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|
// file : libbuild2/operation.cxx -*- C++ -*-
// license : MIT; see accompanying LICENSE file
#include <libbuild2/operation.hxx>
#include <iostream> // cout
#include <unordered_map>
#ifndef BUILD2_BOOTSTRAP
# include <libbutl/json/serializer.hxx>
#endif
#include <libbuild2/file.hxx>
#include <libbuild2/scope.hxx>
#include <libbuild2/target.hxx>
#include <libbuild2/context.hxx>
#include <libbuild2/variable.hxx>
#include <libbuild2/algorithm.hxx>
#include <libbuild2/diagnostics.hxx>
using namespace std;
using namespace butl;
namespace build2
{
// action
//
ostream&
operator<< (ostream& os, action a)
{
uint16_t
m (a.meta_operation ()),
i (a.operation ()),
o (a.outer_operation ());
os << '(' << m << ',';
if (o != 0)
os << o << '(';
os << i;
if (o != 0)
os << ')';
os << ')';
return os;
}
// noop
//
const meta_operation_info mo_noop {
noop_id,
"noop",
"", // Presumably we will never need these since we are not going
"", // to do anything.
"",
"",
true, // bootstrap_outer
nullptr, // meta-operation pre
nullptr, // operation pre
&perform_load,
nullptr, // search
nullptr, // match
nullptr, // execute
nullptr, // operation post
nullptr, // meta-operation post
nullptr // include
};
// perform
//
void
perform_load (const values&,
scope& root,
const path& bf,
const dir_path& out_base,
const dir_path& src_base,
const location&)
{
// Load project's root.build.
//
load_root (root);
// Create the base scope. Note that its existence doesn't mean it was
// already setup as a base scope; it can be the same as root.
//
auto i (root.ctx.scopes.rw (root).insert_out (out_base));
scope& base (setup_base (i, out_base, src_base));
// Load the buildfile unless it is implied.
//
if (!bf.empty ())
source_once (root, base, bf);
}
void
perform_search (const values&,
const scope&,
const scope& bs,
const path& bf,
const target_key& tk,
const location& l,
action_targets& ts)
{
tracer trace ("perform_search");
context& ctx (bs.ctx);
phase_lock pl (ctx, run_phase::match);
const target* t (ctx.targets.find (tk, trace));
// Only do the implied buildfile if we haven't loaded one. Failed that we
// may try go this route even though we've concluded the implied buildfile
// is implausible and have loaded an outer buildfile (see main() for
// details).
//
if (t == nullptr && tk.is_a<dir> () && bf.empty ())
t = dir::search_implied (bs, tk, trace);
if (t == nullptr)
{
diag_record dr (fail (l));
dr << "unknown target " << tk;
if (!bf.empty ())
dr << " in " << bf;
}
ts.push_back (t);
}
// Verify that no two targets share a path unless they both are "read-only"
// (have noop recipes).
//
// Note: somewhat similar logic in dyndep::verify_existing_file().
//
static void
verify_targets (context& ctx, action a)
{
// On the first pass we collect all the targets that have non-noop
// recipes. On the second pass we check if there are any other targets
// that have the same path. Note that we must also deal with two non-noop
// targets that have the same path.
//
// Strictly speaking we may need to produce some sort of progress if this
// takes long. However, currently we are looking at verification speed of
// ~1ms per 2K targets, which means it will only becomes noticeable with
// over 1M targets.
//
unordered_map<reference_wrapper<const path>,
const target*,
hash<path>,
equal_to<path>> map;
// Half of the total appears to be a reasonable heuristics.
//
map.reserve (ctx.targets.size () / 2);
bool e (false);
for (size_t pass (1); pass != 3; ++pass)
{
for (const auto& pt: ctx.targets)
{
// We are only interested in path-based targets.
//
const path_target* t (pt->is_a<path_target> ());
if (t == nullptr)
continue;
// We are only interested in the matched targets.
//
const target::opstate& s (t->state[a]);
if (s.task_count.load (memory_order_relaxed) - ctx.count_base () <
target::offset_matched)
continue;
// Skip if for some reason the path is not assigned.
