the library
            libs.append(build_path_join(retreat, link_dep.filename))
        elif isinstance(link_dep, gen_base.ObjectFile):
          # link in the object file
          objects.append(link_dep.filename)
          objdeps.append(_normstr(link_dep.filename))
          for dep in self.graph.get_sources(gen_base.DT_OBJECT, link_dep, gen_base.SourceFile):
            object_srcs.append(
              build_path_join('$(abs_srcdir)', dep.filename))
        elif isinstance(link_dep, gen_base.HeaderFile):
          # link in the header file
          # N.B. that filename_win contains the '_'-escaped class name
          headers.append(link_dep.filename_win)
          header_classes.append(link_dep.classname)
          for dep in self.graph.get_sources(gen_base.DT_OBJECT, link_dep, gen_base.ObjectFile):
            header_class_filenames.append(dep.filename)
        else:
          ### we don't know what this is, so we don't know what to do with it
          raise UnknownDependency

      for nonlib in self.graph.get_sources(gen_base.DT_NONLIB, target_ob.name):
        if isinstance(nonlib, gen_base.TargetLinked):
          if not nonlib.external_lib:
            deps.append(nonlib.filename)

      targ_varname = target.replace('-', '_')
      objnames = build_path_strip(path, objects)

      ezt_target = _eztdata(name=target_ob.name,
                            varname=targ_varname,
                            path=path,
                            install=None,
                            add_deps=add_deps,
                            objects=objects,
                            objdeps=objdeps,
                            deps=deps,
                            when=target_ob.when,
                            )
      data.target.append(ezt_target)

      if hasattr(target_ob, 'link_cmd'):
        ezt_target.link_cmd = target_ob.link_cmd
      if hasattr(target_ob, 'output_dir'):
        ezt_target.output_dir = target_ob.output_dir

      # Add additional install dependencies if necessary
      if target_ob.add_install_deps:
        ezt_target.install = target_ob.install
        ezt_target.install_deps = target_ob.add_install_deps

      if isinstance(target_ob, gen_base.TargetJava):
        ezt_target.type = 'java'
        ezt_target.headers = headers
        ezt_target.sources = None
        ezt_target.jar = None
        ezt_target.classes = target_ob.classes

        # Build the headers from the header_classes with one 'javah' call
        if headers:
          ezt_target.header_class_filenames = header_class_filenames
          ezt_target.header_classes = header_classes

        # Build the objects from the object_srcs with one 'javac' call
        if object_srcs:
          ezt_target.sources = object_srcs

        # Once the bytecodes have been compiled up, we produce the
        # JAR.
        if target_ob.jar:
          ezt_target.jar_path = build_path_join(target_ob.classes,
                                                target_ob.jar)
          ezt_target.packages = target_ob.packages

      elif isinstance(target_ob, gen_base.TargetI18N):
        ezt_target.type = 'i18n'
      else:
        ezt_target.type = 'n/a'
        ezt_target.filename = target_ob.filename
        ezt_target.path = path
        if (isinstance(target_ob, gen_base.TargetLib)
            and not target_ob.undefined_lib_symbols):
          ezt_target.undefined_flag = '$(LT_NO_UNDEFINED)'
        else:
          ezt_target.undefined_flag = ''
        ezt_target.libs = gen_base.unique(libs)
        ezt_target.objnames = objnames
        ezt_target.basename = build_path_basename(target_ob.filename)

    ########################################

    for itype, i_targets in install_deps:

      # perl bindings do their own thing, "swig-pl" target is
      # already specified in Makefile.in
      if itype == "swig-pl":
        continue

      outputs = [ ]

      for t in i_targets:
        if hasattr(t, 'filename'):
          outputs.append(t.filename)

      data.itargets.append(_eztdata(type=itype, outputs=outputs))

    ########################################

    # for each install group, write a rule to install its outputs
    for area, inst_targets in install_deps:

      # perl bindings do their own thing, "install-swig-pl" target is
      # already specified in Makefile.in
      if area == "swig-pl":
        continue

      # get the output files for these targets, sorted in dependency order
      files = gen_base._sorted_files(self.graph, area)

      ezt_area_type = (area == 'apache-mod' and 'mods-shared' or area)
      ezt_area = _eztdata(type=ezt_area_type, files=[], extra_install=None)

      def file_to_eztdata(file):
          # cd to dirname before install to work around libtool 1.4.2 bug.
          dirname, fname = build_path_splitfile(file.filename)
          return _eztdata(mode=None,
                          dirname=dirname, fullname=file.filename,
                          filename=fname, when=file.when,
                          pc_fullname=None,
                          pc_installdir=None,
                          pc_install_fname=None,)

      def apache_file_to_eztdata(file):
          # cd to dirname before install to work around libtool 1.4.2 bug.
          dirname, fname = build_path_splitfile(file.filename)
          base, ext = os.path.splitext(fname)
          name = base.replace('mod_', '')
          return _eztdata(mode='apache-mod',
                          fullname=file.filename, dirname=dirname,
                          name=name, filename=fname, when=file.when)

      if area != 'test' and area != 'bdb-test':
        data.areas.append(ezt_area)

        area_var = area.replace('-', '_')
        upper_var = area_var.upper()
        ezt_area.varname = area_var
        ezt_area.uppervar = upper_var

        for file in files:
          if isinstance(file.target, gen_base.TargetApacheMod):
            ezt_file = apache_file_to_eztdata(file)
          else:
            ezt_file = file_to_eztdata(file)
            if area == 'locale':
              lang, objext = os.path.splitext(ezt_file.filename)
              installdir = ('$(DESTDIR)$(%sdir)/%s/LC_MESSAGES'
                            % (area_var, lang))
              ezt_file.installdir = installdir
              ezt_file.objext = objext
            else:
              ezt_file.install_fname = build_path_join('$(%sdir)' % area_var,
                                                       ezt_file.filename)

          # Install pkg-config files
          if (isinstance(file.target, gen_base.TargetLib) and
              ezt_file.fullname.startswith('subversion/libsvn_')):
            ezt_file.pc_fullname = ezt_file.fullname.replace('-1.la', '.pc')
            ezt_file.pc_installdir = '$(pkgconfig_dir)'
            pc_install_fname = ezt_file.filename.replace('-1.la', '.pc')
            ezt_file.pc_install_fname = build_path_join(ezt_file.pc_installdir,
                                                        pc_install_fname)
          ezt_area.files.append(ezt_file)

        # certain areas require hooks for extra install rules defined
        # in Makefile.in
        ### we should turn AREA into an object, then test it instead of this
        if area[:5] == 'swig-' and area[-4:] != '-lib' \
           or area[:7] == 'javahl-' \
           or area[:6] == 'cxxhl-' \
           or area == 'tools':
          ezt_area.extra_install = 'yes'

    ########################################

    includedir = build_path_join('$(includedir)',
                                 'subversion-%s' % self.version)
    data.includes = [_eztdata(file=file,
                              src=build_path_join('$(abs_srcdir)', file),
                              dst=build_path_join(includedir,
                                                  build_path_basename(file)))
                      for file in self.includes]
    data.includedir = includedir

