#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "tpool.hh" void cs_register_globs(cscript::CsState &cs); using ostd::ConstCharRange; using ostd::Vector; using ostd::Map; using ostd::String; using ostd::Uint32; using ostd::slice_until; using ostd::UniqueLock; using ostd::Mutex; using ostd::Condition; using cscript::CsState; using cscript::TvalRange; using cscript::StackedValue; using cscript::Bytecode; /* check funcs */ static bool ob_check_ts(ConstCharRange tname, Vector const &deps) { auto get_ts = [](ConstCharRange fname) { ostd::FileInfo fi(fname); if (fi.type() != ostd::FileType::regular) { return time_t(0); } return fi.mtime(); }; time_t tts = get_ts(tname); if (!tts) { return true; } for (auto &dep: deps.iter()) { time_t sts = get_ts(dep); if (sts && (tts < sts)) { return true; } } return false; } static bool ob_check_file(ConstCharRange fname) { return ostd::FileStream(fname, ostd::StreamMode::read).is_open(); } static bool ob_check_exec(ConstCharRange tname, Vector const &deps) { if (!ob_check_file(tname)) { return true; } for (auto &dep: deps.iter()) { if (!ob_check_file(dep)) { return true; } } return ob_check_ts(tname, deps); } /* this lets us properly match % patterns in target names */ static ConstCharRange ob_compare_subst( ConstCharRange expanded, ConstCharRange toexpand ) { auto rep = ostd::find(toexpand, '%'); /* no subst found */ if (rep.empty()) { return nullptr; } /* get the part before % */ auto fp = slice_until(toexpand, rep); /* part before % does not compare, so ignore */ if (expanded.size() <= fp.size()) { return nullptr; } if (expanded.slice(0, fp.size()) != fp) { return nullptr; } /* pop out front part */ expanded += fp.size(); /* part after % */ ++rep; if (rep.empty()) { return expanded; } /* part after % does not compare, so ignore */ if (expanded.size() <= rep.size()) { return nullptr; } ostd::Size es = expanded.size(); if (expanded.slice(es - rep.size(), es) != rep) { return nullptr; } /* cut off latter part */ expanded.pop_back_n(rep.size()); /* we got what we wanted... */ return expanded; } struct ObState: CsState { ConstCharRange progname; int jobs = 1; bool ignore_env = false; /* represents a rule definition, possibly with a function */ struct Rule { String target; Vector deps; Bytecode func; bool action; Rule(): target(), deps(), func(), action(false) {} Rule(Rule const &r): target(r.target), deps(r.deps), func(r.func), action(r.action) {} }; Vector rules; struct SubRule { ConstCharRange sub; Rule *rule; }; Map> cache; struct RuleCounter { RuleCounter(): p_cond(), p_mtx(), p_counter(0), p_result(0) {} void wait() { UniqueLock l(p_mtx); while (p_counter) { p_cond.wait(l); } } void incr() { UniqueLock l(p_mtx); ++p_counter; } void decr() { UniqueLock l(p_mtx); if (!--p_counter) { l.unlock(); p_cond.broadcast(); } } ostd::AtomicInt &get_result() { return p_result; } private: Condition p_cond; Mutex p_mtx; int p_counter; ostd::AtomicInt p_result; }; Vector counters; template int wait_result(F func) { RuleCounter ctr; counters.push(&ctr); int ret = func(); counters.pop(); if (ret) { return ret; } ctr.wait(); return ctr.get_result(); } template int error(int retcode, ConstCharRange fmt, A &&...args) { ostd::err.write(progname, ": "); ostd::err.writefln(fmt, ostd::forward(args)...); return retcode; } int exec_list( Vector const &rlist, Vector &subdeps, ConstCharRange tname ) { String repd; for (auto &sr: rlist.iter()) for (auto &target: sr.rule->deps.iter()) { ConstCharRange atgt = target.iter(); repd.clear(); auto lp = ostd::find(atgt, '%'); if (!lp.empty()) { repd.append(slice_until(atgt, lp)); repd.append(sr.sub); ++lp; if (!lp.empty()) { repd.append(lp); } atgt = repd.iter(); } subdeps.push(atgt); int r = exec_rule(atgt, tname); if (r) { return r; } } return 0; } int exec_func(ConstCharRange tname, Vector const &rlist) { Vector subdeps; int ret = wait_result([&rlist, &subdeps, &tname, this]() { return exec_list(rlist, subdeps, tname); }); Bytecode *func = nullptr; bool act = false; for (auto &sr: rlist.iter()) { if (sr.rule->func) { func = &sr.rule->func; act = sr.rule->action; break; } } if ((!ret && (act || ob_check_exec(tname, subdeps))) && func) { StackedValue targetv, sourcev, sourcesv; CsState &cs = *this; if (!targetv.alias(cs, "target")) { return 1; } targetv.set_cstr(tname); targetv.push(); if (!subdeps.empty()) { if (!sourcev.alias(cs, "source")) { return 1; } if (!sourcesv.alias(cs, "sources")) { return 1; } sourcev.set_cstr(subdeps[0]); sourcev.push(); auto dsv = ostd::appender(); ostd::concat(dsv, subdeps); sourcesv.set_str(ostd::move(dsv.get())); sourcesv.push(); } return run_int(*func); } return ret; } int exec_action(Rule *rule) { return run_int(rule->func); } int find_rules(ConstCharRange target, Vector &rlist) { if (!rlist.empty()) { return 0; } SubRule *frule = nullptr; bool exact = false; for (auto &rule: rules.iter()) { if (target == rule.target) { rlist.push().rule = &rule; if (rule.func) { if (frule && exact) { return error(1, "redefinition of rule '%s'", target); } if (!frule) { frule = &rlist.back(); } else { *frule = rlist.back(); rlist.pop(); } exact = true; } continue; } if (exact || !rule.func) { continue; } ConstCharRange sub = ob_compare_subst(target, rule.target); if (!sub.empty()) { SubRule &sr = rlist.push(); sr.rule = &rule; sr.sub = sub; if (frule) { if (sub.size() == frule->sub.size()) { return error(1, "redefinition of rule '%s'", target); } if (sub.size() < frule->sub.size()) { *frule = sr; rlist.pop(); } } else { frule = &sr; } } } return 0; } int exec_rule(ConstCharRange target, ConstCharRange from = nullptr) { Vector &rlist = cache[target]; int fret = find_rules(target, rlist); if (fret) { return fret; } if ((rlist.size() == 1) && rlist[0].rule->action) { return exec_action(rlist[0].rule); } if (rlist.empty() && !ob_check_file(target)) { if (from.empty()) { return error(1, "no rule to run target '%s'", target); } else { return error( 1, "no rule to run target '%s' (needed by '%s')", target, from ); } return 1; } return exec_func(target, rlist); } int exec_main(ConstCharRange target) { return wait_result([&target, this]() { return exec_rule(target); }); } void rule_add( ConstCharRange tgt, ConstCharRange dep, Uint32 *body, bool action = false ) { auto targets = cscript::util::list_explode(tgt); for (auto &target: targets.iter()) { Rule &r = rules.push(); r.target = target; r.action = action; r.func = body; r.deps = cscript::util::list_explode(dep); } } void rule_dup( ConstCharRange tgt, ConstCharRange ptgt, ConstCharRange dep, bool inherit_deps ) { Rule *oldr = nullptr; for (auto &rule: rules.iter()) { if (ptgt == rule.target) { oldr = &rule; break; } } if (!oldr) { return; } Rule &r = rules.push(); r.target = tgt; r.action = oldr->action; r.func = oldr->func; r.deps = inherit_deps ? oldr->deps : cscript::util::list_explode(dep); } void register_rulecmds() { add_command("rule", "sseN", [this](cscript::TvalRange args) { rule_add( args[0].get_strr(), args[1].get_strr(), (args[3].get_int() > 2) ? args[2].get_code() : nullptr ); }); add_command("action", "se", [this](cscript::TvalRange