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// file : libbuild2/bin/rule.cxx -*- C++ -*-
// license : MIT; see accompanying LICENSE file
#include <libbuild2/bin/rule.hxx>
#include <libbuild2/scope.hxx>
#include <libbuild2/target.hxx>
#include <libbuild2/algorithm.hxx>
#include <libbuild2/diagnostics.hxx>
#include <libbuild2/bin/target.hxx>
#include <libbuild2/bin/utility.hxx>
using namespace std;
namespace build2
{
namespace bin
{
// obj_rule
//
bool obj_rule::
match (action a, target& t, const string&) const
{
const char* n (t.dynamic_type ().name); // Ignore derived type.
fail << diag_doing (a, t) << " target group" <<
info << "explicitly select " << n << "e{}, " << n << "a{}, or "
<< n << "s{} member" << endf;
}
recipe obj_rule::
apply (action, target&) const {return empty_recipe;}
// libul_rule
//
bool libul_rule::
match (action a, target& t, const string&) const
{
fail << diag_doing (a, t) << " target group" <<
info << "explicitly select libua{} or libus{} member" << endf;
}
recipe libul_rule::
apply (action, target&) const {return empty_recipe;}
// lib_rule
//
// The whole logic is pretty much as if we had our two group members as
// our prerequisites.
//
bool lib_rule::
match (action a, target& xt, const string&) const
{
lib& t (xt.as<lib> ());
lmembers bm (a.meta_operation () != dist_id
? link_members (t.root_scope ())
: lmembers {true, true});
t.a = bm.a ? &search<liba> (t, t.dir, t.out, t.name) : nullptr;
t.s = bm.s ? &search<libs> (t, t.dir, t.out, t.name) : nullptr;
return true;
}
recipe lib_rule::
apply (action a, target& xt) const
{
lib& t (xt.as<lib> ());
//@@ outer: also prerequisites (if outer) or not?
const target* m[] = {t.a, t.s};
match_members (a, t, m);
return &perform;
}
target_state lib_rule::
perform (action a, const target& xt)
{
const lib& t (xt.as<lib> ());
const target* m[] = {t.a, t.s};
return execute_members (a, t, m);
}
}
}
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