X-Git-Url: http://g0dil.de/git?a=blobdiff_plain;f=senfscons%2FSENFSCons.py;h=1f302d8be9113de918732637720502c1b3f5fa94;hb=b1f9349b1f3521d58cbef52ead0f2e5303a58c9e;hp=8fd75038d457b58d3ce2b0529d7e48c8aeb815a5;hpb=fb503247154c4a0f966cef898c813e18b8bec6ed;p=senf.git
diff --git a/senfscons/SENFSCons.py b/senfscons/SENFSCons.py
index 8fd7503..1f302d8 100644
--- a/senfscons/SENFSCons.py
+++ b/senfscons/SENFSCons.py
@@ -1,302 +1,8 @@
-## \file
-# \brief SENFSCons package
-
-## \package senfscons.SENFSCons
-# \brief Build helpers and utilities
-#
-# The SENFSCons package contains a number of build helpers and
-# utilities which are used to simplify commmon tasks.
-#
-# The utitlities of this package are grouped into:
-#
- \ref use
- help using complex environments and
-# configure the construction environmen correspondingly
-#
-# - \ref target
- simplify building common targest and include
-# enhanced functionality like unit-testing.
-#
-# Additionally for external use are
-# - MakeEnvironment()
- Build construction
-# environment
-#
-# - GlobSources()
- Utility to find source files
-#
-# All other functions are for internal use only.
-
import os.path, glob
import SCons.Options, SCons.Environment, SCons.Script.SConscript, SCons.Node.FS
import SCons.Defaults, SCons.Action
from SCons.Script import *
-## \defgroup use Predefined Framework Configurators
-#
-# The following framework configurators are used in the top level \c
-# SConstruct file to simplify more complex configurations.
-#
-# Each of the framework configurators introduces additional
-# configuration parameters to \ref sconfig
-
-## \defgroup target Target Helpers
-#
-# To specify standard targets, the following helpers can be used. They
-# automatically integrate several modules (like documentation,
-# unit-testing etc).
-
-## \defgroup builder Builders
-#
-# The SENFSCons framework includes a series of builders. Each builder
-# is defined in it's own package.
-
-# Tools to load in MakeEnvironment
-SCONS_TOOLS = [
- "Doxygen",
- "Dia2Png",
- "PkgDraw",
- "CopyToDir",
- "ProgramNoScan",
- "CompileCheck",
-]
-
-opts = None
-finalizers = []
-
-# This is the directory SENFSCons.py resides
-basedir = os.path.abspath(os.path.split(__file__)[0])
-
-## \brief Initialize configuration options
-# \internal
-def InitOpts():
- global opts
- if opts is not None: return
- opts = SCons.Options.Options('SConfig')
- opts.Add('CXX', 'C++ compiler to use', 'g++')
- opts.Add('EXTRA_DEFINES', 'Additional preprocessor defines', '')
- opts.Add('EXTRA_LIBS', 'Additional libraries to link against', '')
- opts.Add('EXTRA_CCFLAGS', 'Additional compilation parameters', '')
- opts.Add(SCons.Options.BoolOption('final','Enable optimization',0))
- opts.Add(SCons.Options.BoolOption('debug','Enable debug symbols in binaries',0))
- opts.Add(SCons.Options.BoolOption('profile','Enable profiling',0))
- opts.Add('PREFIX', 'Installation prefix', '/usr/local')
- opts.Add('LIBINSTALLDIR', 'Library install dir', '$PREFIX/lib')
- opts.Add('BININSTALLDIR', 'Executable install dir', '$PREFIX/bin')
- opts.Add('INCLUDEINSTALLDIR', 'Include-file install dir', '$PREFIX/include')
- opts.Add('OBJINSTALLDIR', 'Static object file install dir', '$LIBINSTALLDIR')
- opts.Add('DOCINSTALLDIR', 'Documentation install dir', '$PREFIX/doc')
- opts.Add('CPP_INCLUDE_EXTENSIONS', 'File extensions to include in source install',
- [ '.h', '.hh', '.ih', '.mpp', '.cci', '.ct', '.cti', '.mpp' ])
- opts.Add('CPP_EXCLUDE_EXTENSIONS', 'File extensions to exclude from source install',
- [ '.test.hh' ])
-
-# A finalizer is any callable object. All finalizers will be called
-# in MakeEnvironment. We use them so every finalizer has knowledge of
-# all frameworks in use (e.g.: the boost runtime depends on the use of
-# stlport).