    ########################################

    for target in install_sources:
      if not isinstance(target, gen_base.TargetScript) and \
         not isinstance(target, gen_base.TargetJava) and \
         not isinstance(target, gen_base.TargetI18N):
        data.isources.append(_eztdata(name=target.name,
                                      filename=target.filename))

    ########################################

    # write dependencies and build rules (when not using suffix rules)
    # for all other generated files which will not be installed
    # (or will be installed, but not by the main generated build)
    obj_deps = sorted(self.graph.get_deps(gen_base.DT_OBJECT),
                      key=lambda t: t[0].filename)

    for objname, sources in obj_deps:
      dep = _eztdata(name=_normstr(objname),
                     when=objname.when,
                     deps=list(map(_normstr, sources)),
                     cmd=objname.compile_cmd,
                     source=_normstr(sources[0]))
      data.deps.append(dep)
      dep.generated = ezt.boolean(getattr(objname, 'source_generated', 0))

    template = ezt.Template(os.path.join('build', 'generator', 'templates',
                                         'build-outputs.mk.ezt'),
                            compress_whitespace=False)
    template.generate(open('build-outputs.mk', 'w'), data)

    self.write_standalone()

    self.write_transform_libtool_scripts(install_sources)

    self.write_pkg_config_dot_in_files(install_sources)
Exemplo n.º 2
0
  def write(self):
    self.ofile = open('build-outputs.mk', 'w')
    self.ofile.write('# DO NOT EDIT -- AUTOMATICALLY GENERATED\n')

    install_deps = self.graph.get_deps(gen_base.DT_INSTALL)
    install_sources = self.graph.get_all_sources(gen_base.DT_INSTALL)

    cp = configparser.ConfigParser()
    cp.read('gen-make.opts')
    if cp.has_option('options', '--installed-libs'):
      self.installed_libs = cp.get('options', '--installed-libs').split(',')
    else:
      self.installed_libs = []

    # ensure consistency between runs
    install_deps.sort()
    install_sources.sort(key = lambda s: s.name)

    ########################################
    self.begin_section('Global make variables')

    for target in install_sources:
      if isinstance(target, gen_base.TargetRaModule) or \
         isinstance(target, gen_base.TargetFsModule):
        # name of the module: strip 'libsvn_' and upper-case it
        name = target.name[7:].upper()

        # construct a list of the other .la libs to link against
        retreat = build_path_retreat(target.path)
        if target.name in self.installed_libs:
          deps = []
          link = [ '-l%s-%s' % (target.name[3:], self.version) ]
        else:
          deps = [ target.filename ]
          link = [ build_path_join(retreat, target.filename) ]
        for source in self.graph.get_sources(gen_base.DT_LINK, target.name):
          if not isinstance(source, gen_base.TargetLib) or source.external_lib:
            continue
          elif source.name in self.installed_libs:
            continue
          deps.append(source.filename)
          link.append(build_path_join(retreat, source.filename))

        self.ofile.write('%s_DEPS = %s\n'
                         '%s_LINK = %s\n\n' % (name, ' '.join(deps),
                                               name, ' '.join(link)))

    # write a list of directories in which things are built
    #   get all the test scripts' directories
    script_dirs = list(map(build_path_dirname, self.scripts + self.bdb_scripts))

    #   remove duplicate directories between targets and tests
    build_dirs = unique(self.target_dirs + script_dirs + self.swig_dirs)

    self.ofile.write('BUILD_DIRS = %s\n\n' % ' '.join(build_dirs))

    # write lists of test files
    # deps = all, progs = not including those marked "testing = skip"
    self.ofile.write('BDB_TEST_DEPS = %s\n\n' %
                     ' '.join(self.bdb_test_deps + self.bdb_scripts))
    self.ofile.write('BDB_TEST_PROGRAMS = %s\n\n' %
                     ' '.join(self.bdb_test_progs + self.bdb_scripts))
    self.ofile.write('TEST_DEPS = %s\n\n' %
                     ' '.join(self.test_deps + self.scripts))
    self.ofile.write('TEST_PROGRAMS = %s\n\n' %
                     ' '.join(self.test_progs + self.scripts))

    # write list of all manpages
    self.ofile.write('MANPAGES = %s\n\n' % ' '.join(self.manpages))

    # write a list of files to remove during "make clean"
    cfiles = [ ]
    for target in install_sources:
      # .la files are handled by the standard 'clean' rule; clean all the
      # other targets
      if not isinstance(target, gen_base.TargetScript) \
         and not isinstance(target, gen_base.TargetProject) \
         and not isinstance(target, gen_base.TargetI18N) \
         and not isinstance(target, gen_base.TargetJava) \
         and not target.external_lib \
         and target.filename[-3:] != '.la':
        cfiles.append(target.filename)
    cfiles.sort()
    self.ofile.write('CLEAN_FILES = %s\n\n' % ' '.join(cfiles))

    # this is here because autogen-standalone needs it too
    self.ofile.write('SWIG_INCLUDES = -I$(abs_builddir)/subversion \\\n'
        '  -I$(abs_srcdir)/subversion/include \\\n'
        '  -I$(abs_srcdir)/subversion/bindings/swig \\\n'
        '  -I$(abs_srcdir)/subversion/bindings/swig/include \\\n'
        '  -I$(abs_srcdir)/subversion/bindings/swig/proxy \\\n'
        '  -I$(abs_builddir)/subversion/bindings/swig/proxy \\\n'
        '  $(SVN_APR_INCLUDES) $(SVN_APRUTIL_INCLUDES)\n\n')

    if self.release_mode:
      self.ofile.write('RELEASE_MODE = 1\n\n')

    ########################################
    self.begin_section('SWIG headers (wrappers and external runtimes)')

    if not self.release_mode:
      for swig in (generator.swig.header_wrappers,
                   generator.swig.checkout_swig_header,
                   generator.swig.external_runtime):
        gen = swig.Generator(self.conf, "swig")
        gen.write_makefile_rules(self.ofile)

    ########################################
    self.begin_section('SWIG autogen rules')

    # write dependencies and build rules for generated .c files
    swig_c_deps = sorted(self.graph.get_deps(gen_base.DT_SWIG_C), key = lambda t: t[0].filename)

    swig_lang_deps = {}
    for lang in self.swig.langs:
      swig_lang_deps[lang] = []

    short = self.swig.short
    for objname, sources in swig_c_deps:
      lang = objname.lang
      swig_lang_deps[lang].append(str(objname))

    for lang in self.swig.langs:
      lang_deps = ' '.join(swig_lang_deps[lang])
      self.ofile.write(
        'autogen-swig-%s: %s\n' % (short[lang], lang_deps) +
        'autogen-swig: autogen-swig-%s\n' % short[lang] +
        '\n')
    self.ofile.write('\n')

    ########################################
    self.begin_section('Rules to build SWIG .c files from .i files')

    for objname, sources in swig_c_deps:
      deps = ' '.join(map(str, sources))
      source = str(sources[0])
      source_dir = build_path_dirname(source)
      opts = self.swig.opts[objname.lang]
      if not self.release_mode:
        self.ofile.write('%s: %s\n' % (objname, deps) +
          '\t$(SWIG) $(SWIG_INCLUDES) %s ' % opts +
          '-o $@ $(top_srcdir)/%s\n' % source
        )

    self.ofile.write('\n')

