Sol3 (sol2 v3.0) - a C++ <-> Lua API wrapper with advanced features and top notch performance - is here, and it's great! Documentation:
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ThePhD 19d01ecd1d Okay, cleaned up includes and now the newest feature:
STATEFUL FUNCTIONS!
Any stateful function now works and is properly cleaned up, thanks to some additional metatables that are associated with the function values.
This lays the ground work for class bindings, but that's a far off dream. For now, table retrieval and `operator[]` is what's for dinner.
2013-12-09 14:12:38 -05:00
sol Okay, cleaned up includes and now the newest feature: 2013-12-09 14:12:38 -05:00
.gitignore Adding mingw libraries (liblua.a) to gitignore 2013-12-07 21:17:07 -05:00
LICENSE.txt Initial commit 2013-11-25 04:56:27 -05:00
README.md Removed uses of constexpr for MSVC 2013 2013-11-25 05:20:14 -05:00
sol.hpp function header with addition to sol.hpp so that a person can do function invocations on lua functions without explicitly adding sol/functions.hpp 2013-12-01 18:15:26 -05:00

Sol

Sol is a C++ library binding to Lua. It currently supports Lua 5.2. Sol aims to be easy to use and easy to add to a project. At this time, the library is header-only for easy integration with projects.

Caveats

Due to how this library is used compared to the C API, the Lua Stack is completely abstracted away. Not only that, but all Lua errors are thrown as exceptions instead. This allows you to handle the errors gracefully without being forced to exit.

It should be noted that the library itself depends on lua.hpp to be found by your compiler. It uses angle brackets, e.g. #include <lua.hpp>.

Example

Here's an example on how to load a basic configuration struct with a Lua script.

#include <sol.hpp>
#include <iostream>
#include <string>

struct test {
    int foo;
    std::string bar;
    double baz;
};

test load(const sol::table& t) {
    return { t.get<int>("foo"), t.get<std::string>("bar"), t.get<double>("baz") };
}

int main() {
    try {
        sol::state lua;
        lua.script("foo = 1234;\n"
                   "bar = \"hello world\";\n"
                   "baz = 1.4;");

        test c = load(lua.global_table());
        std::cout << '(' << c.foo << ", " << c.bar << ", " << c.baz << ")\n";
    }
    catch(const std::exception& e) {
        std::cerr << e.what() << '\n';
    }
}

License

Sol is distributed with an MIT License. You can see LICENSE.txt for more info.

Supported Compilers

Sol makes use of C++11 features. The features used are as follows:

  • rvalue references
  • move semantics
  • variadic templates
  • <tuple>
  • <type_traits>
  • std::unique_ptr
  • enum classes
  • auto
  • uniform initialisation
  • noexcept
  • in class initialisation
  • default functions

GCC 4.7 and Clang 3.3 or higher should be able to compile without problems. Visual Studio 2013 with the November CTP should be able to support this as well.

TODO

  • Support for functions
  • Support for operator[] based retrieval and modifying of tables.
  • Support for retrieval of tables through dot notation. e.g. tab.retrieve<int>("resolution.width");