// file : libbuild2/config/operation.cxx -*- C++ -*- // license : MIT; see accompanying LICENSE file #include #include #include #include #include #include #include // opspec #include #include #include #include // save_* using namespace std; using namespace butl; namespace build2 { namespace config { // configure // static void save_src_root (const scope& rs) { const dir_path& out_root (rs.out_path ()); const dir_path& src_root (rs.src_path ()); path f (out_root / rs.root_extra->src_root_file); if (verb >= 2) text << "cat >" << f; try { ofdstream ofs (f); ofs << "# Created automatically by the config module." << endl << "#" << endl << "src_root = "; to_stream (ofs, name (src_root), true /* quote */, '@'); ofs << endl; ofs.close (); } catch (const io_error& e) { fail << "unable to write to " << f << ": " << e; } } static void save_out_root (const scope& rs) { const dir_path& out_root (rs.out_path ()); const dir_path& src_root (rs.src_path ()); path f (src_root / rs.root_extra->out_root_file); if (verb) text << (verb >= 2 ? "cat >" : "save ") << f; try { ofdstream ofs (f); ofs << "# Created automatically by the config module." << endl << "#" << endl << "out_root = "; to_stream (ofs, name (out_root), true /* quote */, '@'); ofs << endl; ofs.close (); } catch (const io_error& e) { fail << "unable to write to " << f << ": " << e; } } using project_set = set; // Use pointers to get comparison. // Return (first) whether an unused/inherited variable should be saved // according to the config.config.persist value and (second) whether the // user should be warned about it. // static pair save_config_variable (const variable& var, const vector>* persist, bool inherited, bool unused) { assert (inherited || unused); if (persist != nullptr) { for (const pair& pc: reverse_iterate (*persist)) { if (!path_match (var.name, pc.first)) continue; const string& c (pc.second); size_t p; if (c.compare (0, (p = 7), "unused=") == 0) { if (!unused || inherited) continue; } else if (c.compare (0, (p = 10), "inherited=") == 0) { // Applies to both used an unused. // if (!inherited) continue; } else if (c.compare (0, (p = 15), "inherited-used=") == 0) { if (!inherited || unused) continue; } else if (c.compare (0, (p = 17), "inherited-unused=") == 0) { if (!inherited || !unused) continue; } else fail << "invalid config.config.persist condition '" << c << "'"; bool r; if (c.compare (p, 4 , "save") == 0) r = true; else if (c.compare (p, 4 , "drop") == 0) r = false; else fail << "invalid config.config.persist action '" << c << "'"; bool w (false); if ((p += 4) != c.size ()) { if (c.compare (p, string::npos, "+warn") == 0) w = true; else fail << "invalid config.config.persist action '" << c << "'"; } return make_pair (r, w); } } // Defaults. // if (!inherited) return make_pair (false, true); // unused: drop warn else if (unused) return make_pair (true, true); // inherited-unused: save warn else return make_pair (false, false); // inherited-used: drop !warn } // If inherit is false, then don't rely on inheritance from outer scopes. // void save_config (const scope& rs, ostream& os, const path_name& on, bool inherit, const project_set& projects) { context& ctx (rs.ctx); // @@ We are modifying the module (marking additional variables as // saved) and this function can be called from a buildfile (probably // only during serial execution but still). // module* mod (rs.find_module (module::name)); if (mod == nullptr) fail (on) << "no configuration information available during this " << "meta-operation"; names storage; auto info_value = [&storage] (diag_record& dr, const value& v) mutable { dr << info << "variable value: "; if (v) { storage.clear (); dr << "'" << reverse (v, storage) << "'"; } else dr << "[null]"; }; try { os << "# Created automatically by the config module, but feel " << "free to edit." << endl << "#" << endl; os << "config.version = " << module::version << endl; if (inherit) { if (const dir_path* a = *rs.root_extra->amalgamation) { os << endl << "# Base configuration inherited from " << *a << endl << "#" << endl; } } // Mark the unused config.