diff options
Diffstat (limited to 'libbuild2/algorithm.cxx')
-rw-r--r-- | libbuild2/algorithm.cxx | 180 |
1 files changed, 180 insertions, 0 deletions
diff --git a/libbuild2/algorithm.cxx b/libbuild2/algorithm.cxx index 3d04173..bd64cb1 100644 --- a/libbuild2/algorithm.cxx +++ b/libbuild2/algorithm.cxx @@ -2727,6 +2727,8 @@ namespace build2 bool update_during_match (tracer& trace, action a, const target& t, timestamp ts) { + // NOTE: see also clean_during_match() if changing anything here. + assert (a == perform_update_id); // Note: this function is used to make sure header dependencies are up to @@ -2798,6 +2800,11 @@ namespace build2 action a, target& t, uintptr_t mask) { + // NOTE: see also clean_during_match_prerequisites() if changing anything + // here. + + assert (a == perform_update_id); + prerequisite_targets& pts (t.prerequisite_targets[a]); // On the first pass detect and handle unchanged tragets. Note that we @@ -2924,6 +2931,179 @@ namespace build2 return r; } + bool + clean_during_match (tracer& trace, action a, const target& t) + { + // Let's keep this as close to update_during_match() semantically as + // possible until we see a clear reason to deviate. + + assert (a == perform_clean_id); + + target_state os (t.matched_state (a)); + + if (os == target_state::unchanged) + return false; + else + { + target_state ns; + if (os != target_state::changed) + { + phase_switch ps (t.ctx, run_phase::execute); + ns = execute_direct_sync (a, t); + } + else + ns = os; + + if (ns != os && ns != target_state::unchanged) + { + l6 ([&]{trace << "cleaned " << t + << "; old state " << os + << "; new state " << ns;}); + return true; + } + else + return false; + } + } + + bool + clean_during_match_prerequisites (tracer& trace, + action a, target& t, + uintptr_t mask) + { + // Let's keep this as close to update_during_match_prerequisites() + // semantically as possible until we see a clear reason to deviate. + // + // Currently the only substantial change is the reverse iteration order. + + assert (a == perform_clean_id); + + prerequisite_targets& pts (t.prerequisite_targets[a]); + + // On the first pass detect and handle unchanged tragets. Note that we + // have to do it in a separate pass since we cannot call matched_state() + // once we've switched the phase. + // + size_t n (0); + + for (prerequisite_target& p: pts) + { + if (mask == 0 || (p.include & mask) != 0) + { + if (p.target != nullptr) + { + const target& pt (*p.target); + + target_state os (pt.matched_state (a)); + + if (os != target_state::unchanged) + { + ++n; + p.data = static_cast<uintptr_t> (os); + continue; + } + } + + p.data = 0; + } + } + + // If all unchanged, we are done. + // + if (n == 0) + return false; + + // Provide additional information on what's going on. + // + auto df = make_diag_frame ( + [&t](const diag_record& dr) + { + if (verb != 0) + dr << info << "while cleaning during match prerequisites of " + << "target " << t; + }); + + context& ctx (t.ctx); + + phase_switch ps (ctx, run_phase::execute); + + bool r (false); + + // @@ Maybe we should optimize for n == 1? Maybe we should just call + // smarter clean_during_match() in this case? + // +#if 0 + for (prerequisite_target& p: reverse_iterate (pts)) + { + if ((mask == 0 || (p.include & mask) != 0) && p.data != 0) + { + const target& pt (*p.target); + + target_state os (static_cast<target_state> (p.data)); + target_state ns (execute_direct_sync (a, pt)); + + if (ns != os && ns != target_state::unchanged) + { + l6 ([&]{trace << "cleaned " << pt + << "; old state " << os + << "; new state " << ns;}); + r = true; + } + + p.data = 0; + } + } +#else + + // Start asynchronous execution of prerequisites. Similar logic to + // straight_execute_members(). + // + // Note that the target's task count is expected to be busy (since this + // function is called during match). And there don't seem to be any + // problems in using it for execute. + // + atomic_count& tc (t[a].task_count); + + size_t busy (ctx.count_busy ()); + + wait_guard wg (ctx, busy, tc); + + for (prerequisite_target& p: reverse_iterate (pts)) + { + if ((mask == 0 || (p.include & mask) != 0) && p.data != 0) + { + execute_direct_async (a, *p.target, busy, tc); + } + } + + wg.wait (); + + // Finish execution and process the result. + // + for (prerequisite_target& p: reverse_iterate (pts)) + { + if ((mask == 0 || (p.include & mask) != 0) && p.data != 0) + { + const target& pt (*p.target); + target_state ns (execute_complete (a, pt)); + target_state os (static_cast<target_state> (p.data)); + + if (ns != os && ns != target_state::unchanged) + { + l6 ([&]{trace << "cleaned " << pt + << "; old state " << os + << "; new state " << ns;}); + r = true; + } + + p.data = 0; + } + } +#endif + + return r; + } + static inline void blank_adhoc_member (const target*&) { |