state ===== owning and non-owning state holders for registry and globals ------------------------------------------------------------ .. code-block:: cpp class state_view; class state : state_view, std::unique_ptr; The most important class here is ``state_view``. This structure takes a ``lua_State*`` that was already created and gives you simple, easy access to Lua's interfaces without taking ownership. ``state`` derives from ``state_view``, inheriting all of this functionality, but has the additional purpose of creating a fresh ``lua_State*`` and managing its lifetime for you in the default constructor. The majority of the members between ``state_view`` and :doc:`sol::table` are identical, with added for this higher-level type. Therefore, all of the examples and notes in :doc:`sol::table
` apply here as well. enumerations ------------ .. code-block:: cpp :caption: in-lua libraries :name: lib-enum enum class lib : char { base, package, coroutine, string, os, math, table, debug, bit32, io, ffi, jit, count // do not use }; This enumeration details the various base libraries that come with Lua. See the `standard lua libraries`_ for details about the various standard libraries. members ------- .. code-block:: cpp :caption: function: open standard libraries/modules :name: open-libraries template void open_libraries(Args&&... args); This function takes a number of :ref:`sol::lib` as arguments and opens up the associated Lua core libraries. .. code-block:: cpp :caption: function: script / script_file void script(const std::string& code); void script_file(const std::string& filename); These functions run the desired blob of either code that is in a string, or code that comes from a filename, on the ``lua_State*``. It will not run isolated: any scripts or code run will affect code in other states as well: code ran in this fashion is not isolated. .. code-block:: cpp :caption: function: load / load_file sol::stack_proxy load(const std::string& code); sol::stack_proxy load_file(const std::string& filename); These functions *load* the desired blob of either code that is in a string, or code that comes from a filename, on the ``lua_State*``. It will not run: it returns a proxy that can be called, turned into a `sol::function`,. or similar, will run the loaded code. .. code-block:: cpp :caption: function: global table / registry table sol::global_table globals() const; sol::table registry() const; Get either the global table or the Lua registry as a :doc:`sol::table
`, which allows you to modify either of them directly. Note that getting the global table from a ``state``/``state_view`` is usually unnecessary as it has all the exact same functions as a :doc:`sol::table
` anyhow. .. code-block:: cpp :caption: function: Lua set_panic :name: set-panic void set_panic(lua_CFunction panic); Overrides the panic function Lua calls when something unrecoverable or unexpected happens in the Lua VM. Must be a function of the that matches the ``int(*)(lua_State*)`` function signature. .. code-block:: cpp :caption: function: make a table sol::table create_table(int narr = 0, int nrec = 0); template sol::table create_table(int narr, int nrec, Key&& key, Value&& value, Args&&... args); static sol::table create_table(lua_State* L, int narr = 0, int nrec = 0); template static sol::table create_table(lua_State* L, int narr, int nrec, Key&& key, Value&& value, Args&&... args); Creates a table. Forwards its arguments to :ref:`table::create`. .. _standard lua libraries: http://www.lua.org/manual/5.2/manual.html#6