//
const path& p (t->path (memory_order_relaxed));
if (p.empty ())
continue;
recipe_function* const* rf (s.recipe.target<recipe_function*> ());
bool noop (rf != nullptr && *rf == &noop_action);
if ((noop ? 2 : 1) != pass)
continue;
const target* t1;
if (pass == 1)
{
auto r (map.emplace (p, t));
if (r.second)
continue;
t1 = r.first->second;
}
else
{
auto i (map.find (p));
if (i == map.end ())
continue;
t1 = i->second;
}
e = true;
diag_record dr (error);
dr << "multiple targets share path " << p <<
info << "first target: " << *t1 <<
info << "second target: " << *t <<
info << "target " << *t1 << " has non-noop recipe";
if (pass == 1)
{
dr << info << "target " << *t << " has non-noop recipe";
}
else if (t->decl != target_decl::real)
{
if (t->decl == target_decl::implied)
{
dr << info << "target " << *t << " is implied by a buildfile";
}
else
{
dr << info << "target " << *t << " is not declared in a buildfile";
if (t->decl == target_decl::prereq_file)
dr << " but has corresponding existing file";
dr << info << "perhaps it is a dynamic dependency?";
}
}
}
}
if (e)
throw failed ();
}
void
perform_match (const values&, action a, action_targets& ts,
uint16_t diag, bool prog)
{
tracer trace ("perform_match");
if (ts.empty ())
return;
context& ctx (ts[0].as<target> ().ctx);
{
phase_lock l (ctx, run_phase::match);
// Setup progress reporting if requested.
//
struct monitor_data
{
size_t incr;
string what;
atomic<timestamp::rep> time {timestamp_nonexistent_rep};
} md; // Note: must outlive monitor_guard.
scheduler::monitor_guard mg;
if (prog && show_progress (2 /* max_verb */))
{
// Note that showing progress is not free and it can take up to 10% of
// the up-to-date check on some projects (e.g., Boost). So we jump
// through a few hoops to make sure we don't overindulge.
//
md.incr = stderr_term ? 5 : 100; // Scale depending on output type.
md.what = " targets to " + diag_do (ctx, a);
mg = ctx.sched.monitor (
ctx.target_count,
md.incr,
[&md] (size_t c) -> size_t
{
size_t r (c + md.incr);
if (stderr_term)
{
timestamp o (duration (md.time.load (memory_order_consume)));
timestamp n (system_clock::now ());
if (n - o < chrono::milliseconds (80))
return r;
md.time.store (n.time_since_epoch ().count (),
memory_order_release);
}
diag_progress_lock pl;
diag_progress = ' ';
diag_progress += to_string (c);
diag_progress += md.what;
return r;
});
}
// Start asynchronous matching of prerequisites keeping track of how
// many we have started. Wait with unlocked phase to allow phase
// switching.
//
bool fail (false);
size_t i (0), n (ts.size ());
{
atomic_count task_count (0);
wait_guard wg (ctx, task_count, true);
for (; i != n; ++i)
{
const target& t (ts[i].as<target> ());
l5 ([&]{trace << diag_doing (a, t);});
target_state s (match_async (a, t, 0, task_count, false));
// Bail out if the target has failed and we weren't instructed to
// keep going.
//
if (s == target_state::failed)
{
fail = true;
if (!ctx.keep_going)
{
++i;
break;
}
}
}
wg.wait ();
}
// If we have any targets with post hoc prerequisites, match those.
//
// See match_posthoc() for the overall approach description.
//
bool posthoc_fail (false);
if (!ctx.current_posthoc_targets.empty () && (!fail || ctx.keep_going))
{
// Note that on each iteration we may end up with new entries at the
// back. Since we start and end each iteration in serial execution, we
// don't need to mess with the mutex.
//
for (const context::posthoc_target& p: ctx.current_posthoc_targets)
{
action a (p.action); // May not be the same as argument action.
const target& t (p.target);
auto df = make_diag_frame (
[a, &t](const diag_record& dr)
{
if (verb != 0)
dr << info << "while matching to " << diag_do (t.ctx, a)
<< " post hoc prerequisites of " << t;
});
// Cannot use normal match because incrementing dependency counts in
// the face of cycles does not work well (we will deadlock for the
// reverse execution mode).
//
// @@ TODO: match in parallel.
//
for (const target* pt: p.prerequisite_targets)
{
target_state s (match_direct_sync (a, *pt, false /* fail */));
if (s == target_state::failed)
{
posthoc_fail = true;
if (!ctx.keep_going)
break;
}
}
if (posthoc_fail && !ctx.keep_going)
break;
}
}
// Clear the progress if present.
