pip/lib/lua/3rd/LuaBridge/detail/CFunctions.h

//------------------------------------------------------------------------------
/*
  https://github.com/vinniefalco/LuaBridge

  Copyright 2019, Dmitry Tarakanov
  Copyright 2012, Vinnie Falco <vinnie.falco@gmail.com>

  License: The MIT License (http://www.opensource.org/licenses/mit-license.php)

  Permission is hereby granted, free of charge, to any person obtaining a copy
  of this software and associated documentation files (the "Software"), to deal
  in the Software without restriction, including without limitation the rights
  to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
  copies of the Software, and to permit persons to whom the Software is
  furnished to do so, subject to the following conditions:

  The above copyright notice and this permission notice shall be included in all
  copies or substantial portions of the Software.

  THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
  IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
  FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
  AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
  LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
  OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
  SOFTWARE.
*/
//==============================================================================

#pragma once

#include <LuaBridge/detail/Config.h>
#include <LuaBridge/detail/FuncTraits.h>

#include <string>

namespace luabridge {

// We use a structure so we can define everything in the header.
//
struct CFunc
{
  static void addGetter (lua_State* L, const char* name, int tableIndex)
  {
    assert (lua_istable (L, tableIndex));
    assert (lua_iscfunction (L, -1)); // Stack: getter

    lua_rawgetp (L, tableIndex, getPropgetKey ()); // Stack: getter, propget table (pg)
    lua_pushvalue (L, -2); // Stack: getter, pg, getter
    rawsetfield (L, -2, name); // Stack: getter, pg
    lua_pop (L, 2); // Stack: -
  }

  static void addSetter (lua_State* L, const char* name, int tableIndex)
  {
    assert (lua_istable (L, tableIndex));
    assert (lua_iscfunction (L, -1)); // Stack: setter

    lua_rawgetp (L, tableIndex, getPropsetKey ()); // Stack: setter, propset table (ps)
    lua_pushvalue (L, -2); // Stack: setter, ps, setter
    rawsetfield (L, -2, name); // Stack: setter, ps
    lua_pop (L, 2); // Stack: -
  }

  //----------------------------------------------------------------------------
  /**
      __index metamethod for a namespace or class static and non-static members.
      Retrieves functions from metatables and properties from propget tables.
      Looks through the class hierarchy if inheritance is present.
  */
  static int indexMetaMethod (lua_State* L)
  {
    assert (lua_istable (L, 1) || lua_isuserdata (L, 1)); // Stack (further not shown): table | userdata, name

    lua_getmetatable (L, 1); // Stack: class/const table (mt)
    assert (lua_istable (L, -1));

    for (;;)
    {
      lua_pushvalue (L, 2); // Stack: mt, field name
      lua_rawget (L, -2);  // Stack: mt, field | nil

      if (lua_iscfunction (L, -1)) // Stack: mt, field
      {
        lua_remove (L, -2);  // Stack: field
        return 1;
      }

      assert (lua_isnil (L, -1)); // Stack: mt, nil
      lua_pop (L, 1); // Stack: mt

      lua_rawgetp (L, -1, getPropgetKey ()); // Stack: mt, propget table (pg)
      assert (lua_istable (L, -1));

      lua_pushvalue (L, 2); // Stack: mt, pg, field name
      lua_rawget (L, -2);  // Stack: mt, pg, getter | nil
      lua_remove (L, -2); // Stack: mt, getter | nil

      if (lua_iscfunction (L, -1)) // Stack: mt, getter
      {
        lua_remove (L, -2);  // Stack: getter
        lua_pushvalue (L, 1); // Stack: getter, table | userdata
        lua_call (L, 1, 1); // Stack: value
        return 1;
      }

      assert (lua_isnil (L, -1)); // Stack: mt, nil
      lua_pop (L, 1); // Stack: mt

      // It may mean that the field may be in const table and it's constness violation.
      // Don't check that, just return nil

