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+// file : libbuild2/context.cxx -*- C++ -*-
+// copyright : Copyright (c) 2014-2019 Code Synthesis Ltd
+// license : MIT; see accompanying LICENSE file
+
+#include <libbuild2/context.hxx>
+
+#include <sstream>
+#include <exception> // uncaught_exception[s]()
+
+#include <libbuild2/rule.hxx>
+#include <libbuild2/scope.hxx>
+#include <libbuild2/target.hxx>
+#include <libbuild2/diagnostics.hxx>
+
+#include <libbutl/ft/exception.hxx> // uncaught_exceptions
+
+// For command line variable parsing.
+//
+#include <libbuild2/token.hxx>
+#include <libbuild2/lexer.hxx>
+#include <libbuild2/parser.hxx>
+
+using namespace std;
+using namespace butl;
+
+namespace build2
+{
+ scheduler sched;
+
+ run_phase phase;
+ phase_mutex phase_mutex::instance;
+
+ size_t load_generation;
+
+ bool phase_mutex::
+ lock (run_phase p)
+ {
+ bool r;
+
+ {
+ mlock l (m_);
+ bool u (lc_ == 0 && mc_ == 0 && ec_ == 0); // Unlocked.
+
+ // Increment the counter.
+ //
+ condition_variable* v (nullptr);
+ switch (p)
+ {
+ case run_phase::load: lc_++; v = &lv_; break;
+ case run_phase::match: mc_++; v = &mv_; break;
+ case run_phase::execute: ec_++; v = &ev_; break;
+ }
+
+ // If unlocked, switch directly to the new phase. Otherwise wait for the
+ // phase switch. Note that in the unlocked case we don't need to notify
+ // since there is nobody waiting (all counters are zero).
+ //
+ if (u)
+ {
+ phase = p;
+ r = !fail_;
+ }
+ else if (phase != p)
+ {
+ sched.deactivate ();
+ for (; phase != p; v->wait (l)) ;
+ r = !fail_;
+ l.unlock (); // Important: activate() can block.
+ sched.activate ();
+ }
+ else
+ r = !fail_;
+ }
+
+ // In case of load, acquire the exclusive access mutex.
+ //
+ if (p == run_phase::load)
+ {
+ lm_.lock ();
+ r = !fail_; // Re-query.
+ }
+
+ return r;
+ }
+
+ void phase_mutex::
+ unlock (run_phase p)
+ {
+ // In case of load, release the exclusive access mutex.
+ //
+ if (p == run_phase::load)
+ lm_.unlock ();
+
+ {
+ mlock l (m_);
+
+ // Decrement the counter and see if this phase has become unlocked.
+ //
+ bool u (false);
+ switch (p)
+ {
+ case run_phase::load: u = (--lc_ == 0); break;
+ case run_phase::match: u = (--mc_ == 0); break;
+ case run_phase::execute: u = (--ec_ == 0); break;
+ }
+
+ // If the phase is unlocked, pick a new phase and notify the waiters.
+ // Note that we notify all load waiters so that they can all serialize
+ // behind the second-level mutex.
+ //
+ if (u)
+ {
+ condition_variable* v;
+
+ if (lc_ != 0) {phase = run_phase::load; v = &lv_;}
+ else if (mc_ != 0) {phase = run_phase::match; v = &mv_;}
+ else if (ec_ != 0) {phase = run_phase::execute; v = &ev_;}
+ else {phase = run_phase::load; v = nullptr;}
+
+ if (v != nullptr)
+ {
+ l.unlock ();
+ v->notify_all ();
+ }
+ }
+ }
+ }
+
+ bool phase_mutex::
+ relock (run_phase o, run_phase n)
+ {
+ // Pretty much a fused unlock/lock implementation except that we always
+ // switch into the new phase.
+ //
+ assert (o != n);
+
+ bool r;
+
+ if (o == run_phase::load)
+ lm_.unlock ();
+
+ {
+ mlock l (m_);
+ bool u (false);
+
+ switch (o)
+ {
+ case run_phase::load: u = (--lc_ == 0); break;
+ case run_phase::match: u = (--mc_ == 0); break;
+ case run_phase::execute: u = (--ec_ == 0); break;
+ }
+
+ // Set if will be waiting or notifying others.