    ########################################
    self.begin_section('Individual target build rules')

    for target_ob in install_sources:

      if isinstance(target_ob, gen_base.TargetScript):
        # there is nothing to build
        continue

      target = target_ob.name
      if isinstance(target_ob, gen_base.TargetJava):
        path = target_ob.output_dir
      else:
        path = target_ob.path

      retreat = build_path_retreat(path)

      # get the source items (.o and .la) for the link unit
      objects = [ ]
      object_srcs = [ ]
      headers = [ ]
      header_classes = [ ]
      header_class_filenames = [ ]
      deps = [ ]
      libs = [ ]

      for link_dep in self.graph.get_sources(gen_base.DT_LINK, target_ob.name):
        if isinstance(link_dep, gen_base.TargetJava):
          deps.append(link_dep.name)
        elif isinstance(link_dep, gen_base.TargetLinked):
          if link_dep.external_lib:
            libs.append(link_dep.external_lib)
          elif link_dep.external_project:
            # FIXME: This is a temporary workaround to fix build breakage
            # expeditiously.  It is of questionable validity for a build
            # node to have external_project but not have external_lib.
            pass
          elif link_dep.name in self.installed_libs:
            libs.append('-l%s-%s' % (link_dep.name[3:], self.version))
          else:
            # append the output of the target to our stated dependencies
            if not self.assume_shared_libs:
              deps.append(link_dep.filename)

            # link against the library
            libs.append(build_path_join(retreat, link_dep.filename))
        elif isinstance(link_dep, gen_base.ObjectFile):
          # link in the object file
          objects.append(link_dep.filename)
          for dep in self.graph.get_sources(gen_base.DT_OBJECT, link_dep, gen_base.SourceFile):
            object_srcs.append(
              build_path_join('$(abs_srcdir)', dep.filename))
        elif isinstance(link_dep, gen_base.HeaderFile):
          # link in the header file
          # N.B. that filename_win contains the '_'-escaped class name
          headers.append(link_dep.filename_win)
          header_classes.append(link_dep.classname)
          for dep in self.graph.get_sources(gen_base.DT_OBJECT, link_dep, gen_base.ObjectFile):
            header_class_filenames.append(dep.filename)
        else:
          ### we don't know what this is, so we don't know what to do with it
          raise UnknownDependency

      for nonlib in self.graph.get_sources(gen_base.DT_NONLIB, target_ob.name):
        if isinstance(nonlib, gen_base.TargetLinked):
          if not nonlib.external_lib:
            deps.append(nonlib.filename)

      targ_varname = target.replace('-', '_')
      objnames = ' '.join(build_path_strip(path, objects))

      # Output value of path variable
      self.ofile.write('%s_PATH = %s\n' % (targ_varname, path))

      # Add additional install dependencies if necessary
      if target_ob.add_install_deps:
        self.ofile.write('install-%s: %s\n'
          % (target_ob.install, target_ob.add_install_deps))

      if isinstance(target_ob, gen_base.TargetJava):
        self.ofile.write(
          '%s_HEADERS = %s\n'
          '%s_OBJECTS = %s\n'
          '%s_DEPS = $(%s_HEADERS) $(%s_OBJECTS) %s %s\n'
          '%s: $(%s_DEPS)\n'
          % (targ_varname, ' '.join(headers),

             targ_varname, ' '.join(objects),

             targ_varname, targ_varname, targ_varname, target_ob.add_deps,
             ' '.join(deps),

             target_ob.name, targ_varname))

        # Build the headers from the header_classes with one 'javah' call
        if headers:
          self.ofile.write(
            '%s_CLASS_FILENAMES = %s\n'
            '%s_CLASSES = %s\n'
            '$(%s_HEADERS): $(%s_CLASS_FILENAMES)\n'
            '\t%s -d %s -classpath %s:$(%s_CLASSPATH) $(%s_CLASSES)\n'
            % (targ_varname, ' '.join(header_class_filenames),

               targ_varname, ' '.join(header_classes),

               targ_varname, targ_varname,

               target_ob.link_cmd, target_ob.output_dir, target_ob.classes,
               targ_varname, targ_varname))

        # Build the objects from the object_srcs with one 'javac' call
        if object_srcs:
          self.ofile.write(
            '%s_SRC = %s\n'
            '$(%s_OBJECTS): $(%s_SRC)\n'
            '\t%s -d %s -classpath %s:$(%s_CLASSPATH) $(%s_SRC)\n'
            % (targ_varname, ' '.join(object_srcs),

               targ_varname, targ_varname,

               target_ob.link_cmd, target_ob.output_dir, target_ob.classes,
               targ_varname, targ_varname))

        # Once the bytecodes have been compiled up, we produce the
        # JAR.
        if target_ob.jar:
          self.ofile.write('\n\t$(JAR) cf %s -C %s %s' %
                           (build_path_join(target_ob.classes, target_ob.jar),
                            target_ob.classes,
                            ' '.join(target_ob.packages)))

        self.ofile.write('\n\n')
      elif isinstance(target_ob, gen_base.TargetI18N):
        self.ofile.write(
          '%s_DEPS = %s %s\n'
          '%s: $(%s_DEPS)\n\n'
          % (targ_varname, target_ob.add_deps, ' '.join(objects + deps),
             target_ob.name, targ_varname))
      else:
        self.ofile.write(
          '%s_DEPS = %s %s\n'
          '%s_OBJECTS = %s\n'
          '%s: $(%s_DEPS)\n'
          '\tcd %s && %s -o %s %s $(%s_OBJECTS) %s $(LIBS)\n\n'
          % (targ_varname, target_ob.add_deps, ' '.join(objects + deps),

             targ_varname, objnames,

             target_ob.filename, targ_varname,

             path, target_ob.link_cmd,
             build_path_basename(target_ob.filename),
             (isinstance(target_ob, gen_base.TargetLib) and not
               target_ob.undefined_lib_symbols) and '$(LT_NO_UNDEFINED)' or "",
             targ_varname, ' '.join(gen_base.unique(libs)))
          )

    ########################################
    self.begin_section('Install-Group build targets')

    for itype, i_targets in install_deps:

      # perl bindings do their own thing, "swig-pl" target is
      # already specified in Makefile.in
      if itype == "swig-pl":
        continue

      outputs = [ ]
      for t in i_targets:
        if hasattr(t, 'filename'):
          outputs.append(t.filename)
      self.ofile.write('%s: %s\n\n' % (itype, ' '.join(outputs)))

    ########################################
    self.begin_section('Install-Group install targets')

    # for each install group, write a rule to install its outputs
    for area, inst_targets in install_deps:

      # perl bindings do their own thing, "install-swig-pl" target is
      # already specified in Makefile.in
      if area == "swig-pl":
        continue

