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amxmodx/modules/fakemeta/pdata_shared.h
Vincent Herbet 115916d753 Add basic ReHLDS and ReGameDLL support (#417) 
* Add ReHLDS API files and its dependencies

Note: This has been stolen from ReAPI AMXX module and modified/adjusted to match AMXX existing includes and to provide as less dependencies as possible as well

* Add the necessary files to get ReHLDS interface

* Split SV_DropClient into pre/post code

* Init ReHLDS API and add SV_DropClient hook

* Add Cvar_DirectSet hook and adjust code with helpers

Note: we don't need to split code here. This is pretty much the naive and straight way, but fairly enough for our case. If it happens we got a lot more hooks, we may consider to use some class to manage better the things.

* Move platform and interface stuff in their own files in public directory

* Make sure to init cvar stuff after ReHLDS

* Add ReGameDLL API files and its dependencies in cstrike module

* Init ReHLDS in cstrike module and adjust code

Note: About cs_uset_set_model(). ReHLDS API doesn't offer a way to know directly the precached models, so instead of looping through all the ressources, the models list is saved one time at map change into a hashmap.

* Init ReGameDLL and adjust code

* Fix linux compilation

* Init ReGameDLL in fakemeta module and adjust code

* Rename /reapi directory to /resdk to avoid confusion

* Retrieve gamerules pointer through InstallGameRules in fakemeta module

* Retrieve gamerules pointer through InstallGameRules in cstrike module

Note: actually gamerules is not used if regamedll is enabled, but it could be used in future natives.

* Fix a typo when ReGameDLL is not enabled

* Fix missing interface check for ReHLDS.

I'm pretty sure I was checking at the very first since I worked first on vanilla version of engine, looks like change has been lost.
2017-03-09 19:59:38 +01:00