+ //
+ condition_variable* v (nullptr);
+ switch (n)
+ {
+ case run_phase::load: v = lc_++ != 0 || !u ? &lv_ : nullptr; break;
+ case run_phase::match: v = mc_++ != 0 || !u ? &mv_ : nullptr; break;
+ case run_phase::execute: v = ec_++ != 0 || !u ? &ev_ : nullptr; break;
+ }
+
+ if (u)
+ {
+ phase = n;
+ r = !fail_;
+
+ // Notify others that could be waiting for this phase.
+ //
+ if (v != nullptr)
+ {
+ l.unlock ();
+ v->notify_all ();
+ }
+ }
+ else // phase != n
+ {
+ sched.deactivate ();
+ for (; phase != n; v->wait (l)) ;
+ r = !fail_;
+ l.unlock (); // Important: activate() can block.
+ sched.activate ();
+ }
+ }
+
+ if (n == run_phase::load)
+ {
+ lm_.lock ();
+ r = !fail_; // Re-query.
+ }
+
+ return r;
+ }
+
+ // C++17 deprecated uncaught_exception() so use uncaught_exceptions() if
+ // available.
+ //
+ static inline bool
+ uncaught_exception ()
+ {
+#ifdef __cpp_lib_uncaught_exceptions
+ return std::uncaught_exceptions () != 0;
+#else
+ return std::uncaught_exception ();
+#endif
+ }
+
+ // phase_lock
+ //
+ static
+#ifdef __cpp_thread_local
+ thread_local
+#else
+ __thread
+#endif
+ phase_lock* phase_lock_instance;
+
+ phase_lock::
+ phase_lock (run_phase p)
+ : p (p)
+ {
+ if (phase_lock* l = phase_lock_instance)
+ assert (l->p == p);
+ else
+ {
+ if (!phase_mutex::instance.lock (p))
+ {
+ phase_mutex::instance.unlock (p);
+ throw failed ();
+ }
+
+ phase_lock_instance = this;
+
+ //text << this_thread::get_id () << " phase acquire " << p;
+ }
+ }
+
+ phase_lock::
+ ~phase_lock ()
+ {
+ if (phase_lock_instance == this)
+ {
+ phase_lock_instance = nullptr;
+ phase_mutex::instance.unlock (p);
+
+ //text << this_thread::get_id () << " phase release " << p;
+ }
+ }
+
+ // phase_unlock
+ //
+ phase_unlock::
+ phase_unlock (bool u)
+ : l (u ? phase_lock_instance : nullptr)
+ {
+ if (u)
+ {
+ phase_lock_instance = nullptr;
+ phase_mutex::instance.unlock (l->p);
+
+ //text << this_thread::get_id () << " phase unlock " << l->p;
+ }
+ }
+
+ phase_unlock::
+ ~phase_unlock () noexcept (false)
+ {
+ if (l != nullptr)
+ {
+ bool r (phase_mutex::instance.lock (l->p));
+ phase_lock_instance = l;
+
+ // Fail unless we are already failing. Note that we keep the phase
+ // locked since there will be phase_lock down the stack to unlock it.
+ //
+ if (!r && !uncaught_exception ())
+ throw failed ();
+
+ //text << this_thread::get_id () << " phase lock " << l->p;
+ }
+ }
+
+ // phase_switch
+ //
+ phase_switch::
+ phase_switch (run_phase n)
+ : o (phase), n (n)
+ {
+ if (!phase_mutex::instance.relock (o, n))
+ {
+ phase_mutex::instance.relock (n, o);
+ throw failed ();
+ }
+
+ phase_lock_instance->p = n;
+
+ if (n == run_phase::load) // Note: load lock is exclusive.
+ load_generation++;
+
+ //text << this_thread::get_id () << " phase switch " << o << " " << n;
+ }
+
+ phase_switch::
+ ~phase_switch () noexcept (false)
+ {
+ // If we are coming off a failed load phase, mark the phase_mutex as
+ // failed to terminate all other threads since the build state may no
+ // longer be valid.
+ //
+ if (n == run_phase::load && uncaught_exception ())
+ {
+ mlock l (phase_mutex::instance.m_);
+ phase_mutex::instance.fail_ = true;
+ }
+
+ bool r (phase_mutex::instance.relock (n, o));
+ phase_lock_instance->p = o;
+
+ // Similar logic to ~phase_unlock().