-
-## \brief Register finalizer
-# \internal
-def Finalizer(f):
- global finalizers
- finalizers.append(f)
-
-## \brief Initialize the use of the Boost library
-#
-# Configure the use of the Boost
-# libraries. Most of these libraries are header-only, some however
-# depend on a built library. The library selection is somewhat
-# involved and depends on the threading model and the type of build
-# (debug or final).
-#
-# \par Configuration Parameters:
-#
-# \c BOOST_INCLUDES | Include directory. |
-# \c BOOST_LIBDIR | Library directory |
-# \c BOOST_VARIANT | Complete variant specification |
-# \c BOOST_TOOLSET | Toolset to use |
-# \c BOOST_RUNTIME | Runtime to use |
-# \c BOOST_DEBUG_RUNTIME | Explicit debug runtime |
-#
-#
-# You can either specify \c BOOST_VARIANT explicitly or specify \c
-# BOOST_TOOLSET and \c BOOST_RUNTIME. If you give \c BOOST_TOOLSET, \c
-# BOOST_RUNTIME defaults to empty and \c BOOST_DEBUG_RUNTIME defaults
-# to \c gd, If \c BOOST_TOOLSET is specified and you have included
-# STLPort support (UseSTLPort()), then \c p is appended to both
-# runtimes.
-#
-# The Boost configuration can get realtively complex. If the boost
-# libraries are provided by the distribution, you probably don't need
-# to specify any parameters. If your configuration is more complex,
-# refer to the Boost.Build
-# documentation for a definition of the terms used above (toolset,
-# variant, runtime ...).
-#
-# \ingroup use
-def UseBoost():
- global opts
- InitOpts()
- opts.Add('BOOST_INCLUDES', 'Boost include directory', '')
- opts.Add('BOOST_VARIANT', 'The boost variant to use', '')
- opts.Add('BOOST_TOOLSET', 'The boost toolset to use', '')
- opts.Add('BOOST_RUNTIME', 'The boost runtime to use', '')
- opts.Add('BOOST_DEBUG_RUNTIME', 'The boost debug runtime to use', '')
- opts.Add('BOOST_LIBDIR', 'The directory of the boost libraries', '')
- opts.Add('BOOST_PREFIX', 'The prefix into which boost is installed', '')
- opts.Add('BOOST_VERSION', 'The version of boost to use', '')
- Finalizer(FinalizeBoost)
-
-## \brief Finalize Boost environment
-# \internal
-def FinalizeBoost(env):
- env.Tool('BoostUnitTests', [basedir])
-
- if env['BOOST_TOOLSET']:
- runtime = ""
- if env['final'] : runtime += env.get('BOOST_RUNTIME','')
- else : runtime += env.get('BOOST_DEBUG_RUNTIME','gd')
- if env['STLPORT_LIB'] : runtime += "p"
- if runtime: runtime = "-" + runtime
- env['BOOST_VARIANT'] = "-" + env['BOOST_TOOLSET'] + runtime
-
- if env['BOOST_VARIANT'] and env['BOOST_VERSION']:
- env['BOOST_VARIANT'] = env['BOOST_VARIANT'] + '-%s' % env['BOOST_VERSION'].replace('.','_')
-
- env['BOOSTTESTLIB'] = 'boost_unit_test_framework' + env['BOOST_VARIANT']
- env['BOOSTREGEXLIB'] = 'boost_regex' + env['BOOST_VARIANT']
- env['BOOSTFSLIB'] = 'boost_filesystem' + env['BOOST_VARIANT']
- env['BOOSTIOSTREAMSLIB'] = 'boost_iostreams' + env['BOOST_VARIANT']
- env['BOOSTSIGNALSLIB'] = 'boost_signals' + env['BOOST_VARIANT']
-
- if env['BOOST_PREFIX']:
- env['BOOST_LIBDIR'] = os.path.join(env['BOOST_PREFIX'], 'lib')
- env['BOOST_INCLUDES'] = os.path.join(env['BOOST_PREFIX'],
- 'include/boost-%s'
- % env['BOOST_VERSION'].replace('.','_'))
-
- env.Append(LIBPATH = [ '$BOOST_LIBDIR' ],
- CPPPATH = [ '$BOOST_INCLUDES' ])
-
- if env['BOOST_LIBDIR']:
- env.Append(ENV = { 'LD_LIBRARY_PATH': env['BOOST_LIBDIR'] })
-
-## \brief Use STLPort as STL replacement if available
-#
-# Use STLPort as a replacement
-# for the system STL. STLPort has the added feature of providing fully
-# checked containers and iterators. This can greatly simplify
-# debugging. However, STLPort and Boost interact in a non-trivial way
-# so the configuration is relatively complex. This command does not
-# enforce the use of STLPort, it is only used if available.
