// ManualBindings.h
// Declares the cManualBindings class used as a namespace for functions exported to the Lua API manually
#pragma once
#include "LuaState.h"
// fwd:
struct tolua_Error;
/** Provides namespace for the bindings. */
class cManualBindings
{
public:
/** Binds all the manually implemented functions to tolua_S. */
static void Bind(lua_State * tolua_S);
protected:
/** Binds the manually implemented cNetwork-related API to tolua_S.
Implemented in ManualBindings_Network.cpp. */
static void BindNetwork(lua_State * tolua_S);
/** Binds the manually implemented cRankManager glue code to tolua_S.
Implemented in ManualBindings_RankManager.cpp. */
static void BindRankManager(lua_State * tolua_S);
/** Binds the manually implemented cWorld API functions to tolua_S.
Implemented in ManualBindings_World.cpp. */
static void BindWorld(lua_State * tolua_S);
/** Binds the manually implemented cBlockArea API functions to tlua_S.
Implemented in ManualBindings_BlockArea.cpp. */
static void BindBlockArea(lua_State * tolua_S);
public:
// Helper functions:
static cPluginLua * GetLuaPlugin(lua_State * L);
static int tolua_do_error(lua_State * L, const char * a_pMsg, tolua_Error * a_pToLuaError);
static int lua_do_error(lua_State * L, const char * a_pFormat, fmt::ArgList a_ArgList);
FMT_VARIADIC(static int, lua_do_error, lua_State *, const char *)
/** Binds the DoWith(ItemName) functions of regular classes. */
template <
class Ty1,
class Ty2,
bool (Ty1::*DoWithFn)(const AString &, cFunctionRef<bool(Ty2 &)>)
>
static int DoWith(lua_State * tolua_S)
{
// Check params:
cLuaState L(tolua_S);
if (
!L.CheckParamString(2) ||
!L.CheckParamFunction(3)
)
{
return 0;
}
// Get parameters:
Ty1 * Self;
AString ItemName;
cLuaState::cRef FnRef;
L.GetStackValues(1, Self, ItemName, FnRef);
if (Self == nullptr)
{
return lua_do_error(tolua_S, "Error in function call '#funcname#': Invalid 'self'");
}
if (ItemName.empty() || (ItemName[0] == 0))
{
return lua_do_error(tolua_S, "Error in function call '#funcname#': Expected a non-empty string for parameter #1");
}
if (!FnRef.IsValid())
{
return lua_do_error(tolua_S, "Error in function call '#funcname#': Expected a valid callback function for parameter #2");
}
// Call the DoWith function:
bool res = (Self->*DoWithFn)(ItemName, [&](Ty2 & a_Item)
{
bool ret = false;
L.Call(FnRef, &a_Item, cLuaState::Return, ret);
return ret;
}
);
// Push the result as the return value:
L.Push(res);
return 1;
}
/** Template for static functions DoWith(ItemName), on a type that has a static ::Get() function. */
template <
class Ty1,
class Ty2,
bool (Ty1::*DoWithFn)(const AString &, cFunctionRef<bool(Ty2 &)>)
>
static int StaticDoWith(lua_State * tolua_S)
{
// Check params:
cLuaState L(tolua_S);
if (
!L.CheckParamString(2) ||
!L.CheckParamFunction(3)
)
{
return 0;
}
// Get parameters:
AString ItemName;
cLuaState::cRef FnRef;
L.GetStackValues(2, ItemName, FnRef);
if (ItemName.empty() || (ItemName[0] == 0))
{
return lua_do_error(tolua_S, "Error in function call '#funcname#': Expected a non-empty string for parameter #1");
}
if (!FnRef.IsValid())
{
return lua_do_error(tolua_S, "Error in function call '#funcname#': Expected a valid callback function for parameter #2");
}
// Call the DoWith function:
bool res = (Ty1::Get()->*DoWithFn)(ItemName, [&](Ty2 & a_Item)
{
bool ret = false;
L.Call(FnRef, &a_Item, cLuaState::Return, ret);
return ret;
}
);
// Push the result as the return value:
L.Push(res);
return 1;
}
template <
class Ty1,
class Ty2,
bool (Ty1::*DoWithFn)(UInt32, cFunctionRef<bool(Ty2 &)>)
>
static int DoWithID(lua_State * tolua_S)
{
// Check params:
cLuaState L(tolua_S);
if (
!L.CheckParamNumber(2) ||
!L.CheckParamFunction(3)
)
{
return 0;
}
// Get parameters:
Ty1 * Self = nullptr;
UInt32 ItemID = 0;
cLuaState::cRef FnRef;
L.GetStackValues(1, Self, ItemID, FnRef);
if (Self == nullptr)
{
return lua_do_error(tolua_S, "Error in function call '#funcname#': Invalid 'self'");
}
if (!FnRef.IsValid())
{
return lua_do_error(tolua_S, "Error in function call '#funcname#': Expected a valid callback function for parameter #2");
}
// Call the DoWith function:
bool res = (Self->*DoWithFn)(ItemID, [&](Ty2 & a_Item)
{
bool ret = false;
L.Call(FnRef, &a_Item, cLuaState::Return, ret);
return ret;
}
);
// Push the result as the return value:
L.Push(res);
return 1;
}
/** Template for the bindings for the DoWithXYZAt(X, Y, Z) functions that don't need to check their coords. */
template <
class SELF,
class ITEM,
bool (SELF::*DoWithFn)(int, int, int, cFunctionRef<bool(ITEM &)>)
>
static int DoWithXYZ(lua_State * tolua_S)
{
// Check params:
cLuaState L(tolua_S);
if (
!L.CheckParamNumber(2, 4) ||
!L.CheckParamFunction(5) ||
!L.CheckParamEnd(6)
)
{
return 0;
}
// Get parameters:
SELF * Self = nullptr;
int BlockX = 0;
int BlockY = 0;
int BlockZ = 0;
cLuaState::cRef FnRef;
L.GetStackValues(1, Self, BlockX, BlockY, BlockZ, FnRef);
if (Self == nullptr)
{
return lua_do_error(tolua_S, "Error in function call '#funcname#': Invalid 'self'");
}
if (!FnRef.IsValid())
{
return lua_do_error(tolua_S, "Error in function call '#funcname#': Expected a valid callback function for parameter #5");
}
// Call the DoWith function:
bool res = (Self->*DoWithFn)(BlockX, BlockY, BlockZ, [&](ITEM & a_Item)
{
bool ret = false;
L.Call(FnRef, &a_Item, cLuaState::Return, ret);
return ret;
}
);
// Push the result as the return value:
L.Push(res);
return 1;
}
/** Template for the bindings for the DoWithXYZAt(X, Y, Z) functions that need to check their coords. */
template <
class SELF,
class ITEM,
bool (SELF::*DoWithFn)(int, int, int, cFunctionRef<bool(ITEM &)>),
bool (SELF::*CoordCheckFn)(int, int, int) const
>
static int DoWithXYZ(lua_State * tolua_S)
{
// Check params:
cLuaState L(tolua_S);
if (
!L.CheckParamNumber(2, 4) ||
!L.CheckParamFunction(5) ||
!L.CheckParamEnd(6)
)
{
return 0;
}
// Get parameters:
SELF * Self = nullptr;
int BlockX = 0;
int BlockY = 0;
int BlockZ = 0;
cLuaState::cRef FnRef;
L.GetStackValues(1, Self, BlockX, BlockY, BlockZ, FnRef);
if (Self == nullptr)
{
return L.ApiParamError("Invalid 'self'");
}
if (!FnRef.IsValid())
{
return L.ApiParamError("Expected a valid callback function for parameter #5");
}
if (!(Self->*CoordCheckFn)(BlockX, BlockY, BlockZ))
{
return L.FApiParamError("The provided coordinates ({0}) are not valid",
Vector3i{BlockX, BlockY, BlockZ}
);
}
// Call the DoWith function:
bool res = (Self->*DoWithFn)(BlockX, BlockY, BlockZ, [&](ITEM & a_Item)
{
bool ret = false;
L.Call(FnRef, &a_Item, cLuaState::Return, ret);
return ret;
}
);
// Push the result as the return value:
L.Push(res);
return 1;
}
template <
class Ty1,
class Ty2,
bool (Ty1::*ForEachFn)(int, int, cFunctionRef<bool(Ty2 &)>)
>
static int ForEachInChunk(lua_State * tolua_S)
{
// Check params:
cLuaState L(tolua_S);
if (
!L.CheckParamNumber(2, 3) ||
!L.CheckParamFunction(4) ||
!L.CheckParamEnd(5)