//
if (mg)
{
diag_progress_lock pl;
diag_progress.clear ();
}
// We are now running serially. Re-examine targets that we have matched.
//
for (size_t j (0); j != n; ++j)
{
action_target& at (ts[j]);
const target& t (at.as<target> ());
// We cannot attribute post hoc failures to specific targets so it
// seems the best we can do is just fail them all.
//
target_state s;
if (j < i)
{
s = match_complete (a, t, false);
if (posthoc_fail)
s = /*t.state[a].state =*/ target_state::failed;
}
else
s = target_state::postponed;
switch (s)
{
case target_state::postponed:
{
// We bailed before matching it (leave state in action_target as
// unknown).
//
if (verb != 0 && diag >= 1)
info << "not " << diag_did (a, t);
break;
}
case target_state::unknown:
case target_state::unchanged:
case target_state::changed: // Can happend for ad hoc group member.
{
break; // Matched successfully.
}
case target_state::failed:
{
// Things didn't go well for this target.
//
if (verb != 0 && diag >= 1)
info << "failed to " << diag_do (a, t);
at.state = s;
fail = true;
break;
}
default:
assert (false);
}
}
if (fail)
throw failed ();
// @@ This feels a bit ad hoc. Maybe we should invent operation hooks
// for this (e.g., post-search, post-match, post-execute)?
//
if (a == perform_update_id)
verify_targets (ctx, a);
}
// Phase restored to load.
//
assert (ctx.phase == run_phase::load);
}
void
perform_execute (const values&, action a, action_targets& ts,
uint16_t diag, bool prog)
{
tracer trace ("perform_execute");
if (ts.empty ())
return;
context& ctx (ts[0].as<target> ().ctx);
bool posthoc_fail (false);
auto execute_posthoc = [&ctx, &posthoc_fail] ()
{
for (const context::posthoc_target& p: ctx.current_posthoc_targets)
{
action a (p.action); // May not be the same as argument action.
const target& t (p.target);
auto df = make_diag_frame (
[a, &t](const diag_record& dr)
{
if (verb != 0)
dr << info << "while " << diag_doing (t.ctx, a)
<< " post hoc prerequisites of " << t;
});
// @@ TODO: execute in parallel.
//
for (const target* pt: p.prerequisite_targets)
{
target_state s (execute_direct_sync (a, *pt, false /* fail */));
if (s == target_state::failed)
{
posthoc_fail = true;
if (!ctx.keep_going)
break;
}
}
if (posthoc_fail && !ctx.keep_going)
break;
}
};
// Reverse the order of targets if the execution mode is 'last'.
//
if (ctx.current_mode == execution_mode::last)
reverse (ts.begin (), ts.end ());
phase_lock pl (ctx, run_phase::execute); // Never switched.
bool fail (false);
{
// Tune the scheduler.
//
using tune_guard = scheduler::tune_guard;
tune_guard sched_tune;
switch (ctx.current_inner_oif->concurrency)
{
case 0: sched_tune = tune_guard (ctx.sched, 1); break; // Run serially.
case 1: break; // Run as is.
default: assert (false); // Not supported.
}
// Set the dry-run flag.
//
ctx.dry_run = ctx.dry_run_option;
// Setup progress reporting if requested.
//
string what; // Note: must outlive monitor_guard.
scheduler::monitor_guard mg;
if (prog && show_progress (1 /* max_verb */))
{
size_t init (ctx.target_count.load (memory_order_relaxed));
size_t incr (init > 100 ? init / 100 : 1); // 1%.
if (init != incr)
{
what = "% of targets " + diag_did (ctx, a);
mg = ctx.sched.monitor (
ctx.target_count,
init - incr,
[init, incr, &what, &ctx] (size_t c) -> size_t
{
size_t p ((init - c) * 100 / init);
size_t s (ctx.skip_count.load (memory_order_relaxed));
diag_progress_lock pl;
diag_progress = ' ';
diag_progress += to_string (p);
diag_progress += what;
if (s != 0)
{
diag_progress += " (";
diag_progress += to_string (s);
diag_progress += " skipped)";
}
return c - incr;
});
}
}
// In the 'last' execution mode run post hoc first.