-#
-# \par Configuration Parameters:
-#
-# \c STLPORT_INCLUDES | Include directory. |
-# \c STLPORT_LIBDIR | Library directory |
-# \c STLPORT_LIB | Name of STLPort library |
-# \c STLPORT_DEBUGLIB | Name of STLPort debug library |
-#
-#
-# If \c STLPORT_LIB is specified, \c STLPORT_DEBUGLIB defaults to \c
-# STLPORT_LIB with \c _stldebug appended. The STLPort library will
-# only be used, if \c STLPORT_LIB is set in \c SConfig.
-#
-# \ingroup use
-def UseSTLPort():
- global opts
- InitOpts()
- opts.Add('STLPORT_INCLUDES', 'STLport include directory', '')
- opts.Add('STLPORT_LIB', 'Name of the stlport library or empty to not use stlport', '')
- opts.Add('STLPORT_DEBUGLIB', 'Name of the stlport debug library','')
- opts.Add('STLPORT_LIBDIR', 'The directory of the stlport libraries','')
- Finalizer(FinalizeSTLPort)
-
-# \}
-
-## \brief Finalize STLPort environment
-# \internal
-def FinalizeSTLPort(env):
- if env['STLPORT_LIB']:
- if not env['STLPORT_DEBUGLIB']:
- env['STLPORT_DEBUGLIB'] = env['STLPORT_LIB'] + '_stldebug'
- env.Append(LIBPATH = [ '$STLPORT_LIBDIR' ],
- CPPPATH = [ '$STLPORT_INCLUDES' ])
- if env['final']:
- env.Append(LIBS = [ '$STLPORT_LIB' ])
- else:
- env.Append(LIBS = [ '$STLPORT_DEBUGLIB' ],
- CPPDEFINES = [ '_STLP_DEBUG' ])
-
-## \brief Build a configured construction environment
-#
-# This function is called after all frameworks are specified to build
-# a tailored construction environment. You can then use this
-# construction environment just like an ordinary SCons construction
-# environment (which it is ...)
-#
-# This call will set some default compilation parameters depending on
-# the \c final command line option: specifying final=1 will
-# built a release version of the code.
-def MakeEnvironment():
- global opts, finalizers
- InitOpts()
- env = SCons.Environment.Environment(options=opts)
- env.Replace(**SCons.Script.SConscript.Arguments)
- #for opt in opts.options:
- # if SCons.Script.SConscript.Arguments.get(opt.key):
- # env[opt.key] = SCons.Script.SConscript.Arguments.get(opt.key)
- #if SCons.Script.SConscript.Arguments.get('final'):
- # env['final'] = 1
- env.Help("\nSupported build variables (either in SConfig or on the command line:\n")
- env.Help(opts.GenerateHelpText(env))
-
- # We want to pass the SSH_AUTH_SOCK system env-var so we can ssh
- # into other hosts from within SCons rules. I have used rules like
- # this e.g. to automatically install stuff on a remote system ...
