integrating into existing code ============================== If you're already using lua and you just want to use ``sol`` in some places, you can use ``state_view``: .. code-block:: cpp :linenos: :caption: using state_view :name: state-view-snippet int something_in_my_system (lua_State* L) { // start using Sol with a pre-existing system sol::state_view lua(L); // non-owning lua.script("print('bark bark bark!')"); // get the table off the top of the stack sol::table expected_table(L, -1); // start using it... return 0; // or whatever you require of working with a raw function } :doc:`sol::state_view<../api/state>` is exactly like ``sol::state``, but it doesn't manage the lifetime of a ``lua_State*``. Therefore, you get all the goodies that come with a ``sol::state`` without any of the ownership implications. Sol has no initialization components that need to deliberately remain alive for the duration of the program. It's entirely self-containing and uses lua's garbage collectors and various implementation techniques to require no state C++-side. After you do that, all of the power of `Sol` is available to you, and then some! ``sol::state_view`` is also helpful when you want to `create a DLL that loads some Lua module`_ via requires. You may also want to call ``require`` and supply a string of a script file or something that returns an object that you set equal to something in C++. For that, you can use the :ref:`require functionality`. Remember that Sol can be as lightweight as you want it: almost all of Sol's Lua types take the ``lua_State*`` argument and then a second ``int index`` stack index argument, meaning you can use :doc:`tables<../api/table>`, :doc:`lua functions<../api/function>`, :doc:`coroutines<../api/coroutine>`, and other reference-derived objects that expose the proper constructor for your use. You can also set :doc:`usertypes<../api/usertype>` and other things you need without changing your entire architecture in one go. You can even customize it to `work with an external Lua wrapper/framework/library`_. Note that you can also make non-standard pointer and reference types with custom reference counting and such also play nice with the system. See :doc:`unique_usertype_traits\<../api/unique_usertype_traits>` to see how! Custom types is also mentioned in the :doc:`customization tutorial`. There are a few things that creating a ``sol::state`` does for you. You can read about it :ref:`in the sol::state docs` and call those functions directly if you need them. .. _create a DLL that loads some Lua module: https://github.com/ThePhD/sol2/tree/develop/examples/require_dll_example .. _work with an external Lua wrapper/framework/library: https://github.com/ThePhD/sol2/tree/develop/examples/interop