* variables defined on our root scope as // saved according to config.config.persist potentially warning if the // variable would otherwise be dropped. // auto& vp (ctx.var_pool); for (auto p (rs.vars.lookup_namespace (*vp.find ("config"))); p.first != p.second; ++p.first) { const variable* var (&p.first->first.get ()); // Annoyingly, this can be one of the overrides (__override, // __prefix, etc). // if (size_t n = var->override ()) var = vp.find (string (var->name, 0, n)); // Skip special variables. // if (var->name == "config.booted" || var->name == "config.loaded" || var->name == "config.configured" || var->name.compare (0, 14, "config.config.") == 0) continue; if (mod->saved (*var)) continue; const value& v (p.first->second); pair r (save_config_variable (*var, mod->persist, false /* inherited */, true /* unused */)); if (r.first) // save { mod->save_variable (*var); if (r.second) // warn { // Consistently with save_config() below we don't warn about an // overriden variable. // if (var->overrides != nullptr) { lookup l {v, *var, rs.vars}; pair org {l, 1 /* depth */}; pair ovr (rs.lookup_override (*var, org)); if (org.first != ovr.first) continue; } diag_record dr; dr << warn (on) << "saving no longer used variable " << *var; if (verb >= 2) info_value (dr, v); } } else // drop { if (r.second) // warn { diag_record dr; dr << warn (on) << "dropping no longer used variable " << *var; info_value (dr, v); } } } // Save config variables. // for (auto p: mod->saved_modules.order) { const string& sname (p.second->first); const saved_variables& svars (p.second->second); bool first (true); // Separate modules with a blank line. for (const saved_variable& sv: svars) { const variable& var (sv.var); pair org (rs.lookup_original (var)); pair ovr (var.overrides == nullptr ? org : rs.lookup_override (var, org)); const lookup& l (ovr.first); // We definitely write values that are set on our root scope or // are global overrides. Anything in-between is presumably // inherited. We might also not have any value at all (see // unconfigured()). // if (!l.defined () || (l->null && sv.flags & save_null_omitted)) continue; // Handle inherited from outer scope values. // // Note that we skip this entire logic if inherit is false since // we save the inherited values regardless of whether they are // used or not. // if (inherit && !(l.belongs (rs) || l.belongs (ctx.global_scope))) { // This is presumably an inherited value. But it could also be // some left-over garbage. For example, an amalgamation could // have used a module but then dropped it while its config // values are still lingering in config.build. They are probably // still valid and we should probably continue using them but we // definitely want to move them to our config.build since they // will be dropped from the amalgamation's config.build on the // next reconfigure. Let's also warn the user just in case, // unless there is no module and thus we couldn't really check // (the latter could happen when calling $config.save() during // other meta-operations, though it passes false for inherit). // // There is also another case that falls under this now that // overrides are by default amalgamation-wide rather than just // "project and subprojects": we may be (re-)configuring a // subproject but the override is now set on the outer project's // root. // bool found (false), checked (true); const scope* r (&rs); while ((r = r->parent_scope ()->root_scope ()) != nullptr) { if (l.belongs (*r)) { // Find the config module (might not be there). // if (auto* m = r->find_module (module::name)) { // Find the corresponding saved module. // auto i (m->saved_modules.find (sname)); if (i != m->saved_modules.end ()) { // Find the variable. // const saved_variables& sv (i->second); found = sv.find (var) != sv.end (); // If not marked as saved, check whether overriden via // config.config.persist. // if (!found && m->persist != nullptr) { found = save_config_variable ( var, m->persist, false /* inherited */, true /* unused */).first; } // Handle that other case: if this is an override but // the outer project itself is not being configured, // then we need to save this override. // // One problem with using the already configured project // set is that the outer project may be configured only // after us in which case both projects will save the // value. But perhaps this is a feature, not a bug since // this is how project-local (%) override behaves. // if (found && org.first != ovr.first && projects.find (r) == projects.end ()) found = false; } } else checked = false; break; } } if (found) { // Inherited. // continue; } else { // If this value is not defined in a project's root scope, // then something is broken. // if (r == nullptr) fail (on) << "inherited variable " << var << " value is not " << "from a root scope"; // If none of the outer project's configurations use this // value, then we warn (unless we couldn't check) and save as // our own. One special case where we don't want to warn the // user is if the variable is overriden. // if (checked && org.first == ovr.first) { diag_record dr; dr << warn (on) << "saving previously inherited variable " << var; dr << info << "because project " << *r << " no longer uses " << "it in its configuration"; if (verb >= 2) info_value (dr, *l); } } } const string& n (var.name); const value& v (*l); // We will only write config.