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-rw-r--r--libbuild2/algorithm.cxx322
1 files changed, 220 insertions, 102 deletions
diff --git a/libbuild2/algorithm.cxx b/libbuild2/algorithm.cxx
index 01d5016..bc4b835 100644
--- a/libbuild2/algorithm.cxx
+++ b/libbuild2/algorithm.cxx
@@ -232,8 +232,14 @@ namespace build2
// If the work_queue is absent, then we don't wait.
//
+ // While already applied or executed targets are normally not locked, if
+ // options contain any bits that are not already in cur_options, then the
+ // target is locked even in these states.
+ //
target_lock
- lock_impl (action a, const target& ct, optional<scheduler::work_queue> wq)
+ lock_impl (action a, const target& ct,
+ optional<scheduler::work_queue> wq,
+ uint64_t options)
{
context& ctx (ct.ctx);
@@ -248,7 +254,8 @@ namespace build2
size_t appl (b + target::offset_applied);
size_t busy (b + target::offset_busy);
- atomic_count& task_count (ct[a].task_count);
+ const target::opstate& cs (ct[a]);
+ atomic_count& task_count (cs.task_count);
while (!task_count.compare_exchange_strong (
e,
@@ -281,9 +288,10 @@ namespace build2
e = ctx.sched->wait (busy - 1, task_count, u, *wq);
}
- // We don't lock already applied or executed targets.
+ // We don't lock already applied or executed targets unless there
+ // are new options.
//
- if (e >= appl)
+ if (e >= appl && (cs.match_extra.cur_options & options) == options)
return target_lock {a, nullptr, e - b, false};
}
@@ -304,12 +312,7 @@ namespace build2
offset = target::offset_touched;
}
else
- {
offset = e - b;
- assert (offset == target::offset_touched ||
- offset == target::offset_tried ||
- offset == target::offset_matched);
- }
return target_lock {a, &t, offset, first};
}
@@ -448,7 +451,7 @@ namespace build2
auto match = [a, &t, &me] (const adhoc_rule& r, bool fallback) -> bool
{
- me.init (fallback);
+ me.reinit (fallback);
if (auto* f = (a.outer ()
? t.ctx.current_outer_oif
@@ -550,10 +553,11 @@ namespace build2
// Return the matching rule or NULL if no match and try_match is true.
//
const rule_match*
- match_rule (action a, target& t,
- const rule* skip,
- bool try_match,
- match_extra* pme)
+ match_rule_impl (action a, target& t,
+ uint64_t options,
+ const rule* skip,
+ bool try_match,
+ match_extra* pme)
{
using fallback_rule = adhoc_rule_pattern::fallback_rule;
@@ -567,6 +571,12 @@ namespace build2
return dynamic_cast<const fallback_rule*> (&r.second.get ());
};
+ // Note: we copy the options value to me.new_options after successfully
+ // matching the rule to make sure rule::match() implementations don't rely
+ // on it.
+ //
+ match_extra& me (pme == nullptr ? t[a].match_extra : *pme);
+
if (const target* g = t.group)
{
// If this is a group with dynamic members, then match it with the
@@ -580,6 +590,8 @@ namespace build2
{
const rule_match* r (g->state[a].rule);
assert (r != nullptr); // Shouldn't happen with dyn_members.
+
+ me.new_options = options;
return r;
}
@@ -587,8 +599,8 @@ namespace build2
}
// If this is a member of group-based target, then first try to find a
- // matching ad hoc recipe/rule by matching (to an ad hoc recipe/rule) the
- // group but applying to the member. See adhoc_rule::match() for
+ // matching ad hoc recipe/rule by matching (to an ad hoc recipe/rule)
+ // the group but applying to the member. See adhoc_rule::match() for
// background, including for why const_cast should be safe.
//
// To put it another way, if a group is matched by an ad hoc
@@ -603,10 +615,16 @@ namespace build2
// We cannot init match_extra from the target if it's unlocked so use
// a temporary (it shouldn't be modified if unlocked).
//
- match_extra me (false /* locked */);
- if (const rule_match* r = match_rule (
- a, const_cast<target&> (*g), skip, true /* try_match */, &me))
+ match_extra gme (false /* locked */);
+ if (const rule_match* r = match_rule_impl (a, const_cast<target&> (*g),
+ 0 /* options */,
+ skip,
+ true /* try_match */,
+ &gme))
+ {
+ me.new_options = options;
return r;
+ }
// Fall through to normal match of the member.
