// file : build2/bin/rule.cxx -*- C++ -*- // copyright : Copyright (c) 2014-2017 Code Synthesis Ltd // license : MIT; see accompanying LICENSE file #include #include #include #include #include #include using namespace std; namespace build2 { namespace bin { // obj // match_result obj_rule:: match (action a, target& t, const string&) const { fail << diag_doing (a, t) << " target group" << info << "explicitly select obje{}, obja{}, or objs{} member"; return false; } recipe obj_rule:: apply (action, target&) const {return empty_recipe;} // lib // // The whole logic is pretty much as if we had our two group members as // our prerequisites. // match_result lib_rule:: match (action act, target& xt, const string&) const { lib& t (xt.as ()); // Get the library type to build. If not set for a target, this should // be configured at the project scope by init(). // const string& type (cast (t["bin.lib"])); bool a (type == "static" || type == "both"); bool s (type == "shared" || type == "both"); if (!a && !s) fail << "unknown library type: " << type << info << "'static', 'shared', or 'both' expected"; t.a = a ? &search (t, t.dir, t.out, t.name) : nullptr; t.s = s ? &search (t, t.dir, t.out, t.name) : nullptr; match_result mr (true); // If there is an outer operation, indicate that we match // unconditionally so that we don't override ourselves. // if (act.outer_operation () != 0) mr.recipe_action = action (act.meta_operation (), act.operation ()); return mr; } recipe lib_rule:: apply (action act, target& xt) const { lib& t (xt.as ()); const target* m[] = {t.a, t.s}; match_members (act, t, m); return &perform; } target_state lib_rule:: perform (action act, const target& xt) { const lib& t (xt.as ()); const target* m[] = {t.a, t.s}; return execute_members (act, t, m); } } }