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# Copyright Vladimir Prus 2002-2006.
# Copyright Dave Abrahams 2005-2006.
# Copyright Rene Rivera 2005-2007.
# 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:
#
# b2 [options] [properties] [install|stage]
#
# Builds and installs Boost.
#
# Targets and Related Options:
#
# install Install headers and compiled library files to the
# ======= configured locations (below).
#
# --prefix=<PREFIX> Install architecture independent files here.
# Default: C:\Boost on Windows
# Default: /usr/local on Unix, Linux, etc.
#
# --exec-prefix=<EPREFIX> Install architecture dependent files here.
# Default: <PREFIX>
#
# --libdir=<LIBDIR> Install library files here.
# Default: <EPREFIX>/lib
#
# --includedir=<HDRDIR> Install header files here.
# Default: <PREFIX>/include
#
# --cmakedir=<CMAKEDIR> Install CMake configuration files here.
# Default: <LIBDIR>/cmake
#
# --no-cmake-config Do not install CMake configuration files.
#
# stage Build and install only compiled library files to the
# ===== stage directory.
#
# --stagedir=<STAGEDIR> Install library files here
# Default: ./stage
#
# Other Options:
#
# --build-type=<type> Build the specified pre-defined set of variations of
# the libraries. Note, that which variants get built
# depends on what each library supports.
#
# -- minimal -- (default) Builds a minimal set of
# variants. On Windows, these are static
# multithreaded libraries in debug and release
# modes, using shared runtime. On Linux, these are
# static and shared multithreaded libraries in
# release mode.
#
# -- complete -- Build all possible variations.
#
# --build-dir=DIR Build in this location instead of building within
# the distribution tree. Recommended!
#
# --show-libraries Display the list of Boost libraries that require
# build and installation steps, and then exit.
#
# --layout=<layout> Determine 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 -- Names of boost binaries include
# the Boost version number, name and version of
# the compiler and encoded build properties. Boost
# headers are installed in a subdirectory of
# <HDRDIR> whose name contains the Boost version
# number.
#
# -- tagged -- Names of boost binaries include the
# encoded build properties such as variant and
# threading, but do not including compiler name
# and version, or Boost version. This option is
# useful if you build several variants of Boost,
# using the same compiler.
#
# -- 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 <HDRDIR>. This option is
# intended for system integrators building
# distribution packages.
#
# The default value is 'versioned' on Windows, and
# 'system' on Unix.
#
# --buildid=ID Add the specified ID to the name of built libraries.
# The default is to not add anything.
#
# --python-buildid=ID Add the specified ID to the name of built libraries
# that depend on Python. The default is to not add
# anything. This ID is added in addition to --buildid.
#
# --help This message.
#
# --with-<library> Build and install the specified <library>. If this
# option is used, only libraries specified using this
# option will be built.
#
# --without-<library> Do not build, stage, or install the specified
# <library>. By default, all libraries are built.
#
# Properties:
#
# toolset=toolset Indicate the toolset to build with.
#
# variant=debug|release Select the build variant
#
# link=static|shared Whether to build static or shared libraries
#
# threading=single|multi Whether to build single or multithreaded binaries
#
# runtime-link=static|shared
# Whether to link to static or shared C and C++
# runtime.
#
# TODO:
# - handle boost version
# - handle python options such as pydebug
import boostcpp ;
import package ;
import sequence ;
import xsltproc ;
import set ;
import path ;
import link ;
import notfile ;
import virtual-target ;
import "class" : new ;
import property-set ;
import threadapi-feature ;
import option ;
# Backslash because of `bcp --namespace`
import tools/boost\_install/boost-install ;
path-constant BOOST_ROOT : . ;
constant BOOST_VERSION : 1.82.0 ;
constant BOOST_JAMROOT_MODULE : $(__name__) ;
# Allow subprojects to simply `import config : requires ;` to get access to the requires rule
modules.poke : BOOST_BUILD_PATH : $(BOOST_ROOT)/libs/config/checks [ modules.peek : BOOST_BUILD_PATH ] ;
boostcpp.set-version $(BOOST_VERSION) ;
use-project /boost/architecture : libs/config/checks/architecture ;
local all-headers =
[ MATCH .*libs/(.*)/include/boost : [ glob libs/*/include/boost libs/*/*/include/boost ] ] ;
for dir in $(all-headers)
{
link-directory $(dir)-headers : libs/$(dir)/include/boost : <location>. ;
explicit $(dir)-headers ;
}
if $(all-headers)
{
constant BOOST_MODULARLAYOUT : $(all-headers) ;
}
project boost
: requirements <include>.