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//
// AMX Mod X, based on AMX Mod by Aleksander Naszko ("OLO").
// Copyright (C) The AMX Mod X Development Team.
//
// This software is licensed under the GNU General Public License, version 3 or higher.
// Additional exceptions apply. For full license details, see LICENSE.txt or visit:
// https://alliedmods.net/amxmodx-license
#ifndef _PDATA_SHARED_H_
#define _PDATA_SHARED_H_
#include <amxxmodule.h>
#include <IGameConfigs.h>
#include <HLTypeConversion.h>
#include <amtl/am-algorithm.h>
extern HLTypeConversion TypeConversion;
enum class BaseFieldType
{
None,
Integer,
Float,
Vector,
Entity,
String,
};
#define GET_TYPE_DESCRIPTION(position, data, conf) \
int classLength, memberLength; \
char const *className = MF_GetAmxString(amx, params[position], 0, &classLength); \
char const *memberName = MF_GetAmxString(amx, params[position + 1], 1, &memberLength); \
if (!classLength || !memberLength) \
{ \
MF_LogError(amx, AMX_ERR_NATIVE, "Either class (\"%s\") or member (\"%s\") is empty", className, memberName); \
return 0; \
} \
else if (!conf->GetOffsetByClass(className, memberName, &data)) \
{ \
MF_LogError(amx, AMX_ERR_NATIVE, "Could not find class \"%s\" and/or member \"%s\" in gamedata", className, memberName); \
return 0; \
} \
else if (data.fieldOffset < 0) \
{ \
MF_LogError(amx, AMX_ERR_NATIVE, "Invalid offset %d retrieved from \"%s\" member", data.fieldOffset, memberName); \
return 0; \
}
#define CHECK_DATA(data, element, baseType) \
if (baseType > BaseFieldType::None && baseType != PvData::GetBaseDataType(data)) \
{ \
MF_LogError(amx, AMX_ERR_NATIVE, "Data field is not %s-based", PvData::GetBaseTypeName(baseType)); \
return 0; \
} \
else if (element < 0 || (element > 0 && element >= data.fieldSize)) \
{ \
MF_LogError(amx, AMX_ERR_NATIVE, "Invalid element index %d, value must be between 0 and %d", element, data.fieldSize); \
return 0; \
} \
else if (element > 0 && !data.fieldSize) \
{ \
MF_LogError(amx, AMX_ERR_NATIVE, "Member \"%s\" is not an array. Element %d is invalid.", memberName, element); \
return 0; \
}
#define CHECK_GAMERULES() \
if ((HasRegameDll && !GameRulesRH) || (!HasRegameDll && (!GameRulesAddress || !*GameRulesAddress))) \
{ \
MF_LogError(amx, AMX_ERR_NATIVE, "%s is disabled. Check your AMXX log.", __FUNCTION__); \
return 0; \
}
class PvData
{
public:
static cell GetInt(int index, TypeDescription &data, int element)
{
return GetInt(TypeConversion.id_to_edict(index)->pvPrivateData, data, element);
}
static cell GetInt(void *pObject, TypeDescription &data, int element)
{
switch (data.fieldType)
{
case FieldType::FIELD_INTEGER:
case FieldType::FIELD_STRINGINT:
{
return get_pdata<int32>(pObject, data.fieldOffset, element);
}
case FieldType::FIELD_CLASS:
case FieldType::FIELD_STRUCTURE:
{
return get_pdata_direct<cell>(pObject, data.fieldOffset);
}
case FieldType::FIELD_POINTER:
case FieldType::FIELD_FUNCTION:
{
return reinterpret_cast<cell>(get_pdata<void*>(pObject, data.fieldOffset, element));
}
case FieldType::FIELD_SHORT:
{
if (data.fieldUnsigned)
{
return get_pdata<uint16>(pObject, data.fieldOffset, element);
}
else
{
return get_pdata<int16>(pObject, data.fieldOffset, element);
}
}
case FieldType::FIELD_CHARACTER:
{
if (data.fieldUnsigned)
{
return get_pdata<uint8>(pObject, data.fieldOffset, element);
}
else
{
return get_pdata<int8>(pObject, data.fieldOffset, element);
}
}
case FieldType::FIELD_BOOLEAN:
{
return get_pdata<bool>(pObject, data.fieldOffset, element) ? 1 : 0;
}
}
return 0;
}
static void SetInt(int index, TypeDescription &data, cell value, int element)
{
SetInt(TypeConversion.id_to_edict(index)->pvPrivateData, data, value, element);
}
static void SetInt(void *pObject, TypeDescription &data, cell value, int element)
{
switch (data.fieldType)
{
case FieldType::FIELD_INTEGER:
case FieldType::FIELD_STRINGINT:
{
set_pdata<int32>(pObject, data.fieldOffset, static_cast<int32>(value), element);
break;
}
case FieldType::FIELD_POINTER:
case FieldType::FIELD_FUNCTION:
{
set_pdata<void*>(pObject, data.fieldOffset, reinterpret_cast<void*>(value), element);
break;
}
case FieldType::FIELD_SHORT:
{
if (data.fieldUnsigned)
{
set_pdata<uint16>(pObject, data.fieldOffset, static_cast<uint16>(value), element);
}
else
{
set_pdata<int16>(pObject, data.fieldOffset, static_cast<int16>(value), element);
}
break;
}
case FieldType::FIELD_CHARACTER:
{
if (data.fieldUnsigned)
{
set_pdata<uint8>(pObject, data.fieldOffset, static_cast<uint8>(value), element);
}
else
{
set_pdata<int8>(pObject, data.fieldOffset, static_cast<int8>(value), element);
}
break;
}
case FieldType::FIELD_BOOLEAN:
{
set_pdata<bool>(pObject, data.fieldOffset, value != 0, element);
break;
}
}
}
static cell GetFloat(int index, TypeDescription &data, int element)
{
return GetFloat(TypeConversion.id_to_edict(index)->pvPrivateData, data, element);
}
static cell GetFloat(void *pObject, TypeDescription &data, int element)
{
return amx_ftoc(get_pdata<float>(pObject, data.fieldOffset, element));
}
static void SetFloat(int index, TypeDescription &data, float value, int element)
{
SetFloat(TypeConversion.id_to_edict(index)->pvPrivateData, data, value, element);
}
