/* Copyright (c) 2013 Microsoft Corporation. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Author: Leonardo de Moura */ #include #include "util/sstream.h" #include "util/script_state.h" #include "kernel/expr.h" #include "kernel/context.h" #include "kernel/formatter.h" #include "kernel/environment.h" #include "kernel/metavar.h" #include "kernel/abstract.h" #include "kernel/free_vars.h" #include "kernel/for_each_fn.h" #include "kernel/instantiate.h" #include "kernel/occurs.h" #include "kernel/builtin.h" #include "kernel/io_state.h" #include "kernel/type_checker.h" #include "library/expr_lt.h" #include "library/kernel_bindings.h" // Lua Bindings for the Kernel classes. We do not include the Lua // bindings in the kernel because we do not want to inflate the Kernel. namespace lean { DECL_UDATA(level) static int level_tostring(lua_State * L) { std::ostringstream out; options opts = get_global_options(L); out << mk_pair(pp(to_level(L, 1), opts), opts); lua_pushstring(L, out.str().c_str()); return 1; } static int level_eq(lua_State * L) { lua_pushboolean(L, to_level(L, 1) == to_level(L, 2)); return 1; } static int level_lt(lua_State * L) { lua_pushboolean(L, to_level(L, 1) < to_level(L, 2)); return 1; } static int mk_level(lua_State * L) { int nargs = lua_gettop(L); if (nargs == 0) { // bottom return push_level(L, level()); } else if (nargs == 1) { // uvar return push_level(L, level(to_name_ext(L, 1))); } else if (nargs == 2 && lua_isnumber(L, 2)) { // lift return push_level(L, to_level(L, 1) + luaL_checkinteger(L, 2)); } else { // max level r = to_level(L, 1); for (int i = 2; i <= nargs; i++) { r = max(r, to_level(L, i)); } return push_level(L, r); } } #define LEVEL_PRED(P) \ static int level_ ## P(lua_State * L) { \ lua_pushboolean(L, P(to_level(L, 1))); \ return 1; \ } LEVEL_PRED(is_bottom) LEVEL_PRED(is_uvar) LEVEL_PRED(is_lift) LEVEL_PRED(is_max) static int level_name(lua_State * L) { if (!is_uvar(to_level(L, 1))) throw exception("arg #1 must be a Lean level universal variable"); return push_name(L, uvar_name(to_level(L, 1))); } static int level_lift_of(lua_State * L) { if (!is_lift(to_level(L, 1))) throw exception("arg #1 must be a Lean level lift"); return push_level(L, lift_of(to_level(L, 1))); } static int level_lift_offset(lua_State * L) { if (!is_lift(to_level(L, 1))) throw exception("arg #1 must be a Lean level lift"); lua_pushinteger(L, lift_offset(to_level(L, 1))); return 1; } static int level_max_size(lua_State * L) { if (!is_max(to_level(L, 1))) throw exception("arg #1 must be a Lean level max"); lua_pushinteger(L, max_size(to_level(L, 1))); return 1; } static int level_max_level(lua_State * L) { if (!is_max(to_level(L, 1))) throw exception("arg #1 must be a Lean level max"); return push_level(L, max_level(to_level(L, 1), luaL_checkinteger(L, 2))); } static int level_get_kind(lua_State * L) { lua_pushinteger(L, static_cast(kind(to_level(L, 1)))); return 1; } static const struct luaL_Reg level_m[] = { {"__gc", level_gc}, // never throws {"__tostring", safe_function}, {"__eq", safe_function}, {"__lt", safe_function}, {"kind", safe_function}, {"is_bottom", safe_function}, {"is_lift", safe_function}, {"is_max", safe_function}, {"is_uvar", safe_function}, {"uvar_name", safe_function}, {"lift_of", safe_function}, {"lift_offset", safe_function}, {"max_size", safe_function}, {"max_level", safe_function}, {0, 0} }; static void open_level(lua_State * L) { luaL_newmetatable(L, level_mt); lua_pushvalue(L, -1); lua_setfield(L, -2, "__index"); setfuncs(L, level_m, 0); SET_GLOBAL_FUN(mk_level, "level"); SET_GLOBAL_FUN(level_pred, "is_level"); lua_newtable(L); SET_ENUM("UVar", level_kind::UVar); SET_ENUM("Lift", level_kind::Lift); SET_ENUM("Max", level_kind::Max); lua_setglobal(L, "level_kind"); } DECL_UDATA(local_entry) static int local_entry_eq(lua_State * L) { lua_pushboolean(L, to_local_entry(L, 1) == to_local_entry(L, 2)); return 1; } static int local_entry_mk_lift(lua_State * L) { return push_local_entry(L, mk_lift(luaL_checkinteger(L, 1), luaL_checkinteger(L, 2))); } static int local_entry_mk_inst(lua_State * L) { return push_local_entry(L, mk_inst(luaL_checkinteger(L, 1), to_expr(L, 2))); } static int local_entry_is_lift(lua_State * L) { lua_pushboolean(L, is_local_entry(L, 1) && to_local_entry(L, 1).is_lift()); return 1; } static int local_entry_is_inst(lua_State * L) { lua_pushboolean(L, is_local_entry(L, 1) && to_local_entry(L, 1).is_inst()); return 1; } static int local_entry_s(lua_State * L) { lua_pushinteger(L, to_local_entry(L, 1).s()); return 1; } static int local_entry_n(lua_State * L) { local_entry & e = to_local_entry(L, 1); if (!e.is_lift()) throw exception("Lean lift local entry expected"); lua_pushinteger(L, to_local_entry(L, 1).n()); return 1; } static int local_entry_v(lua_State * L) { local_entry & e = to_local_entry(L, 1); if (!e.is_inst()) throw exception("Lean inst local entry expected"); return push_expr(L, to_local_entry(L, 1).v()); return 1; } static const struct luaL_Reg local_entry_m[] = { {"__gc", local_entry_gc}, // never throws {"__eq", safe_function}, {"is_lift", safe_function}, {"is_inst", safe_function}, {"s", safe_function}, {"n", safe_function}, {"v", safe_function}, {0, 0} }; DECL_UDATA(local_context) static int mk_local_context(lua_State * L) { int nargs = lua_gettop(L); if (nargs == 0) { return push_local_context(L, local_context()); } else { return push_local_context(L, local_context(to_local_entry(L, 1), to_local_context(L, 2))); } } static int local_context_head(lua_State * L) { return push_local_entry(L, head(to_local_context(L, 1))); } static int local_context_tail(lua_State * L) { return push_local_context(L, tail(to_local_context(L, 1))); } static int local_context_is_nil(lua_State * L) { lua_pushboolean(L, !to_local_context(L, 1)); return 1; } static const struct luaL_Reg local_context_m[] = { {"__gc", local_context_gc}, {"head", local_context_head}, {"tail", local_context_tail}, {"is_nil", local_context_is_nil}, {0, 0} }; static void local_entry_migrate(lua_State * src, int i, lua_State * tgt) { push_local_entry(tgt, to_local_entry(src, i)); } static void