#include #include #include "cs_std.hh" #include "cs_ident.hh" #include "cs_thread.hh" namespace cubescript { static inline void do_loop( state &cs, ident &id, integer_type offset, integer_type n, integer_type step, bcode_ref &&cond, bcode_ref &&body ) { if (n <= 0) { return; } alias_local st{cs, id}; any_value idv{}; for (integer_type i = 0; i < n; ++i) { idv.set_integer(offset + i * step); st.set(idv); if (cond && !cs.run(cond).get_bool()) { break; } switch (cs.run_loop(body)) { case loop_state::BREAK: return; default: /* continue and normal */ break; } } } static inline void do_loop_conc( state &cs, any_value &res, ident &id, integer_type offset, integer_type n, integer_type step, bcode_ref &&body, bool space ) { if (n <= 0) { return; } alias_local st{cs, id}; charbuf s{cs}; any_value idv{}; for (integer_type i = 0; i < n; ++i) { idv.set_integer(offset + i * step); st.set(idv); any_value v{}; switch (cs.run_loop(body, v)) { case loop_state::BREAK: goto end; case loop_state::CONTINUE: continue; default: break; } if (space && i) { s.push_back(' '); } s.append(v.get_string(cs)); } end: res.set_string(s.str(), cs); } LIBCUBESCRIPT_EXPORT void std_init_base(state &gcs) { new_cmd_quiet(gcs, "error", "s", [](auto &cs, auto args, auto &) { throw error{cs, args[0].get_string(cs)}; }); new_cmd_quiet(gcs, "pcall", "err", [](auto &cs, auto args, auto &ret) { alias *cret = args[1].get_ident(cs).get_alias(); alias *css = args[2].get_ident(cs).get_alias(); if (!cret || !css) { ret.set_integer(0); return; } any_value result{}, tback{}; bool rc = true; try { result = cs.run(args[0].get_code()); } catch (error const &e) { result.set_string(e.what(), cs); if (e.get_stack().get()) { charbuf buf{cs}; print_stack(std::back_inserter(buf), e.get_stack()); tback.set_string(buf.str(), cs); } rc = false; } ret.set_integer(rc); auto &ts = state_p{cs}.ts(); ts.get_astack(cret).set_alias(cret, ts, result); ts.get_astack(css).set_alias(css, ts, tback); }); new_cmd_quiet(gcs, "?", "ttt", [](auto &, auto args, auto &res) { if (args[0].get_bool()) { res = std::move(args[1]); } else { res = std::move(args[2]); } }); new_cmd_quiet(gcs, "cond", "ee2V", [](auto &cs, auto args, auto &res) { for (size_t i = 0; i < args.size(); i += 2) { if ((i + 1) < args.size()) { if (cs.run(args[i].get_code()).get_bool()) { res = cs.run(args[i + 1].get_code()); break; } } else { res = cs.run(args[i].get_code()); break; } } }); new_cmd_quiet(gcs, "case", "ite2V", [](auto &cs, auto args, auto &res) { integer_type val = args[0].get_integer(); for (size_t i = 1; (i + 1) < args.size(); i += 2) { if ( (args[i].get_type() == value_type::NONE) || (args[i].get_integer() == val) ) { res = cs.run(args[i + 1].get_code()); return; } } }); new_cmd_quiet(gcs, "casef", "fte2V", [](auto &cs, auto args, auto &res) { float_type val = args[0].get_float(); for (size_t i = 1; (i + 1) < args.size(); i += 2) { if ( (args[i].get_type() == value_type::NONE) || (args[i].get_float() == val) ) { res = cs.run(args[i + 1].get_code()); return; } } }); new_cmd_quiet(gcs, "cases", "ste2V", [](auto &cs, auto args, auto &res) { string_ref val = args[0].get_string(cs); for (size_t i = 1; (i + 1) < args.size(); i += 2) { if ( (args[i].get_type() == value_type::NONE) || (args[i].get_string(cs) == val) ) { res = cs.run(args[i + 1].get_code()); return; } } }); new_cmd_quiet(gcs, "pushif", "rte", [](auto &cs, auto args, auto &res) { alias_local st{cs, args[0]}; if (st.get_alias()->is_arg()) { throw error{cs, "cannot push an argument"}; } if (args[1].get_bool()) { st.set(args[1]); res = cs.run(args[2].get_code()); } }); new_cmd_quiet(gcs, "loop", "rie", [](auto &cs, auto args, auto &) { do_loop( cs, args[0].get_ident(cs), 0, args[1].get_integer(), 1, bcode_ref{}, args[2].get_code() ); }); new_cmd_quiet(gcs, "loop+", "riie", [](auto &cs, auto args, auto &) { do_loop( cs, args[0].get_ident(cs), args[1].get_integer(), args[2].get_integer(), 1, bcode_ref{}, args[3].get_code() ); }); new_cmd_quiet(gcs, "loop*", "riie", [](auto &cs, auto args, auto &) { do_loop( cs, args[0].get_ident(cs), 0, args[1].get_integer(), args[2].get_integer(), bcode_ref{}, args[3].get_code() ); }); new_cmd_quiet(gcs, "loop+*", "riiie", [](auto &cs, auto args, auto &) { do_loop( cs, args[0].get_ident(cs), args[1].get_integer(), args[3].get_integer(), args[2].get_integer(), bcode_ref{}, args[4].get_code() ); }); new_cmd_quiet(gcs, "loopwhile", "riee", [](auto &cs, auto args, auto &) { do_loop( cs, args[0].get_ident(cs), 0, args[1].get_integer(), 1, args[2].get_code(), args[3].get_code() ); }); new_cmd_quiet(gcs, "loopwhile+", "riiee", [](auto &cs, auto args, auto &) { do_loop( cs, args[0].get_ident(cs), args[1].get_integer(), args[2].get_integer(), 1, args[3].get_code(), args[4].get_code() ); }); new_cmd_quiet(gcs, "loopwhile*", "riiee", [](auto &cs, auto args, auto &) { do_loop( cs, args[0].get_ident(cs), 0, args[2].get_integer(), args[1].get_integer(), args[3].get_code(), args[4].get_code() ); }); new_cmd_quiet(gcs, "loopwhile+*", "riiiee", []( auto &cs, auto args, auto & ) { do_loop( cs, args[0].get_ident(cs), args[1].get_integer(), args[3].get_integer(), args[2].get_integer(), args[4].get_code(), args[5].get_code() ); }); new_cmd_quiet(gcs, "while", "ee", [](auto &cs, auto args, auto &) { auto cond = args[0].get_code(); auto body = args[1].get_code(); while (cs.run(cond).get_bool()) { switch (cs.run_loop(body)) { case loop_state::BREAK: goto end; default: /* continue and normal */ break; } } end: return; }); new_cmd_quiet(gcs, "loopconcat", "rie", []( auto &cs, auto args, auto &res ) { do_loop_conc( cs, res, args[0].get_ident(cs), 0, args[1].get_integer(), 1, args[2].get_code(), true ); }); new_cmd_quiet(gcs, "loopconcat+", "riie", []( auto &cs, auto args, auto &res ) { do_loop_conc( cs, res, args[0].get_ident(cs), args[1].get_integer(), args[2].get_integer(), 1, args[3].get_code(), true ); }); new_cmd_quiet(gcs, "loopconcat*", "riie", []( auto &cs, auto args, auto &res ) { do_loop_conc( cs, res, args[0].get_ident(cs), 0, args[2].get_integer(), args[1].get_integer(), args[3].get_code(), true ); }); new_cmd_quiet(gcs, "loopconcat+*", "riiie", []( auto &cs, auto args, auto &res ) { do_loop_conc( cs, res, args[0].get_ident(cs), args[1].get_integer(), args[3].get_integer(), args[2].get_integer(), args[4].get_code(), true ); }); new_cmd_quiet(gcs, "loopconcatword", "rie", []( auto &cs, auto args, auto &res ) { do_loop_conc( cs, res, args[0].get_ident(cs), 0, args[1].get_integer(), 1, args[2].get_code(), false ); }); new_cmd_quiet(gcs, "loopconcatword+", "riie", []( auto &cs, auto args, auto &res ) { do_loop_conc( cs, res, args[0].get_ident(cs), args[1].get_integer(), args[2].get_integer(), 1, args[3].get_code(), false ); }); new_cmd_quiet(gcs, "loopconcatword*", "riie", []( auto &cs, auto args, auto &res ) { do_loop_conc( cs, res, args[0].get_ident(cs), 0, args[2].get_integer(), args[1].get_integer(), args[3].get_code(), false ); }); new_cmd_quiet(gcs, "loopconcatword+*", "riiie", []( auto &cs, auto args, auto &res ) { do_loop_conc( cs, res, args[0].get_ident(cs), args[1].get_integer(), args[3].get_integer(), args[2].get_integer(), args[4].get_code(), false ); }); new_cmd_quiet(gcs, "push", "rte", [](auto &cs, auto args, auto &res) { alias_local st{cs, args[0]}; if (st.get_alias()->is_arg()) { throw error{cs, "cannot push an argument"}; } st.set(args[1]); res = cs.run(args[2].get_code()); }); new_cmd_quiet(gcs, "resetvar", "s", [](auto &cs, auto args, auto &) { cs.reset_var(args[0].get_string(cs)); }); new_cmd_quiet(gcs, "alias", "st", [](auto &cs, auto args, auto &) { cs.set_alias(args[0].get_string(cs), args[1]); }); new_cmd_quiet(gcs, "identexists", "s", [](auto &cs, auto args, auto &res) { res.set_integer(cs.have_ident(args[0].get_string(cs))); }); new_cmd_quiet(gcs, "getalias", "s", [](auto &cs, auto args, auto &res) { auto *id = cs.get_alias(args[0].get_string(cs)); if (id) { res = id->get_value(cs); } }); } } /* namespace cubescript */