//
if (ctx.current_mode == execution_mode::last)
{
if (!ctx.current_posthoc_targets.empty ())
execute_posthoc ();
}
// Similar logic to execute_members(): first start asynchronous
// execution of all the top-level targets.
//
if (!posthoc_fail || ctx.keep_going)
{
atomic_count task_count (0);
wait_guard wg (ctx, task_count);
for (const action_target& at: ts)
{
const target& t (at.as<target> ());
l5 ([&]{trace << diag_doing (a, t);});
target_state s (execute_async (a, t, 0, task_count, false));
// Bail out if the target has failed and we weren't instructed to
// keep going.
//
if (s == target_state::failed)
{
fail = true;
if (!ctx.keep_going)
break;
}
}
wg.wait ();
}
if (ctx.current_mode == execution_mode::first)
{
if (!ctx.current_posthoc_targets.empty () && (!fail || ctx.keep_going))
execute_posthoc ();
}
// We are now running serially.
//
// Clear the dry-run flag.
//
ctx.dry_run = false;
// Clear the progress if present.
//
if (mg)
{
diag_progress_lock pl;
diag_progress.clear ();
}
// Restore original scheduler settings.
}
// Print skip count if not zero. Note that we print it regardless of the
// diag level since this is essentially a "summary" of all the commands
// that we did not (and, in fact, used to originally) print. However, we
// do suppress it if no progress was requested: conceptually, it feels
// like part of the progress report and real usage suggests this as well
// (e.g., when building modules/recipes in a nested context).
//
if (prog && verb != 0)
{
if (size_t s = ctx.skip_count.load (memory_order_relaxed))
{
text << "skipped " << diag_doing (ctx, a) << ' ' << s << " targets";
}
}
// Re-examine all the targets and print diagnostics.
//
for (action_target& at: ts)
{
const target& t (at.as<target> ());
// Similar to match we cannot attribute post hoc failures to specific
// targets so it seems the best we can do is just fail them all.
//
if (!posthoc_fail)
at.state = t.executed_state (a, false);
else
at.state = /*t.state[a].state =*/ target_state::failed;
// Note that here we call executed_state() directly instead of
// execute_complete() since we know there is no need to wait.
//
switch (at.state)
{
case target_state::unknown:
{
// We bailed before executing it (leave state in action_target as
// unknown).
//
if (verb != 0 && diag >= 1)
info << "not " << diag_did (a, t);
break;
}
case target_state::unchanged:
{
// Nothing had to be done.
//
if (verb != 0 && diag >= 2)
info << diag_done (a, t);
break;
}
case target_state::changed:
{
// Something has been done.
//
break;
}
case target_state::failed:
{
// Things didn't go well for this target.
//
if (verb != 0 && diag >= 1)
info << "failed to " << diag_do (a, t);
fail = true;
break;
}
default:
assert (false);
}
}
if (fail)
throw failed ();
// We should have executed every target that we matched, provided we
// haven't failed (in which case we could have bailed out early).
//
assert (ctx.target_count.load (memory_order_relaxed) == 0);
#ifndef NDEBUG
if (ctx.dependency_count.load (memory_order_relaxed) != 0)
{
diag_record dr;
dr << info << "detected unexecuted matched targets:";
for (const auto& pt: ctx.targets)
{
const target& t (*pt);
if (size_t n = t[a].dependents.load (memory_order_relaxed))
dr << text << t << ' ' << n;
}
}
#endif
assert (ctx.dependency_count.load (memory_order_relaxed) == 0);
}
const meta_operation_info mo_perform {
perform_id,
"perform",
"",
"",
"",
"",
true, // bootstrap_outer
nullptr, // meta-operation pre
nullptr, // operation pre
&perform_load,
&perform_search,
&perform_match,
&perform_execute,
nullptr, // operation post
nullptr, // meta-operation post
nullptr // include
};
// info
//
// Note: similar approach to forward() in configure.
//
static bool
info_json (const values& params,
const char* mo = nullptr,
const location& l = location ())
{
if (params.size () == 1)
{
const names& ns (cast<names> (params[0]));
if (ns.size () == 1 && ns[0].simple () && ns[0].value == "json")
return true;
else if (!ns.empty ())
fail (l) << "unexpected parameter '" << ns << "' for "
<< "meta-operation " << mo;
}
else if (!params.empty ())
fail (l) << "unexpected parameters for meta-operation " << mo;
return false;
}
static void
info_pre (context&, const values& params, const location& l)
{
info_json (params, "info", l); // Validate.