+ //
+ if (!r && !uncaught_exception ())
+ throw failed ();
+
+ //text << this_thread::get_id () << " phase restore " << n << " " << o;
+ }
+
+ const variable* var_src_root;
+ const variable* var_out_root;
+ const variable* var_src_base;
+ const variable* var_out_base;
+ const variable* var_forwarded;
+
+ const variable* var_project;
+ const variable* var_amalgamation;
+ const variable* var_subprojects;
+ const variable* var_version;
+
+ const variable* var_project_url;
+ const variable* var_project_summary;
+
+ const variable* var_import_target;
+
+ const variable* var_clean;
+ const variable* var_backlink;
+ const variable* var_include;
+
+ const char var_extension[10] = "extension";
+
+ const variable* var_build_meta_operation;
+
+ string current_mname;
+ string current_oname;
+
+ const meta_operation_info* current_mif;
+ const operation_info* current_inner_oif;
+ const operation_info* current_outer_oif;
+ size_t current_on;
+ execution_mode current_mode;
+ bool current_diag_noise;
+
+ atomic_count dependency_count;
+ atomic_count target_count;
+ atomic_count skip_count;
+
+ bool keep_going = false;
+ bool dry_run = false;
+
+ void (*config_save_variable) (scope&, const variable&, uint64_t);
+
+ const string& (*config_preprocess_create) (const variable_overrides&,
+ values&,
+ vector_view<opspec>&,
+ bool,
+ const location&);
+
+ variable_overrides
+ reset (const strings& cmd_vars)
+ {
+ tracer trace ("reset");
+
+ // @@ Need to unload modules when we dynamically load them.
+ //
+
+ l6 ([&]{trace << "resetting build state";});
+
+ auto& vp (variable_pool::instance);
+ auto& sm (scope_map::instance);
+
+ variable_overrides vos;
+
+ targets.clear ();
+ sm.clear ();
+ vp.clear ();
+
+ // Reset meta/operation tables. Note that the order should match the id
+ // constants in <libbuild2/operation.hxx>.
+ //
+ meta_operation_table.clear ();
+ meta_operation_table.insert ("noop");
+ meta_operation_table.insert ("perform");
+ meta_operation_table.insert ("configure");
+ meta_operation_table.insert ("disfigure");
+
+ if (config_preprocess_create != nullptr)
+ meta_operation_table.insert (
+ meta_operation_data ("create", config_preprocess_create));
+
+ meta_operation_table.insert ("dist");
+ meta_operation_table.insert ("info");
+
+ operation_table.clear ();
+ operation_table.insert ("default");
+ operation_table.insert ("update");
+ operation_table.insert ("clean");
+ operation_table.insert ("test");
+ operation_table.insert ("update-for-test");
+ operation_table.insert ("install");
+ operation_table.insert ("uninstall");
+ operation_table.insert ("update-for-install");
+
+ // Create global scope. Note that the empty path is a prefix for any other
+ // path. See the comment in <libbutl/prefix-map.mxx> for details.
+ //
+ auto make_global_scope = [] () -> scope&
+ {
+ auto i (scope_map::instance.insert (dir_path ()));
+ scope& r (i->second);
+ r.out_path_ = &i->first;
+ global_scope = scope::global_ = &r;
+ return r;
+ };
+
+ scope& gs (make_global_scope ());
+
+ // Setup the global scope before parsing any variable overrides since they
+ // may reference these things.
+ //
+
+ gs.assign<dir_path> ("build.work") = work;
+ gs.assign<dir_path> ("build.home") = home;
+
+ // Build system driver process path.
+ //
+ gs.assign<process_path> ("build.path") =
+ process_path (nullptr, // Will be filled by value assignment.
+ path (argv0.recall_string ()),
+ path (argv0.effect));
+
+ // Build system verbosity level.
+ //
+ gs.assign<uint64_t> ("build.verbosity") = verb;
+
+ // Build system version (similar to what we do in the version module
+ // except here we don't include package epoch/revision).