args) { rule_add(args[0].get_strr(), nullptr, args[1].get_code(), true); }); add_command("depend", "ss", [this](cscript::TvalRange args) { rule_add(args[0].get_strr(), args[1].get_str().iter(), nullptr); }); add_command("duprule", "sssN", [this](cscript::TvalRange args) { rule_dup( args[0].get_strr(), args[1].get_strr(), args[2].get_strr(), args[3].get_int() <= 2 ); }); } int print_help(bool error, ConstCharRange deffile) { ostd::Stream &os = error ? ostd::err : ostd::out; os.writeln( "Usage: ", progname, " [options] [action]\n", "Options:\n" " -C DIRECTORY\tChange to DIRECTORY before running.\n", " -f FILE\tSpecify the file to run (default: ", deffile, ").\n" " -h\t\tPrint this message.\n" " -j N\t\tSpecify the number of jobs to use (default: 1).\n" " -e STR\tEvaluate a string instead of a file.\n" " -E\t\tIgnore environment variables." ); return error; } }; int main(int argc, char **argv) { ObState os; ConstCharRange pn = argv[0]; ConstCharRange lslash = ostd::find_last(pn, '/'); os.progname = lslash.empty() ? pn : (lslash + 1); cscript::init_libs(os); int ncpus = ostd::Thread::hardware_concurrency(); os.add_ident(cscript::ID_VAR, "numcpus", 4096, 1, &ncpus); os.add_ident(cscript::ID_VAR, "numjobs", 4096, 1, &os.jobs); ConstCharRange fcont; ConstCharRange deffile = "obuild.cfg"; int posarg = argc; for (int i = 1; i < argc; ++i) { if (argv[i][0] == '-') { char argn = argv[i][1]; if (argn == 'E') { os.ignore_env = true; continue; } else if ((argn == 'h') || (!argv[i][2] && ((i + 1) >= argc))) { return os.print_help(argn != 'h', deffile); } ConstCharRange val = (argv[i][2] == '\0') ? argv[++i] : &argv[i][2]; switch (argn) { case 'C': if (!ostd::directory_change(val)) { return os.error(1, "failed changing directory: %s", val); } break; case 'f': deffile = val; break; case 'e': fcont = val; break; case 'j': { int ival = atoi(val.data()); if (!ival) { ival = ncpus; } os.jobs = ostd::max(1, ival); break; } default: return os.print_help(true, deffile); } } else { posarg = i; break; } } ThreadPool tpool; tpool.init(os.jobs); os.register_rulecmds(); os.add_command("shell", "C", [&os, &tpool](TvalRange args) { auto cnt = os.counters.back(); cnt->incr(); tpool.push([cnt, ds = String(args[0].get_strr())]() { int ret = system(ds.data()); if (ret && !cnt->get_result()) { cnt->get_result() = ret; } cnt->decr(); }); os.result->set_int(0); }); os.add_command("getenv", "ss", [&os](TvalRange args) { if (os.ignore_env) { os.result->set_cstr(""); return; } os.result->set_str(ostd::move( ostd::env_get(args[0].get_str()).value_or(args[1].get_str()) )); }); os.add_command("extreplace", "sss", [&os](TvalRange args) { ConstCharRange lst = args[0].get_strr(); ConstCharRange oldext = args[1].get_strr(); ConstCharRange newext = args[2].get_strr(); String ret; if (oldext.front() == '.') { oldext.pop_front(); } if (newext.front() == '.') { newext.pop_front(); } auto fnames = cscript::util::list_explode(lst); for (ConstCharRange it: fnames.iter()) { if (!ret.empty()) { ret += ' '; } auto dot = ostd::find_last(it, '.'); if (!dot.empty() && ((dot + 1) == oldext)) { ret += ostd::slice_until(it, dot); ret += '.'; ret += newext; } else { ret += it; } } os.result->set_str(ostd::move(ret)); }); os.add_command("invoke", "s", [&os](TvalRange args) { os.result->set_int(os.exec_main(args[0].get_strr())); }); cs_register_globs(os); if ((!fcont.empty() && !os.run_bool(fcont)) || !os.run_file(deffile)) { return os.error(1, "failed creating rules"); } if (os.rules.empty()) { return os.error(1, "no targets"); } return os.exec_main((posarg < argc) ? argv[posarg] : "default"); }