      # get the output files for these targets, sorted in dependency order
      files = gen_base._sorted_files(self.graph, area)

      if area == 'apache-mod':
        self.ofile.write('install-mods-shared: %s\n' % (' '.join(files)))
        for file in files:
          # cd to dirname before install to work around libtool 1.4.2 bug.
          dirname, fname = build_path_splitfile(file)
          base, ext = os.path.splitext(fname)
          name = base.replace('mod_', '')
          self.ofile.write('\tcd %s ; '
                           '$(MKDIR) "$(APACHE_LIBEXECDIR)" ; '
                           '$(INSTALL_MOD_SHARED) -n %s %s\n'
                           % (dirname, name, fname))
        self.ofile.write('\n')

      elif area != 'test' and area != 'bdb-test':
        area_var = area.replace('-', '_')
        upper_var = area_var.upper()
        self.ofile.write('install-%s: %s\n'
                         '\t$(MKDIR) $(DESTDIR)$(%sdir)\n'
                         % (area, ' '.join(files), area_var))
        for file in files:
          # cd to dirname before install to work around libtool 1.4.2 bug.
          dirname, fname = build_path_splitfile(file)
          if area == 'locale':
            lang, objext = os.path.splitext(fname)
            installdir = '$(DESTDIR)$(%sdir)/%s/LC_MESSAGES' % (area_var, lang)
            self.ofile.write('\t$(MKDIR) %s\n'
                             '\tcd %s ; $(INSTALL_%s) %s '
                             '%s/$(PACKAGE_NAME)%s\n'
                             % (installdir,
                                dirname, upper_var, fname,
                                installdir, objext))
          else:
            self.ofile.write('\tcd %s ; $(INSTALL_%s) %s $(DESTDIR)%s\n'
                             % (dirname, upper_var, fname,
                                build_path_join('$(%sdir)' % area_var, fname)))
        # certain areas require hooks for extra install rules defined
        # in Makefile.in
        ### we should turn AREA into an object, then test it instead of this
        if area[:5] == 'swig-' and area[-4:] != '-lib' or \
           area[:7] == 'javahl-':
          self.ofile.write('\t$(INSTALL_EXTRA_%s)\n' % upper_var)
        self.ofile.write('\n')

    ########################################
    self.begin_section('The install-include rule')

    includedir = build_path_join('$(includedir)',
                                 'subversion-%s' % self.version)
    self.ofile.write('install-include: %s\n'
                     '\t$(MKDIR) $(DESTDIR)%s\n'
                     % (' '.join(self.includes), includedir))
    for file in self.includes:
      self.ofile.write('\t$(INSTALL_INCLUDE) %s $(DESTDIR)%s\n'
                       % (build_path_join('$(abs_srcdir)', file),
                          build_path_join(includedir,
                                          build_path_basename(file))))

    ########################################
    self.begin_section('Shortcut targets for manual builds of specific items')

    for target in install_sources:
      if not isinstance(target, gen_base.TargetScript) and \
         not isinstance(target, gen_base.TargetJava) and \
         not isinstance(target, gen_base.TargetI18N):
        self.ofile.write('%s: %s\n' % (target.name, target.filename))

    ########################################
    self.begin_section('Rules to build all other kinds of object-like files')

    # write dependencies and build rules (when not using suffix rules)
    # for all other generated files which will not be installed
    # (or will be installed, but not by the main generated build)
    obj_deps = sorted(self.graph.get_deps(gen_base.DT_OBJECT), key = lambda t: t[0].filename)

    for objname, sources in obj_deps:
      deps = ' '.join(map(str, sources))
      self.ofile.write('%s: %s\n' % (objname, deps))
      cmd = objname.compile_cmd
      if cmd:
        if not getattr(objname, 'source_generated', 0):
          self.ofile.write('\t%s %s\n\n'
                           % (cmd, '$(canonicalized_srcdir)' + str(sources[0])))
        else:
          self.ofile.write('\t%s %s\n\n' % (cmd, sources[0]))
      else:
        self.ofile.write('\n')


    self.ofile.close()
    self.write_standalone()
Exemplo n.º 3
0
    def write(self):
        install_deps = self.graph.get_deps(gen_base.DT_INSTALL)
        install_sources = self.graph.get_all_sources(gen_base.DT_INSTALL)

        cp = configparser.ConfigParser()
        cp.read('gen-make.opts')
        if cp.has_option('options', '--installed-libs'):
            self.installed_libs = cp.get('options',
                                         '--installed-libs').split(',')
        else:
            self.installed_libs = []

        # ensure consistency between runs
        install_deps.sort()
        install_sources.sort(key=lambda s: s.name)

        class _eztdata(object):
            def __init__(self, **kw):
                vars(self).update(kw)

        data = _eztdata(
            modules=[],
            swig_langs=[],
            swig_c=[],
            target=[],
            itargets=[],
            areas=[],
            isources=[],
            deps=[],
            sql=[],
        )

        ########################################

        for target in install_sources:
            if isinstance(target, gen_base.TargetRaModule) or \
               isinstance(target, gen_base.TargetFsModule):
                # name of the module: strip 'libsvn_' and upper-case it
                name = target.name[7:].upper()

                # construct a list of the other .la libs to link against
                retreat = build_path_retreat(target.path)
                if target.name in self.installed_libs:
                    deps = []
                    link = ['-l%s-%s' % (target.name[3:], self.version)]
                else:
                    deps = [target.filename]
                    link = [build_path_join(retreat, target.filename)]
                for source in self.graph.get_sources(gen_base.DT_LINK,
                                                     target.name):
                    if not isinstance(
                            source, gen_base.TargetLib) or source.external_lib:
                        continue
                    elif source.name in self.installed_libs:
                        continue
                    deps.append(source.filename)
                    link.append(build_path_join(retreat, source.filename))

                data.modules.append(_eztdata(name=name, deps=deps, link=link))

        # write a list of directories in which things are built
        #   get all the test scripts' directories
        script_dirs = list(
            map(build_path_dirname, self.scripts + self.bdb_scripts))

        #   remove duplicate directories between targets and tests
        build_dirs = unique(self.target_dirs + script_dirs + self.swig_dirs)
        data.build_dirs = build_dirs

        # write lists of test files
        # deps = all, progs = not including those marked "testing = skip"
        data.bdb_test_deps = self.bdb_test_deps + self.bdb_scripts
        data.bdb_test_progs = self.bdb_test_progs + self.bdb_scripts
        data.test_deps = self.test_deps + self.scripts
        data.test_progs = self.test_progs + self.scripts
        data.test_helpers = self.test_helpers

        # write list of all manpages
        data.manpages = self.manpages

        # write a list of files to remove during "make clean"
        cfiles = []
        for target in install_sources:
            # .la files are handled by the standard 'clean' rule; clean all the
            # other targets
            if not isinstance(target, gen_base.TargetScript) \
               and not isinstance(target, gen_base.TargetProject) \
               and not isinstance(target, gen_base.TargetI18N) \
               and not isinstance(target, gen_base.TargetJava) \
               and not target.external_lib \
               and target.filename[-3:] != '.la':
                cfiles.append(target.filename)
        for script in self.scripts:
            if script.endswith('.py'):
                cfiles.append(script + 'c')
        data.cfiles = sorted(cfiles)

        # here are all the SQL files and their generated headers. the Makefile
        # has an implicit rule for generating these, so there isn't much to do
        # except to clean them out. we only do that for 'make extraclean' since
        # these are included as part of the tarball. the files are transformed
        # by gen-make, and developers also get a Make rule to keep them updated.
        for hdrfile, sqlfile in sorted(self.graph.get_deps(gen_base.DT_SQLHDR),
                                       key=lambda t: t[0]):
            data.sql.append(_eztdata(header=hdrfile, source=sqlfile[0]))

        data.release_mode = ezt.boolean(self.release_mode)

