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Diffstat (limited to 'jam-files/boost-build/util/order.jam')
-rw-r--r-- | jam-files/boost-build/util/order.jam | 169 |
1 files changed, 0 insertions, 169 deletions
diff --git a/jam-files/boost-build/util/order.jam b/jam-files/boost-build/util/order.jam deleted file mode 100644 index a74fc8c8..00000000 --- a/jam-files/boost-build/util/order.jam +++ /dev/null @@ -1,169 +0,0 @@ -# Copyright (C) 2003 Vladimir Prus -# Use, modification, and distribution is subject to 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) - -# This module defines a class which allows to order arbitrary object with -# regard to arbitrary binary relation. -# -# The primary use case is the gcc toolset, which is sensitive to library order: -# if library 'a' uses symbols from library 'b', then 'a' must be present before -# 'b' on the linker's command line. -# -# This requirement can be lifted for gcc with GNU ld, but for gcc with Solaris -# LD (and for Solaris toolset as well), the order always matters. -# -# So, we need to store order requirements and then order libraries according to -# them. It is not possible to use the dependency graph as order requirements. -# What we need is a "use symbols" relationship while dependency graph provides -# the "needs to be updated" relationship. -# -# For example:: -# lib a : a.cpp b; -# lib b ; -# -# For static linking, library 'a' need not depend on 'b'. However, it should -# still come before 'b' on the command line. - -class order -{ - rule __init__ ( ) - { - } - - # Adds the constraint that 'first' should preceede 'second'. - rule add-pair ( first second ) - { - .constraits += $(first)--$(second) ; - } - NATIVE_RULE class@order : add-pair ; - - # Given a list of objects, reorder them so that the constraints specified by - # 'add-pair' are satisfied. - # - # The algorithm was adopted from an awk script by Nikita Youshchenko - # (yoush at cs dot msu dot su) - rule order ( objects * ) - { - # The algorithm used is the same is standard transitive closure, except - # that we're not keeping in-degree for all vertices, but rather removing - # edges. - local result ; - if $(objects) - { - local constraints = [ eliminate-unused-constraits $(objects) ] ; - - # Find some library that nobody depends upon and add it to the - # 'result' array. - local obj ; - while $(objects) - { - local new_objects ; - while $(objects) - { - obj = $(objects[1]) ; - if [ has-no-dependents $(obj) : $(constraints) ] - { - # Emulate break ; - new_objects += $(objects[2-]) ; - objects = ; - } - else - { - new_objects += $(obj) ; - obj = ; - objects = $(objects[2-]) ; - } - } - - if ! $(obj) - { - errors.error "Circular order dependencies" ; - } - # No problem with placing first. - result += $(obj) ; - # Remove all contraints where 'obj' comes first, since they are - # already satisfied. - constraints = [ remove-satisfied $(constraints) : $(obj) ] ; - - # Add the remaining objects for further processing on the next - # iteration - objects = $(new_objects) ; - } - - } - return $(result) ; - } - NATIVE_RULE class@order : order ; - - # Eliminate constraints which mention objects not in 'objects'. In - # graph-theory terms, this is finding a subgraph induced by ordered - # vertices. - rule eliminate-unused-constraits ( objects * ) - { - local result ; - for local c in $(.constraints) - { - local m = [ MATCH (.*)--(.*) : $(c) ] ; - if $(m[1]) in $(objects) && $(m[2]) in $(objects) - { - result += $(c) ; - } - } - return $(result) ; - } - - # Returns true if there's no constraint in 'constaraints' where 'obj' comes - # second. - rule has-no-dependents ( obj : constraints * ) - { - local failed ; - while $(constraints) && ! $(failed) - { - local c = $(constraints[1]) ; - local m = [ MATCH (.*)--(.*) : $(c) ] ; - if $(m[2]) = $(obj) - { - failed = true ; - } - constraints = $(constraints[2-]) ; - } - if ! $(failed) - { - return true ; - } - } - - rule remove-satisfied ( constraints * : obj ) - { - local result ; - for local c in $(constraints) - { - local m = [ MATCH (.*)--(.*) : $(c) ] ; - if $(m[1]) != $(obj) - { - result += $(c) ; - } - } - return $(result) ; - } -} - - -rule __test__ ( ) -{ - import "class" : new ; - import assert ; - - c1 = [ new order ] ; - $(c1).add-pair l1 l2 ; - - assert.result l1 l2 : $(c1).order l1 l2 ; - assert.result l1 l2 : $(c1).order l2 l1 ; - - $(c1).add-pair l2 l3 ; - assert.result l1 l2 : $(c1).order l2 l1 ; - $(c1).add-pair x l2 ; - assert.result l1 l2 : $(c1).order l2 l1 ; - assert.result l1 l2 l3 : $(c1).order l2 l3 l1 ; -} |