/* Copyright (c) 2013 Microsoft Corporation. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Author: Leonardo de Moura */ #pragma once #include namespace lean { void setfuncs(lua_State * L, luaL_Reg const * l, int nup); bool testudata(lua_State * L, int idx, char const * mt); int load(lua_State * L, lua_Reader reader, void * data, char const * source); size_t objlen(lua_State * L, int idx); void dofile(lua_State * L, char const * fname); void dostring(lua_State * L, char const * str); void pcall(lua_State * L, int nargs, int nresults, int errorfun); int lessthan(lua_State * L, int idx1, int idx2); int equal(lua_State * L, int idx1, int idx2); int get_nonnil_top(lua_State * L); /** \brief Wrapper for invoking function f, and catching Lean exceptions. */ int safe_function_wrapper(lua_State * L, lua_CFunction f); template int safe_function(lua_State * L) { return safe_function_wrapper(L, F); } template void set_global_function(lua_State * L, char const * name) { lua_pushcfunction(L, safe_function); lua_setglobal(L, name); } #define SET_GLOBAL_FUN(F, N) set_global_function(L, N) // Auxiliary macro for creating a Lua table that stores enumeration values #define SET_ENUM(N, V) lua_pushstring(L, N); lua_pushinteger(L, static_cast(V)); lua_settable(L, -3) #define DECL_PUSH_CORE(NAME, T, TREF) \ int push_ ## NAME(lua_State * L, TREF val) { \ void * mem = lua_newuserdata(L, sizeof(T)); \ new (mem) T(val); \ luaL_getmetatable(L, NAME ## _mt); \ lua_setmetatable(L, -2); \ return 1; \ } #define DECL_PUSH(T) \ DECL_PUSH_CORE(T, T, T const &) \ DECL_PUSH_CORE(T, T, T &&) #define DECL_GC(T) static int T ## _gc(lua_State * L) { static_cast(lua_touserdata(L, 1))->~T(); return 0; } #define DECL_PRED(T) \ bool is_ ## T(lua_State * L, int idx) { return testudata(L, idx, T ## _mt); } \ static int T ## _pred(lua_State * L) { \ lua_pushboolean(L, is_ ## T(L, 1)); \ return 1; \ } /** \brief Create basic declarations for adding a new kind of userdata in Lua T is a Lean object type. For example, if T == expr, it produces an implementation for the following declarations constexpr char const * expr_mt = "expr"; expr & to_expr(lua_State * L, int i); bool is_expr(lua_State * L, int i); static int expr_pred(lua_State * L); static int expr_gc(lua_State * L); int push_expr(lua_State * L, expr const & e); int push_expr(lua_State * L, expr && e); */ #define DECL_UDATA(T) \ constexpr char const * T ## _mt = #T; \ T & to_ ## T(lua_State * L, int i) { return *static_cast(luaL_checkudata(L, i, T ## _mt)); } \ DECL_PRED(T) \ DECL_GC(T) \ DECL_PUSH(T) /** \brief Similar to DECL_UDATA, but it only declares the functions. For example, if T == expr, it produces the following declarations: class expr; expr & to_expr(lua_State * L, int i); bool is_expr(lua_State * L, int i); int push_expr(lua_State * L, expr const & e); int push_expr(lua_State * L, expr && e); */ #define UDATA_DEFS_CORE(T) \ T & to_ ## T(lua_State * L, int i); \ bool is_ ## T(lua_State * L, int i); \ int push_ ## T(lua_State * L, T const & e); \ int push_ ## T(lua_State * L, T && e); #define UDATA_DEFS(T) \ class T; \ UDATA_DEFS_CORE(T) }