+ //
+ {
+ const standard_version& v (build_version);
+
+ auto set = [&gs] (const char* var, auto val)
+ {
+ using T = decltype (val);
+ gs.assign (variable_pool::instance.insert<T> (var)) = move (val);
+ };
+
+ set ("build.version", v.string_project ());
+
+ set ("build.version.number", v.version);
+ set ("build.version.id", v.string_project_id ());
+
+ set ("build.version.major", uint64_t (v.major ()));
+ set ("build.version.minor", uint64_t (v.minor ()));
+ set ("build.version.patch", uint64_t (v.patch ()));
+
+ optional<uint16_t> a (v.alpha ());
+ optional<uint16_t> b (v.beta ());
+
+ set ("build.version.alpha", a.has_value ());
+ set ("build.version.beta", b.has_value ());
+ set ("build.version.pre_release", v.pre_release ().has_value ());
+ set ("build.version.pre_release_string", v.string_pre_release ());
+ set ("build.version.pre_release_number", uint64_t (a ? *a : b ? *b : 0));
+
+ set ("build.version.snapshot", v.snapshot ()); // bool
+ set ("build.version.snapshot_sn", v.snapshot_sn); // uint64
+ set ("build.version.snapshot_id", v.snapshot_id); // string
+ set ("build.version.snapshot_string", v.string_snapshot ());
+
+ // Allow detection (for example, in tests) whether this is a staged
+ // toolchain.
+ //
+ // Note that it is either staged or public, without queued, since we do
+ // not re-package things during the queued-to-public transition.
+ //
+ set ("build.version.stage", LIBBUILD2_STAGE);
+ }
+
+ // Enter the host information. Rather than jumping through hoops like
+ // config.guess, for now we are just going to use the compiler target we
+ // were built with. While it is not as precise (for example, a binary
+ // built for i686 might be running on x86_64), it is good enough of an
+ // approximation/fallback since most of the time we are interested in just
+ // the target class (e.g., linux, windows, macosx).
+ //
+ {
+ // Did the user ask us to use config.guess?
+ //
+ string orig (config_guess
+ ? run<string> (3,
+ *config_guess,
+ [](string& l, bool) {return move (l);})
+ : BUILD2_HOST_TRIPLET);
+
+ l5 ([&]{trace << "original host: '" << orig << "'";});
+
+ try
+ {
+ target_triplet t (orig);
+
+ l5 ([&]{trace << "canonical host: '" << t.string () << "'; "
+ << "class: " << t.class_;});
+
+ // Also enter as build.host.{cpu,vendor,system,version,class} for
+ // convenience of access.
+ //
+ gs.assign<string> ("build.host.cpu") = t.cpu;
+ gs.assign<string> ("build.host.vendor") = t.vendor;
+ gs.assign<string> ("build.host.system") = t.system;
+ gs.assign<string> ("build.host.version") = t.version;
+ gs.assign<string> ("build.host.class") = t.class_;
+
+ gs.assign<target_triplet> ("build.host") = move (t);
+ }
+ catch (const invalid_argument& e)
+ {
+ fail << "unable to parse build host '" << orig << "': " << e <<
+ info << "consider using the --config-guess option";
+ }
+ }
+
+ // Register builtin target types.
+ //
+ {
+ target_type_map& t (gs.target_types);
+
+ t.insert<file> ();
+ t.insert<alias> ();
+ t.insert<dir> ();
+ t.insert<fsdir> ();
+ t.insert<exe> ();
+ t.insert<doc> ();
+ t.insert<man> ();
+ t.insert<man1> ();
+
+ {
+ auto& tt (t.insert<manifest> ());
+ t.insert_file ("manifest", tt);
+ }
+
+ {
+ auto& tt (t.insert<buildfile> ());
+ t.insert_file ("buildfile", tt);
+ }
+ }
+
+ // Parse and enter the command line variables. We do it before entering
+ // any other variables so that all the variables that are overriden are
+ // marked as such first. Then, as we enter variables, we can verify that
+ // the override is alowed.
+ //
+ for (size_t i (0); i != cmd_vars.size (); ++i)
+ {
+ const string& s (cmd_vars[i]);
+
+ istringstream is (s);
+ is.exceptions (istringstream::failbit | istringstream::badbit);
+
+ // Similar to buildspec we do "effective escaping" and only for ['"\$(]
+ // (basically what's necessary inside a double-quoted literal plus the
+ // single quote).
+ //
+ lexer l (is, path ("<cmdline>"), 1 /* line */, "\'\"\\$(");
+
+ // At the buildfile level the scope-specific variable should be
+ // separated from the directory with a whitespace, for example:
+ //
+ // ./ foo=$bar
+ //
+ // However, requiring this for command line variables would be too
+ // inconvinient so we support both.