static void SetFloat(void *pObject, TypeDescription &data, float value, int element)
{
set_pdata<float>(pObject, data.fieldOffset, value, element);
}
static void GetVector(int index, TypeDescription &data, cell *pVector, int element)
{
return GetVector(TypeConversion.id_to_edict(index)->pvPrivateData, data, pVector, element);
}
static void GetVector(void *pObject, TypeDescription &data, cell *pVector, int element)
{
auto vector = get_pdata<Vector>(pObject, data.fieldOffset, element);
pVector[0] = amx_ftoc(vector.x);
pVector[1] = amx_ftoc(vector.y);
pVector[2] = amx_ftoc(vector.z);
}
static void SetVector(int index, TypeDescription &data, cell *pVector, int element)
{
SetVector(TypeConversion.id_to_edict(index)->pvPrivateData, data, pVector, element);
}
static void SetVector(void *pObject, TypeDescription &data, cell *pVector, int element)
{
Vector vector(amx_ctof(pVector[0]), amx_ctof(pVector[1]), amx_ctof(pVector[2]));
set_pdata<Vector>(pObject, data.fieldOffset, vector, element);
}
static cell GetEntity(int index, TypeDescription &data, int element)
{
return GetEntity(TypeConversion.id_to_edict(index)->pvPrivateData, data, element);
}
static cell GetEntity(void *pObject, TypeDescription &data, int element)
{
switch (data.fieldType)
{
case FieldType::FIELD_CLASSPTR:
{
return TypeConversion.cbase_to_id(get_pdata<void*>(pObject, data.fieldOffset, element));
}
case FieldType::FIELD_ENTVARS:
{
return TypeConversion.entvars_to_id(get_pdata<entvars_t*>(pObject, data.fieldOffset, element));
}
case FieldType::FIELD_EDICT:
{
return TypeConversion.edict_to_id(get_pdata<edict_t*>(pObject, data.fieldOffset, element));
}
case FieldType::FIELD_EHANDLE:
{
return TypeConversion.edict_to_id(get_pdata<EHANDLE>(pObject, data.fieldOffset, element).Get());
}
}
return 0;
}
static void SetEntity(int index, TypeDescription &data, int value, int element)
{
SetEntity(TypeConversion.id_to_edict(index)->pvPrivateData, data, value, element);
}
static void SetEntity(void *pObject, TypeDescription &data, int value, int element)
{
switch (data.fieldType)
{
case FieldType::FIELD_CLASSPTR:
{
set_pdata<void*>(pObject, data.fieldOffset, value != -1 ? TypeConversion.id_to_cbase(value) : nullptr, element);
break;
}
case FieldType::FIELD_ENTVARS:
{
set_pdata<entvars_t*>(pObject, data.fieldOffset, value != -1 ? TypeConversion.id_to_entvars(value) : nullptr, element);
break;
}
case FieldType::FIELD_EDICT:
{
set_pdata<edict_t*>(pObject, data.fieldOffset, value != -1 ? TypeConversion.id_to_edict(value) : nullptr, element);
break;
}
case FieldType::FIELD_EHANDLE:
{
get_pdata<EHANDLE>(pObject, data.fieldOffset, element).Set(value != -1 ? TypeConversion.id_to_edict(value) : nullptr);
break;
}
}
}
static char* GetString(int index, TypeDescription &data, int element)
{
return GetString(TypeConversion.id_to_edict(index)->pvPrivateData, data, element);
}
static char* GetString(void *pObject, TypeDescription &data, int element)
{
switch (data.fieldType)
{
case FieldType::FIELD_STRING:
{
return get_pdata_direct<char*>(pObject, data.fieldOffset, element, data.fieldSize);
}
case FieldType::FIELD_STRINGPTR:
{
return get_pdata<char*>(pObject, data.fieldOffset, element);
}
}
return nullptr;
}
static cell SetString(int index, TypeDescription &data, const char *value, int maxlen, int element)
{
return SetString(TypeConversion.id_to_edict(index)->pvPrivateData, data, value, maxlen, element);
}
static cell SetString(void *pObject, TypeDescription &data, const char *value, int maxlen, int element)
{
switch (data.fieldType)
{
case FieldType::FIELD_STRING:
{
auto buffer = get_pdata_direct<char*>(pObject, data.fieldOffset);
return strncopy(buffer, value, ke::Min<int>(maxlen + 1, data.fieldSize));
}
case FieldType::FIELD_STRINGPTR:
{
auto buffer = get_pdata<char*>(pObject, data.fieldOffset, element);
if (!buffer || maxlen > static_cast<int>(strlen(buffer)))
{
if (buffer)
{
free(buffer);
}
buffer = reinterpret_cast<char*>(malloc(maxlen + 1));
set_pdata<char*>(pObject, data.fieldOffset, buffer, element);
}
return strncopy(buffer, value, maxlen + 1);
}
}
return 0;
}
public:
static BaseFieldType GetBaseDataType(TypeDescription &data)
{
switch (data.fieldType)
{
case FieldType::FIELD_INTEGER:
case FieldType::FIELD_STRINGINT:
case FieldType::FIELD_SHORT:
case FieldType::FIELD_CHARACTER:
case FieldType::FIELD_CLASS:
case FieldType::FIELD_STRUCTURE:
case FieldType::FIELD_POINTER:
case FieldType::FIELD_FUNCTION:
case FieldType::FIELD_BOOLEAN:
{
return BaseFieldType::Integer;
}
case FieldType::FIELD_FLOAT:
{
return BaseFieldType::Float;
}
case FieldType::FIELD_VECTOR:
{
return BaseFieldType::Vector;
}
case FieldType::FIELD_CLASSPTR:
case FieldType::FIELD_ENTVARS:
case FieldType::FIELD_EDICT:
case FieldType::FIELD_EHANDLE:
{
return BaseFieldType::Entity;
}
case FieldType::FIELD_STRINGPTR:
case FieldType::FIELD_STRING:
{
return BaseFieldType::String;
}
}
return BaseFieldType::None;
}
static const char* GetBaseTypeName(BaseFieldType baseType)
{
static const char *BaseFieldTypeName[] =
{
"none",
"integer",
"float",
"vector",
"entity",
"string",
};
return BaseFieldTypeName[static_cast<size_t>(baseType)];
}
};
#endif // _PDATA_SHARED_H_
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