local_context_migrate(lua_State * src, int i, lua_State * tgt) { push_local_context(tgt, to_local_context(src, i)); } static void open_local_context(lua_State * L) { luaL_newmetatable(L, local_entry_mt); set_migrate_fn_field(L, -1, local_entry_migrate); lua_pushvalue(L, -1); lua_setfield(L, -2, "__index"); setfuncs(L, local_entry_m, 0); SET_GLOBAL_FUN(local_entry_mk_lift, "mk_lift"); SET_GLOBAL_FUN(local_entry_mk_inst, "mk_inst"); SET_GLOBAL_FUN(local_entry_pred, "is_local_entry"); luaL_newmetatable(L, local_context_mt); set_migrate_fn_field(L, -1, local_context_migrate); lua_pushvalue(L, -1); lua_setfield(L, -2, "__index"); setfuncs(L, local_context_m, 0); SET_GLOBAL_FUN(mk_local_context, "local_context"); SET_GLOBAL_FUN(local_context_pred, "is_local_context"); } DECL_UDATA(expr) int push_optional_expr(lua_State * L, optional const & e) { if (e) push_expr(L, *e); else lua_pushnil(L); return 1; } expr & to_app(lua_State * L, int idx) { expr & r = to_expr(L, idx); if (!is_app(r)) throw exception("Lean application expression expected"); return r; } static int expr_tostring(lua_State * L) { std::ostringstream out; formatter fmt = get_global_formatter(L); options opts = get_global_options(L); out << mk_pair(fmt(to_expr(L, 1), opts), opts); lua_pushstring(L, out.str().c_str()); return 1; } static int expr_eq(lua_State * L) { lua_pushboolean(L, to_expr(L, 1) == to_expr(L, 2)); return 1; } static int expr_lt(lua_State * L) { lua_pushboolean(L, to_expr(L, 1) < to_expr(L, 2)); return 1; } static int expr_mk_constant(lua_State * L) { return push_expr(L, mk_constant(to_name_ext(L, 1))); } static int expr_mk_var(lua_State * L) { return push_expr(L, mk_var(luaL_checkinteger(L, 1))); } static int expr_mk_app(lua_State * L) { int nargs = lua_gettop(L); if (nargs < 2) throw exception("application must have at least two arguments"); buffer args; for (int i = 1; i <= nargs; i++) args.push_back(to_expr(L, i)); return push_expr(L, mk_app(args)); } static int expr_mk_eq(lua_State * L) { return push_expr(L, mk_eq(to_expr(L, 1), to_expr(L, 2))); } static int expr_mk_lambda(lua_State * L) { return push_expr(L, mk_lambda(to_name_ext(L, 1), to_expr(L, 2), to_expr(L, 3))); } static int expr_mk_pi(lua_State * L) { return push_expr(L, mk_pi(to_name_ext(L, 1), to_expr(L, 2), to_expr(L, 3))); } static int expr_mk_arrow(lua_State * L) { return push_expr(L, mk_arrow(to_expr(L, 1), to_expr(L, 2))); } static int expr_mk_let(lua_State * L) { int nargs = lua_gettop(L); if (nargs == 3) return push_expr(L, mk_let(to_name_ext(L, 1), to_expr(L, 2), to_expr(L, 3))); else return push_expr(L, mk_let(to_name_ext(L, 1), to_expr(L, 2), to_expr(L, 3), to_expr(L, 4))); } static expr get_expr_from_table(lua_State * L, int t, int i) { lua_pushvalue(L, t); // push table to the top lua_pushinteger(L, i); lua_gettable(L, -2); expr r = to_expr(L, -1); lua_pop(L, 2); // remove table and value return r; } // t is a table of pairs {{a1, b1}, ..., {ak, bk}} // Each ai and bi is an expression static std::pair get_expr_pair_from_table(lua_State * L, int t, int i) { lua_pushvalue(L, t); // push table on the top lua_pushinteger(L, i); lua_gettable(L, -2); // now table {ai, bi} is on the top if (!lua_istable(L, -1) || objlen(L, -1) != 2) throw exception("arg #1 must be of the form '{{expr, expr}, ...}'"); expr ai = get_expr_from_table(L, -1, 1); expr bi = get_expr_from_table(L, -1, 2); lua_pop(L, 2); // pop table {ai, bi} and t from stack return mk_pair(ai, bi); } typedef expr (*MkAbst1)(expr const & n, expr const & t, expr const & b); typedef expr (*MkAbst2)(name const & n, expr const & t, expr const & b); template int expr_abst(lua_State * L) { int nargs = lua_gettop(L); if (nargs < 2) throw exception("function must have at least 2 arguments"); if (nargs == 2) { if (!lua_istable(L, 1)) throw exception("function expects arg #1 to be of the form '{{expr, expr}, ...}'"); int len = objlen(L, 1); if (len == 0) throw exception("function expects arg #1 to be a non-empty table"); expr r = to_expr(L, 2); for (int i = len; i >= 1; i--) { auto p = get_expr_pair_from_table(L, 1, i); r = F1(p.first, p.second, r); } return push_expr(L, r); } else { if (nargs % 2 == 0) throw exception("function must have an odd number of arguments"); expr r = to_expr(L, nargs); for (int i = nargs - 1; i >= 1; i-=2) { if (is_expr(L, i - 1)) r = F1(to_expr(L, i - 1), to_expr(L, i), r); else r = F2(to_name_ext(L, i - 1), to_expr(L, i), r); } return push_expr(L, r); } } static int expr_fun(lua_State * L) { return expr_abst(L); } static int expr_pi(lua_State * L) { return expr_abst(L); } static int expr_let(lua_State * L) { return expr_abst(L); } static int expr_type(lua_State * L) { int nargs = lua_gettop(L); if (nargs == 0) return push_expr(L, Type()); else return push_expr(L, Type(to_level(L, 1))); } static int expr_mk_metavar(lua_State * L) { int nargs = lua_gettop(L); if (nargs == 1) return push_expr(L, mk_metavar(to_name_ext(L, 1))); else return push_expr(L, mk_metavar(to_name_ext(L, 1), to_local_context(L, 2))); } static int expr_get_kind(lua_State * L) { lua_pushinteger(L, static_cast(to_expr(L, 1).kind())); return 1; } #define EXPR_PRED(P) \ static int expr_ ## P(lua_State * L) { \ lua_pushboolean(L, P(to_expr(L, 1))); \ return 1; \ } EXPR_PRED(is_constant) EXPR_PRED(is_var) EXPR_PRED(is_app) EXPR_PRED(is_eq) EXPR_PRED(is_lambda) EXPR_PRED(is_pi) EXPR_PRED(is_abstraction) EXPR_PRED(is_let) EXPR_PRED(is_value) EXPR_PRED(is_metavar) EXPR_PRED(has_free_vars) EXPR_PRED(closed) EXPR_PRED(has_metavar) EXPR_PRED(is_not) EXPR_PRED(is_and) EXPR_PRED(is_or) EXPR_PRED(is_if) EXPR_PRED(is_iff) EXPR_PRED(is_implies) EXPR_PRED(is_forall) EXPR_PRED(is_exists) EXPR_PRED(is_homo_eq) /** \brief Iterator (closure base function) for application args. See \c expr_args */ static int expr_next_arg(lua_State * L) { expr & e = to_expr(L, lua_upvalueindex(1)); unsigned i = lua_tointeger(L, lua_upvalueindex(2)); if (i >= num_args(e)) { lua_pushnil(L); } else { lua_pushinteger(L, i + 1); lua_replace(L, lua_upvalueindex(2)); // update closure push_expr(L, arg(e, i)); } return 1; } static int expr_args(lua_State * L) { expr & e = to_app(L, 