- if os.environ.has_key('SSH_AUTH_SOCK'):
- env.Append( ENV = { 'SSH_AUTH_SOCK': os.environ['SSH_AUTH_SOCK'] } )
-
- for finalizer in finalizers:
- finalizer(env)
-
- for tool in SCONS_TOOLS:
- env.Tool(tool, [basedir])
-
- # These are the default compilation parameters. We should probably
- # make these configurable
- env.Append(LOCALLIBDIR = [ '#' ],
- LIBPATH = [ '$LOCALLIBDIR' ])
-
- if env['final']:
- env.Append(CXXFLAGS = [ '-O3' ])
- if env['profile']:
- env.Append(CXXFLAGS = [ '-g', '-pg' ],
- LINKFLAGS = [ '-g', '-pg' ])
- else:
- # The boost-regex library is not compiled with _GLIBCXX_DEBUG so this fails:
- # CPPDEFINES = [ '_GLIBCXX_DEBUG' ],
- env.Append(CXXFLAGS = [ '-O0', '-g' ],
- CPPDEFINES = { 'SENF_DEBUG': ''})
- if env['profile']:
- env.Append(CXXFLAGS = [ '-pg' ],
- LINKFLAGS = [ '-pg' ])
- if env['debug'] or env['profile']:
- env.Append(LINKFLAGS = [ '-g', '-rdynamic' ])
- else:
- env.Append(LINKFLAGS = [ '-Wl,-S', '-rdynamic' ])
-
- env.Append(CPPDEFINES = [ '$EXTRA_DEFINES' ],
- LIBS = [ '$EXTRA_LIBS' ],
- CXXFLAGS = [ '$EXTRA_CCFLAGS' ],
- ALLOBJECTS = [])
-
- return env
-
-## \brief Find normal and test C++ sources
-#
-# GlobSources() will return a list of all C++ source files (named
-# "*.cc") as well as a list of all unit-test files (named "*.test.cc")
-# in the current directory. The sources will be returned as a tuple of
-# sources, test-sources. The target helpers all accept such a tuple as
-# their source argument.
def GlobSources(env, exclude=[], subdirs=[]):
testSources = glob.glob("*.test.cc")
sources = [ x for x in glob.glob("*.cc") if x not in testSources and x not in exclude ]
@@ -322,38 +28,8 @@ def Glob(env, exclude=[], subdirs=[]):
return ( GlobSources(env, exclude, subdirs),
GlobIncludes(env, exclude, subdirs) )
-## \brief Add generic standard targets for every module
-#
-# This target helper should be called in the top-level \c SConstruct file
-# as well as in every module \c SConscipt file. It adds general
-# targets. Right now, these are
-# \li clean up \c .sconsign, \c .sconf_temp and \c config.log on
-# scons -c all
-#
-# \ingroup target
-def StandardTargets(env):
- env.Clean(env.Alias('all'), [ '.sconsign', '.sconf_temp', 'config.log' ])
-
-## \brief Add generic global targets
-#
-# This target helper should be called in the top-level \c SConstruct
-# file. It adds general global targets. Right now theese are
-# \li Make scons all build all targets.
-#
-# \ingroup target
-def GlobalTargets(env):
- env.Alias('all', [ 'default', 'all_tests', 'all_docs' ])
-
-## \brief Return path of a built library within $LOCALLIBDIR
-# \internal
def LibPath(lib): return '${LOCALLIBDIR}/${LIBPREFIX}%s${LIBADDSUFFIX}${LIBSUFFIX}' % lib
-## \brief Add explicit test
-#
-# This target helper will add an explicit test. This is like a unit test but is
-# built directly against the completed library
-#
-# \ingroup target
def Test(env, sources, LIBS = [], OBJECTS = []):
test = [ env.BoostUnitTests(
target = 'test',
@@ -367,27 +43,9 @@ def Test(env, sources, LIBS = [], OBJECTS = []):
if compileTestSources:
test.extend(env.CompileCheck(source = compileTestSources))
env.Alias('all_tests', test)
- env.Command(env.File('test'), test, [])
- #env.Alias(env.File('test'), test)
+ env.Command(env.File('test'), test, [ 'true' ])
-## \brief Build object files
-#
-# This target helper will build object files from the given
-# sources.