+ //
+ // We also have the optional visibility modifier as a first character of
+ // the variable name:
+ //
+ // ! - global
+ // % - project
+ // / - scope
+ //
+ // The last one clashes a bit with the directory prefix:
+ //
+ // ./ /foo=bar
+ // .//foo=bar
+ //
+ // But that's probably ok (the need for a scope-qualified override with
+ // scope visibility should be pretty rare). Note also that to set the
+ // value on the global scope we use !.
+ //
+ // And so the first token should be a word which can be either a
+ // variable name (potentially with the directory qualification) or just
+ // the directory, in which case it should be followed by another word
+ // (unqualified variable name).
+ //
+ token t (l.next ());
+
+ optional<dir_path> dir;
+ if (t.type == token_type::word)
+ {
+ string& v (t.value);
+ size_t p (path::traits_type::rfind_separator (v));
+
+ if (p != string::npos && p != 0) // If first then visibility.
+ {
+ if (p == v.size () - 1)
+ {
+ // Separate directory.
+ //
+ dir = dir_path (move (v));
+ t = l.next ();
+
+ // Target-specific overrides are not yet supported (and probably
+ // never will be; the beast is already complex enough).
+ //
+ if (t.type == token_type::colon)
+ fail << "'" << s << "' is a target-specific override" <<
+ info << "use double '--' to treat this argument as buildspec";
+ }
+ else
+ {
+ // Combined directory.
+ //
+ // If double separator (visibility marker), then keep the first in
+ // name.
+ //
+ if (p != 0 && path::traits_type::is_separator (v[p - 1]))
+ --p;
+
+ dir = dir_path (t.value, 0, p + 1); // Include the separator.
+ t.value.erase (0, p + 1); // Erase the separator.
+ }
+
+ if (dir->relative ())
+ {
+ // Handle the special relative to base scope case (.../).
+ //
+ auto i (dir->begin ());
+
+ if (*i == "...")
+ dir = dir_path (++i, dir->end ()); // Note: can become empty.
+ else
+ dir->complete (); // Relative to CWD.
+ }
+
+ if (dir->absolute ())
+ dir->normalize ();
+ }
+ }
+
+ token_type tt (l.next ().type);
+
+ // The token should be the variable name followed by =, +=, or =+.
+ //
+ if (t.type != token_type::word || t.value.empty () ||
+ (tt != token_type::assign &&
+ tt != token_type::prepend &&
+ tt != token_type::append))
+ {
+ fail << "expected variable assignment instead of '" << s << "'" <<
+ info << "use double '--' to treat this argument as buildspec";
+ }
+
+ // Take care of the visibility. Note that here we rely on the fact that
+ // none of these characters are lexer's name separators.
+ //
+ char c (t.value[0]);
+
+ if (path::traits_type::is_separator (c))
+ c = '/'; // Normalize.
+
+ string n (t.value, c == '!' || c == '%' || c == '/' ? 1 : 0);
+
+ if (c == '!' && dir)
+ fail << "scope-qualified global override of variable " << n;
+
+ variable& var (const_cast<variable&> (
+ vp.insert (n, true /* overridable */)));
+
+ const variable* o;
+ {
+ variable_visibility v (c == '/' ? variable_visibility::scope :
+ c == '%' ? variable_visibility::project :
+ variable_visibility::normal);
+
+ const char* k (tt == token_type::assign ? "__override" :
+ tt == token_type::append ? "__suffix" : "__prefix");
+
+ unique_ptr<variable> p (
+ new variable {
+ n + '.' + to_string (i + 1) + '.' + k,
+ nullptr /* aliases */,
+ nullptr /* type */,
+ nullptr /* overrides */,
+ v});
+
+ // Back link.
+ //
+ p->aliases = p.get ();
+ if (var.overrides != nullptr)
+ swap (p->aliases,
+ const_cast<variable*> (var.overrides.get ())->aliases);
+
+ // Forward link.
+ //
+ p->overrides = move (var.overrides);
+ var.overrides = move (p);
+
+ o = var.overrides.get ();
+ }
+
+ // Currently we expand project overrides in the global scope to keep
+ // things simple. Pass original variable for diagnostics. Use current
+ // working directory as pattern base.