*.configured if it is false (true is // implied by its absence). We will also ignore false values if // there is any other value for this module (see unconfigured()). // if (n.size () > 11 && n.compare (n.size () - 11, 11, ".configured") == 0) { if (cast (v) || svars.size () != 1) continue; } // If we got here then we are saving this variable. Handle the // blank line. // if (first) { os << endl; first = false; } // Handle the save_default_commented flag. // if ((org.first.defined () && org.first->extra) && // Default value. org.first == ovr.first && // Not overriden. (sv.flags & save_default_commented) != 0) { os << '#' << n << " =" << endl; continue; } if (v) { storage.clear (); names_view ns (reverse (v, storage)); os << n; if (ns.empty ()) os << " ="; else { os << " = "; to_stream (os, ns, true /* quote */, '@'); } os << endl; } else os << n << " = [null]" << endl; } } } catch (const io_error& e) { fail << "unable to write to " << on << ": " << e; } } static void save_config (const scope& rs, const path& f, bool inherit, const project_set& projects) { path_name fn (f); if (f.string () == "-") fn.name = ""; if (verb) text << (verb >= 2 ? "cat >" : "save ") << fn; try { ofdstream ofs; save_config (rs, open_file_or_stdout (fn, ofs), fn, inherit, projects); ofs.close (); } catch (const io_error& e) { fail << "unable to write to " << fn << ": " << e; } } static void configure_project (action a, const scope& rs, const variable* c_s, // config.config.save project_set& projects) { tracer trace ("configure_project"); context& ctx (rs.ctx); const dir_path& out_root (rs.out_path ()); const dir_path& src_root (rs.src_path ()); if (!projects.insert (&rs).second) { l5 ([&]{trace << "skipping already configured " << out_root;}); return; } // Make sure the directories exist. // if (out_root != src_root) { mkdir_p (out_root / rs.root_extra->build_dir); mkdir (out_root / rs.root_extra->bootstrap_dir, 2); } // We distinguish between a complete configure and operation-specific. // if (a.operation () == default_id) { l5 ([&]{trace << "completely configuring " << out_root;}); // Save src-root.build unless out_root is the same as src. // if (c_s == nullptr && out_root != src_root) save_src_root (rs); // Save config.build unless an alternative is specified with // config.config.save. Similar to config.config.load we will only save // to that file if it is specified on our root scope or as a global // override (the latter is a bit iffy but let's allow it, for example, // to dump everything to stdout). Note that to save a subproject's // config we will have to use a scope-specific override (since the // default will apply to the amalgamation): // // b configure: subproj/ subproj/config.config.save=.../config.build // // Could be confusing but then normally it will be the amalgamation // whose configuration we want to export. // // Note also that if config.config.save is specified we do not rewrite // config.build files (say, of subprojects) as well as src-root.build // above. Failed that, if we are running in a disfigured project, we // may end up leaving it in partially configured state. // if (c_s == nullptr) save_config (rs, config_file (rs), true /* inherit */, projects); else { lookup l (rs[*c_s]); if (l && (l.belongs (rs) || l.belongs (ctx.global_scope))) { // While writing the complete configuration seems like a natural // default, there might be a desire to take inheritance into // account (if, say, we are exporting at multiple levels). One can // of course just copy the relevant config.build files, but we may // still want to support this mode somehow in the future (it seems // like an override of config.config.persist should do the trick). // save_config (rs, cast (l), false /* inherit */, projects); } } } else { fail << "operation-specific configuration not yet supported"; } if (c_s == nullptr) { if (module* m = rs.find_module (module::name)) { for (auto hook: m->configure_post_) hook (a, rs); } } // Configure subprojects that have been loaded. // if (const subprojects* ps = *rs.root_extra->subprojects) { for (auto p: *ps) { const dir_path& pd (p.second); dir_path out_nroot (out_root / pd); const scope& nrs (ctx.scopes.find (out_nroot)); // @@ Strictly speaking we need to check whether the config module // was loaded for this subproject. // if (nrs.out_path () != out_nroot) // This subproject not loaded. continue; configure_project (a, nrs, c_s, projects); } } } static void configure_forward (const scope& rs, project_set& projects) { tracer trace ("configure_forward"); context& ctx (rs.ctx); const dir_path& out_root (rs.out_path ()); const dir_path& src_root (rs.src_path ()); if (!projects.insert (&rs).second) { l5 ([&]{trace << "skipping already configured " << src_root;}); return; } mkdir (src_root / rs.root_extra->bootstrap_dir, 2); // Make sure exists. save_out_root (rs); // Configure subprojects. Since we don't load buildfiles if configuring // a forward, we do it for all known subprojects. // if (const subprojects* ps = *rs.root_extra->subprojects) { for (auto p: *ps) { dir_path out_nroot (out_root / p.second); const scope& nrs (ctx.scopes.find (out_nroot)); assert (nrs.out_path () == out_nroot); configure_forward (nrs, projects); } } } operation_id (*pre) (const values&, meta_operation_id, const location&); static operation_id configure_operation_pre (const values&, operation_id o) { // Don't translate default to update. In our case unspecified // means configure everything. // return o; } // The (vague) idea is that in the future we may turn this into to some // sort of key-value sequence (similar to the config initializer idea), // for example: // // configure(out/@src/, forward foo bar@123) // // Though using commas instead spaces and '=' instead of '@' would have // been nicer. // static bool forward (const values& params, const char* mo = nullptr, const location& l = location ()) { if (params.size () == 1) { const names& ns (cast (params[0])); if (ns.size () == 1 && ns[0].simple () && ns[0].value == "forward") 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 configure_pre (const values& params, const location& l) { forward (params, "configure", l); // Validate. } static void configure_load (const values& params, scope& rs, const path& buildfile, const dir_path& out_base, const dir_path& src_base, const location& l) { if (forward (params)) { // We don't need to load the buildfiles in order to configure // forwarding but in order to configure subprojects we have to // bootstrap them (similar to disfigure). // create_bootstrap_inner (rs); if (rs.out_path () == rs.src_path ()) fail (l) << "forwarding to source directory " << rs.src_path (); } else load (params, rs, buildfile, out_base, src_base, l); // Normal load. } static void configure_search (const values& params, const scope& rs, const scope& bs, const path& bf, const target_key& tk, const location& l, action_targets& ts) { if (forward (params)) { // For forwarding we only collect the projects (again, similar to // disfigure). // ts.push_back (&rs); } else search (params, rs, bs, bf, tk, l, ts); // Normal search. } static void configure_match (const values&, action, action_targets&, uint16_t, bool) { // Don't match anything -- see execute (). } static void configure_execute (const values& params, action a, action_targets& ts, uint16_t, bool) { bool fwd (forward (params)); context& ctx (fwd ? ts[0].as ().ctx : ts[0].as ().ctx); const variable* c_s (ctx.var_pool.find ("config.config.save")); if (c_s->overrides == nullptr) c_s = nullptr; else if (fwd) fail << "config.config.save specified for forward configuration"; project_set projects; for (const action_target& at: ts) { if (fwd) { // Forward configuration. // const scope& rs (at.as ()); configure_forward (rs, projects); } else { // Normal configuration. // // Match rules to configure every operation supported by each // project. Note that we are not calling operation_pre/post() // callbacks here since the meta operation is configure and we know // what we are doing. // // Note that we cannot do this in parallel. We cannot parallelize // the outer loop because we should match for a single action at a // time. And we cannot swap the loops because the list of operations // is target-specific. However, inside match(), things can proceed // in parallel. // const target& t (at.as ()); const scope* rs (t.base_scope ().root_scope ()); if (rs == nullptr) fail << "out of project target " << t; const operations& ops (rs->root_extra->operations); for (operation_id id (default_id + 1); // Skip default_id. id < ops.size (); ++id) { if (const operation_info* oif = ops[id]) { // Skip aliases (e.g., update-for-install). // if (oif->id != id) continue; ctx.current_operation (*oif); phase_lock pl (ctx, run_phase::match); match (action (configure_id, id), t); } } configure_project (a, *rs, c_s, projects); } } } const meta_operation_info mo_configure { configure_id, "configure", "configure", "configuring", "configured", "is configured", true, // bootstrap_outer &configure_pre, // meta-operation