}
@@ -620,8 +638,6 @@ namespace build2
if (const scope* rs = bs.root_scope ())
penv = auto_project_env (*rs);
- match_extra& me (pme == nullptr ? t[a].match_extra : *pme);
-
// First check for an ad hoc recipe.
//
// Note that a fallback recipe is preferred over a non-fallback rule.
@@ -629,7 +645,10 @@ namespace build2
if (!t.adhoc_recipes.empty ())
{
if (const rule_match* r = match_adhoc_recipe (a, t, me))
+ {
+ me.new_options = options;
return r;
+ }
}
// If this is an outer operation (Y-for-X), then we look for rules
@@ -744,8 +763,9 @@ namespace build2
}
}
- // Skip non-ad hoc rules if the target is not locked (see
- // above).
+ // Skip non-ad hoc rules if the target is not locked (see above;
+ // note that in this case match_extra is a temporary which we
+ // can reinit).
//
if (!me.locked && !adhoc_rule_match (*r))
continue;
@@ -756,7 +776,7 @@ namespace build2
if (&ru == skip)
continue;
- me.init (oi == 0 /* fallback */);
+ me.reinit (oi == 0 /* fallback */);
{
auto df = make_diag_frame (
[a, &t, &n](const diag_record& dr)
@@ -825,7 +845,10 @@ namespace build2
}
if (!ambig)
+ {
+ me.new_options = options;
return r;
+ }
else
dr << info << "use rule hint to disambiguate this match";
}
@@ -938,10 +961,39 @@ namespace build2
recipe re (ar != nullptr ? f (*ar, a, t, me) : ru.apply (a, t, me));
- me.free ();
+ me.free (); // Note: cur_options are still in use.
return re;
}
+ static void
+ reapply_impl (action a,
+ target& t,
+ const pair<const string, reference_wrapper<const rule>>& m)
+ {
+ const scope& bs (t.base_scope ());
+
+ // Reapply rules in project environment.
+ //
+ auto_project_env penv;
+ if (const scope* rs = bs.root_scope ())
+ penv = auto_project_env (*rs);
+
+ const rule& ru (m.second);
+ match_extra& me (t[a].match_extra);
+
+ auto df = make_diag_frame (
+ [a, &t, &m](const diag_record& dr)
+ {
+ if (verb != 0)
+ dr << info << "while reapplying rule " << m.first << " to "
+ << diag_do (a, t);
+ });
+
+ // Note: for now no adhoc_reapply().
+ //
+ ru.reapply (a, t, me);
+ }
+
// If anything goes wrong, set target state to failed and return false.
//
// Note: must be called while holding target_lock.
@@ -1029,10 +1081,24 @@ namespace build2
// the first half of the result.
//
static pair<bool, target_state>
- match_impl (target_lock& l,
- bool step = false,
- bool try_match = false)
+ match_impl_impl (target_lock& l,
+ uint64_t options,
+ bool step = false,
+ bool try_match = false)
{
+ // With regards to options, the semantics that we need to achieve for each
+ // target::offeset_*:
+ //
+ // tried -- nothing to do (no match)
+ // touched -- set to new_options
+ // matched -- add to new_options
+ // applied -- reapply if any new options
+ // executed -- check and fail if any new options
+ // busy -- postpone until *_complete() call
+ //
+ // Note that if options is 0 (see resolve_{members,group}_impl()), then
+ // all this can be skipped.
+
assert (l.target != nullptr);
action a (l.action);
@@ -1045,10 +1111,6 @@ namespace build2
//
if (t.adhoc_group_member ())
{
- assert (!step);
-
- const target& g (*t.group);
-
// It feels natural to "convert" this call to the one for the group,
// including the try_match part. Semantically, we want to achieve the
// following:
@@ -1056,6 +1118,29 @@ namespace build2
// [try_]match (a, g);
// match_recipe (l, group_recipe);
//
+ // Currently, ad hoc group members cannot have options. An alternative
+ // semantics could be to call the goup's rule to translate member
+ // options to group options and then (re)match the group with that.
+ // The implementation of this semantics could look like this:
+ //
+ // 1. Lock the group.
+ // 2. If not already offset_matched, do one step to get the rule.
+ // 3. Call the rule to translate options.
+ // 4. Continue matching the group passing the translated options.
+ // 5. Keep track of member options in member's cur_options to handle
+ // member rematches (if already offset_{applied,executed}).
+ //
+ // Note: see also similar semantics but for explicit groups in
+ // adhoc-rule-*.cxx.