+ //
+ parser p;
+ pair<value, token> r (p.parse_variable_value (l, gs, &work, var));
+
+ if (r.second.type != token_type::eos)
+ fail << "unexpected " << r.second << " in variable assignment "
+ << "'" << s << "'";
+
+ // Make sure the value is not typed.
+ //
+ if (r.first.type != nullptr)
+ fail << "typed override of variable " << n;
+
+ // Global and absolute scope overrides we can enter directly. Project
+ // and relative scope ones will be entered by the caller for each
+ // amalgamation/project.
+ //
+ if (c == '!' || (dir && dir->absolute ()))
+ {
+ scope& s (c == '!' ? gs : sm.insert (*dir)->second);
+
+ auto p (s.vars.insert (*o));
+ assert (p.second); // Variable name is unique.
+
+ value& v (p.first);
+ v = move (r.first);
+ }
+ else
+ vos.push_back (
+ variable_override {var, *o, move (dir), move (r.first)});
+ }
+
+ // Enter builtin variables and patterns.
+ //
+
+ // All config. variables are by default overridable.
+ //
+ vp.insert_pattern ("config.**", nullopt, true, nullopt, true, false);
+
+ // file.cxx:import() (note that order is important; see insert_pattern()).
+ //
+ vp.insert_pattern<abs_dir_path> (
+ "config.import.*", true, variable_visibility::normal, true);
+ vp.insert_pattern<path> (
+ "config.import.**", true, variable_visibility::normal, true);
+
+ // module.cxx:load_module().
+ //
+ {
+ auto v_p (variable_visibility::project);
+
+ vp.insert_pattern<bool> ("**.booted", false, v_p);
+ vp.insert_pattern<bool> ("**.loaded", false, v_p);
+ vp.insert_pattern<bool> ("**.configured", false, v_p);
+ }
+
+ {
+ auto v_p (variable_visibility::project);
+ auto v_t (variable_visibility::target);
+ auto v_q (variable_visibility::prereq);
+
+ var_src_root = &vp.insert<dir_path> ("src_root");
+ var_out_root = &vp.insert<dir_path> ("out_root");
+ var_src_base = &vp.insert<dir_path> ("src_base");
+ var_out_base = &vp.insert<dir_path> ("out_base");
+
+ var_forwarded = &vp.insert<bool> ("forwarded", v_p);
+
+ // Note that subprojects is not typed since the value requires
+ // pre-processing (see file.cxx).
+ //
+ var_project = &vp.insert<project_name> ("project", v_p);
+ var_amalgamation = &vp.insert<dir_path> ("amalgamation", v_p);
+ var_subprojects = &vp.insert ("subprojects", v_p);
+ var_version = &vp.insert<string> ("version", v_p);
+
+ var_project_url = &vp.insert<string> ("project.url", v_p);
+ var_project_summary = &vp.insert<string> ("project.summary", v_p);
+
+ var_import_target = &vp.insert<name> ("import.target");
+
+ var_clean = &vp.insert<bool> ("clean", v_t);
+ var_backlink = &vp.insert<string> ("backlink", v_t);
+ var_include = &vp.insert<string> ("include", v_q);
+
+ vp.insert<string> (var_extension, v_t);
+
+ // Backlink executables and (generated) documentation by default.
+ //
+ gs.target_vars[exe::static_type]["*"].assign (var_backlink) = "true";
+ gs.target_vars[doc::static_type]["*"].assign (var_backlink) = "true";
+
+ var_build_meta_operation = &vp.insert<string> ("build.meta_operation");
+ }
+
+ // Register builtin rules.
+ //
+ {
+ rule_map& r (gs.rules); // Note: global scope!
