diff options
-rw-r--r-- | libbuild2/cc/common.cxx | 76 | ||||
-rw-r--r-- | libbuild2/cc/init.cxx | 22 | ||||
-rw-r--r-- | libbuild2/cc/link-rule.cxx | 172 |
3 files changed, 213 insertions, 57 deletions
diff --git a/libbuild2/cc/common.cxx b/libbuild2/cc/common.cxx index d1cee6f..8cce132 100644 --- a/libbuild2/cc/common.cxx +++ b/libbuild2/cc/common.cxx @@ -96,10 +96,10 @@ namespace build2 const small_vector<reference_wrapper< const string>, 2>&, // Library "name". lflags, // Link flags. - const string* type, // cc.type + const string* type, // whole cc.type bool sys)>& proc_lib, // System library? const function<bool (const target&, - const string& type, // cc.type + const string& lang, // lang from cc.type bool com, // cc. or x. bool exp)>& proc_opt, // *.export. bool self /*= false*/, // Call proc_lib on l? @@ -136,25 +136,45 @@ namespace build2 // performance we use lookup_original() directly and only look in the // target (so no target type/pattern-specific). // - const string* t ( + const string* pt ( cast_null<string> ( l.state[a].lookup_original (c_type, true /* target_only */).first)); + // cc.type value format is <lang>[,...]. + // + size_t p; + const string& t (pt != nullptr + ? ((p = pt->find (',')) == string::npos + ? *pt + : string (*pt, 0, p)) + : string ()); + + // Why are we bothering with impl for binless libraries since all + // their dependencies are by definition interface? Well, for one, it + // could be that it is dynamically-binless (e.g., binless on some + // platforms or in some configurations and binful on/in others). In + // this case it would be helpful to have a uniform semantics so that, + // for example, *.libs are used for liba{} regardless of whether it is + // binless or not. On the other hand, having to specify both + // *.export.libs=-lm and *.libs=-lm (or *.export.impl_libs) for an + // always-binless library is sure not very intuitive. Not sure if we + // can win here. + // bool impl (proc_impl && proc_impl (l, la)); bool cc (false), same (false); - if (t != nullptr) + if (!t.empty ()) { - cc = (*t == "cc"); - same = (!cc && *t == x); + cc = (t == "cc"); + same = (!cc && t == x); } - const scope& bs (t == nullptr || cc ? top_bs : l.base_scope ()); + const scope& bs (t.empty () || cc ? top_bs : l.base_scope ()); lookup c_e_libs; lookup x_e_libs; - if (t != nullptr) + if (!t.empty ()) { // Note that we used to treat *.export.libs set on the liba/libs{} // members as *.libs overrides rather than as member-specific @@ -173,8 +193,6 @@ namespace build2 // // See also deduplicate_export_libs() if changing anything here. // - // @@ PERF: do target_only (helps a bit in non-installed case)? - // { const variable& v (impl ? c_export_impl_libs : c_export_libs); c_e_libs = l.lookup_original (v, false, &bs).first; @@ -185,7 +203,7 @@ namespace build2 const variable& v ( same ? (impl ? x_export_impl_libs : x_export_libs) - : vp[*t + (impl ? ".export.impl_libs" : ".export.libs")]); + : vp[t + (impl ? ".export.impl_libs" : ".export.libs")]); x_e_libs = l.lookup_original (v, false, &bs).first; } @@ -198,7 +216,7 @@ namespace build2 // if (cc) { - if (!proc_opt (l, *t, true, true)) break; + if (!proc_opt (l, t, true, true)) break; } else { @@ -215,24 +233,24 @@ namespace build2 // // Note: options come from *.export.* variables. // - if (!proc_opt (l, *t, false, true) || - !proc_opt (l, *t, true, true)) break; + if (!proc_opt (l, t, false, true) || + !proc_opt (l, t, true, true)) break; } else { // For default export we use the same options as were used // to build the library. // - if (!proc_opt (l, *t, false, false) || - !proc_opt (l, *t, true, false)) break; + if (!proc_opt (l, t, false, false) || + !proc_opt (l, t, true, false)) break; } } else { // Interface: only add *.export.* (interface dependencies). // - if (!proc_opt (l, *t, false, true) || - !proc_opt (l, *t, true, true)) break; + if (!proc_opt (l, t, false, true) || + !proc_opt (l, t, true, true)) break; } } } @@ -273,12 +291,12 @@ namespace build2 const file* f; const path& p ((f = l.is_a<file> ()) ? f->path () : empty_path); - bool s (t != nullptr // If cc library (matched or imported). + bool s (pt != nullptr // If cc library (matched or imported). ? cast_false<bool> (l.vars[c_system]) : !p.empty () && sys (top_sysd, p.string ())); proc_lib_name = {p.string ()}; - if (!proc_lib (&chain->back (), proc_lib_name, lf, t, s)) + if (!proc_lib (&chain->back (), proc_lib_name, lf, pt, s)) break; } @@ -292,17 +310,17 @@ namespace build2 { // Use the search dirs corresponding to this library scope/type. // - sysd = (t == nullptr || cc) + sysd = (t.empty () || cc) ? &top_sysd // Imported library, use importer's sysd. : &cast<dir_paths> ( bs.root_scope ()->vars[same ? x_sys_lib_dirs - : bs.ctx.var_pool[*t + ".sys_lib_dirs"]]); + : bs.ctx.var_pool[t + ".sys_lib_dirs"]]); }; auto find_linfo = [top_li, t, cc, &bs, &l, &li] () { - li = (t == nullptr || cc) + li = (t.empty () || cc) ? top_li : optional<linfo> (link_info (bs, link_type (l).type)); // @@ PERF }; @@ -353,7 +371,7 @@ namespace build2 // If it is not a C-common library, then it probably doesn't have any // of the *.libs. // - if (t != nullptr) + if (!t.empty ()) { optional<dir_paths> usrd; // Extract lazily. @@ -453,6 +471,9 @@ namespace build2 { const name& n (*i); + // Note: see also recursively-binless logic in link_rule if + // changing anything in simple library handling. + // if (n.simple ()) { // This is something like -lpthread or shell32.lib so should @@ -619,6 +640,9 @@ namespace build2 } else { + // Note: see also recursively-binless logic in link_rule if + // changing anything here. + if (impl) { // Interface and implementation: as discussed above, we can have @@ -645,7 +669,7 @@ namespace build2 // if (proc_lib) { - const variable& v (same ? x_libs : vp[*t + ".libs"]); + const variable& v (same ? x_libs : vp[t + ".libs"]); proc_impl (l.lookup_original (c_libs, false, &bs).first); proc_impl (l.lookup_original (v, false, &bs).first); } @@ -778,7 +802,7 @@ namespace build2 fail << "unable to find library " << pk; } - // If this is lib{}/libu*{}, pick appropriate member unless we were + // If this is lib{}/libul{}, pick appropriate member unless we were // instructed not to. // if (li) diff --git a/libbuild2/cc/init.cxx b/libbuild2/cc/init.cxx index 5c15835..75b32bb 100644 --- a/libbuild2/cc/init.cxx +++ b/libbuild2/cc/init.cxx @@ -133,15 +133,19 @@ namespace build2 vp.insert<string> ("cc.runtime"); vp.insert<string> ("cc.stdlib"); - // Target type, for example, "C library" or "C++ library". Should be set - // on the target as a rule-specific variable by the matching rule to the - // name of the module (e.g., "c", "cxx"). Currenly only set for - // libraries and is used to decide which *.libs to use during static - // linking. - // - // It can also be the special "cc" value which means a C-common library - // but specific language is not known. Used in the import installed - // logic. + // Library target type in the <lang>[,<type>...] form where <lang> is + // "c" (C library), "cxx" (C++ library), or "cc" (C-common library but + // the specific language is not known). Currently recognized <type> + // values are "binless" (library is binless) and "recursively-binless" + // (library and all its prerequisite libraries are binless). Note that + // another indication of a binless library is an empty path, which could + // easier/faster to check. Note also that there should be no whitespaces + // of any kind and <lang> is always first. + // + // This value should be set on the library target as a rule-specific + // variable by the matching rule. Currently <lang> is used to decide + // which *.libs to use during static linking. The "cc" language is used + // in the import installed logic. // // Note that this variable cannot be set via the target type/pattern- // specific mechanism (see process_libraries()). diff --git a/libbuild2/cc/link-rule.cxx b/libbuild2/cc/link-rule.cxx index ffb7dfb..f766f84 100644 --- a/libbuild2/cc/link-rule.cxx +++ b/libbuild2/cc/link-rule.cxx @@ -833,6 +833,10 @@ namespace build2 // if (const libul* ul = pt->is_a<libul> ()) { + // @@ Isn't libul{} member already picked or am I missing something? + // If not, then we may need the same in recursive-binless logic. + // + assert (false); // @@ TMP ux = &link_member (*ul, a, li)->as<libux> (); } else if ((ux = pt->is_a<libue> ()) || @@ -849,6 +853,19 @@ namespace build2 return nullptr; }; + // Given the cc.type value return true if the library is recursively + // binless. + // + static inline bool + recursively_binless (const string& type) + { + size_t p (type.find ("recursively-binless")); + return (p != string::npos && + type[p - 1] == ',' && // <lang> is first. + (type[p += 19] == '\0' || type[p] == ',')); + } + + recipe link_rule:: apply (action a, target& xt, match_extra&) const { @@ -869,11 +886,6 @@ namespace build2 otype ot (lt.type); linfo li (link_info (bs, ot)); - // Set the library type (C, C++, etc) as rule-specific variable. - // - if (lt.library ()) - t.state[a].assign (c_type) = string (x); - bool binless (lt.library ()); // Binary-less until proven otherwise. bool user_binless (lt.library () && cast_false<bool> (t[b_binless])); @@ -1220,6 +1232,121 @@ namespace build2 // match_members (a, t, pts, start); + // Check if we have any binful utility libraries. + // + bool rec_binless; // Recursively-binless. + if (binless) + { + if (const libux* l = find_binful (a, t, li)) + { + binless = false; + + if (user_binless) + fail << t << " cannot be binless due to binful " << *l + << " prerequisite"; + } + + // See if we are recursively-binless. + // + if (binless) + { + rec_binless = true; + + for (const target* pt: t.prerequisite_targets[a]) + { + if (pt == nullptr || unmark (pt) != 0) // See above. + continue; + + const file* ft; + if ((ft = pt->is_a<libs> ()) || + (ft = pt->is_a<liba> ()) || + (ft = pt->is_a<libux> ())) + { + if (ft->path ().empty ()) // Binless. + { + // The same lookup as in process_libraries(). + // + if (const string* t = cast_null<string> ( + ft->state[a].lookup_original ( + c_type, true /* target_only */).first)) + { + if (recursively_binless (*t)) + continue; + } + } + + rec_binless = false; + break; + } + } + + // Another thing we must check is for the presence of any simple + // libraries (-lpthread, shell32.lib, etc) in *.export.libs. See + // process_libraries() for details. + // + if (rec_binless) + { + auto find = [&t, &bs] (const variable& v) -> lookup + { + return t.lookup_original (v, false, &bs).first; + }; + + auto has_simple = [] (lookup l) + { + if (const auto* ns = cast_null<vector<name>> (l)) + { + for (auto i (ns->begin ()), e (ns->end ()); i != e; ++i) + { + if (i->pair) + ++i; + else if (i->simple ()) // -l<name>, etc. + return true; + } + } + + return false; + }; + + if (lt.shared_library ()) // process_libraries()::impl == false + { + if (has_simple (find (x_export_libs)) || + has_simple (find (c_export_libs))) + rec_binless = false; + } + else // process_libraries()::impl == true + { + lookup x (find (x_export_impl_libs)); + lookup c (find (c_export_impl_libs)); + + if (x.defined () || c.defined ()) + { + if (has_simple (x) || has_simple (c)) + rec_binless = false; + } + else + { + if (has_simple (find (x_libs)) || has_simple (find (c_libs))) + rec_binless = false; + } + } + } + } + } + + // Set the library type (C, C++, binless) as rule-specific variable. + // + if (lt.library ()) + { + string v (x); + + if (rec_binless) + v += ",recursively-binless"; + else if (binless) + v += ",binless"; + + t.state[a].assign (c_type) = move (v); + } + // If we have any update during match prerequisites, now is the time to // update them. Note that we have to do it before any further matches // since they may rely on these prerequisites already being updated (for @@ -1236,20 +1363,6 @@ namespace build2 if (update_match) update_during_match_prerequisites (trace, a, t, 2 /* mask */); - // Check if we have any binful utility libraries. - // - if (binless) - { - if (const libux* l = find_binful (a, t, li)) - { - binless = false; - - if (user_binless) - fail << t << " cannot be binless due to binful " << *l - << " prerequisite"; - } - } - // Now that we know for sure whether we are binless, derive file name(s) // and add ad hoc group members. Note that for binless we still need the // .pc member (whose name depends on the libray prefix) so we take care @@ -1950,7 +2063,7 @@ namespace build2 const target* const* lc, const small_vector<reference_wrapper<const string>, 2>& ns, lflags f, - const string* type, // cc.type + const string* type, // Whole cc.type in the <lang>[,...] form. bool) { // Note: see also make_header_sidebuild(). @@ -1971,6 +2084,13 @@ namespace build2 // that range of elements to the end of args. See GitHub issue #114 // for details. // + // One case where we can prune the graph is if the library is + // recursively-binless. It's tempting to wish that we can do the same + // just for binless, but alas that's not the case: we have to hoist + // its binful interface dependency because, for example, it must + // appear after the preceding static library of which this binless + // library is a dependency. + // // From the process_libraries() semantics we know that this callback // is always called and always after the options callbacks. // @@ -1982,8 +2102,13 @@ namespace build2 { // Hoist the elements corresponding to this library to the end. // Note that we cannot prune the traversal since we need to see the - // last occurrence of each library. + // last occurrence of each library, unless the library is + // recursively-binless (in which case there will be no need to + // hoist since there can be no libraries among the elements). // + if (type != nullptr && recursively_binless (*type)) + return false; + d.ls.hoist (d.args, *al); return true; } @@ -2029,7 +2154,10 @@ namespace build2 // install or both not. We can only do this if the library is build // by our link_rule. // - else if (d.for_install && type != nullptr && *type != "cc") + else if (d.for_install && + type != nullptr && + *type != "cc" && + type->compare (0, 3, "cc,") != 0) { auto& md (l->data<link_rule::match_data> ()); assert (md.for_install); // Must have been executed. |