      // Repeat the lookup in the parent metafield,
      // or return nil if the field doesn't exist.
      lua_rawgetp (L, -1, getParentKey ()); // Stack: mt, parent mt | nil

      if (lua_isnil (L, -1)) // Stack: mt, nil
      {
        lua_remove (L, -2); // Stack: nil
        return 1;
      }

      // Removethe  metatable and repeat the search in the parent one.
      assert (lua_istable (L, -1)); // Stack: mt, parent mt
      lua_remove (L, -2); // Stack: parent mt
    }

    // no return
  }

  //----------------------------------------------------------------------------
  /**
      __newindex metamethod for namespace or class static members.
      Retrieves properties from propset tables.
  */
  static int newindexStaticMetaMethod (lua_State* L)
  {
    return newindexMetaMethod (L, false);
  }

  //----------------------------------------------------------------------------
  /**
      __newindex metamethod for non-static members.
      Retrieves properties from propset tables.
  */
  static int newindexObjectMetaMethod (lua_State* L)
  {
    return newindexMetaMethod (L, true);
  }

  static int newindexMetaMethod (lua_State* L, bool pushSelf)
  {
    assert (lua_istable (L, 1) || lua_isuserdata (L, 1)); // Stack (further not shown): table | userdata, name, new value

    lua_getmetatable (L, 1); // Stack: metatable (mt)
    assert (lua_istable (L, -1));

    for (;;)
    {
      lua_rawgetp (L, -1, getPropsetKey ()); // Stack: mt, propset table (ps) | nil

      if (lua_isnil (L, -1)) // Stack: mt, nil
      {
        lua_pop (L, 2); // Stack: -
        return luaL_error (L, "No member named '%s'", lua_tostring (L, 2));
      }

      assert (lua_istable (L, -1));

      lua_pushvalue (L, 2); // Stack: mt, ps, field name
      lua_rawget (L, -2); // Stack: mt, ps, setter | nil
      lua_remove (L, -2); // Stack: mt, setter | nil

      if (lua_iscfunction (L, -1)) // Stack: mt, setter
      {
        lua_remove (L, -2); // Stack: setter
        if (pushSelf)
        {
          lua_pushvalue (L, 1); // Stack: setter, table | userdata
        }
        lua_pushvalue (L, 3); // Stack: setter, table | userdata, new value
        lua_call (L, pushSelf ? 2 : 1, 0); // Stack: -
        return 0;
      }

      assert (lua_isnil (L, -1)); // Stack: mt, nil
      lua_pop (L, 1); // Stack: mt

      lua_rawgetp (L, -1, getParentKey ()); // Stack: mt, parent mt | nil

      if (lua_isnil (L, -1)) // Stack: mt, nil
      {
        lua_pop (L, 1); // Stack: -
        return luaL_error (L, "No writable member '%s'", lua_tostring (L, 2));
      }

      assert (lua_istable (L, -1)); // Stack: mt, parent mt
      lua_remove (L, -2); // Stack: parent mt
      // Repeat the search in the parent
    }

    // no return
  }

  //----------------------------------------------------------------------------
  /**
      lua_CFunction to report an error writing to a read-only value.

      The name of the variable is in the first upvalue.
  */
  static int readOnlyError (lua_State* L)
  {
    std::string s;

    s = s + "'" + lua_tostring (L, lua_upvalueindex (1)) + "' is read-only";

    return luaL_error (L, s.c_str ());
  }

  //----------------------------------------------------------------------------
  /**
      lua_CFunction to get a variable.

      This is used for global variables or class static data members.

      The pointer to the data is in the first upvalue.
  */
  template <class T>
  static int getVariable (lua_State* L)
  {
    assert (lua_islightuserdata (L, lua_upvalueindex (1)));
    T const* ptr = static_cast <T const*> (lua_touserdata (L, lua_upvalueindex (1)));
    assert (ptr != 0);
    Stack <T>::push (L, *ptr);
    return 1;
  }

  //----------------------------------------------------------------------------
  /**
      lua_CFunction to set a variable.

      This is used for global variables or class static data members.