+
+ //@@ outer
+ r.insert<alias> (perform_id, 0, "alias", alias_rule::instance);
+
+ r.insert<fsdir> (perform_update_id, "fsdir", fsdir_rule::instance);
+ r.insert<fsdir> (perform_clean_id, "fsdir", fsdir_rule::instance);
+
+ r.insert<mtime_target> (perform_update_id, "file", file_rule::instance);
+ r.insert<mtime_target> (perform_clean_id, "file", file_rule::instance);
+ }
+
+ return vos;
+ }
+
+ dir_path
+ src_out (const dir_path& out, const scope& r)
+ {
+ assert (r.root ());
+ return src_out (out, r.out_path (), r.src_path ());
+ }
+
+ dir_path
+ out_src (const dir_path& src, const scope& r)
+ {
+ assert (r.root ());
+ return out_src (src, r.out_path (), r.src_path ());
+ }
+
+ dir_path
+ src_out (const dir_path& o,
+ const dir_path& out_root, const dir_path& src_root)
+ {
+ assert (o.sub (out_root));
+ return src_root / o.leaf (out_root);
+ }
+
+ dir_path
+ out_src (const dir_path& s,
+ const dir_path& out_root, const dir_path& src_root)
+ {
+ assert (s.sub (src_root));
+ return out_root / s.leaf (src_root);
+ }
+
+ // diag_do(), etc.
+ //
+ string
+ diag_do (const action&)
+ {
+ const meta_operation_info& m (*current_mif);
+ const operation_info& io (*current_inner_oif);
+ const operation_info* oo (current_outer_oif);
+
+ string r;
+
+ // perform(update(x)) -> "update x"
+ // configure(update(x)) -> "configure updating x"
+ //
+ if (m.name_do.empty ())
+ r = io.name_do;
+ else
+ {
+ r = m.name_do;
+
+ if (io.name_doing[0] != '\0')
+ {
+ r += ' ';
+ r += io.name_doing;
+ }
+ }
+
+ if (oo != nullptr)
+ {
+ r += " (for ";
+ r += oo->name;
+ r += ')';
+ }
+
+ return r;
+ }
+
+ void
+ diag_do (ostream& os, const action& a, const target& t)
+ {
+ os << diag_do (a) << ' ' << t;
+ }
+
+ string
+ diag_doing (const action&)
+ {
+ const meta_operation_info& m (*current_mif);
+ const operation_info& io (*current_inner_oif);
+ const operation_info* oo (current_outer_oif);
+
+ string r;
+
+ // perform(update(x)) -> "updating x"
+ // configure(update(x)) -> "configuring updating x"
+ //
+ if (!m.name_doing.empty ())
+ r = m.name_doing;
+
+ if (io.name_doing[0] != '\0')
+ {
+ if (!r.empty ()) r += ' ';
+ r += io.name_doing;
+ }
+
+ if (oo != nullptr)
+ {
+ r += " (for ";
+ r += oo->name;
+ r += ')';
+ }
+
+ return r;
+ }
+
+ void
+ diag_doing (ostream& os, const action& a, const target& t)
+ {
+ os << diag_doing (a) << ' ' << t;
+ }
+
+ string
+ diag_did (const action&)
+ {
+ const meta_operation_info& m (*current_mif);
+ const operation_info& io (*current_inner_oif);
+ const operation_info* oo (current_outer_oif);
+
+ string r;
+
+ // perform(update(x)) -> "updated x"
+ // configure(update(x)) -> "configured updating x"
+ //
+ if (!m.name_did.empty ())
+ {
+ r = m.name_did;
+
+ if (io.name_doing[0] != '\0')
+ {
+ r += ' ';
+ r += io.name_doing;
+ }
+ }
+ else
+ r += io.name_did;
+
+ if (oo != nullptr)
+ {
+ r += " (for ";
+ r += oo->name;
+ r += ')';
+ }
+
+ return r;
+ }
+
+ void
+ diag_did (ostream& os, const action& a, const target& t)
+ {
+ os << diag_did (a) << ' ' << t;
+ }
+
+ void
+ diag_done (ostream& os, const action&, const target& t)
+ {
+ const meta_operation_info& m (*current_mif);
+ const operation_info& io (*current_inner_oif);
+ const operation_info* oo (current_outer_oif);
+
+ // perform(update(x)) -> "x is up to date"
+ // configure(update(x)) -> "updating x is configured"
+ //
+ if (m.name_done.empty ())
+ {
+ os << t;
+
+ if (io.name_done[0] != '\0')
+ os << ' ' << io.name_done;
+
+ if (oo != nullptr)
+ os << " (for " << oo->name << ')';
+ }
+ else
+ {
+ if (io.name_doing[0] != '\0')
+ os << io.name_doing << ' ';
+
+ if (oo != nullptr)
+ os << "(for " << oo->name << ") ";
+
+ os << t << ' ' << m.name_done;
+ }
+ }
+}