# Copyright Vladimir Prus 2002-2006. # Copyright Dave Abrahams 2005-2006. # Copyright Rene Rivera 2005-2006. # Copyright Douglas Gregor 2005. # # Distributed under the Boost Software License, Version 1.0. # (See accompanying file LICENSE_1_0.txt or copy at # http://www.boost.org/LICENSE_1_0.txt) # Usage: # # bjam [options] [install|stage] # # Builds and installs Boost. # # Targets and Related Options: # # install Install headers and compiled library files to the # ======= configured locations (below). # # --prefix= Install architecture independent files here. # Default; C:\Boost on Win32 # Default; /usr/local on Unix. Linux, etc. # # --exec-prefix= Install architecture dependent files here. # Default; # # --libdir= Install library files here. # Default; /lib # # --includedir= Install header files here. # Default; /include # # stage Build and install only compiled library files # ===== to the stage directory. # # --stagedir= Install library files here # Default; ./stage # # Other Options: # # --builddir=DIR Build in this location instead of building # within the distribution tree. Recommended! # # --toolset=toolset Indicates the toolset to build with. # # --show-libraries Displays the list of Boost libraries that require # build and installation steps, then exit. # # --layout= Determines whether to choose library names # and header locations such that multiple # versions of Boost or multiple compilers can # be used on the same system. # # versioned (default) - Names of boost # binaries include the Boost version # number and the name and version of the # compiler. Boost headers are installed # in a subdirectory of whose # name contains the Boost version # number. # # system - Binaries names do not include # the Boost version number or the name # and version number of the compiler. # Boost headers are installed directly # into . This option is # intended for system integrators who # are building distribution packages. # # --buildid=ID Adds the specified ID to the name of built # libraries. The default is to not add anything. # # --help This message. # # --with- Build and install the specified # If this option is used, only libraries # specified using this option will be built. # # --without- Do not build, stage, or install the specified # . By default, all libraries are built. # TODO: # - handle boost version # - handle python options such as pydebug import modules ; import set ; import stage ; import package ; import path ; import common ; import os ; import regex ; import errors ; import "class" : new ; import common ; import sequence ; path-constant BOOST_ROOT : . ; constant BOOST_VERSION : 1.35.0 ; constant BOOST_JAMROOT_MODULE : $(__name__) ; local version-tag = [ MATCH "^([^.]+)[.]([^.]+)[.]([^.]+)" : $(BOOST_VERSION) ] ; if $(version-tag[3]) = 0 { version-tag = $(version-tag[1-2]) ; } constant BOOST_VERSION_TAG : $(version-tag:J="_") ; local default-build ; if $(__file__:D) = "" { default-build = debug release single multi shared static ; if [ os.name ] = NT { default-build += shared static ; } } else { default-build = debug ; } rule handle-static-runtime ( properties * ) { # This property combination is dangerous. # Ideally, we'd add constraint to default build, # so that user can build with property combination # by hand. But we don't have any 'constraint' mechanism # for default-build, so disable such builds in requirements. # For CW, static runtime is needed so that # std::locale works. if shared in $(properties) && static in $(properties) && ! ( cw in $(properties) ) { return no ; } } project boost : requirements . # disable auto-linking for all targets here, # primarily because it caused troubles with V2 BOOST_ALL_NO_LIB=1 # Used to encode variant in target name. See the # 'tag' rule below. @$(__name__).tag @handle-static-runtime : usage-requirements . : build-dir bin.v2 : default-build $(default-build) ; # Setup convenient aliases for all libraries. all-libraries = [ MATCH .*libs/(.*)/build/.* : [ glob libs/*/build/Jamfile.v2 ] [ glob libs/*/build/Jamfile ] ] ; all-libraries = [ sequence.unique $(all-libraries) ] ; # First, the complicated libraries: where the target name in # Jamfile is different from directory name. alias prg_exec_monitor : libs/test/build//boost_prg_exec_monitor ; alias test_exec_monitor : libs/test/build//boost_test_exec_monitor ; alias unit_test_framework : libs/test/build//boost_unit_test_framework ; alias bgl-vis : libs/graps/build//bgl-vis ; alias serialization : libs/serialization/build//boost_serialization ; alias wserialization : libs/serialization/build//boost_wserialization ; explicit prg_exec_monitor test_exec_monitor unit_test_framework bgl-vis serialization wserialization ; for local l in $(all-libraries) { if ! $(l) in test graph serialization { alias $(l) : libs/$(l)/build//boost_$(l) ; explicit $(l) ; } } alias headers : : : : . ; # Decides which libraries are to be installed by looking at --with- # --without- arguments. Returns the list of directories under "libs" # which must be built at installed. rule libraries-to-install ( existing-libraries * ) { local argv = [ modules.peek : ARGV ] ; local with-parameter = [ MATCH --with-(.*) : $(argv) ] ; local without-parameter = [ MATCH --without-(.