      The pointer to the data is in the first upvalue.
  */
  template <class T>
  static int setVariable (lua_State* L)
  {
    assert (lua_islightuserdata (L, lua_upvalueindex (1)));
    T* ptr = static_cast <T*> (lua_touserdata (L, lua_upvalueindex (1)));
    assert (ptr != 0);
    *ptr = Stack <T>::get (L, 1);
    return 0;
  }

  //----------------------------------------------------------------------------
  /**
      lua_CFunction to call a function with a return value.

      This is used for global functions, global properties, class static methods,
      and class static properties.

      The function pointer (lightuserdata) in the first upvalue.
  */
  template <class FnPtr>
  struct Call
  {
    typedef typename FuncTraits <FnPtr>::Params Params;
    typedef typename FuncTraits <FnPtr>::ReturnType ReturnType;

    static int f (lua_State* L)
    {
      assert (lua_islightuserdata (L, lua_upvalueindex (1)));
      FnPtr fnptr = reinterpret_cast <FnPtr> (lua_touserdata (L, lua_upvalueindex (1)));
      assert (fnptr != 0);
      return Invoke <ReturnType, Params, 1>::run (L, fnptr);
    }
  };

  //----------------------------------------------------------------------------
  /**
      lua_CFunction to call a class member function with a return value.

      The member function pointer is in the first upvalue.
      The class userdata object is at the top of the Lua stack.
  */
  template <class MemFnPtr>
  struct CallMember
  {
    typedef typename FuncTraits <MemFnPtr>::ClassType T;
    typedef typename FuncTraits <MemFnPtr>::Params Params;
    typedef typename FuncTraits <MemFnPtr>::ReturnType ReturnType;

    static int f (lua_State* L)
    {
      assert (isfulluserdata (L, lua_upvalueindex (1)));
      T* const t = Userdata::get <T> (L, 1, false);
      MemFnPtr const& fnptr = *static_cast <MemFnPtr const*> (lua_touserdata (L, lua_upvalueindex (1)));
      assert (fnptr != 0);
      return Invoke <ReturnType, Params, 2>::run (L, t, fnptr);
    }
  };

  template <class MemFnPtr>
  struct CallConstMember
  {
    typedef typename FuncTraits <MemFnPtr>::ClassType T;
    typedef typename FuncTraits <MemFnPtr>::Params Params;
    typedef typename FuncTraits <MemFnPtr>::ReturnType ReturnType;

    static int f (lua_State* L)
    {
      assert (isfulluserdata (L, lua_upvalueindex (1)));
      T const* const t = Userdata::get <T> (L, 1, true);
      MemFnPtr const& fnptr = *static_cast <MemFnPtr const*> (lua_touserdata (L, lua_upvalueindex (1)));
      assert (fnptr != 0);
      return Invoke <ReturnType, Params, 2>::run (L, t, fnptr);
    }
  };

  //--------------------------------------------------------------------------
  /**
      lua_CFunction to call a class member lua_CFunction.

      The member function pointer is in the first upvalue.
      The object userdata ('this') value is at top ot the Lua stack.
  */
  template <class T>
  struct CallMemberCFunction
  {
    static int f (lua_State* L)
    {
      assert (isfulluserdata (L, lua_upvalueindex (1)));
      typedef int (T::*MFP) (lua_State* L);
      T* const t = Userdata::get <T> (L, 1, false);
      MFP const& fnptr = *static_cast <MFP const*> (lua_touserdata (L, lua_upvalueindex (1)));
      assert (fnptr != 0);
      return (t->*fnptr) (L);
    }
  };

  template <class T>
  struct CallConstMemberCFunction
  {
    static int f (lua_State* L)
    {
      assert (isfulluserdata (L, lua_upvalueindex (1)));
      typedef int (T::*MFP) (lua_State* L);
      T const* const t = Userdata::get <T> (L, 1, true);
      MFP const& fnptr = *static_cast <MFP const*> (lua_touserdata (L, lua_upvalueindex (1)));
      assert (fnptr != 0);
      return (t->*fnptr) (L);
    }
  };

#ifdef LUABRIDGE_CXX11

  //--------------------------------------------------------------------------
  /**
      lua_CFunction to call on a object.

