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-rw-r--r--libbuild2/cc/compile-rule.cxx211
1 files changed, 187 insertions, 24 deletions
diff --git a/libbuild2/cc/compile-rule.cxx b/libbuild2/cc/compile-rule.cxx
index 531f2a4..8354bca 100644
--- a/libbuild2/cc/compile-rule.cxx
+++ b/libbuild2/cc/compile-rule.cxx
@@ -450,7 +450,7 @@ namespace build2
};
process_libraries (a, bs, li, sys_lib_dirs,
- l, la, 0, // Hack: lflags unused.
+ l, la, 0, // lflags unused.
imp, nullptr, opt);
}
@@ -544,7 +544,7 @@ namespace build2
continue;
process_libraries (a, bs, li, sys_lib_dirs,
- pt->as<file> (), la, 0, // Hack: lflags unused.
+ pt->as<file> (), la, 0, // lflags unused.
impf, nullptr, optf);
}
}
@@ -759,8 +759,8 @@ namespace build2
continue;
// A dependency on a library is there so that we can get its
- // *.export.poptions, modules, etc. This is the library metadata
- // protocol. See also append_library_options().
+ // *.export.poptions, modules, importable headers, etc. This is the
+ // library metadata protocol. See also append_library_options().
//
if (pi == include_type::normal &&
(p.is_a<libx> () ||
@@ -773,8 +773,8 @@ namespace build2
// Handle (phase two) imported libraries. We know that for such
// libraries we don't need to do match() in order to get options
// (if any, they would be set by search_library()). But we do need
- // to match it if we may need its modules (see search_modules()
- // for details).
+ // to match it if we may need its modules or importable headers
+ // (see search_modules(), make_header_sidebuild() for details).
//
if (p.proj ())
{
@@ -2207,7 +2207,7 @@ namespace build2
// Synthesize the BMI dependency then update and add the BMI
// target as a prerequisite.
//
- const file& bt (make_header_sidebuild (a, bs, li, *ht));
+ const file& bt (make_header_sidebuild (a, bs, t, li, *ht));
if (!skip)
{
@@ -2240,7 +2240,8 @@ namespace build2
}
catch (const failed&)
{
- r = "ERROR 'unable to update header unit "; r += hs; r += '\'';
+ r = "ERROR 'unable to update header unit for ";
+ r += hs; r += '\'';
continue;
}
}
@@ -2700,7 +2701,7 @@ namespace build2
// Synthesize the BMI dependency then update and add the BMI
// target as a prerequisite.
//
- const file& bt (make_header_sidebuild (a, bs, li, *ht));
+ const file& bt (make_header_sidebuild (a, bs, t, li, *ht));
if (!skip)
{
@@ -3946,7 +3947,7 @@ namespace build2
//
if (inject_header (a, t, *ht, mt, false /* fail */))
{
- const file& bt (make_header_sidebuild (a, bs, li, *ht));
+ const file& bt (make_header_sidebuild (a, bs, t, li, *ht));
// It doesn't look like we need the cache semantics here since given
// the header, we should be able to build its BMI. In other words, a
@@ -5878,7 +5879,7 @@ namespace build2
// Find or create a modules sidebuild subproject returning its root
// directory.
//
- dir_path compile_rule::
+ pair<dir_path, const scope&> compile_rule::
find_modules_sidebuild (const scope& rs) const
{
context& ctx (rs.ctx);
@@ -5976,7 +5977,7 @@ namespace build2
assert (m != nullptr && m->modules);
#endif
- return pd;
+ return pair<dir_path, const scope&> (move (pd), *as);
}
// Synthesize a dependency for building a module binary interface on
@@ -5993,7 +5994,7 @@ namespace build2
// Note: see also make_header_sidebuild() below.
- dir_path pd (find_modules_sidebuild (*bs.root_scope ()));
+ dir_path pd (find_modules_sidebuild (*bs.root_scope ()).first);
// We need to come up with a file/target name that will be unique enough
// not to conflict with other modules. If we assume that within an
@@ -6042,14 +6043,6 @@ namespace build2
if (include (a, lt, p) != include_type::normal) // Excluded/ad hoc.
continue;
- // @@ TODO: will probably need revision if using sidebuild for
- // non-installed libraries (e.g., direct BMI dependencies
- // will probably have to be translated to mxx{} or some such).
- // Hm, don't think we want it this way: we want BMIs of binless
- // library to be built in the library rather than on the side
- // (so they can be potentially re-used by multiple independent
- // importers).
- //
if (p.is_a<libx> () ||
p.is_a<liba> () || p.is_a<libs> () || p.is_a<libux> ())
{
@@ -6087,8 +6080,9 @@ namespace build2
// the side.
//
const file& compile_rule::
- make_header_sidebuild (action,
+ make_header_sidebuild (action a,
const scope& bs,
+ const file& t,
linfo li,
const file& ht) const
{
@@ -6096,7 +6090,105 @@ namespace build2
// Note: similar to make_module_sidebuild() above.
- dir_path pd (find_modules_sidebuild (*bs.root_scope ()));
+ auto sb (find_modules_sidebuild (*bs.root_scope ()));
+ dir_path pd (move (sb.first));
+ const scope& as (sb.second);
+
+ // Determine if this header belongs to one of the libraries we depend
+ // on.
+ //
+ // Note that because libraries are not in prerequisite_targets, we have
+ // to go through prerequisites, similar to append_library_options().
+ //
+ const file* lt (nullptr);
+ {
+ // Note that any such library would necessarily be an interface
+ // dependency so we never need to go into implementations.
+ //
+ auto imp = [] (const file&, bool)
+ {
+ return false;
+ };
+
+ // The same logic as in append_libraries().