+
+ assert (!step && options == match_extra::all_options);
+
+ const target& g (*t.group);
+
+ // What should we do with options? After some rumination it fells most
+ // natural to treat options for the group and for its ad hoc member as
+ // the same entity ... or not.
+ //
auto df = make_diag_frame (
[a, &t](const diag_record& dr)
{
@@ -1063,14 +1148,22 @@ namespace build2
dr << info << "while matching group rule to " << diag_do (a, t);
});
- pair<bool, target_state> r (match_impl (a, g, 0, nullptr, try_match));
+ pair<bool, target_state> r (
+ match_impl (a, g, 0 /* options */, 0, nullptr, try_match));
if (r.first)
{
if (r.second != target_state::failed)
{
+ // Note: in particular, passing all_options makes sure we will
+ // never re-lock this member if already applied/executed.
+ //
match_inc_dependents (a, g);
- match_recipe (l, group_recipe);
+ match_recipe (l, group_recipe, match_extra::all_options);
+
+ // Note: no need to call match_posthoc() since an ad hoc member
+ // has no own prerequisites and the group's ones will be matched
+ // by the group.
}
}
else
@@ -1103,7 +1196,8 @@ namespace build2
//
clear_target (a, t);
- const rule_match* r (match_rule (a, t, nullptr, try_match));
+ const rule_match* r (
+ match_rule_impl (a, t, options, nullptr, try_match));
assert (l.offset != target::offset_tried); // Should have failed.
@@ -1125,25 +1219,67 @@ namespace build2
// Fall through.
case target::offset_matched:
{
+ // Add any new options.
+ //
+ s.match_extra.new_options |= options;
+
// Apply.
//
set_recipe (l, apply_impl (a, t, *s.rule));
l.offset = target::offset_applied;
+
+ if (t.has_group_prerequisites ()) // Ok since already matched.
+ {
+ if (!match_posthoc (a, t))
+ s.state = target_state::failed;
+ }
+
+ break;
+ }
+ case target::offset_applied:
+ {
+ // Reapply if any new options.
+ //
+ match_extra& me (s.match_extra);
+ me.new_options = options & ~me.cur_options; // Clear existing.
+ assert (me.new_options != 0); // Otherwise should not have locked.
+
+ // Feels like this can only be a logic bug since to end up with a
+ // subset of options requires a rule (see match_extra for details).
+ //
+ assert (s.rule != nullptr);
+
+ reapply_impl (a, t, *s.rule);
break;
}
+ case target::offset_executed:
+ {
+ // Diagnose new options after execute.
+ //
+ match_extra& me (s.match_extra);
+ assert ((me.cur_options & options) != options); // Otherwise no lock.
+
+ fail << "change of match options after " << diag_do (a, t)
+ << " has been executed" <<
+ info << "executed options 0x" << hex << me.cur_options <<
+ info << "requested options 0x" << hex << options << endf;
+ }
default:
assert (false);
}
}
catch (const failed&)
{
+ s.state = target_state::failed;
+ l.offset = target::offset_applied;
+ }
+
+ if (s.state == target_state::failed)
+ {
// As a sanity measure clear the target data since it can be incomplete
// or invalid (mark()/unmark() should give you some ideas).
//
clear_target (a, t);
-
- s.state = target_state::failed;
- l.offset = target::offset_applied;
}
return make_pair (true, s.state);
@@ -1153,10 +1289,9 @@ namespace build2
// the first half of the result.
//
pair<bool, target_state>
- match_impl (action a,
- const target& ct,
- size_t start_count,
- atomic_count* task_count,
+ match_impl (action a, const target& ct,
+ uint64_t options,
+ size_t start_count, atomic_count* task_count,
bool try_match)
{
// If we are blocking then work our own queue one task at a time. The
@@ -1178,30 +1313,16 @@ namespace build2
ct,
task_count == nullptr
? optional<scheduler::work_queue> (scheduler::work_none)
- : nullopt));
+ : nullopt,
+ options));
if (l.target != nullptr)
{
- assert (l.offset < target::offset_applied); // Shouldn't lock otherwise.
-
if (try_match && l.offset == target::offset_tried)
return make_pair (false, target_state::unknown);
if (task_count == nullptr)
- {
- pair<bool, target_state> r (match_impl (l, false /*step*/, try_match));
-
- if (r.first &&
- r.second != target_state::failed &&
- l.offset == target::offset_applied &&
- ct.has_group_prerequisites ()) // Already matched.