1); push_expr(L, e); // upvalue(1): expr lua_pushinteger(L, 0); // upvalue(2): index lua_pushcclosure(L, &safe_function, 2); // create closure with 2 upvalues return 1; } static int expr_num_args(lua_State * L) { lua_pushinteger(L, num_args(to_app(L, 1))); return 1; } static int expr_arg(lua_State * L) { expr & e = to_app(L, 1); int i = luaL_checkinteger(L, 2); if (i >= static_cast(num_args(e)) || i < 0) throw exception(sstream() << "invalid application argument #" << i << ", application has " << num_args(e) << " arguments"); return push_expr(L, arg(e, i)); } static int expr_fields(lua_State * L) { expr & e = to_expr(L, 1); switch (e.kind()) { case expr_kind::Var: lua_pushinteger(L, var_idx(e)); return 1; case expr_kind::Constant: return push_name(L, const_name(e)); case expr_kind::Type: return push_level(L, ty_level(e)); case expr_kind::Value: return to_value(e).push_lua(L); case expr_kind::App: lua_pushinteger(L, num_args(e)); expr_args(L); return 2; case expr_kind::Eq: push_expr(L, eq_lhs(e)); push_expr(L, eq_rhs(e)); return 2; case expr_kind::Lambda: case expr_kind::Pi: push_name(L, abst_name(e)); push_expr(L, abst_domain(e)); push_expr(L, abst_body(e)); return 3; case expr_kind::Let: push_name(L, let_name(e)); push_optional_expr(L, let_type(e)); push_expr(L, let_value(e)); push_expr(L, let_body(e)); return 4; case expr_kind::MetaVar: push_name(L, metavar_name(e)); push_local_context(L, metavar_lctx(e)); return 2; } lean_unreachable(); // LCOV_EXCL_LINE return 0; // LCOV_EXCL_LINE } static int expr_for_each(lua_State * L) { expr & e = to_expr(L, 1); // expr luaL_checktype(L, 2, LUA_TFUNCTION); // user-fun auto f = [&](expr const & a, unsigned offset) { lua_pushvalue(L, 2); // push user-fun push_expr(L, a); lua_pushinteger(L, offset); pcall(L, 2, 1, 0); bool r = true; if (lua_isboolean(L, -1)) r = lua_toboolean(L, -1); lua_pop(L, 1); return r; }; for_each_fn proc(f); proc(e); return 0; } static int expr_has_free_var(lua_State * L) { int nargs = lua_gettop(L); if (nargs == 2) lua_pushboolean(L, has_free_var(to_expr(L, 1), luaL_checkinteger(L, 2))); else lua_pushboolean(L, has_free_var(to_expr(L, 1), luaL_checkinteger(L, 2), luaL_checkinteger(L, 3))); return 1; } static int expr_lift_free_vars(lua_State * L) { int nargs = lua_gettop(L); if (nargs == 2) return push_expr(L, lift_free_vars(to_expr(L, 1), luaL_checkinteger(L, 2))); else return push_expr(L, lift_free_vars(to_expr(L, 1), luaL_checkinteger(L, 2), luaL_checkinteger(L, 3))); } static int expr_lower_free_vars(lua_State * L) { int nargs = lua_gettop(L); if (nargs == 2) return push_expr(L, lower_free_vars(to_expr(L, 1), luaL_checkinteger(L, 2))); else return push_expr(L, lower_free_vars(to_expr(L, 1), luaL_checkinteger(L, 2), luaL_checkinteger(L, 3))); } // Copy Lua table/array elements to r static void copy_lua_array(lua_State * L, int tidx, buffer & r) { luaL_checktype(L, tidx, LUA_TTABLE); int n = objlen(L, tidx); for (int i = 1; i <= n; i++) { lua_rawgeti(L, tidx, i); r.push_back(to_expr(L, -1)); lua_pop(L, 1); } } static int expr_instantiate(lua_State * L) { expr const & e = to_expr(L, 1); if (is_expr(L, 2)) { return push_expr(L, instantiate(e, to_expr(L, 2))); } else { buffer s; copy_lua_array(L, 2, s); return push_expr(L, instantiate(e, s.size(), s.data())); } } static int expr_abstract(lua_State * L) { expr const & e = to_expr(L, 1); if (is_expr(L, 2)) { expr const & e2 = to_expr(L, 2); return push_expr(L, abstract(e, 1, &e2)); } else { buffer s; copy_lua_array(L, 2, s); return push_expr(L, abstract(e, s.size(), s.data())); } } static int expr_occurs(lua_State * L) { lua_pushboolean(L, occurs(to_expr(L, 1), to_expr(L, 2))); return 1; } static int expr_is_eqp(lua_State * L) { lua_pushboolean(L, is_eqp(to_expr(L, 1), to_expr(L, 2))); return 1; } static int expr_hash(lua_State * L) { lua_pushinteger(L, to_expr(L, 1).hash()); return 1; } static const struct luaL_Reg expr_m[] = { {"__gc", expr_gc}, // never throws {"__tostring", safe_function}, {"__eq", safe_function}, {"__lt", safe_function}, {"__call", safe_function}, {"kind", safe_function}, {"is_var", safe_function}, {"is_constant", safe_function}, {"is_app", safe_function}, {"is_eq", safe_function}, {"is_lambda", safe_function}, {"is_pi", safe_function}, {"is_abstraction", safe_function}, {"is_let", safe_function}, {"is_value", safe_function}, {"is_metavar", safe_function}, {"fields", safe_function}, {"data", safe_function}, {"args", safe_function}, {"num_args", safe_function}, {"arg", safe_function}, {"for_each", safe_function}, {"has_free_vars", safe_function}, {"closed", safe_function}, {"has_free_var", safe_function}, {"lift_free_vars", safe_function}, {"lower_free_vars", safe_function}, {"instantiate", safe_function}, {"abstract", safe_function}, {"occurs", safe_function}, {"has_metavar", safe_function}, {"is_eqp", safe_function}, {"hash", safe_function}, {"is_not", safe_function}, {"is_and", safe_function}, {"is_or", safe_function}, {"is_if", safe_function}, {"is_iff", safe_function}, {"is_implies", safe_function}, {"is_forall", safe_function}, {"is_exists", safe_function}, {"is_home_eq", safe_function}, {0, 0} }; static void expr_migrate(lua_State * src, int i, lua_State * tgt) { push_expr(tgt, to_expr(src, i)); } static void open_expr(lua_State * L) { luaL_newmetatable(L, expr_mt); set_migrate_fn_field(L, -1, expr_migrate); lua_pushvalue(L, -1); lua_setfield(L, -2, "__index"); setfuncs(L, expr_m, 0); SET_GLOBAL_FUN(expr_mk_constant, "mk_constant"); SET_GLOBAL_FUN(expr_mk_constant, "Const"); SET_GLOBAL_FUN(expr_mk_var, "mk_var"); SET_GLOBAL_FUN(expr_mk_var, "Var"); SET_GLOBAL_FUN(expr_mk_app, "mk_app"); SET_GLOBAL_FUN(expr_mk_eq, "mk_eq"); SET_GLOBAL_FUN(expr_mk_eq, "Eq"); SET_GLOBAL_FUN(expr_mk_lambda, "mk_lambda"); SET_GLOBAL_FUN(expr_mk_pi, "mk_pi"); SET_GLOBAL_FUN(expr_mk_arrow, "mk_arrow"); SET_GLOBAL_FUN(expr_mk_let, "mk_let"); SET_GLOBAL_FUN(expr_fun, "fun"); SET_GLOBAL_FUN(expr_fun, "Fun"); SET_GLOBAL_FUN(expr_pi, "Pi"); SET_GLOBAL_FUN(expr_let, "Let"); SET_GLOBAL_FUN(expr_type, "mk_type"); SET_GLOBAL_FUN(expr_type, "Type"); SET_GLOBAL_FUN(expr_mk_metavar, "mk_metavar"); SET_GLOBAL_FUN(expr_pred, "is_expr"); lua_newtable(L); SET_ENUM("Var", expr_kind::Var); SET_ENUM("Constant", expr_kind::Constant); SET_ENUM("Type", expr_kind::Type); SET_ENUM("Value", expr_kind::Value); SET_ENUM("App", expr_kind::App); SET_ENUM("Eq", expr_kind::Eq); SET_ENUM("Lambda", expr_kind::Lambda); SET_ENUM("Pi", expr_kind::Pi); SET_ENUM("Let", expr_kind::Let); SET_ENUM("MetaVar", expr_kind::MetaVar); lua_setglobal(L, "expr_kind"); } DECL_UDATA(context_entry) static