        ########################################

        if not self.release_mode:
            swig_rules = StringIO()
            for swig in (generator.swig.header_wrappers,
                         generator.swig.checkout_swig_header,
                         generator.swig.external_runtime):
                gen = swig.Generator(self.conf, "swig")
                gen.write_makefile_rules(swig_rules)

            data.swig_rules = swig_rules.getvalue()

        ########################################

        # write dependencies and build rules for generated .c files
        swig_c_deps = sorted(self.graph.get_deps(gen_base.DT_SWIG_C),
                             key=lambda t: t[0].filename)

        swig_lang_deps = {}
        for lang in self.swig.langs:
            swig_lang_deps[lang] = []

        for objname, sources in swig_c_deps:
            swig_lang_deps[objname.lang].append(str(objname))

        for lang in self.swig.langs:
            data.swig_langs.append(
                _eztdata(name=lang,
                         short=self.swig.short[lang],
                         short_upper=self.swig.short[lang].upper(),
                         deps=swig_lang_deps[lang]))

        ########################################

        if not self.release_mode:
            for objname, sources in swig_c_deps:
                data.swig_c.append(
                    _eztdata(c_file=str(objname),
                             deps=list(map(str, sources)),
                             opts=self.swig.opts[objname.lang],
                             source=str(sources[0])))

        ########################################

        for target_ob in install_sources:

            if isinstance(target_ob, gen_base.TargetScript):
                # there is nothing to build
                continue

            target = target_ob.name
            if isinstance(target_ob, gen_base.TargetJava):
                path = target_ob.output_dir
            else:
                path = target_ob.path

            retreat = build_path_retreat(path)

            # get the source items (.o and .la) for the link unit
            objects = []
            objdeps = []
            object_srcs = []
            headers = []
            header_classes = []
            header_class_filenames = []
            deps = []
            libs = []
            add_deps = target_ob.add_deps.split()

            for link_dep in self.graph.get_sources(gen_base.DT_LINK,
                                                   target_ob.name):
                if isinstance(link_dep, gen_base.TargetJava):
                    deps.append(link_dep.name)
                elif isinstance(link_dep, gen_base.TargetLinked):
                    if link_dep.external_lib:
                        libs.append(link_dep.external_lib)
                    elif link_dep.external_project:
                        # FIXME: This is a temporary workaround to fix build breakage
                        # expeditiously.  It is of questionable validity for a build
                        # node to have external_project but not have external_lib.
                        pass
                    elif link_dep.name in self.installed_libs:
                        libs.append('-l%s-%s' %
                                    (link_dep.name[3:], self.version))
                    else:
                        # append the output of the target to our stated dependencies
                        if not self.assume_shared_libs:
                            deps.append(link_dep.filename)

                        # link against the library
                        libs.append(build_path_join(retreat,
                                                    link_dep.filename))
                elif isinstance(link_dep, gen_base.ObjectFile):
                    # link in the object file
                    objects.append(link_dep.filename)
                    objdeps.append(_normstr(link_dep.filename))
                    for dep in self.graph.get_sources(gen_base.DT_OBJECT,
                                                      link_dep,
                                                      gen_base.SourceFile):
                        object_srcs.append(
                            build_path_join('$(abs_srcdir)', dep.filename))
                elif isinstance(link_dep, gen_base.HeaderFile):
                    # link in the header file
                    # N.B. that filename_win contains the '_'-escaped class name
                    headers.append(link_dep.filename_win)
                    header_classes.append(link_dep.classname)
                    for dep in self.graph.get_sources(gen_base.DT_OBJECT,
                                                      link_dep,
                                                      gen_base.ObjectFile):
                        header_class_filenames.append(dep.filename)
                else:
                    ### we don't know what this is, so we don't know what to do with it
                    raise UnknownDependency

            for nonlib in self.graph.get_sources(gen_base.DT_NONLIB,
                                                 target_ob.name):
                if isinstance(nonlib, gen_base.TargetLinked):
                    if not nonlib.external_lib:
                        deps.append(nonlib.filename)

            targ_varname = target.replace('-', '_')
            objnames = build_path_strip(path, objects)

            ezt_target = _eztdata(
                name=target_ob.name,
                varname=targ_varname,
                path=path,
                install=None,
                add_deps=add_deps,
                objects=objects,
                objdeps=objdeps,
                deps=deps,
                when=target_ob.when,
            )
            data.target.append(ezt_target)

            if hasattr(target_ob, 'link_cmd'):
                ezt_target.link_cmd = target_ob.link_cmd
            if hasattr(target_ob, 'output_dir'):
                ezt_target.output_dir = target_ob.output_dir
            if hasattr(target_ob, 'headers_dir'):
                ezt_target.headers_dir = target_ob.headers_dir

            # Add additional install dependencies if necessary
            if target_ob.add_install_deps:
                ezt_target.install = target_ob.install
                ezt_target.install_deps = target_ob.add_install_deps

            if isinstance(target_ob, gen_base.TargetJava):
                ezt_target.type = 'java'
                ezt_target.headers = headers
                ezt_target.sources = None
                ezt_target.jar = None
                ezt_target.classes = target_ob.classes

                # Build the headers from the header_classes with one 'javah' call
                if headers:
                    ezt_target.header_class_filenames = header_class_filenames
                    ezt_target.header_classes = header_classes

                # Build the objects from the object_srcs with one 'javac' call
                if object_srcs:
                    ezt_target.sources = object_srcs

                # Once the bytecodes have been compiled up, we produce the
                # JAR.
                if target_ob.jar:
                    ezt_target.jar_path = build_path_join(
                        target_ob.classes, target_ob.jar)
                    ezt_target.packages = target_ob.packages

            elif isinstance(target_ob, gen_base.TargetI18N):
                ezt_target.type = 'i18n'
            else:
                ezt_target.type = 'n/a'
                ezt_target.filename = target_ob.filename
                ezt_target.path = path
                if (isinstance(target_ob, gen_base.TargetLib)
                        and not target_ob.undefined_lib_symbols):
                    ezt_target.undefined_flag = '$(LT_NO_UNDEFINED)'
                else:
                    ezt_target.undefined_flag = ''
                ezt_target.libs = gen_base.unique(libs)
                ezt_target.objnames = objnames
                ezt_target.basename = build_path_basename(target_ob.filename)

        ########################################

        for itype, i_targets in install_deps:

            # perl bindings do their own thing, "swig-pl" target is
            # already specified in Makefile.in
            if itype == "swig-pl":
                continue

            outputs = []

            for t in i_targets:
                if hasattr(t, 'filename'):
                    outputs.append(t.filename)

            data.itargets.append(_eztdata(type=itype, outputs=outputs))

        ########################################

        # for each install group, write a rule to install its outputs
        for area, inst_targets in install_deps:

            # perl bindings do their own thing, "install-swig-pl" target is
            # already specified in Makefile.in
            if area == "swig-pl":
                continue