pre &configure_operation_pre, &configure_load, // normal load unless configuring forward &configure_search, // normal search unless configuring forward &configure_match, &configure_execute, nullptr, // operation post nullptr, // meta-operation post nullptr // include }; // disfigure // static bool disfigure_project (action a, const scope& rs, project_set& projects) { tracer trace ("disfigure_project"); context& ctx (rs.ctx); const dir_path& out_root (rs.out_path ()); const dir_path& src_root (rs.src_path ()); if (!projects.insert (&rs).second) { l5 ([&]{trace << "skipping already disfigured " << out_root;}); return false; } bool r (false); // Keep track of whether we actually did anything. // Disfigure subprojects. Since we don't load buildfiles during // disfigure, we do it for all known subprojects. // if (const subprojects* ps = *rs.root_extra->subprojects) { for (auto p: *ps) { const dir_path& pd (p.second); dir_path out_nroot (out_root / pd); const scope& nrs (ctx.scopes.find (out_nroot)); assert (nrs.out_path () == out_nroot); // See disfigure_load(). r = disfigure_project (a, nrs, projects) || r; // We use mkdir_p() to create the out_root of a subproject // which means there could be empty parent directories left // behind. Clean them up. // if (!pd.simple () && out_root != src_root) { for (dir_path d (pd.directory ()); !d.empty (); d = d.directory ()) { rmdir_status s (rmdir (ctx, out_root / d, 2)); if (s == rmdir_status::not_empty) break; // No use trying do remove parent ones. r = (s == rmdir_status::success) || r; } } } } if (module* m = rs.find_module (module::name)) { for (auto hook: m->disfigure_pre_) r = hook (a, rs) || r; } // We distinguish between a complete disfigure and operation- // specific. // if (a.operation () == default_id) { l5 ([&]{trace << "completely disfiguring " << out_root;}); r = rmfile (ctx, config_file (rs)) || r; if (out_root != src_root) { r = rmfile (ctx, out_root / rs.root_extra->src_root_file, 2) || r; // Clean up the directories. // // Note: try to remove the root/ hooks directory if it is empty. // r = rmdir (ctx, out_root / rs.root_extra->root_dir, 2) || r; r = rmdir (ctx, out_root / rs.root_extra->bootstrap_dir, 2) || r; r = rmdir (ctx, out_root / rs.root_extra->build_dir, 2) || r; switch (rmdir (ctx, out_root)) { case rmdir_status::not_empty: { // We used to issue a warning but it is actually a valid usecase // to leave the build output around in case, for example, of a // reconfigure. // if (verb) info << "directory " << out_root << " is " << (out_root == work ? "current working directory" : "not empty") << ", not removing"; break; } case rmdir_status::success: r = true; default: break; } } } else { fail << "operation-specific disfiguration not yet supported"; } return r; } static bool disfigure_forward (const scope& rs, project_set& projects) { // Pretty similar logic to disfigure_project(). // tracer trace ("disfigure_forward"); context& ctx (rs.ctx); const dir_path& out_root (rs.out_path ()); const dir_path& src_root (rs.src_path ()); if (!projects.insert (&rs).second) { l5 ([&]{trace << "skipping already disfigured " << src_root;}); return false; } bool r (false); if (const subprojects* ps = *rs.root_extra->subprojects) { for (auto p: *ps) { dir_path out_nroot (out_root / p.second); const scope& nrs (ctx.scopes.find (out_nroot)); assert (nrs.out_path () == out_nroot); r = disfigure_forward (nrs, projects) || r; } } // Remove the out-root.build file and try to remove the bootstrap/ // directory if it is empty. // r = rmfile (ctx, src_root / rs.root_extra->out_root_file) || r; r = rmdir (ctx, src_root / rs.root_extra->bootstrap_dir, 2) || r; return r; } static void disfigure_pre (const values& params, const location& l) { forward (params, "disfigure", l); // Validate. } static operation_id disfigure_operation_pre (const values&, operation_id o) { // Don't translate default to update. In our case unspecified // means disfigure everything. // return o; } static void disfigure_load (const values&, scope& root, const path&, const dir_path&, const dir_path&, const location&) { // Since we don't load buildfiles during disfigure but still want to // disfigure all the subprojects (see disfigure_project() below), we // bootstrap all the known subprojects. // create_bootstrap_inner (root); } static void disfigure_search (const values&, const scope& rs, const scope&, const path&, const target_key&, const location&, action_targets& ts) { ts.push_back (&rs); } static void disfigure_match (const values&, action, action_targets&, uint16_t, bool) { } static void disfigure_execute (const values& params, action a, action_targets& ts, uint16_t diag, bool) { tracer trace ("disfigure_execute"); bool fwd (forward (params)); project_set projects; // Note: doing everything in the load phase (disfigure_project () does // modify the build state). // for (const action_target& at: ts) { const scope& rs (at.as ()); if (!