int mk_context_entry(lua_State * L) { int nargs = lua_gettop(L); if (nargs == 2) return push_context_entry(L, context_entry(to_name_ext(L, 1), to_expr(L, 2))); else return push_context_entry(L, context_entry(to_name_ext(L, 1), to_expr(L, 2), to_expr(L, 3))); } static int context_entry_get_name(lua_State * L) { return push_name(L, to_context_entry(L, 1).get_name()); } static int context_entry_get_domain(lua_State * L) { return push_optional_expr(L, to_context_entry(L, 1).get_domain()); } static int context_entry_get_body(lua_State * L) { return push_optional_expr(L, to_context_entry(L, 1).get_body()); } static const struct luaL_Reg context_entry_m[] = { {"__gc", context_entry_gc}, // never throws {"get_name", safe_function}, {"get_domain", safe_function}, {"get_body", safe_function}, {0, 0} }; DECL_UDATA(context) static int context_tostring(lua_State * L) { std::ostringstream out; formatter fmt = get_global_formatter(L); options opts = get_global_options(L); out << mk_pair(fmt(to_context(L, 1), opts), opts); lua_pushstring(L, out.str().c_str()); return 1; } static int mk_context(lua_State * L) { int nargs = lua_gettop(L); if (nargs == 0) { return push_context(L, context()); } else if (nargs == 2) { context_entry & e = to_context_entry(L, 2); return push_context(L, context(to_context(L, 1), e)); } else if (nargs == 3) { return push_context(L, context(to_context(L, 1), to_name_ext(L, 2), to_expr(L, 3))); } else { if (lua_isnil(L, 3)) return push_context(L, context(to_context(L, 1), to_name_ext(L, 2), none_expr(), to_expr(L, 4))); else return push_context(L, context(to_context(L, 1), to_name_ext(L, 2), to_expr(L, 3), to_expr(L, 4))); } } static int context_extend(lua_State * L) { int nargs = lua_gettop(L); if (nargs != 3 && nargs != 4) throw exception("extend expect 3 or 4 arguments"); return mk_context(L); } static int context_is_empty(lua_State * L) { lua_pushboolean(L, empty(to_context(L, 1))); return 1; } static int context_lookup(lua_State * L) { auto p = lookup_ext(to_context(L, 1), luaL_checkinteger(L, 2)); push_context_entry(L, p.first); push_context(L, p.second); return 2; } static int context_size(lua_State * L) { lua_pushinteger(L, to_context(L, 1).size()); return 1; } static const struct luaL_Reg context_m[] = { {"__gc", context_gc}, // never throws {"__tostring", safe_function}, {"__len", safe_function}, {"is_empty", safe_function}, {"size", safe_function}, {"extend", safe_function}, {"lookup", safe_function}, {0, 0} }; static void context_entry_migrate(lua_State * src, int i, lua_State * tgt) { push_context_entry(tgt, to_context_entry(src, i)); } static void context_migrate(lua_State * src, int i, lua_State * tgt) { push_context(tgt, to_context(src, i)); } static void open_context(lua_State * L) { luaL_newmetatable(L, context_entry_mt); set_migrate_fn_field(L, -1, context_entry_migrate); lua_pushvalue(L, -1); lua_setfield(L, -2, "__index"); setfuncs(L, context_entry_m, 0); SET_GLOBAL_FUN(mk_context_entry, "context_entry"); SET_GLOBAL_FUN(context_entry_pred, "is_context_entry"); luaL_newmetatable(L, context_mt); set_migrate_fn_field(L, -1, context_migrate); lua_pushvalue(L, -1); lua_setfield(L, -2, "__index"); setfuncs(L, context_m, 0); SET_GLOBAL_FUN(mk_context, "context"); SET_GLOBAL_FUN(context_pred, "is_context"); SET_GLOBAL_FUN(context_extend, "extend"); SET_GLOBAL_FUN(context_lookup, "lookup"); } DECL_UDATA(formatter) [[ noreturn ]] void throw_invalid_formatter_call() { throw exception("invalid formatter invocation, the acceptable arguments are: (expr, options?), (context, options?), (context, expr, bool? options?), (kernel object, options?), (environment, options?)"); } static int formatter_call_core(lua_State * L) { int nargs = lua_gettop(L); formatter & fmt = to_formatter(L, 1); options opts = get_global_options(L); if (nargs <= 3) { if (nargs == 3) { if (is_options(L, 3)) opts = to_options(L, 3); else if (is_context(L, 2) && is_expr(L, 3)) return push_format(L, fmt(to_context(L, 2), to_expr(L, 3))); else throw_invalid_formatter_call(); } if (is_expr(L, 2)) { return push_format(L, fmt(to_expr(L, 2), opts)); } else if (is_context(L, 2)) { return push_format(L, fmt(to_context(L, 2), opts)); } else if (is_environment(L, 2)) { ro_shared_environment env(L, 2); return push_format(L, fmt(env, opts)); } else if (is_object(L, 2)) { return push_format(L, fmt(to_object(L, 2), opts)); } else { throw_invalid_formatter_call(); } } else if (nargs <= 5) { if (nargs == 5) opts = to_options(L, 5); return push_format(L, fmt(to_context(L, 2), to_expr(L, 3), lua_toboolean(L, 4), opts)); } else { throw_invalid_formatter_call(); } } static int formatter_call(lua_State * L) { formatter & fmt = to_formatter(L, 1); optional env = fmt.get_environment(); if (env) { read_only_shared_environment ro_env(*env); return formatter_call_core(L); } else { return formatter_call_core(L); } } static const struct luaL_Reg formatter_m[] = { {"__gc", formatter_gc}, // never throws {"__call", safe_function}, {0, 0} }; static char g_formatter_key; static formatter g_simple_formatter = mk_simple_formatter(); optional get_global_formatter_core(lua_State * L) { io_state * io = get_io_state(L); if (io != nullptr) { return optional(io->get_formatter()); } else { lua_pushlightuserdata(L, static_cast(&g_formatter_key)); lua_gettable(L, LUA_REGISTRYINDEX); if (is_formatter(L, -1)) { formatter r = to_formatter(L, -1); lua_pop(L, 1); return optional(r); } else { lua_pop(L, 1); return optional(); } } } formatter get_global_formatter(lua_State * L) { auto r = get_global_formatter_core(L); if (r) return *r; else return g_simple_formatter; } void set_global_formatter(lua_State * L, formatter const & fmt) { io_state * io = get_io_state(L); if (io != nullptr) { io->set_formatter(fmt); } else { lua_pushlightuserdata(L, static_cast(&g_formatter_key)); push_formatter(L, fmt); lua_settable(L, LUA_REGISTRYINDEX); } } static int get_formatter(lua_State * L) { io_state * io = get_io_state(L); if (io != nullptr) { return push_formatter(L, io->get_formatter()); } else { return push_formatter(L, get_global_formatter(L)); } } static int set_formatter(lua_State * L) { set_global_formatter(L, to_formatter(L, 1)); return 0; } static void open_formatter(lua_State * L) { luaL_newmetatable(L, formatter_mt); lua_pushvalue(L, -1); lua_setfield(L, -2, "__index"); setfuncs(L, formatter_m, 0); SET_GLOBAL_FUN(formatter_pred, "is_formatter"); SET_GLOBAL_FUN(get_formatter, "get_formatter"); SET_GLOBAL_FUN(set_formatter, "set_formatter"); } DECL_UDATA(environment) int push_environment(lua_State * L, ro_environment const & env) { // Hack to avoid having environment and ro_environment in the Lua API // push_environment is a friend of the environment return push_environment(L, env.cast_to_environment()); } static environment get_global_environment(lua_State * L); ro_shared_environment::ro_shared_environment(lua_State * L, int idx): read_only_shared_environment(to_environment(L, idx)) { } ro_shared_environment::ro_shared_environment(lua_State * L): read_only_shared_environment(get_global_environment(L)) { } rw_shared_environment::rw_shared_environment(lua_State * L, int idx): read_write_shared_environment(to_environment(L, idx)) { } rw_shared_environment::rw_shared_environment(lua_State * L): read_write_shared_environment(get_global_environment(L)) { } static int mk_empty_environment(lua_State * L) { return push_environment(L, environment()); } static int environment_mk_child(lua_State * L) { rw_shared_environment env(L, 1); return push_environment(L, env->mk_child()); } static int environment_has_parent(lua_State * L) { ro_shared_environment env(L, 1); lua_pushboolean(L, env->has_parent()); return 1; } static int environment_has_children(lua_State * L) { ro_shared_environment env(L, 1); lua_pushboolean(L, env->has_children()); return 1; } static int environment_parent(lua_State * L) { ro_shared_environment env(L, 1); if (!env->has_parent()) throw exception("environment does not have a parent environment"); return push_environment(L, env->parent()); } static int environment_add_uvar(lua_State * L) { rw_shared_environment env(L, 1); int nargs = lua_gettop(L); if (nargs == 2) env->add_uvar(to_name_ext(L, 2)); else env->add_uvar(to_name_ext(L, 2), to_level(L, 3)); return 0; } static int environment_is_ge(lua_State * L) { ro_shared_environment env(L, 1); lua_pushboolean(L, env->is_ge(to_level(L, 2), to_level(L, 3))); return 1; } static int environment_get_uvar(lua_State * L) { ro_shared_environment env(L, 1); return push_level(L, env->get_uvar(to_name_ext(L, 2))); } static int environment_add_definition(lua_State * L) { rw_shared_environment env(L, 1); int nargs = lua_gettop(L); if (nargs == 3) { env->add_definition(to_name_ext(L, 2), to_expr(L, 3)); } else if (nargs == 4) { if (is_expr(L, 4)) env->add_definition(to_name_ext(L, 2), to_expr(L, 3), to_expr(L, 4)); else env->add_definition(to_name_ext(L, 2), to_expr(L, 3), lua_toboolean(L, 4)); } else { env->add_definition(to_name_ext(L, 2), to_expr(L, 3), to_expr(L, 4), lua_toboolean(L, 5)); } return 0; } static int environment_add_theorem(lua_State * L) { rw_shared_environment env(L, 1); env->add_theorem(to_name_ext(L, 2), to_expr(L, 3), to_expr(L, 4)); return 0; } static int environment_add_var(lua_State * L) { rw_shared_environment env(L, 1); env->add_var(to_name_ext(L, 2), to_expr(L, 3)); return 0; } static int environment_add_axiom(lua_State * L) { rw_shared_environment env(L, 1); env->add_axiom(to_name_ext(L, 2), to_expr(L, 3)); return 0; } static int environment_find_object(lua_State * L) { ro_shared_environment env(L, 1); return push_optional_object(L, env->find_object(to_name_ext(L, 2))); } static int environment_has_object(lua_State * L) { ro_shared_environment env(L, 1); lua_pushboolean(L, env->has_object(to_name_ext(L, 2))); return 1; } static int environment_type_check(lua_State * L) { ro_shared_environment env(L, 1); int nargs = lua_gettop(L); if (nargs == 2) return push_expr(L, env->type_check(to_expr(L, 2))); else return push_expr(L, env->type_check(to_expr(L, 2), to_context(L, 3))); } static int environment_normalize(lua_State * L) { ro_shared_environment env(L, 1); int nargs = lua_gettop(L); if (nargs == 2) return push_expr(L, env->normalize(to_expr(L, 2))); else return push_expr(L, env->normalize(to_expr(L, 2), to_context(L, 3))); } /** \brief Iterator (closure base function) for kernel objects. \see environment_objects \see environment_local_objects. */ static int environment_next_object(lua_State * L) { ro_shared_environment env(L, lua_upvalueindex(1)); unsigned i = lua_tointeger(L, lua_upvalueindex(2)); unsigned num = lua_tointeger(L, lua_upvalueindex(3)); if (i >= num) { lua_pushnil(L); } else { bool local = lua_toboolean(L, lua_upvalueindex(4)); lua_pushinteger(L, i + 1); lua_replace(L, lua_upvalueindex(2)); // update closure push_object(L, env->get_object(i, local)); } return 1; } static int environment_objects_core(lua_State * L, bool local) { ro_shared_environment env(L, 1); push_environment(L, env); // upvalue(1): environment lua_pushinteger(L, 0); // upvalue(2): index lua_pushinteger(L, env->get_num_objects(local)); // upvalue(3): size lua_pushboolean(L, local); // upvalue(4): local flag lua_pushcclosure(L, &safe_function, 4); // create closure with 4 upvalues return 1; } static int environment_objects(lua_State * L) { return environment_objects_core(L, false); } static int environment_local_objects(lua_State * L) { return environment_objects_core(L, true); } static int environment_infer_type(lua_State * L) { int nargs = lua_gettop(L); ro_shared_environment env(L, 1); if (nargs == 2) return push_expr(L, env->infer_type(to_expr(L, 2))); else return push_expr(L, env->infer_type(to_expr(L, 2), to_context(L, 3))); } static int environment_tostring(lua_State * L) { ro_shared_environment env(L, 