+ //
+ struct data
+ {
+ action a;
+ const file& ht;
+ const file*& lt;
+ } d {a, ht, lt};
+
+ auto lib = [&d] (const file* const* lc,
+ const string&,
+ lflags,
+ bool)
+ {
+ // It's unfortunate we have no way to bail out.
+ //
+ if (d.lt != nullptr)
+ return;
+
+ const file* l (lc != nullptr ? *lc : nullptr);
+
+ if (l == nullptr)
+ return;
+
+ // Feels like we should only consider non-utility libraries with
+ // utilities being treated as "direct" use.
+ //
+ if (l->is_a<libux> ())
+ return;
+
+ // Since the library is searched and matched, all the headers should
+ // be in prerequisite_targets.
+ //
+ const auto& pts (l->prerequisite_targets[d.a]);
+ if (find (pts.begin (), pts.end (), &d.ht) != pts.end ())
+ d.lt = l;
+
+ // This is a bit of a hack: for the installed case the library
+ // prerequisites are matched by file_rule which won't pick the
+ // liba/libs{} member (naturally) but will just match the lib{}
+ // group. So we also check the group's prerequisite targets. This
+ // should be harmless since for now all the importable headers are
+ // specified on the group.
+ //
+ if (d.lt == nullptr && l->group != nullptr)
+ {
+ const auto& pts (l->group->prerequisite_targets[d.a]);
+ if (find (pts.begin (), pts.end (), &d.ht) != pts.end ())
+ d.lt = l;
+ }
+ };
+
+ for (prerequisite_member p: group_prerequisite_members (a, t))
+ {
+ if (include (a, t, p) != include_type::normal) // Excluded/ad hoc.
+ continue;
+
+ // Should be already searched and matched for libraries.
+ //
+ if (const target* pt = p.load ())
+ {
+ if (const libx* l = pt->is_a<libx> ())
+ pt = link_member (*l, a, li);
+
+ bool la;
+ const file* f;
+ if ((la = (f = pt->is_a<liba> ())) ||
+ (la = (f = pt->is_a<libux> ())) ||
+ ( (f = pt->is_a<libs> ())))
+ {
+ process_libraries (
+ a, bs, li, sys_lib_dirs,
+ *f, la, 0, // lflags unused.
+ imp, lib, {},
+ true);
+ }
+ }
+ }
+ }
// What should we use as a file/target name? On one hand we want it
// unique enough so that <stdio.h> and <custom/stdio.h> don't end up
@@ -6121,7 +6213,12 @@ namespace build2
mf += sha256 (hp.string ()).abbreviated_string (12);
}
- const target_type& tt (compile_types (li.type).hbmi);
+ // If the header comes from the library, use its hbmi?{} type to
+ // maximize reuse.
+ //
+ const target_type& tt (
+ compile_types (
+ lt != nullptr ? link_type (*lt).type : li.type).hbmi);
if (const file* bt = bs.ctx.targets.find<file> (
tt,
@@ -6135,6 +6232,48 @@ namespace build2
prerequisites ps;
ps.push_back (prerequisite (ht));
+ // Similar story as for modules: the header may need poptions from its
+ // library (e.g., -I to find other headers that it includes).
+ //
+ if (lt != nullptr)
+ ps.push_back (prerequisite (*lt));
+ else
+ {
+ // If the header does not belong to a library then this is a "direct"
+ // use, for example, by an exe{} target. In this case we need to add
+ // all the prerequisite libraries as well as scope p/coptions (in a
+ // sense, we are trying to approximate how all the sources that would
+ // typically include such a header are build).
+ //
+ // Note that this is also the case when we build the library's own
+ // sources (in a way it would have been cleaner to always build
+ // library's headers with only its "interface" options/prerequisites
+ // but that won't be easy to achieve).
+ //
+ // Note also that at first it might seem like a good idea to
+ // incorporate this information into the hash we use to form the BMI
+ // name. But that would reduce sharing of the BMI. For example, that
+ // would mean we will build the library header twice, once with the
+ // implementation options/prerequisites and once -- with interface.
+ // On the other hand, importable headers are expected to be "modular"
+ // and should probably not depend on any of the implementation
+ // options/prerequisites (though one could conceivably build a
+ // "richer" BMI if it is also to be used to build the library
+ // implementation -- interesting idea).
+ //
+ for (prerequisite_member p: group_prerequisite_members (a, t))
+ {
+ if (include (a, t, p) != include_type::normal) // Excluded/ad hoc.
+ continue;
+
+ if (p.is_a<libx> () ||
+ p.is_a<liba> () || p.is_a<libs> () || p.is_a<libux> ())
+ {
+ ps.push_back (p.as_prerequisite ());
+ }
+ }
+ }
+
auto p (bs.ctx.targets.insert_locked (
tt,
move (pd),
@@ -6149,8 +6288,32 @@ namespace build2
// while we were preparing the prerequisite list.
//
if (p.second)
+ {
bt.prerequisites (move (ps));
+ // Add the p/coptions from our scope in case of a "direct" use. Take
+ // into account hbmi{} target-type/pattern values to allow specifying
+ // hbmi-specific options.
+ //
+ if (lt == nullptr)
+ {
+ auto set = [this, &bs, &as, &tt, &bt] (const variable& var)
+ {
+ // Avoid duplicating the options if they are from the same
+ // amalgamation as the sidebuild.
+ //
+ lookup l (bs.lookup (var, tt, bt.name, hbmi::static_type, bt.name));
+ if (l.defined () && !l.belongs (as))
+ bt.assign (var) = *l;
+ };
+
+ set (c_poptions);
+ set (x_poptions);
+ set (c_coptions);
+ set (x_coptions);
+ }
+ }
+
return bt;
}