      The proxy function pointer (lightuserdata) is in the first upvalue.
      The class userdata object is at the top of the Lua stack.
  */
  template <class FnPtr>
  struct CallProxyFunction
  {
    using Params = typename FuncTraits <FnPtr>::Params;
    using ReturnType = typename FuncTraits <FnPtr>::ReturnType;

    static int f (lua_State* L)
    {
      assert (lua_islightuserdata (L, lua_upvalueindex (1)));
      auto fnptr = reinterpret_cast <FnPtr> (lua_touserdata (L, lua_upvalueindex (1)));
      assert (fnptr != 0);
      return Invoke <ReturnType, Params, 1>::run (L, fnptr);
    }
  };

  template <class Functor>
  struct CallProxyFunctor
  {
    using Params = typename FuncTraits <Functor>::Params;
    using ReturnType = typename FuncTraits <Functor>::ReturnType;

    static int f (lua_State* L)
    {
      assert (isfulluserdata (L, lua_upvalueindex (1)));
      Functor& fn = *static_cast <Functor*> (lua_touserdata (L, lua_upvalueindex (1)));
      return Invoke <ReturnType, Params, 1>::run (L, fn);
    }
  };

#endif

  //--------------------------------------------------------------------------

  // SFINAE Helpers

  template <class MemFnPtr, bool isConst>
  struct CallMemberFunctionHelper
  {
    static void add (lua_State* L, char const* name, MemFnPtr mf)
    {
      new (lua_newuserdata (L, sizeof (MemFnPtr))) MemFnPtr (mf);
      lua_pushcclosure (L, &CallConstMember <MemFnPtr>::f, 1);
      lua_pushvalue (L, -1);
      rawsetfield (L, -5, name); // const table
      rawsetfield (L, -3, name); // class table
    }
  };

  template <class MemFnPtr>
  struct CallMemberFunctionHelper <MemFnPtr, false>
  {
    static void add (lua_State* L, char const* name, MemFnPtr mf)
    {
      new (lua_newuserdata (L, sizeof (MemFnPtr))) MemFnPtr (mf);
      lua_pushcclosure (L, &CallMember <MemFnPtr>::f, 1);
      rawsetfield (L, -3, name); // class table
    }
  };

  //--------------------------------------------------------------------------
  /**
      __gc metamethod for a class.
  */
  template <class C>
  static int gcMetaMethod (lua_State* L)
  {
    Userdata* const ud = Userdata::getExact <C> (L, 1);
    ud->~Userdata ();
    return 0;
  }

  /**
      __gc metamethod for an arbitrary class.
  */
  template <class T>
  static int gcMetaMethodAny (lua_State* L)
  {
    assert (isfulluserdata (L, 1));
    T* t = static_cast <T*> (lua_touserdata (L, 1));
    t->~T ();
    return 0;
  }

  //--------------------------------------------------------------------------
  /**
      lua_CFunction to get a class data member.

      The pointer-to-member is in the first upvalue.
      The class userdata object is at the top of the Lua stack.
  */
  template <class C, typename T>
  static int getProperty (lua_State* L)
  {
    C* const c = Userdata::get <C> (L, 1, true);
    T C::** mp = static_cast <T C::**> (lua_touserdata (L, lua_upvalueindex (1)));
    try
    {
      Stack <T&>::push (L, c->**mp);
    }
    catch (const std::exception& e)
    {
      luaL_error (L, e.what ());
    }
    return 1;
  }

  //--------------------------------------------------------------------------
  /**
      lua_CFunction to set a class data member.

      The pointer-to-member is in the first upvalue.
      The class userdata object is at the top of the Lua stack.
  */
  template <class C, typename T>
  static int setProperty (lua_State* L)
  {
    C* const c = Userdata::get <C> (L, 1, false);
    T C::** mp = static_cast <T C::**> (lua_touserdata (L, lua_upvalueindex (1)));
    try
    {
      c->**mp = Stack <T>::get (L, 2);
    }
    catch (const std::exception& e)
    {
      luaL_error (L, e.what ());
    }
    return 0;
  }
};

} // namespace luabridge