            # get the output files for these targets, sorted in dependency order
            files = gen_base._sorted_files(self.graph, area)

            ezt_area_type = (area == 'apache-mod' and 'mods-shared' or area)
            ezt_area = _eztdata(type=ezt_area_type,
                                files=[],
                                extra_install=None)

            def file_to_eztdata(file):
                # cd to dirname before install to work around libtool 1.4.2 bug.
                dirname, fname = build_path_splitfile(file.filename)
                return _eztdata(
                    mode=None,
                    dirname=dirname,
                    fullname=file.filename,
                    filename=fname,
                    when=file.when,
                    pc_fullname=None,
                    pc_installdir=None,
                    pc_install_fname=None,
                )

            def apache_file_to_eztdata(file):
                # cd to dirname before install to work around libtool 1.4.2 bug.
                dirname, fname = build_path_splitfile(file.filename)
                base, ext = os.path.splitext(fname)
                name = base.replace('mod_', '')
                return _eztdata(mode='apache-mod',
                                fullname=file.filename,
                                dirname=dirname,
                                name=name,
                                filename=fname,
                                when=file.when)

            if area != 'test' and area != 'bdb-test':
                data.areas.append(ezt_area)

                area_var = area.replace('-', '_')
                upper_var = area_var.upper()
                ezt_area.varname = area_var
                ezt_area.uppervar = upper_var

                for file in files:
                    if isinstance(file.target, gen_base.TargetApacheMod):
                        ezt_file = apache_file_to_eztdata(file)
                    else:
                        ezt_file = file_to_eztdata(file)
                        if area == 'locale':
                            lang, objext = os.path.splitext(ezt_file.filename)
                            installdir = ('$(DESTDIR)$(%sdir)/%s/LC_MESSAGES' %
                                          (area_var, lang))
                            ezt_file.installdir = installdir
                            ezt_file.objext = objext
                        else:
                            ezt_file.install_fname = build_path_join(
                                '$(%sdir)' % area_var, ezt_file.filename)

                    # Install pkg-config files
                    if (isinstance(file.target, gen_base.TargetLib)
                            and ezt_file.fullname.startswith(
                                'subversion/libsvn_')):
                        ezt_file.pc_fullname = ezt_file.fullname.replace(
                            '-1.la', '.pc')
                        ezt_file.pc_installdir = '$(pkgconfig_dir)'
                        pc_install_fname = ezt_file.filename.replace(
                            '-1.la', '.pc')
                        ezt_file.pc_install_fname = build_path_join(
                            ezt_file.pc_installdir, pc_install_fname)
                    ezt_area.files.append(ezt_file)

                # certain areas require hooks for extra install rules defined
                # in Makefile.in
                ### we should turn AREA into an object, then test it instead of this
                if area[:5] == 'swig-' and area[-4:] != '-lib' \
                   or area[:7] == 'javahl-' \
                   or area[:6] == 'svnxx-' \
                   or area == 'tools':
                    ezt_area.extra_install = 'yes'

        ########################################

        includedir = build_path_join('$(includedir)',
                                     'subversion-%s' % self.version)
        data.includes = [
            _eztdata(file=file,
                     src=build_path_join('$(abs_srcdir)', file),
                     dst=build_path_join(includedir,
                                         build_path_basename(file)))
            for file in self.includes
        ]
        data.includedir = includedir

        ########################################

        for target in install_sources:
            if not isinstance(target, gen_base.TargetScript) and \
               not isinstance(target, gen_base.TargetJava) and \
               not isinstance(target, gen_base.TargetI18N):
                data.isources.append(
                    _eztdata(name=target.name, filename=target.filename))

        ########################################

        # write dependencies and build rules (when not using suffix rules)
        # for all other generated files which will not be installed
        # (or will be installed, but not by the main generated build)
        obj_deps = sorted(self.graph.get_deps(gen_base.DT_OBJECT),
                          key=lambda t: t[0].filename)

        for objname, sources in obj_deps:
            dep = _eztdata(name=_normstr(objname),
                           when=objname.when,
                           deps=list(map(_normstr, sources)),
                           cmd=objname.compile_cmd,
                           source=_normstr(sources[0]))
            data.deps.append(dep)
            dep.generated = ezt.boolean(getattr(objname, 'source_generated',
                                                0))

        template = ezt.Template(os.path.join('build', 'generator', 'templates',
                                             'build-outputs.mk.ezt'),
                                compress_whitespace=False)
        template.generate(open('build-outputs.mk', 'w'), data)

        self.write_standalone()

        self.write_transform_libtool_scripts(install_sources)

        self.write_pkg_config_dot_in_files(install_sources)
Exemplo n.º 4
0
    def write(self):
        self.ofile = open('build-outputs.mk', 'w')
        self.ofile.write('# DO NOT EDIT -- AUTOMATICALLY GENERATED\n')

        install_deps = self.graph.get_deps(gen_base.DT_INSTALL)
        install_sources = self.graph.get_all_sources(gen_base.DT_INSTALL)

        cp = configparser.ConfigParser()
        cp.read('gen-make.opts')
        if cp.has_option('options', '--installed-libs'):
            self.installed_libs = cp.get('options',
                                         '--installed-libs').split(',')
        else:
            self.installed_libs = []

        # ensure consistency between runs
        install_deps.sort()
        install_sources.sort(key=lambda s: s.name)

        ########################################
        self.begin_section('Global make variables')

        for target in install_sources:
            if isinstance(target, gen_base.TargetRaModule) or \
               isinstance(target, gen_base.TargetFsModule):
                # name of the module: strip 'libsvn_' and upper-case it
                name = target.name[7:].upper()

                # construct a list of the other .la libs to link against
                retreat = build_path_retreat(target.path)
                if target.name in self.installed_libs:
                    deps = []
                    link = ['-l%s-%s' % (target.name[3:], self.version)]
                else:
                    deps = [target.filename]
                    link = [build_path_join(retreat, target.filename)]
                for source in self.graph.get_sources(gen_base.DT_LINK,
                                                     target.name):
                    if not isinstance(
                            source, gen_base.TargetLib) or source.external_lib:
                        continue
                    elif source.name in self.installed_libs:
                        continue
                    deps.append(source.filename)
                    link.append(build_path_join(retreat, source.filename))

                self.ofile.write('%s_DEPS = %s\n'
                                 '%s_LINK = %s\n\n' %
                                 (name, ' '.join(deps), name, ' '.join(link)))

        # write a list of directories in which things are built
        #   get all the test scripts' directories
        script_dirs = list(
            map(build_path_dirname, self.scripts + self.bdb_scripts))

        #   remove duplicate directories between targets and tests
        build_dirs = unique(self.target_dirs + script_dirs + self.swig_dirs)

        self.ofile.write('BUILD_DIRS = %s\n\n' % ' '.join(build_dirs))

        # write lists of test files
        # deps = all, progs = not including those marked "testing = skip"
        self.ofile.write('BDB_TEST_DEPS = %s\n\n' %
                         ' '.join(self.bdb_test_deps + self.bdb_scripts))
        self.ofile.write('BDB_TEST_PROGRAMS = %s\n\n' %
                         ' '.join(self.bdb_test_progs + self.bdb_scripts))
        self.ofile.write('TEST_DEPS = %s\n\n' %
                         ' '.join(self.test_deps + self.scripts))
        self.ofile.write('TEST_PROGRAMS = %s\n\n' %
                         ' '.join(self.test_progs + self.scripts))