(fwd ? disfigure_forward ( rs, projects) : disfigure_project (a, rs, projects))) { // Create a dir{$out_root/} target to signify the project's root in // diagnostics. Not very clean but seems harmless. // target& t ( rs.ctx.targets.insert (dir::static_type, fwd ? rs.src_path () : rs.out_path (), dir_path (), // Out tree. "", nullopt, true, // Implied. trace).first); if (verb != 0 && diag >= 2) info << diag_done (a, t); } } } const meta_operation_info mo_disfigure { disfigure_id, "disfigure", "disfigure", "disfiguring", "disfigured", "is disfigured", false, // bootstrap_outer disfigure_pre, // meta-operation pre &disfigure_operation_pre, &disfigure_load, &disfigure_search, &disfigure_match, &disfigure_execute, nullptr, // operation post nullptr, // meta-operation post nullptr // include }; // create // static void save_config (context& ctx, const dir_path& d) { // Since there aren't any sub-projects yet, any config.import.* values // that the user may want to specify won't be saved in config.build. So // we go ahead and add them to config.config.persist (unless overriden). // To do this, however, we need the project's root scope (which is where // this information is stored). So what we are going to do is bootstrap // the newly created project, similar to the way main() does it. // scope& rs (load_project (ctx, d, d, false /* fwd */, false /* load */)); // Add the default config.config.persist value unless there is a custom // one (specified as a command line override). // const variable& var (*ctx.var_pool.find ("config.config.persist")); if (!rs[var].defined ()) { rs.assign (var) = vector> { pair {"config.import.*", "unused=save"}}; } } const string& preprocess_create (context& ctx, values& params, vector_view& spec, bool lifted, const location& l) { tracer trace ("preprocess_create"); // The overall plan is to create the project(s), update the buildspec, // clear the parameters, and then continue as if we were the configure // meta-operation. // Start with process parameters. The first parameter, if any, is a list // of root.build modules. The second parameter, if any, is a list of // bootstrap.build modules. If the second is not specified, then the // default is test, dist, and install (config is mandatory). // strings bmod {"test", "dist", "install"}; strings rmod; try { size_t n (params.size ()); if (n > 0) rmod = convert (move (params[0])); if (n > 1) bmod = convert (move (params[1])); if (n > 2) fail (l) << "unexpected parameters for meta-operation create"; } catch (const invalid_argument& e) { fail (l) << "invalid module name: " << e.what (); } ctx.current_oname = empty_string; // Make sure valid. // Now handle each target in each operation spec. // for (const opspec& os: spec) { // First do some sanity checks: there should be no explicit operation // and our targets should all be directories. // if (!lifted && !os.name.empty ()) fail (l) << "explicit operation specified for meta-operation create"; for (const targetspec& ts: os) { const name& tn (ts.name); // Figure out the project directory. This logic must be consistent // with find_target_type() and other places (grep for ".."). // dir_path d; if (tn.simple () && (tn.empty () || tn.value == "." || tn.value == "..")) d = dir_path (tn.value); else if (tn.directory ()) d = tn.dir; else if (tn.typed () && tn.type == "dir") d = tn.dir / dir_path (tn.value); else fail(l) << "non-directory target '" << ts << "' in " << "meta-operation create"; if (d.relative ()) d = work / d; d.normalize (true); // If src_base was explicitly specified, make sure it is the same as // the project directory. // if (!ts.src_base.empty ()) { dir_path s (ts.src_base); if (s.relative ()) s = work / s; s.normalize (true); if (s != d) fail(l) << "different src/out directories for target '" << ts << "' in meta-operation create"; } l5 ([&]{trace << "creating project in " << d;}); // For now we disable amalgamating this project. Sooner or later // someone will probably want to do this, though (i.e., nested // configurations). // create_project (d, dir_path (), /* amalgamation */ bmod, "", /* root_pre */ rmod, "", /* root_post */ string ("config"), /* config_module */ nullopt, /* config_file */ true, /* buildfile */ "the create meta-operation"); save_config (ctx, d); } } params.clear (); return mo_configure.name; } } }