}
static operation_id
info_operation_pre (context&, const values&, operation_id o)
{
if (o != default_id)
fail << "explicit operation specified for meta-operation info";
return o;
}
void
info_load (const values&,
scope& rs,
const path&,
const dir_path& out_base,
const dir_path& src_base,
const location& l)
{
// For info we don't want to go any further than bootstrap so that it can
// be used in pretty much any situation (unresolved imports, etc). We do
// need to setup root as base though.
if (rs.out_path () != out_base || rs.src_path () != src_base)
fail (l) << "meta-operation info target must be project root directory";
setup_base (rs.ctx.scopes.rw (rs).insert_out (out_base),
out_base,
src_base);
}
void
info_search (const values&,
const scope& rs,
const scope&,
const path&,
const target_key& tk,
const location& l,
action_targets& ts)
{
// Collect all the projects we need to print information about.
// We've already verified the target is in the project root. Now verify
// it is dir{}.
//
if (!tk.type->is_a<dir> ())
fail (l) << "meta-operation info target must be project root directory";
ts.push_back (&rs);
}
static void
info_execute_lines (action_targets& ts)
{
for (size_t i (0); i != ts.size (); ++i)
{
// Separate projects with blank lines.
//
if (i != 0)
cout << endl;
const scope& rs (ts[i].as<scope> ());
context& ctx (rs.ctx);
// Print [meta_]operation names. Due to the way our aliasing works, we
// have to go through the [meta_]operation_table.
//
auto print_ops = [] (const auto& ov, const auto& ot)
{
// This is a sparse vector with NULL holes. id 0 is invalid while 1 is
// the noop meta-operation and the default operation; we omit printing
// both.
//
for (uint8_t id (2); id < ov.size (); ++id)
{
if (ov[id] != nullptr)
cout << ' ' << ot[id];
}
};
// Print bootstrapped modules.
//
auto print_mods = [&rs] ()
{
for (const module_state& ms: rs.root_extra->modules)
cout << ' ' << ms.name;
};
// Print a potentially empty/null instance.
//
auto print_empty = [] (const auto& x)
{
if (!x.empty ())
cout << ' ' << x;
};
auto print_null = [] (const auto* p)
{
if (p != nullptr && !p->empty ())
cout << ' ' << *p;
};
// Print a potentially null/empty directory path without trailing slash.
//
auto print_dir = [] (const dir_path& d)
{
if (!d.empty ())
cout << ' ' << d.string ();
};
auto print_pdir = [&print_dir] (const dir_path* d)
{
if (d != nullptr)
print_dir (*d);
};
// This could be a simple project that doesn't set project name.
//
cout
<< "project:" ; print_empty (project (rs)); cout << endl
<< "version:" ; print_empty (cast_empty<string> (rs[ctx.var_version])); cout << endl
<< "summary:" ; print_empty (cast_empty<string> (rs[ctx.var_project_summary])); cout << endl
<< "url:" ; print_empty (cast_empty<string> (rs[ctx.var_project_url])); cout << endl
<< "src_root:" ; print_dir (cast<dir_path> (rs[ctx.var_src_root])); cout << endl
<< "out_root:" ; print_dir (cast<dir_path> (rs[ctx.var_out_root])); cout << endl
<< "amalgamation:" ; print_pdir (*rs.root_extra->amalgamation); cout << endl
<< "subprojects:" ; print_null (*rs.root_extra->subprojects); cout << endl
<< "operations:" ; print_ops (rs.root_extra->operations, ctx.operation_table); cout << endl
<< "meta-operations:"; print_ops (rs.root_extra->meta_operations, ctx.meta_operation_table); cout << endl
<< "modules:" ; print_mods (); cout << endl;
}
}
#ifndef BUILD2_BOOTSTRAP
static void
info_execute_json (action_targets& ts)
{
json::stream_serializer s (cout);
s.begin_array ();
for (size_t i (0); i != ts.size (); ++i)
{
const scope& rs (ts[i].as<scope> ());
context& ctx (rs.ctx);
s.begin_object ();
// Print a potentially empty string.
//
auto print_string = [&s] (const char* n,
const string& v,
bool check = false)
{
if (!v.empty ())
s.member (n, v, check);
};
// Print a potentially null/empty directory path without trailing slash.