        # write list of all manpages
        self.ofile.write('MANPAGES = %s\n\n' % ' '.join(self.manpages))

        # write a list of files to remove during "make clean"
        cfiles = []
        for target in install_sources:
            # .la files are handled by the standard 'clean' rule; clean all the
            # other targets
            if not isinstance(target, gen_base.TargetScript) \
               and not isinstance(target, gen_base.TargetProject) \
               and not isinstance(target, gen_base.TargetI18N) \
               and not isinstance(target, gen_base.TargetJava) \
               and not target.external_lib \
               and target.filename[-3:] != '.la':
                cfiles.append(target.filename)
        cfiles.sort()
        self.ofile.write('CLEAN_FILES = %s\n\n' % ' '.join(cfiles))

        # this is here because autogen-standalone needs it too
        self.ofile.write(
            'SWIG_INCLUDES = -I$(abs_builddir)/subversion \\\n'
            '  -I$(abs_srcdir)/subversion/include \\\n'
            '  -I$(abs_srcdir)/subversion/bindings/swig \\\n'
            '  -I$(abs_srcdir)/subversion/bindings/swig/include \\\n'
            '  -I$(abs_srcdir)/subversion/bindings/swig/proxy \\\n'
            '  -I$(abs_builddir)/subversion/bindings/swig/proxy \\\n'
            '  $(SVN_APR_INCLUDES) $(SVN_APRUTIL_INCLUDES)\n\n')

        if self.release_mode:
            self.ofile.write('RELEASE_MODE = 1\n\n')

        ########################################
        self.begin_section('SWIG headers (wrappers and external runtimes)')

        if not self.release_mode:
            for swig in (generator.swig.header_wrappers,
                         generator.swig.checkout_swig_header,
                         generator.swig.external_runtime):
                gen = swig.Generator(self.conf, "swig")
                gen.write_makefile_rules(self.ofile)

        ########################################
        self.begin_section('SWIG autogen rules')

        # write dependencies and build rules for generated .c files
        swig_c_deps = sorted(self.graph.get_deps(gen_base.DT_SWIG_C),
                             key=lambda t: t[0].filename)

        swig_lang_deps = {}
        for lang in self.swig.langs:
            swig_lang_deps[lang] = []

        short = self.swig.short
        for objname, sources in swig_c_deps:
            lang = objname.lang
            swig_lang_deps[lang].append(str(objname))

        for lang in self.swig.langs:
            lang_deps = ' '.join(swig_lang_deps[lang])
            self.ofile.write('autogen-swig-%s: %s\n' %
                             (short[lang], lang_deps) +
                             'autogen-swig: autogen-swig-%s\n' % short[lang] +
                             '\n')
        self.ofile.write('\n')

        ########################################
        self.begin_section('Rules to build SWIG .c files from .i files')

        for objname, sources in swig_c_deps:
            deps = ' '.join(map(str, sources))
            source = str(sources[0])
            source_dir = build_path_dirname(source)
            opts = self.swig.opts[objname.lang]
            if not self.release_mode:
                self.ofile.write('%s: %s\n' % (objname, deps) +
                                 '\t$(SWIG) $(SWIG_INCLUDES) %s ' % opts +
                                 '-o $@ $(top_srcdir)/%s\n' % source)

        self.ofile.write('\n')

        ########################################
        self.begin_section('Individual target build rules')

        for target_ob in install_sources:

            if isinstance(target_ob, gen_base.TargetScript):
                # there is nothing to build
                continue

            target = target_ob.name
            if isinstance(target_ob, gen_base.TargetJava):
                path = target_ob.output_dir
            else:
                path = target_ob.path

            retreat = build_path_retreat(path)

            # get the source items (.o and .la) for the link unit
            objects = []
            object_srcs = []
            headers = []
            header_classes = []
            header_class_filenames = []
            deps = []
            libs = []

            for link_dep in self.graph.get_sources(gen_base.DT_LINK,
                                                   target_ob.name):
                if isinstance(link_dep, gen_base.TargetJava):
                    deps.append(link_dep.name)
                elif isinstance(link_dep, gen_base.TargetLinked):
                    if link_dep.external_lib:
                        libs.append(link_dep.external_lib)
                    elif link_dep.external_project:
                        # FIXME: This is a temporary workaround to fix build breakage
                        # expeditiously.  It is of questionable validity for a build
                        # node to have external_project but not have external_lib.
                        pass
                    elif link_dep.name in self.installed_libs:
                        libs.append('-l%s-%s' %
                                    (link_dep.name[3:], self.version))
                    else:
                        # append the output of the target to our stated dependencies
                        if not self.assume_shared_libs:
                            deps.append(link_dep.filename)

                        # link against the library
                        libs.append(build_path_join(retreat,
                                                    link_dep.filename))
                elif isinstance(link_dep, gen_base.ObjectFile):
                    # link in the object file
                    objects.append(link_dep.filename)
                    for dep in self.graph.get_sources(gen_base.DT_OBJECT,
                                                      link_dep,
                                                      gen_base.SourceFile):
                        object_srcs.append(
                            build_path_join('$(abs_srcdir)', dep.filename))
                elif isinstance(link_dep, gen_base.HeaderFile):
                    # link in the header file
                    # N.B. that filename_win contains the '_'-escaped class name
                    headers.append(link_dep.filename_win)
                    header_classes.append(link_dep.classname)
                    for dep in self.graph.get_sources(gen_base.DT_OBJECT,
                                                      link_dep,
                                                      gen_base.ObjectFile):
                        header_class_filenames.append(dep.filename)
                else:
                    ### we don't know what this is, so we don't know what to do with it
                    raise UnknownDependency

            for nonlib in self.graph.get_sources(gen_base.DT_NONLIB,
                                                 target_ob.name):
                if isinstance(nonlib, gen_base.TargetLinked):
                    if not nonlib.external_lib:
                        deps.append(nonlib.filename)

            targ_varname = target.replace('-', '_')
            objnames = ' '.join(build_path_strip(path, objects))

            # Output value of path variable
            self.ofile.write('%s_PATH = %s\n' % (targ_varname, path))

            # Add additional install dependencies if necessary
            if target_ob.add_install_deps:
                self.ofile.write(
                    'install-%s: %s\n' %
                    (target_ob.install, target_ob.add_install_deps))

            if isinstance(target_ob, gen_base.TargetJava):
                self.ofile.write(
                    '%s_HEADERS = %s\n'
                    '%s_OBJECTS = %s\n'
                    '%s_DEPS = $(%s_HEADERS) $(%s_OBJECTS) %s %s\n'
                    '%s: $(%s_DEPS)\n' %
                    (targ_varname, ' '.join(headers), targ_varname,
                     ' '.join(objects), targ_varname, targ_varname,
                     targ_varname, target_ob.add_deps, ' '.join(deps),
                     target_ob.name, targ_varname))