)
{
return 0;
}
// Get parameters:
Ty1 * Self = nullptr;
int ChunkX = 0;
int ChunkZ = 0;
cLuaState::cRef FnRef;
L.GetStackValues(1, Self, ChunkX, ChunkZ, FnRef);
if (Self == nullptr)
{
return lua_do_error(tolua_S, "Error in function call '#funcname#': Invalid 'self'");
}
if (!FnRef.IsValid())
{
return lua_do_error(tolua_S, "Error in function call '#funcname#': Expected a valid callback function for parameter #4");
}
// Call the DoWith function:
bool res = (Self->*ForEachFn)(ChunkX, ChunkZ, [&](Ty2 & a_Item)
{
bool ret = false;
L.Call(FnRef, &a_Item, cLuaState::Return, ret);
return ret;
}
);
// Push the result as the return value:
L.Push(res);
return 1;
}
template <
class Ty1,
class Ty2,
bool (Ty1::*ForEachFn)(const cBoundingBox &, cFunctionRef<bool(Ty2 &)>)
>
static int ForEachInBox(lua_State * tolua_S)
{
// Check params:
cLuaState L(tolua_S);
if (
!L.CheckParamUserType(1, "cWorld") ||
!L.CheckParamUserType(2, "cBoundingBox") ||
!L.CheckParamFunction(3) ||
!L.CheckParamEnd(4)
)
{
return 0;
}
// Get the params:
Ty1 * Self = nullptr;
cBoundingBox * Box = nullptr;
cLuaState::cRef FnRef;
L.GetStackValues(1, Self, Box, FnRef);
if ((Self == nullptr) || (Box == nullptr))
{
LOGWARNING("Invalid world (%p) or boundingbox (%p)", static_cast<void *>(Self), static_cast<void *>(Box));
L.LogStackTrace();
return 0;
}
if (!FnRef.IsValid())
{
return lua_do_error(tolua_S, "Error in function call '#funcname#': Expected a valid callback function for parameter #2");
}
bool res = (Self->*ForEachFn)(*Box, [&](Ty2 & a_Item)
{
bool ret = false;
if (!L.Call(FnRef, &a_Item, cLuaState::Return, ret))
{
LOGWARNING("Failed to call Lua callback");
L.LogStackTrace();
return true; // Abort enumeration
}
return ret;
}
);
// Push the result as the return value:
L.Push(res);
return 1;
}
template <
class Ty1,
class Ty2,
bool (Ty1::*ForEachFn)(cFunctionRef<bool(Ty2 &)>)
>
static int ForEach(lua_State * tolua_S)
{
// Check params:
cLuaState L(tolua_S);
if (
!L.CheckParamFunction(2) ||
!L.CheckParamEnd(3)
)
{
return 0;
}
// Get the params:
Ty1 * Self = nullptr;
cLuaState::cRef FnRef;
L.GetStackValues(1, Self, FnRef);
if (Self == nullptr)
{
return lua_do_error(tolua_S, "Error in function call '#funcname#': Invalid 'self'.");
}
if (!FnRef.IsValid())
{
return lua_do_error(tolua_S, "Error in function call '#funcname#': Expected a valid callback function for parameter #1");
}
// Call the enumeration:
bool res = (Self->*ForEachFn)([&](Ty2 & a_Item)
{
bool ret = false; // By default continue the enumeration
L.Call(FnRef, &a_Item, cLuaState::Return, ret);
return ret;
}
);
// Push the return value:
L.Push(res);
return 1;
}
/** Implements bindings for ForEach() functions in a class that is static (has a ::Get() static function). */
template <
class Ty1,
class Ty2,
bool (Ty1::*ForEachFn)(cFunctionRef<bool(Ty2 &)>)
>
static int StaticForEach(lua_State * tolua_S)
{
// Check params:
cLuaState L(tolua_S);
if (
!L.CheckParamFunction(2) ||
!L.CheckParamEnd(3)
)
{
return 0;
}
// Get the params:
cLuaState::cRef FnRef(L, 2);
if (!FnRef.IsValid())
{
return lua_do_error(tolua_S, "Error in function call '#funcname#': Expected a valid callback function for parameter #1");
}
// Call the enumeration:
bool res = (Ty1::Get()->*ForEachFn)([&](Ty2 & a_Item)
{
bool ret = false; // By default continue the enumeration
L.Call(FnRef, &a_Item, cLuaState::Return, ret);
return ret;
}
);
// Push the return value:
L.Push(res);
return 1;
}
};