*) : $(argv) ] ; # Do some checks if $(with-parameter) && $(without-parameter) { ECHO "error: both --with- and --without- specified" ; EXIT ; } local wrong = [ set.difference $(with-parameter) : $(existing-libraries) ] ; if $(wrong) { ECHO "error: wrong library name '$(wrong[1])' in the --with- option." ; EXIT ; } local wrong = [ set.difference $(without-parameter) : $(existing-libraries) ] ; if $(wrong) { ECHO "error: wrong library name '$(wrong[1])' in the --without- option." ; EXIT ; } if $(with-parameter) { return [ set.intersection $(existing-libraries) : $(with-parameter) ] ; } else { return [ set.difference $(existing-libraries) : $(without-parameter) ] ; } } # what kind of layout are we doing? layout = [ MATCH "^--layout=(.*)" : [ modules.peek : ARGV ] ] ; layout ?= versioned ; layout-$(layout) = true ; # possible stage only location local stage-locate = [ MATCH "^--stagedir=(.*)" : [ modules.peek : ARGV ] ] ; stage-locate ?= stage ; path-constant BOOST_STAGE_LOCATE : $(stage-locate) ; # location of python local python-root = [ MATCH "^--with-python-root=(.*)" : [ modules.peek : ARGV ] ] ; PYTHON_ROOT ?= $(python-root) ; # Select the libraries to install. libraries = [ libraries-to-install $(all-libraries) ] ; if --show-libraries in [ modules.peek : ARGV ] { ECHO "The following libraries require building:" ; for local l in $(libraries) { ECHO " - $(l)" ; } EXIT ; } # Custom build ID. local build-id = [ MATCH "^--buildid=(.*)" : [ modules.peek : ARGV ] ] ; if $(build-id) { constant BUILD_ID : [ regex.replace $(build-id) "[*\\/:.\"\' ]" "_" ] ; } # This rule is called by Boost.Build to determine the name of # target. We use it to encode build variant, compiler name and # boost version in the target name rule tag ( name : type ? : property-set ) { if $(type) in STATIC_LIB SHARED_LIB IMPORT_LIB { if $(layout) = versioned { local result = [ common.format-name -$(BOOST_VERSION_TAG) -$(BUILD_ID) : $(name) : $(type) : $(property-set) ] ; # Optionally add version suffix. # On NT, library with version suffix won't be recognized # by linkers. On CYGWIN, we get strage duplicate symbol # errors when library is generated with version suffix. # On OSX, version suffix is not needed -- the linker expets # libFoo.1.2.3.dylib format. # AIX linkers don't accept version suffixes either. if $(type) = SHARED_LIB && ! ( [ $(property-set).get ] in windows cygwin darwin aix ) { result = $(result).$(BOOST_VERSION) ; } return $(result) ; } else { return [ common.format-name -$(BUILD_ID) : $(name) : $(type) : $(property-set) ] ; } } } # Install to system location. local install-requirements = boost ; if $(layout-versioned) { install-requirements += boost-$(BOOST_VERSION_TAG)/boost ; } else { install-requirements += boost ; } if [ modules.peek : NT ] { install-requirements += C:/Boost ; } else if [ modules.peek : UNIX ] { install-requirements += /usr/local ; } local headers = [ path.glob-tree boost : *.hpp *.ipp *.h *.inc : CVS ] [ path.glob-tree boost/compatibility/cpp_c_headers : c* : CVS ] ; # Complete install package.install install-proper : $(install-requirements) on : : libs/$(libraries)/build : $(headers) ; explicit install-proper ; # Install just library. install stage-proper : libs/$(libraries)/build : $(stage-locate)/lib on LIB on ; explicit stage-proper ; if $(layout-versioned) && ( [ modules.peek : NT ] || [ modules.peek : UNIX ] ) { rule make-unversioned-links ( project name ? : property-set : sources * ) { local result ; local filtered ; local pattern ; local nt = [ modules.peek : NT ] ; # Collect the libraries that have the version number in 'filtered'. for local s in $(sources) { local m ; if $(nt) { m = [ MATCH "(.*[.]lib)" : [ $(s).name ] ] ; } else { m = [ MATCH "(.*[.]so[.0-9]+)" "(.*[.]a)" : [ $(s).name ] ] ; } if $(m) { filtered += $(s) ; } } # Create hardlinks without version. for local s in $(filtered) { local name = [ $(s).name ] ; local ea = [ $(s).action ] ; local ep = [ $(ea).properties ] ; local a = [ new non-scanning-action $(s) : common.hard-link : $(ep) ] ; local noversion-file ; if $(nt) { noversion-file = [ MATCH "(.*)-[0-9_]+([.]lib)" : $(name) ] ; } else { noversion-file = [ MATCH "(.*)-[0-9_]+([.]so)[.0-9]*" : $(name) ] [ MATCH "(.*)-[0-9_]+([.]a)" : $(name) ] [ MATCH "(.*)-[0-9_]+([.]dll[.]a)" : $(name) ] ; } local new-name = $(noversion-file[1])$(noversion-file[2]) ; result += [ new file-target $(new-name) exact : [ $(s).type ] : $(project) : $(a) ] ; } return $(result) ; } generate stage-unversioned : stage-proper : @make-unversioned-links ; explicit stage-unversioned ; generate install-unversioned : install-proper : @make-unversioned-links ; explicit install-unversioned ; } else { # Create do-nothing aliases alias stage-unversioned ; alias install-unversioned ; } alias install : install-proper install-unversioned ; alias stage : stage-proper stage-unversioned ; explicit install ; explicit stage ; # Just build the libraries, don't install them anywhere. # This is what happens with just "bjam --v2". alias build_all : libs/$(libraries)/build ; # This rule should be called from libraries' Jamfiles and will # create two targets, "install" and "stage", that will install # or stage that library. The --prefix option is respected, but # --with and --without options, naturally, are ignored. # # - libraries -- list of library targets to install. rule boost-install ( libraries * ) { package.install install : /boost//install-headers $(install-requirements) : # No binaries : $(libraries) : # No headers, it's handled by the dependency ; install stage : $(libraries) : $(BOOST_STAGE_LOCATE) ; local c = [ project.current ] ; local project-module = [ $(c).project-module ] ; module $(project-module) { explicit stage ; explicit install ; } } # Make project ids of all libraries known. for local l in $(libraries) { use-project /boost/$(l) : libs/$(l)/build ; }