[ boostcpp.architecture ]
[ boostcpp.address-model ]
# Disable auto-linking for all targets here, primarily because it caused
# troubles with V2.
<define>BOOST_ALL_NO_LIB=1
# Used to encode variant in target name. See the 'tag' rule below.
<tag>@$(__name__).tag
<conditional>@handle-static-runtime
# Comeau does not support shared lib
<toolset>como:<link>static
<toolset>como-linux:<define>_GNU_SOURCE=1
# When building docs within Boost, we want the standard Boost style
<xsl:param>boost.defaults=Boost
<conditional>@threadapi-feature.detect
: usage-requirements <include>.
: default-build
<visibility>hidden
<threading>multi
: build-dir bin.v2
;
# This rule is called by Boost.Build to determine the name of target. We use it
# to encode the build variant, compiler name and boost version in the target
# name.
#
rule tag ( name : type ? : property-set )
{
return [ boostcpp.tag $(name) : $(type) : $(property-set) ] ;
}
rule python-tag ( name : type ? : property-set )
{
return [ boostcpp.python-tag $(name) : $(type) : $(property-set) ] ;
}
rule handle-static-runtime ( properties * )
{
# Using static runtime with shared libraries is impossible on Linux, and
# dangerous on Windows. Therefore, we disallow it. This might be drastic,
# but it was disabled for a while without anybody complaining.
local argv = [ modules.peek : ARGV ] ;
if <link>shared in $(properties)
&& <runtime-link>static in $(properties)
# For CW, static runtime is needed so that std::locale works.
&& ! ( <toolset>cw in $(properties) )
&& ! --allow-shared-static in $(argv)
{
boostcpp.emit-shared-static-warning ;
return <build>no ;
}
}
all-libraries = [ MATCH .*libs/(.*)/build/.* : [ glob libs/*/build/Jamfile.v2 ]
[ glob libs/*/build/Jamfile ] ] ;
all-libraries = [ sequence.unique $(all-libraries) ] ;
# The function_types library has a Jamfile, but it's used for maintenance
# purposes, there's no library to build and install.
all-libraries = [ set.difference $(all-libraries) : function_types ] ;
# Setup convenient aliases for all libraries.
local rule explicit-alias ( id : targets + )
{
alias $(id) : $(targets) ;
explicit $(id) ;
}
# First, the complicated libraries: where the target name in Jamfile is
# different from its directory name.
explicit-alias prg_exec_monitor : libs/test/build//boost_prg_exec_monitor ;
explicit-alias test_exec_monitor : libs/test/build//boost_test_exec_monitor ;
explicit-alias unit_test_framework : libs/test/build//boost_unit_test_framework ;
explicit-alias bgl-vis : libs/graps/build//bgl-vis ;
explicit-alias serialization : libs/serialization/build//boost_serialization ;
explicit-alias wserialization : libs/serialization/build//boost_wserialization ;
for local l in $(all-libraries)
{
if ! $(l) in test graph serialization headers
{
explicit-alias $(l) : libs/$(l)/build//boost_$(l) ;
}
}
# Log has an additional target
explicit-alias log_setup : libs/log/build//boost_log_setup ;
rule do-nothing { }
rule generate-alias ( project name : property-set : sources * )
{
local action-name = [ $(property-set).get <action> ] ;
local m = [ MATCH ^@(.*) : $(action-name) ] ;
property-set = [ property-set.empty ] ;
local action = [ new action $(sources) : $(m[1]) : $(property-set) ] ;
local t = [ new notfile-target $(name) : $(project) : $(action) ] ;
return [ virtual-target.register $(t) ] ;
}
generate headers : $(all-headers)-headers : <generating-rule>@generate-alias <action>@do-nothing : : <include>. ;
#alias headers : $(all-headers)-headers : : : <include>. ;
explicit headers ;
# Make project ids of all libraries known.
for local l in $(all-libraries)
{
use-project /boost/$(l) : libs/$(l)/build ;
}
if [ path.exists $(BOOST_ROOT)/tools/inspect/build ]
{
use-project /boost/tools/inspect : tools/inspect/build ;
}
if [ path.exists $(BOOST_ROOT)/libs/wave/tool/build ]
{
use-project /boost/libs/wave/tool : libs/wave/tool/build ;
}
# Make the boost-install rule visible in subprojects
# 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 * )
{
boost-install.boost-install $(libraries) ;
}
# Creates a library target, adding autolink support and also creates
# stage and install targets via boost-install, above.
rule boost-lib ( name : sources * : requirements * : default-build * : usage-requirements * )
{
autolink = <link>shared:<define>BOOST_$(name:U)_DYN_LINK=1 ;
name = boost_$(name) ;
lib $(name)
: $(sources)
: $(requirements) $(autolink)
: $(default-build)
: $(usage-requirements) $(autolink)
;
boost-install $(name) ;
}
# Declare special top-level targets that build and install the desired variants
# of the libraries.
boostcpp.declare-targets $(all-libraries) ;
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