-#
-# If \a testSources are given, a unit test will be built using the Boost.Test
-# library. \a LIBS may specify any additional library modules from
-# the same project on which the test depends. Those libraries
-# will be linked into the final test executable. The test will
-# automatically be run if the \c test or \c all_tests targets are
-# given.
-#
-# If \a sources is a 2-tuple as returned by GlobSources(), it will
-# provide both \a sources and \a testSources.
-#
-# \ingroup target
def Objects(env, sources, testSources = None, OBJECTS = []):
if type(sources) == type(()):
testSources = sources[1]
@@ -422,261 +80,97 @@ def Objects(env, sources, testSources = None, OBJECTS = []):
# Hmm ... here I'd like to use an Alias instead of a file
# however the alias does not seem to live in the subdirectory
# which breaks 'scons -u test'
- env.Command(env.File('test'), test, [])
+ env.Command(env.File('test'), test, [ 'true' ])
#env.Alias(env.File('test'), test)
return objects
-def InstallIncludeFiles(env, files):
- # Hrmpf ... why do I need this in 0.97??
- if env.GetOption('clean'):
- return
- target = env.Dir(env['INCLUDEINSTALLDIR'])
- base = env.Dir('#')
- for f in files:
- src = env.File(f)
- env.Alias('install_all', env.Install(target.Dir(src.dir.get_path(base)), src))
-
## \brief Build documentation with doxygen
#
-# The doxygen target helper will build software documentation using
-# the given \a doxyfile (which defaults to \c Doxyfile). The Doxygen
-# builder used supports automatic dependency generation (dependencies
-# are automatically generated from the parameters specified in the \a
-# doxyfile), automatic target emitters (the exact targets created are
-# found parsing the \a doxyfile) and lots of other features. See the
-# Doxygen builder documentation
-#
-# If \a extra_sources are given, the generated documentation will
-# depend on them. This can be used to build images or other
-# supplementary files.
-#
-# The doxygen target helper extends the builder with additional
-# functionality:
-#
-# \li Fix tagfiles by removing namespace entries. These entries only
-# work for namespaces completely defined in a single module. As
-# soon as another module (which references the tagfile) has it's
-# own members in that namespace, the crosslinking will break.
-# \li If \c DOXY_HTML_XSL is defined as a construction environment
-# variable, preprocess all generated html files (if html files are
-# generated) by the given XSLT stylesheet. Since the HTML
-# generated by doxygen is broken, we first filter the code through
-# HTML-\c tidy and filter out some error messages.
-# \li If xml output is generated we create files \c bug.xmli and \c
-# todo.xmli which contain all bugs and todo items specified in the
-# sources. The format of these files is much more suited to
-# postprocessing and is a more database like format as the doxygen
-# generated files (which are more presentation oriented). if \c
-# DOXY_XREF_TYPES is given, it will specify the cross reference
-# types to support (defaults to \c bug and \c todo). See \xrefitem
-# in the doxygen documentation.
-#
# \ingroup target
def Doxygen(env, doxyfile = "Doxyfile", extra_sources = []):
- if not 'all' in BUILD_TARGETS and not 'doc' in BUILD_TARGETS and not 'all_docs' in BUILD_TARGETS:
- return []
- # ARGHHH !!! without the [:] we are changing the target list
- # ||| WITHIN THE DOXYGEN BUILDER
- docs = env.Doxygen(doxyfile)[:]
- xmlnode = None
- htmlnode = None
- tagnode = None
- for doc in docs:
- if isinstance(doc,SCons.Node.FS.Dir): continue
- if doc.name == 'xml.stamp' : xmlnode = doc
- if doc.name == 'html.stamp' : htmlnode = doc
- if doc.name == 'search.idx' : continue
- if os.path.splitext(doc.name)[1] == '.stamp' : continue # ignore other file stamps
- # otherwise it must be the tag file
- tagnode = doc
-
- if tagnode:
- # Postprocess the tag file to remove the (broken) namespace
- # references
- env.AddPostAction(
- docs,
- SCons.Action.Action("xsltproc --nonet -o %(target)s.temp %(template)s %(target)s && mv %(target)s.temp %(target)s"
- % { 'target': tagnode.abspath,
- 'template': os.path.join(basedir,"tagmunge.xsl") }))
-
- if htmlnode and env.get('DOXY_HTML_XSL'):
- xslfile = env.File(env['DOXY_HTML_XSL'])
- reltopdir = '../' * len(htmlnode.dir.abspath[len(env.Dir('#').abspath)+1:].split('/'))
- if reltopdir : reltopdir = reltopdir[:-1]
- else : reltopdir = '.'