                # Build the headers from the header_classes with one 'javah' call
                if headers:
                    self.ofile.write(
                        '%s_CLASS_FILENAMES = %s\n'
                        '%s_CLASSES = %s\n'
                        '$(%s_HEADERS): $(%s_CLASS_FILENAMES)\n'
                        '\t%s -d %s -classpath %s:$(%s_CLASSPATH) $(%s_CLASSES)\n'
                        % (targ_varname, ' '.join(header_class_filenames),
                           targ_varname, ' '.join(header_classes),
                           targ_varname, targ_varname, target_ob.link_cmd,
                           target_ob.output_dir, target_ob.classes,
                           targ_varname, targ_varname))

                # Build the objects from the object_srcs with one 'javac' call
                if object_srcs:
                    self.ofile.write(
                        '%s_SRC = %s\n'
                        '$(%s_OBJECTS): $(%s_SRC)\n'
                        '\t%s -d %s -classpath %s:$(%s_CLASSPATH) $(%s_SRC)\n'
                        % (targ_varname, ' '.join(object_srcs), targ_varname,
                           targ_varname, target_ob.link_cmd,
                           target_ob.output_dir, target_ob.classes,
                           targ_varname, targ_varname))

                # Once the bytecodes have been compiled up, we produce the
                # JAR.
                if target_ob.jar:
                    self.ofile.write(
                        '\n\t$(JAR) cf %s -C %s %s' %
                        (build_path_join(target_ob.classes, target_ob.jar),
                         target_ob.classes, ' '.join(target_ob.packages)))

                self.ofile.write('\n\n')
            elif isinstance(target_ob, gen_base.TargetI18N):
                self.ofile.write(
                    '%s_DEPS = %s %s\n'
                    '%s: $(%s_DEPS)\n\n' %
                    (targ_varname, target_ob.add_deps,
                     ' '.join(objects + deps), target_ob.name, targ_varname))
            else:
                self.ofile.write(
                    '%s_DEPS = %s %s\n'
                    '%s_OBJECTS = %s\n'
                    '%s: $(%s_DEPS)\n'
                    '\tcd %s && %s -o %s %s $(%s_OBJECTS) %s $(LIBS)\n\n' %
                    (targ_varname, target_ob.add_deps,
                     ' '.join(objects + deps), targ_varname, objnames,
                     target_ob.filename, targ_varname, path,
                     target_ob.link_cmd, build_path_basename(
                         target_ob.filename),
                     (isinstance(target_ob, gen_base.TargetLib)
                      and not target_ob.undefined_lib_symbols)
                     and '$(LT_NO_UNDEFINED)' or "", targ_varname, ' '.join(
                         gen_base.unique(libs))))

        ########################################
        self.begin_section('Install-Group build targets')

        for itype, i_targets in install_deps:

            # perl bindings do their own thing, "swig-pl" target is
            # already specified in Makefile.in
            if itype == "swig-pl":
                continue

            outputs = []
            for t in i_targets:
                if hasattr(t, 'filename'):
                    outputs.append(t.filename)
            self.ofile.write('%s: %s\n\n' % (itype, ' '.join(outputs)))

        ########################################
        self.begin_section('Install-Group install targets')

        # for each install group, write a rule to install its outputs
        for area, inst_targets in install_deps:

            # perl bindings do their own thing, "install-swig-pl" target is
            # already specified in Makefile.in
            if area == "swig-pl":
                continue

            # get the output files for these targets, sorted in dependency order
            files = gen_base._sorted_files(self.graph, area)

            if area == 'apache-mod':
                self.ofile.write('install-mods-shared: %s\n' %
                                 (' '.join(files)))
                for file in files:
                    # cd to dirname before install to work around libtool 1.4.2 bug.
                    dirname, fname = build_path_splitfile(file)
                    base, ext = os.path.splitext(fname)
                    name = base.replace('mod_', '')
                    self.ofile.write('\tcd %s ; '
                                     '$(MKDIR) "$(APACHE_LIBEXECDIR)" ; '
                                     '$(INSTALL_MOD_SHARED) -n %s %s\n' %
                                     (dirname, name, fname))
                self.ofile.write('\n')

            elif area != 'test' and area != 'bdb-test':
                area_var = area.replace('-', '_')
                upper_var = area_var.upper()
                self.ofile.write('install-%s: %s\n'
                                 '\t$(MKDIR) $(DESTDIR)$(%sdir)\n' %
                                 (area, ' '.join(files), area_var))
                for file in files:
                    # cd to dirname before install to work around libtool 1.4.2 bug.
                    dirname, fname = build_path_splitfile(file)
                    if area == 'locale':
                        lang, objext = os.path.splitext(fname)
                        installdir = '$(DESTDIR)$(%sdir)/%s/LC_MESSAGES' % (
                            area_var, lang)
                        self.ofile.write('\t$(MKDIR) %s\n'
                                         '\tcd %s ; $(INSTALL_%s) %s '
                                         '%s/$(PACKAGE_NAME)%s\n' %
                                         (installdir, dirname, upper_var,
                                          fname, installdir, objext))
                    else:
                        self.ofile.write(
                            '\tcd %s ; $(INSTALL_%s) %s $(DESTDIR)%s\n' %
                            (dirname, upper_var, fname,
                             build_path_join('$(%sdir)' % area_var, fname)))
                # certain areas require hooks for extra install rules defined
                # in Makefile.in
                ### we should turn AREA into an object, then test it instead of this
                if area[:5] == 'swig-' and area[-4:] != '-lib' or \
                   area[:7] == 'javahl-':
                    self.ofile.write('\t$(INSTALL_EXTRA_%s)\n' % upper_var)
                self.ofile.write('\n')

        ########################################
        self.begin_section('The install-include rule')

        includedir = build_path_join('$(includedir)',
                                     'subversion-%s' % self.version)
        self.ofile.write('install-include: %s\n'
                         '\t$(MKDIR) $(DESTDIR)%s\n' %
                         (' '.join(self.includes), includedir))
        for file in self.includes:
            self.ofile.write(
                '\t$(INSTALL_INCLUDE) %s $(DESTDIR)%s\n' %
                (build_path_join('$(abs_srcdir)', file),
                 build_path_join(includedir, build_path_basename(file))))

        ########################################
        self.begin_section(
            'Shortcut targets for manual builds of specific items')

        for target in install_sources:
            if not isinstance(target, gen_base.TargetScript) and \
               not isinstance(target, gen_base.TargetJava) and \
               not isinstance(target, gen_base.TargetI18N):
                self.ofile.write('%s: %s\n' % (target.name, target.filename))

        ########################################
        self.begin_section(
            'Rules to build all other kinds of object-like files')

        # write dependencies and build rules (when not using suffix rules)
        # for all other generated files which will not be installed
        # (or will be installed, but not by the main generated build)
        obj_deps = sorted(self.graph.get_deps(gen_base.DT_OBJECT),
                          key=lambda t: t[0].filename)

        for objname, sources in obj_deps:
            deps = ' '.join(map(str, sources))
            self.ofile.write('%s: %s\n' % (objname, deps))
            cmd = objname.compile_cmd
            if cmd:
                if not getattr(objname, 'source_generated', 0):
                    self.ofile.write(
                        '\t%s %s\n\n' %
                        (cmd, '$(canonicalized_srcdir)' + str(sources[0])))
                else:
                    self.ofile.write('\t%s %s\n\n' % (cmd, sources[0]))
            else:
                self.ofile.write('\n')

        self.ofile.close()
        self.write_standalone()