1); std::ostringstream out; formatter fmt = get_global_formatter(L); options opts = get_global_options(L); out << mk_pair(fmt(env, opts), opts); lua_pushstring(L, out.str().c_str()); return 1; } static int environment_set_opaque(lua_State * L) { rw_shared_environment env(L, 1); env->set_opaque(to_name_ext(L, 2), lua_toboolean(L, 3)); return 0; } static int environment_is_opaque(lua_State * L) { ro_shared_environment env(L, 1); auto obj = env->find_object(to_name_ext(L, 2)); lua_pushboolean(L, obj && obj->is_opaque()); return 1; } static const struct luaL_Reg environment_m[] = { {"__gc", environment_gc}, // never throws {"__tostring", safe_function}, {"mk_child", safe_function}, {"has_parent", safe_function}, {"has_children", safe_function}, {"parent", safe_function}, {"add_uvar", safe_function}, {"is_ge", safe_function}, {"get_uvar", safe_function}, {"add_definition", safe_function}, {"add_theorem", safe_function}, {"add_var", safe_function}, {"add_axiom", safe_function}, {"find_object", safe_function}, {"has_object", safe_function}, {"type_check", safe_function}, {"infer_type", safe_function}, {"normalize", safe_function}, {"objects", safe_function}, {"local_objects", safe_function}, {"set_opaque", safe_function}, {"is_opaque", safe_function}, {0, 0} }; static char g_set_environment_key; set_environment::set_environment(lua_State * L, environment const & env) { m_state = L; lua_pushlightuserdata(m_state, static_cast(&g_set_environment_key)); push_environment(m_state, env); lua_settable(m_state, LUA_REGISTRYINDEX); } set_environment::~set_environment() { lua_pushlightuserdata(m_state, static_cast(&g_set_environment_key)); lua_pushnil(m_state); lua_settable(m_state, LUA_REGISTRYINDEX); } static environment get_global_environment(lua_State * L) { lua_pushlightuserdata(L, static_cast(&g_set_environment_key)); lua_gettable(L, LUA_REGISTRYINDEX); if (!is_environment(L, -1)) throw exception("Lua registry does not contain a Lean environment"); environment r = to_environment(L, -1); lua_pop(L, 1); return r; } int get_environment(lua_State * L) { return push_environment(L, get_global_environment(L)); } static void environment_migrate(lua_State * src, int i, lua_State * tgt) { push_environment(tgt, to_environment(src, i)); } static void open_environment(lua_State * L) { luaL_newmetatable(L, environment_mt); set_migrate_fn_field(L, -1, environment_migrate); lua_pushvalue(L, -1); lua_setfield(L, -2, "__index"); setfuncs(L, environment_m, 0); SET_GLOBAL_FUN(mk_empty_environment, "empty_environment"); SET_GLOBAL_FUN(environment_pred, "is_environment"); SET_GLOBAL_FUN(get_environment, "get_environment"); SET_GLOBAL_FUN(get_environment, "get_env"); } DECL_UDATA(object) int push_optional_object(lua_State * L, optional const & o) { if (o) push_object(L, *o); else lua_pushnil(L); return 1; } static int object_keyword(lua_State * L) { lua_pushstring(L, to_object(L, 1).keyword()); return 1; } static int object_has_name(lua_State * L) { lua_pushboolean(L, to_object(L, 1).has_name()); return 1; } static int object_get_name(lua_State * L) { object const & o = to_object(L, 1); if (!o.has_name()) throw exception("kernel object does not have a name"); return push_name(L, o.get_name()); } static int object_has_type(lua_State * L) { lua_pushboolean(L, to_object(L, 1).has_type()); return 1; } static int object_get_type(lua_State * L) { object const & o = to_object(L, 1); if (!o.has_type()) throw exception("kernel object does not have a type"); return push_expr(L, o.get_type()); } static int object_has_cnstr_level(lua_State * L) { lua_pushboolean(L, to_object(L, 1).has_cnstr_level()); return 1; } static int object_get_cnstr_level(lua_State * L) { object const & o = to_object(L, 1); if (!o.has_cnstr_level()) throw exception("kernel object does not have a constraint level"); return push_level(L, o.get_cnstr_level()); } static int object_get_value(lua_State * L) { object const & o = to_object(L, 1); if (!o.is_definition() && !o.is_builtin()) throw exception("kernel object is not a definition/theorem/builtin"); return push_expr(L, o.get_value()); } static int object_get_weight(lua_State * L) { object const & o = to_object(L, 1); if (!o.is_definition()) throw exception("kernel object is not a definition"); lua_pushinteger(L, o.get_weight()); return 1; } #define OBJECT_PRED(P) \ static int object_ ## P(lua_State * L) { \ lua_pushboolean(L, to_object(L, 1).P()); \ return 1; \ } OBJECT_PRED(is_definition) OBJECT_PRED(is_opaque) OBJECT_PRED(is_axiom) OBJECT_PRED(is_theorem) OBJECT_PRED(is_var_decl) OBJECT_PRED(is_builtin) OBJECT_PRED(is_builtin_set) static int object_in_builtin_set(lua_State * L) { lua_pushboolean(L, to_object(L, 1).in_builtin_set(to_expr(L, 2))); return 1; } static int object_tostring(lua_State * L) { std::ostringstream out; formatter fmt = get_global_formatter(L); options opts = get_global_options(L); out << mk_pair(fmt(to_object(L, 1), opts), opts); lua_pushstring(L, out.str().c_str()); return 1; } static const struct luaL_Reg object_m[] = { {"__gc", object_gc}, // never throws {"__tostring", safe_function}, {"keyword", safe_function}, {"has_name", safe_function}, {"get_name", safe_function}, {"has_type", safe_function}, {"get_type", safe_function}, {"has_cnstr_level", safe_function}, {"get_cnstr_level", safe_function}, {"is_definition", safe_function}, {"is_opaque", safe_function}, {"get_value", safe_function}, {"get_weight", safe_function}, {"is_axiom", safe_function}, {"is_theorem", safe_function}, {"is_var_decl", safe_function}, {"is_builtin", safe_function}, {"is_builtin_set", safe_function}, {"in_builtin_set", safe_function}, {0, 0} }; static void open_object(lua_State * L) { luaL_newmetatable(L, object_mt); lua_pushvalue(L, -1); lua_setfield(L, -2, "__index"); setfuncs(L, object_m, 0); SET_GLOBAL_FUN(object_pred, "is_kernel_object"); } DECL_UDATA(justification) int push_optional_justification(lua_State * L, optional const & j) { if (j) push_justification(L, *j); else lua_pushnil(L); return 1; } static int justification_tostring(lua_State * L) { std::ostringstream out; justification & jst = to_justification(L, 1); if (jst) { formatter fmt = get_global_formatter(L); options opts = get_global_options(L); out << mk_pair(jst.pp(fmt, opts), opts); } else { out << ""; } lua_pushstring(L, out.str().c_str()); return 1; } static int justification_has_children(lua_State * L) { lua_pushboolean(L, to_justification(L, 1).has_children()); return 1; } static int justification_is_null(lua_State * L) { lua_pushboolean(L, !to_justification(L, 1)); return 1; } /** \brief Iterator (closure base function) for justification children. See \c justification_children */ static int justification_next_child(lua_State * L) { unsigned i = lua_tointeger(L, lua_upvalueindex(2)); unsigned num = objlen(L, lua_upvalueindex(1)); if (i > num) { lua_pushnil(L); } else { lua_pushinteger(L, i + 1); lua_replace(L, lua_upvalueindex(2)); // update i lua_rawgeti(L, lua_upvalueindex(1), i); // read children[i] } return 1; } static int justification_children(lua_State * L) { buffer children; to_justification(L, 1).get_children(children); lua_newtable(L); int i = 1; for (auto jcell : children) { push_justification(L, justification(jcell)); lua_rawseti(L, -2, i); i = i + 1; } lua_pushinteger(L, 1); lua_pushcclosure(L, &safe_function, 2); // create closure with 2 upvalues return 1; } static int justification_get_main_expr(lua_State * L) { optional r = to_justification(L, 1).get_main_expr(); if (r) push_expr(L, *r); else lua_pushnil(L); return 1; } static int justification_pp(lua_State * L) { int nargs = lua_gettop(L); justification & jst = to_justification(L, 1); formatter fmt = get_global_formatter(L); options opts = get_global_options(L); bool display_children = true; if (nargs == 2) { if (lua_isboolean(L, 2)) { display_children = lua_toboolean(L, 2); } else { luaL_checktype(L, 2, LUA_TTABLE); lua_pushstring(L, "formatter"); lua_gettable(L, 2); if (is_formatter(L, -1)) fmt = to_formatter(L, -1); lua_pop(L, 1); lua_pushstring(L, "options"); lua_gettable(L, 2); if (is_options(L, -1)) opts = to_options(L, -1); lua_pop(L, 1); lua_pushstring(L, "display_children"); lua_gettable(L, 2); if (lua_isboolean(L, -1)) display_children = lua_toboolean(L, -1); lua_pop(L, 1); } } return push_format(L, jst.pp(fmt, opts, nullptr, display_children)); } static int justification_depends_on(lua_State * L) { lua_pushboolean(L, depends_on(to_justification(L, 1), to_justification(L, 2))); return 1; } static int mk_assumption_justification(lua_State * L) { return push_justification(L, mk_assumption_justification(luaL_checkinteger(L, 1))); } static const struct luaL_Reg justification_m[] = { {"__gc", justification_gc}, // never throws {"__tostring", safe_function}, {"is_null", safe_function}, {"has_children", safe_function}, {"children", safe_function}, {"get_main_expr", safe_function}, {"pp", safe_function}, {"depends_on", safe_function}, {0, 0} }; static void open_justification(lua_State * L) { luaL_newmetatable(L, justification_mt); lua_pushvalue(L, -1); lua_setfield(L, -2, "__index"); setfuncs(L, justification_m, 0); SET_GLOBAL_FUN(mk_assumption_justification, "mk_assumption_justification"); SET_GLOBAL_FUN(justification_pred, "is_justification"); } DECL_UDATA(metavar_env) static int menv_mk_metavar(lua_State * L) { int nargs = lua_gettop(L); if (nargs == 1) { return push_expr(L, to_metavar_env(L, 1)->mk_metavar()); } else if (nargs == 2) { return push_expr(L, to_metavar_env(L, 1)->mk_metavar(to_context(L, 2))); } else { return push_expr(L, to_metavar_env(L, 1)->mk_metavar(to_context(L, 2), some_expr(to_expr(L, 3)))); } } static expr & to_metavar(lua_State * L, int i, bool lctx = true) { expr & e = to_expr(L, i); if (is_metavar(e)) { if (lctx || !has_local_context(e)) return e; throw exception(sstream() << "arg #" << i << " must be a metavariable without a local context"); } throw exception(sstream() << "arg #" << i << " must be a metavariable"); } static int menv_get_timestamp(lua_State * L) { lua_pushinteger(L, to_metavar_env(L, 1)->get_timestamp()); return 1; } static int menv_get_context(lua_State * L) { if (is_expr(L, 2)) return push_context(L, to_metavar_env(L, 1)->get_context(to_metavar(L, 2, false))); else return push_context(L, to_metavar_env(L, 1)->get_context(to_name_ext(L, 2))); } static int menv_has_type(lua_State * L) { if (is_expr(L, 2)) lua_pushboolean(L, to_metavar_env(L, 1)->has_type(to_metavar(L, 2))); else lua_pushboolean(L, to_metavar_env(L, 1)->has_type(to_name_ext(L, 2))); return 1; } static int menv_get_type(lua_State * L) { if (is_expr(L, 2)) return push_expr(L, to_metavar_env(L, 1)->get_type(to_metavar(L, 2))); else return push_expr(L, to_metavar_env(L, 1)->get_type(to_name_ext(L, 2))); } static int menv_is_assigned(lua_State * L) { if (is_expr(L, 2)) lua_pushboolean(L, to_metavar_env(L, 1)->is_assigned(to_metavar(L, 2))); else lua_pushboolean(L, to_metavar_env(L, 1)->is_assigned(to_name_ext(L, 2))); return 1; } static int menv_assign(lua_State * L) { int nargs = lua_gettop(L); justification jst; if (nargs == 4) jst = to_justification(L, 4); if (is_expr(L, 2)) to_metavar_env(L, 1)->assign(to_metavar(L, 2, false), to_expr(L, 3), jst); else to_metavar_env(L, 1)->assign(to_name_ext(L, 2), to_expr(L, 3), jst); return 0; } static int menv_get_subst(lua_State * L) { if (is_expr(L, 2)) return push_optional_expr(L, to_metavar_env(L, 1)->get_subst(to_metavar(L, 2))); else return push_optional_expr(L, to_metavar_env(L, 1)->get_subst(to_name_ext(L, 2))); } static int menv_get_justification(lua_State * L) { if (is_expr(L, 2)) return push_optional_justification(L, to_metavar_env(L, 1)->get_justification(to_metavar(L, 2))); else return push_optional_justification(L, to_metavar_env(L, 1)->get_justification(to_name_ext(L, 2))); } static int menv_get_subst_jst(lua_State * L) { optional> r; if (is_expr(L, 2)) { r = to_metavar_env(L, 1)->get_subst_jst(to_metavar(L, 2)); } else { r = to_metavar_env(L, 1)->get_subst_jst(to_name_ext(L, 2)); } if (r) { push_expr(L, r->first); push_justification(L, r->second); return 2; } else { return 0; } } static int menv_for_each_subst(lua_State * L) { luaL_checktype(L, 2, LUA_TFUNCTION); // user-fun to_metavar_env(L, 1)->for_each_subst([&](name const & n, expr const & e) { lua_pushvalue(L, 