- env.AddPostAction(
- docs,
- SCons.Action.Action(("for html in %s/*.html; do " +
- " echo $$html;" +
- " mv $${html} $${html}.orig;" +
- " sed -e 's/id=\"current\"/class=\"current\"/' $${html}.orig" +
- " | tidy -ascii -q --wrap 0 --show-warnings no --fix-uri no " +
- " | sed -e 's/name=\"\([^\"]*\)\"\([^>]*\) id=\"\\1\"/name=\"\\1\"\\2/g'" +
- " | xsltproc --novalid --nonet --html --stringparam topdir %s -o $${html} %s -;"
- "done; true")
- % (htmlnode.dir.abspath, reltopdir, xslfile.abspath)))
- for doc in docs:
- env.Depends(doc, xslfile)
-
- if xmlnode:
- xrefs = []
- for type in env.get("DOXY_XREF_TYPES",[ "bug", "todo" ]):
- xref = os.path.join(xmlnode.dir.abspath,type+".xml")
- xref_pp = env.Command(xref+'i', [ xref, os.path.join(basedir,'xrefxtract.xslt'), xmlnode ],
- [ "test -s $SOURCE && xsltproc --nonet -o $TARGET" +
- " --stringparam module $MODULE" +
- " --stringparam type $TYPE" +
- " ${SOURCES[1]} $SOURCE || touch $TARGET" ],
- MODULE = xmlnode.dir.dir.dir.abspath[
- len(env.Dir('#').abspath)+1:],
- TYPE = type)
- env.SideEffect(xref, xmlnode)
- env.AddPreAction(docs, "rm -f %s" % (xref,))
- env.AddPostAction(docs, "test -r %s || touch %s" % (xref,xref))
- xrefs.extend(xref_pp)
- docs.extend(xrefs)
-
- if extra_sources and htmlnode:
- env.Depends(docs,
- [ env.CopyToDir( source=source, target=htmlnode.dir )
- for source in extra_sources ])
-
- if extra_sources and xmlnode:
- env.Depends(docs,
- [ env.CopyToDir( source=source, target=xmlnode.dir )
- for source in extra_sources ])
-
- if not htmlnode and not xmlnode:
- env.Depends(docs, extra_sources)
-
- for doc in docs :
- env.Alias('all_docs', doc)
- env.Clean('all_docs', doc)
- env.Clean('all', doc)
-
+ # There is one small problem we need to solve with this builder: The Doxygen builder reads
+ # the Doxyfile and thus depends on the environment variables set by doclib/doxygen.sh. We
+ # thus have to provide all necessary definitions here manually via DOXYENV !
