// file : libbuild2/build/script/parser.test.cxx -*- C++ -*- // license : MIT; see accompanying LICENSE file #include #include #include #include #include #include #include #include // line #include #include using namespace std; namespace build2 { namespace build { namespace script { class print_runner: public runner { public: print_runner (bool line): line_ (line) {} virtual void enter (environment&, const location&) override {} virtual void run (environment&, const command_expr& e, size_t i, const location&) override { cout << e; if (line_) cout << " # " << i; cout << endl; } virtual bool run_if (environment&, const command_expr& e, size_t i, const location&) override { cout << "? " << e; if (line_) cout << " # " << i; cout << endl; return e.back ().pipe.back ().program.recall.string () == "true"; } virtual void leave (environment&, const location&) override {} private: bool line_; }; // Usages: // // argv[0] [-l] // argv[0] -b [-t] // argv[0] -d [-t] // argv[0] -q // argv[0] -g [] // // In the first form read the script from stdin and trace the script // body execution to stdout using the custom print runner. // // In the second form read the script from stdin, parse it and dump the // script body lines to stdout. // // In the third form read the script from stdin, parse it and dump the // depdb preamble lines to stdout. // // In the forth form read the script from stdin, parse it and print // line tokens quoting information to stdout. // // In the fifth form read the script from stdin, parse it and print the // low-verbosity script diagnostics name or custom low-verbosity // diagnostics to stdout. If the script doesn't deduce any of them, then // print the diagnostics and exit with non-zero code. // // -l // Print the script line number for each executed expression. // // -b // Dump the parsed script body to stdout. // // -d // Dump the parsed script depdb preamble to stdout. // // -t // Print true if the body (-b) or depdb preamble (-d) references the // temporary directory and false otherwise. // // -q // Print the parsed script tokens quoting information to sdout. If a // token is quoted follow its representation with its quoting // information in the [/] form, where: // // := 'S' | 'D' | 'M' // := 'C' | 'P' // // -g // Dump the low-verbosity script diagnostics name or custom // low-verbosity diagnostics to stdout. // int main (int argc, char* argv[]) { tracer trace ("main"); enum class mode { run, body, depdb_preamble, quoting, diag } m (mode::run); bool print_line (false); optional diag_name; bool temp_dir (false); for (int i (1); i != argc; ++i) { string a (argv[i]); if (a == "-l") print_line = true; else if (a == "-b") m = mode::body; else if (a == "-d") m = mode::depdb_preamble; else if (a == "-t") { assert (m == mode::body || m == mode::depdb_preamble); temp_dir = true; } else if (a == "-q") m = mode::quoting; else if (a == "-g") m = mode::diag; else { if (m == mode::diag) { diag_name = move (a); break; } assert (false); } } assert (!print_line || m == mode::run); assert (!diag_name || m == mode::diag); // Fake build system driver, default verbosity. // init_diag (1); init (nullptr, argv[0]); // Serial execution. // scheduler sched (1); global_mutexes mutexes (1); context ctx (sched, mutexes); try { cin.exceptions (istream::failbit | istream::badbit); // Enter mock target. Use fixed name and path so that we can use // them in expected results. Strictly speaking target path should // be absolute. However, the buildscript implementation doesn't // really care. // file& tt ( ctx.targets.insert (work, dir_path (), "driver", string (), trace)); tt.path (path ("driver")); adhoc_actions acts {perform_update_id}; // Parse and run. // parser p (ctx); path_name nm ("buildfile"); script s (p.pre_parse (tt, acts, cin, nm, 11 /* line */, (m != mode::diag ? optional ("test") : move (diag_name)), location (nm, 10))); switch (m) { case mode::run: { environment e (perform_update_id, tt, s.body_temp_dir); print_runner r (print_line); p.execute_body (ctx.global_scope, ctx.global_scope, e, s, r); break; } case mode::diag: { if (s.diag_name) { cout << "name: " << *s.diag_name << endl; } else { assert (s.diag_line); environment e (perform_update_id, tt, false /* temp_dir */); cout << "diag: " << p.execute_special (ctx.global_scope, ctx.global_scope, e, *s.diag_line) << endl; } break; } case mode::body: { if (!temp_dir) dump (cout, "", s.body); else cout << (s.body_temp_dir ? "true" : "false") << endl; break; } case mode::depdb_preamble: { if (!temp_dir) dump (cout, "", s.depdb_preamble); else cout << (s.depdb_preamble_temp_dir ? "true" : "false") << endl; break; } case mode::quoting: { for (const line& l: s.body) { for (const replay_token& rt: l.tokens) { if (&rt != &l.tokens[0]) cout << ' '; const token& t (rt.token); cout << t; char q ('\0'); switch (t.qtype) { case quote_type::single: q = 'S'; break; case quote_type::double_: q = 'D'; break; case quote_type::mixed: q = 'M'; break; case quote_type::unquoted: break; } if (q != '\0') cout << " [" << q << (t.qcomp ? "/C" : "/P") << ']'; } } cout << endl; } } } catch (const failed&) { return 1; } return 0; } } } } int main (int argc, char* argv[]) { return build2::build::script::main (argc, argv); }