- {
- if (!match_posthoc (a, *l.target))
- r.second = target_state::failed;
- }
-
- return r;
- }
+ return match_impl_impl (l, options, false /* step */, try_match);
// Pass "disassembled" lock since the scheduler queue doesn't support
// task destruction.
@@ -1211,12 +1332,18 @@ namespace build2
// Also pass our diagnostics and lock stacks (this is safe since we
// expect the caller to wait for completion before unwinding its stack).
//
+ // Note: pack captures and arguments a bit to reduce the storage space
+ // requrements.
+ //
+ bool first (ld.first);
+
if (ct.ctx.sched->async (
start_count,
*task_count,
- [a, try_match] (const diag_frame* ds,
- const target_lock* ls,
- target& t, size_t offset, bool first)
+ [a, try_match, first] (const diag_frame* ds,
+ const target_lock* ls,
+ target& t, size_t offset,
+ uint64_t options)
{
// Switch to caller's diag and lock stacks.
//
@@ -1230,24 +1357,15 @@ namespace build2
// Note: target_lock must be unlocked within the match phase.
//
target_lock l {a, &t, offset, first}; // Reassemble.
-
- pair<bool, target_state> r (
- match_impl (l, false /* step */, try_match));
-
- if (r.first &&
- r.second != target_state::failed &&
- l.offset == target::offset_applied &&
- t.has_group_prerequisites ()) // Already matched.
- match_posthoc (a, t);
+ match_impl_impl (l, options, false /* step */, try_match);
}
}
catch (const failed&) {} // Phase lock failure.
},
diag_frame::stack (),
target_lock::stack (),
- ref (*ld.target),
- ld.offset,
- ld.first))
+ ref (*ld.target), ld.offset,
+ options))
return make_pair (true, target_state::postponed); // Queued.
// Matched synchronously, fall through.
@@ -1266,16 +1384,28 @@ namespace build2
}
void
- match_only_sync (action a, const target& t)
+ match_only_sync (action a, const target& t, uint64_t options)
{
assert (t.ctx.phase == run_phase::match);
- target_lock l (lock_impl (a, t, scheduler::work_none));
+ target_lock l (lock_impl (a, t, scheduler::work_none, options));
- if (l.target != nullptr && l.offset < target::offset_matched)
+ if (l.target != nullptr)
{
- if (match_impl (l, true /* step */).second == target_state::failed)
- throw failed ();
+ if (l.offset != target::offset_matched)
+ {
+ if (match_impl_impl (l,
+ options,
+ true /* step */).second == target_state::failed)
+ throw failed ();
+ }
+ else
+ {
+ // If the target is already matched, then we need to add any new
+ // options but not call apply() (thus cannot use match_impl_impl()).
+ //
+ (*l.target)[a].match_extra.new_options |= options;
+ }
}
}
@@ -1299,11 +1429,11 @@ namespace build2
{
// Match (locked).
//
- if (match_impl (l, true /* step */).second == target_state::failed)
+ if (match_impl_impl (l,
+ 0 /* options */,
+ true /* step */).second == target_state::failed)
throw failed ();
- // Note: only matched so no call to match_posthoc().
-
if ((r = g.group_members (a)).members != nullptr)
break;
@@ -1314,14 +1444,8 @@ namespace build2
{
// Apply (locked).
//
- pair<bool, target_state> s (match_impl (l, true /* step */));
-
- if (s.second != target_state::failed &&
- g.has_group_prerequisites ()) // Already matched.
- {
- if (!match_posthoc (a, *l.target))
- s.second = target_state::failed;
- }
+ pair<bool, target_state> s (
+ match_impl_impl (l, 0 /* options */, true /* step */));
if (s.second == target_state::failed)
throw failed ();
@@ -1435,21 +1559,15 @@ namespace build2
// Note: lock is a reference to avoid the stacking overhead.
//
void
- resolve_group_impl (action a, const target& t, target_lock&& l)
+ resolve_group_impl (target_lock&& l)
{
- assert (a.inner ());
+ assert (l.action.inner ());
pair<bool, target_state> r (
- match_impl (l, true /* step */, true /* try_match */));
-
- if (r.first &&
- r.second != target_state::failed &&
- l.offset == target::offset_applied &&
- t.has_group_prerequisites ()) // Already matched.
- {
- if (!match_posthoc (a, *l.target))
- r.second = target_state::failed;
- }
+ match_impl_impl (l,
+ 0 /* options */,
+ true /* step */,
+ true /* try_match */));
l.unlock ();