+
+ if type(doxyfile) is type(""):
+ doxyfile = env.File(doxyfile)
+
+ # Module name is derived from the doxyfile path
+ # Utils/Console/Doxyfile -> Utils_Console
+ module = doxyfile.dir.abspath[len(env.Dir('#').abspath)+1:].replace('/','_')
+ if not module : module = "Main"
+
+ # Rule to generate tagfile
+ # (need to exclude the 'clean' case, otherwise we'll have duplicate nodes)
+ if not env.GetOption('clean'):
+ tagfile = env.Doxygen(doxyfile,
+ DOXYOPTS = [ '--tagfile-name', '"${MODULE}.tag"',
+ '--tagfile' ],
+ DOXYENV = { 'TOPDIR' : env.Dir('#').abspath,
+ 'output_dir' : 'doc',
+ 'html_dir' : 'html',
+ 'html' : 'NO',
+ 'generate_tagfile': 'doc/${MODULE}.tag' },
+ MODULE = module )
+ env.Append(ALL_TAGFILES = tagfile[0].abspath)
+ env.Depends(tagfile, env.File('#/doclib/doxygen.sh'))
+
+ # Rule to generate HTML documentation
+ doc = env.Doxygen(doxyfile,
+ DOXYOPTS = [ '--tagfiles', '"$ALL_TAGFILES"',
+ '--tagfile-name', '"${MODULE}.tag"',
+ '--html' ],
+ MODULE = module,
+ DOXYENV = { 'TOPDIR' : env.Dir('#').abspath,
+ 'tagfiles' : '${ALL_TAGFILES}',
+ 'output_dir' : 'doc',
+ 'html_dir' : 'html',
+ 'html' : 'YES' } )
+ env.Depends(doc, env.File('#/doclib/doxygen.sh'))
+
+ # Copy the extra_sources (the images) into the documentation directory
+ # (need to exclude the 'clean' case otherwise there are multiple ways to clean the copies)
+ if not env.GetOption('clean'):
+ if extra_sources:
+ env.Depends(doc,
+ [ env.CopyToDir( source=source, target=doc[0].dir )
+ for source in extra_sources ])
+
+ # Install documentation into DOCINSTALLDIR
l = len(env.Dir('#').abspath)
- if htmlnode:
- env.Alias('install_all',
- env.Command('$DOCINSTALLDIR' + htmlnode.dir.abspath[l:], htmlnode.dir,
- [ SCons.Defaults.Copy('$TARGET','$SOURCE') ]))
- if tagnode:
- env.Alias('install_all',
- env.Install( '$DOCINSTALLDIR' + tagnode.dir.abspath[l:],
- tagnode ))
-
- return docs
-
-## \brief Build combined doxygen cross-reference
-#
-# This command will build a complete cross-reference of \c xrefitems
-# accross all modules.
-#
-# Right now, this command is very project specific. It needs to be
-# generalized.
-#
-# \ingroup target
-def DoxyXRef(env, docs=None,
- HTML_HEADER = None, HTML_FOOTER = None,
- TITLE = "Cross-reference of action points"):
- if docs is None:
- docs = env.Alias('all_docs')[0].sources
- xrefs = [ doc for doc in docs if os.path.splitext(doc.name)[1] == ".xmli" ]
- xref = env.Command("doc/html/xref.xml", xrefs,
- [ "echo '' > $TARGET",
- "echo '' >> $TARGET",
- "cat $SOURCES >> $TARGET",
- "echo '' >>$TARGET" ])
-
- # Lastly we create the html file
- sources = [ xref, "%s/xrefhtml.xslt" % basedir ]
- if HTML_HEADER : sources.append(HTML_HEADER)
- if HTML_FOOTER : sources.append(HTML_FOOTER)
-
- commands = []
- if HTML_HEADER:
- commands.append("sed" +
- " -e 's/\\$$title/$TITLE/g'" +
- " -e 's/\\$$projectname/Overview/g'" +
- " ${SOURCES[2]} > $TARGET")
- commands.append("xsltproc" +
- " --stringparam title '$TITLE'" +
- " --stringparam types '$DOXY_XREF_TYPES'" +
- " ${SOURCES[1]} $SOURCE >> $TARGET")
- if HTML_FOOTER:
- commands.append(
- "sed -e 's/\\$$title/$TITLE/g' -e 's/\\$$projectname/Overview/g' ${SOURCES[%d]} >> $TARGET"
- % (HTML_HEADER and 3 or 2))
+ env.Alias('install_all',
+ env.Command('$DOCINSTALLDIR' + doc[0].dir.abspath[l:], doc[0].dir,
+ [ SCons.Defaults.Copy('$TARGET','$SOURCE') ]))
- if env.get('DOXY_HTML_XSL'):
- xslfile = env.File(env['DOXY_HTML_XSL'])
- reltopdir = '../' * len(xref[0].dir.abspath[len(env.Dir('#').abspath)+1:].split('/'))
- if reltopdir : reltopdir = reltopdir[:-1]
- else : reltopdir = '.'