//
auto print_dir = [&s] (const char* n, const dir_path& v)
{
if (!v.empty ())
s.member (n, v.string ());
};
auto print_pdir = [&print_dir] (const char* n, const dir_path* v)
{
if (v != nullptr)
print_dir (n, *v);
};
// Print [meta_]operation names (see info_lines() for details).
//
auto print_ops = [&s] (const char* name,
const auto& ov,
const auto& ot,
const auto& printer)
{
s.member_name (name, false /* check */);
s.begin_array ();
for (uint8_t id (2); id < ov.size (); ++id)
{
if (ov[id] != nullptr)
printer (ot[id]);
}
s.end_array ();
};
// Note that we won't check some values for being valid UTF-8, since
// their characters belong to even stricter character sets and/or are
// read from buildfile which is already verified to be valid UTF-8.
//
print_string ("project", project (rs).string ());
print_string ("version", cast_empty<string> (rs[ctx.var_version]));
print_string ("summary", cast_empty<string> (rs[ctx.var_project_summary]));
print_string ("url", cast_empty<string> (rs[ctx.var_project_url]));
print_dir ("src_root", cast<dir_path> (rs[ctx.var_src_root]));
print_dir ("out_root", cast<dir_path> (rs[ctx.var_out_root]));
print_pdir ("amalgamation", *rs.root_extra->amalgamation);
// Print subprojects.
//
{
const subprojects* sps (*rs.root_extra->subprojects);
if (sps != nullptr && !sps->empty ())
{
s.member_name ("subprojects", false /* check */);
s.begin_array ();
for (const auto& sp: *sps)
{
s.begin_object ();
print_dir ("path", sp.second);
// See find_subprojects() for details.
//
const string& n (sp.first.string ());
if (!path::traits_type::is_separator (n.back ()))
print_string ("name", n);
s.end_object ();
}
s.end_array ();
}
}
print_ops ("operations",
rs.root_extra->operations,
ctx.operation_table,
[&s] (const string& v) {s.value (v, false /* check */);});
print_ops ("meta-operations",
rs.root_extra->meta_operations,
ctx.meta_operation_table,
[&s] (const meta_operation_data& v)
{
s.value (v.name, false /* check */);
});
// Print modules.
//
if (!rs.root_extra->modules.empty ())
{
s.member_name ("modules", false /* check */);
s.begin_array ();
for (const module_state& ms: rs.root_extra->modules)
s.value (ms.name, false /* check */);
s.end_array ();
}
s.end_object ();
}
s.end_array ();
cout << endl;
}
#else
static void
info_execute_json (action_targets&)
{
}
#endif //BUILD2_BOOTSTRAP
static void
info_execute (const values& params,
action,
action_targets& ts,
uint16_t,
bool)
{
// Note that both outputs will not be "ideal" if the user does something
// like `b info(foo/) info(bar/)` instead of `b info(foo/ bar/)`. Oh,
// well.
//
if (info_json (params))
info_execute_json (ts);
else
info_execute_lines (ts);
}
const meta_operation_info mo_info {
info_id,
"info",
"",
"",
"",
"",
false, // bootstrap_outer
&info_pre, // meta-operation pre
&info_operation_pre,
&info_load,
&info_search,
nullptr, // match
&info_execute,
nullptr, // operation post
nullptr, // meta-operation post
nullptr // include
};
// operations
//
const operation_info op_default {
default_id,
0,
"<default>",
"",
"",
"",
"",
execution_mode::first,
1 /* concurrency */,
nullptr,
nullptr,
nullptr,
nullptr
};
#ifndef _MSC_VER
constexpr
#else
// VC doesn't "see" this can be const-initialized so we have to hack around
// to ensure correct initialization order.
//
#pragma warning(disable: 4073)
#pragma init_seg(lib)
const
#endif
operation_info op_update {
update_id,
0,
"update",
"update",
"updating",
"updated",
"is up to date",
execution_mode::first,
1 /* concurrency */,
nullptr,
nullptr,
nullptr,
nullptr
};
const operation_info op_clean {
clean_id,
0,
"clean",
"clean",
"cleaning",
"cleaned",
"is clean",
execution_mode::last,
1 /* concurrency */,
nullptr,
nullptr,
nullptr,
nullptr
};
}
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