2); // push user-fun push_name(L, n); push_expr(L, e); pcall(L, 2, 0, 0); }); return 0; } static int mk_metavar_env(lua_State * L) { if (lua_gettop(L) == 1) return push_metavar_env(L, metavar_env(to_name_ext(L, 1))); else return push_metavar_env(L, metavar_env()); } static int menv_copy(lua_State * L) { return push_metavar_env(L, metavar_env(to_metavar_env(L, 1).copy())); } static int instantiate_metavars(lua_State * L) { return push_expr(L, to_metavar_env(L, 2)->instantiate_metavars(to_expr(L, 1))); } static const struct luaL_Reg metavar_env_m[] = { {"__gc", metavar_env_gc}, // never throws {"mk_metavar", safe_function}, {"get_timestamp", safe_function}, {"get_context", safe_function}, {"has_type", safe_function}, {"get_type", safe_function}, {"is_assigned", safe_function}, {"assign", safe_function}, {"get_subst", safe_function}, {"get_justification", safe_function}, {"get_subst_jst", safe_function}, {"for_each_subst", safe_function}, {"copy", safe_function}, {0, 0} }; static void open_metavar_env(lua_State * L) { luaL_newmetatable(L, metavar_env_mt); lua_pushvalue(L, -1); lua_setfield(L, -2, "__index"); setfuncs(L, metavar_env_m, 0); SET_GLOBAL_FUN(mk_metavar_env, "metavar_env"); SET_GLOBAL_FUN(metavar_env_pred, "is_metavar_env"); SET_GLOBAL_FUN(instantiate_metavars, "instantiate_metavars"); } constexpr char const * type_inferer_mt = "type_inferer"; type_inferer & to_type_inferer(lua_State * L, int i) { return *static_cast(luaL_checkudata(L, i, type_inferer_mt)); } DECL_PRED(type_inferer) DECL_GC(type_inferer) static int type_inferer_call(lua_State * L) { int nargs = lua_gettop(L); type_inferer & inferer = to_type_inferer(L, 1); if (nargs == 2) return push_expr(L, inferer(to_expr(L, 2))); else return push_expr(L, inferer(to_expr(L, 2), to_context(L, 3))); } static int type_inferer_clear(lua_State * L) { to_type_inferer(L, 1).clear(); return 0; } static int mk_type_inferer(lua_State * L) { void * mem = lua_newuserdata(L, sizeof(type_inferer)); new (mem) type_inferer(to_environment(L, 1)); luaL_getmetatable(L, type_inferer_mt); lua_setmetatable(L, -2); return 1; } static const struct luaL_Reg type_inferer_m[] = { {"__gc", type_inferer_gc}, // never throws {"__call", safe_function}, {"clear", safe_function}, {0, 0} }; void open_type_inferer(lua_State * L) { luaL_newmetatable(L, type_inferer_mt); lua_pushvalue(L, -1); lua_setfield(L, -2, "__index"); setfuncs(L, type_inferer_m, 0); SET_GLOBAL_FUN(mk_type_inferer, "type_inferer"); SET_GLOBAL_FUN(type_inferer_pred, "is_type_inferer"); } DECL_UDATA(io_state) int mk_io_state(lua_State * L) { int nargs = lua_gettop(L); if (nargs == 0) return push_io_state(L, io_state()); else if (nargs == 1) return push_io_state(L, io_state(to_io_state(L, 1))); else return push_io_state(L, io_state(to_options(L, 1), to_formatter(L, 2))); } int io_state_get_options(lua_State * L) { return push_options(L, to_io_state(L, 1).get_options()); } int io_state_get_formatter(lua_State * L) { return push_formatter(L, to_io_state(L, 1).get_formatter()); } int io_state_set_options(lua_State * L) { to_io_state(L, 1).set_options(to_options(L, 2)); return 0; } static mutex g_print_mutex; static void print(io_state * ios, bool reg, char const * msg) { if (ios) { if (reg) regular(*ios) << msg; else diagnostic(*ios) << msg; } else { std::cout << msg; } } /** \brief Thread safe version of print function */ static int print(lua_State * L, int start, bool reg) { lock_guard lock(g_print_mutex); io_state * ios = get_io_state(L); int n = lua_gettop(L); int i; lua_getglobal(L, "tostring"); for (i = start; i <= n; i++) { char const * s; size_t l; lua_pushvalue(L, -1); lua_pushvalue(L, i); lua_call(L, 1, 1); s = lua_tolstring(L, -1, &l); if (s == NULL) throw exception("'to_string' must return a string to 'print'"); if (i > start) { print(ios, reg, "\t"); } print(ios, reg, s); lua_pop(L, 1); } print(ios, reg, "\n"); return 0; } static int print(lua_State * L, io_state & ios, int start, bool reg) { set_io_state set(L, ios); return print(L, start, reg); } static int print(lua_State * L) { return print(L, 1, true); } int io_state_print_regular(lua_State * L) { return print(L, to_io_state(L, 1), 2, true); } int io_state_print_diagnostic(lua_State * L) { return print(L, to_io_state(L, 1), 2, false); } static const struct luaL_Reg io_state_m[] = { {"__gc", io_state_gc}, // never throws {"get_options", safe_function}, {"set_options", safe_function}, {"get_formatter", safe_function}, {"print_diagnostic", safe_function}, {"print_regular", safe_function}, {"print", safe_function}, {"diagnostic", safe_function}, {0, 0} }; void open_io_state(lua_State * L) { luaL_newmetatable(L, io_state_mt); lua_pushvalue(L, -1); lua_setfield(L, -2, "__index"); setfuncs(L, io_state_m, 0); SET_GLOBAL_FUN(io_state_pred, "is_io_state"); SET_GLOBAL_FUN(mk_io_state, "io_state"); SET_GLOBAL_FUN(print, "print"); } static char g_set_state_key; set_io_state::set_io_state(lua_State * L, io_state & st) { m_state = L; m_prev = get_io_state(L); lua_pushlightuserdata(m_state, static_cast(&g_set_state_key)); lua_pushlightuserdata(m_state, &st); lua_settable(m_state, LUA_REGISTRYINDEX); if (!m_prev) m_prev_options = get_global_options(m_state); set_global_options(m_state, st.get_options()); } set_io_state::~set_io_state() { lua_pushlightuserdata(m_state, static_cast(&g_set_state_key)); lua_pushlightuserdata(m_state, m_prev); lua_settable(m_state, LUA_REGISTRYINDEX); if (!m_prev) set_global_options(m_state, m_prev_options); else set_global_options(m_state, m_prev->get_options()); } io_state * get_io_state(lua_State * L) { lua_pushlightuserdata(L, static_cast(&g_set_state_key)); lua_gettable(L, LUA_REGISTRYINDEX); if (lua_islightuserdata(L, -1)) { io_state * r = static_cast(lua_touserdata(L, -1)); if (r) { lua_pop(L, 1); options o = get_global_options(L); r->set_options(o); return r; } } lua_pop(L, 1); return nullptr; } void open_kernel_module(lua_State * L) { open_level(L); open_local_context(L); open_expr(L); open_context(L); open_formatter(L); open_environment(L); open_object(L); open_justification(L); open_metavar_env(L); open_type_inferer(L); open_io_state(L); } }