- commands.append(("xsltproc -o ${TARGET}.tmp" +
- " --nonet --html" +
- " --stringparam topdir %s" +
- " ${SOURCES[-1]} $TARGET 2>/dev/null")
- % reltopdir)
- commands.append("mv ${TARGET}.tmp ${TARGET}")
- sources.append(xslfile)
-
- xref = env.Command("doc/html/xref.html", sources, commands,
- TITLE = TITLE)
+ # Useful aliases
+ env.Alias('all_docs', doc)
+ env.Clean('all_docs', doc)
+ env.Clean('all', doc)
- env.Alias('all_docs',xref)
- return xref
+ return doc
-
-## \brief Build library
-#
-# This target helper will build the given library. The library will be
-# called liblibrary.a as is customary on UNIX systems. \a
-# sources, \a testSources and \a LIBS are directly forwarded to the
-# Objects build helper.
-#
-# The library is added to the list of default targets.
-#
-#\ingroup target
def Lib(env, sources, testSources = None, OBJECTS = []):
objects = Objects(env,sources,testSources,OBJECTS=OBJECTS)
- if objects:
- env.Append(ALLOBJECTS = objects)
+ env.Append(ALLOBJECTS = objects)
return objects
-## \brief Build Object from multiple sources
def Object(env, target, sources, testSources = None, OBJECTS = []):
objects = Objects(env,sources,testSources,OBJECTS=OBJECTS)
- ob = None
- if objects:
- ob = env.Command(target+"${OBJADDSUFFIX}${OBJSUFFIX}", objects, "ld -r -o $TARGET $SOURCES")
- env.Default(ob)
- env.Alias('default', ob)
- env.Alias('install_all', env.Install("$OBJINSTALLDIR", ob))
+ ob = env.Command(target+"${OBJADDSUFFIX}${OBJSUFFIX}", objects, "ld -r -o $TARGET $SOURCES")
+ env.Default(ob)
+ env.Alias('default', ob)
+ env.Alias('install_all', env.Install("$OBJINSTALLDIR", ob))
return ob
-## \brief Build executable
-#
-# This target helper will build the given binary. The \a sources, \a
-# testSources and \a LIBS arguments are forwarded to the Objects
-# builder. The final program will be linked against all the library
-# modules specified in \a LIBS (those are libraries which are built as
-# part of the same proejct). To specify non-module libraries, use the
-# construction environment parameters or the framework helpers.
-#
-# \ingroup target
def Binary(env, binary, sources, testSources = None, OBJECTS = []):
- objects = Objects(env,sources,testSources,OBJECTS=OBJECTS)
- program = None
- if objects:
- progEnv = env.Clone()
- progEnv.Prepend(LIBS = [ '$LIBSENF$LIBADDSUFFIX' ])
- program = progEnv.ProgramNoScan(target=binary,source=objects+OBJECTS)
- env.Default(program)
- env.Depends(program, [ env.File(LibPath(env['LIBSENF'])) ])
- env.Alias('default', program)
- env.Alias('install_all', env.Install('$BININSTALLDIR', program))
+ objects = Objects(env, sources, testSources, OBJECTS=OBJECTS)
+ program = env.Program(target = binary,
+ source = objects+OBJECTS,
+ LIBS = [ '$LIBSENF$LIBADDSUFFIX' ] + env['LIBS'])
+ env.Default(program)
+ env.Alias('default', program)
+ env.Alias('install_all', env.Install('$BININSTALLDIR', program))
return program
def AllIncludesHH(env, headers):
@@ -685,3 +179,6 @@ def AllIncludesHH(env, headers):
file(target.abspath,"w").write("".join([ '#include "%s"\n' % f
for f in headers ]))
env.Clean('all', target)
+
+def PhonyTarget(env, target, action, sources=[]):
+ env.AlwaysBuild(env.Alias(target, sources, env.Action(action)))