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//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose: replaces the cl_*.cpp files with stubs
//
//=============================================================================//
#include "client_pch.h"
#ifdef SWDS
#include "hltvclientstate.h"
#include "convar.h"
#include "enginestats.h"
#include "bspfile.h" // dworldlight_t
#include "audio/public/soundservice.h"
#include "tier0/systeminformation.h"
ISoundServices *g_pSoundServices = NULL;Vector listener_origin;
// memdbgon must be the last include file in a .cpp file!!!
#include "tier0/memdbgon.h"
#define MAXPRINTMSG 4096
CEngineStats g_EngineStats;
ClientClass *g_pClientClassHead = NULL;
bool CL_IsHL2Demo(){ return false;}
bool CL_IsPortalDemo(){ return false;}
bool HandleRedirectAndDebugLog( const char *msg );
void BeginLoadingUpdates( MaterialNonInteractiveMode_t mode ) {}void RefreshScreenIfNecessary() {}void EndLoadingUpdates() {}
void Con_ColorPrintf( const Color& clr, const char *fmt, ... ){ va_list argptr; char msg[MAXPRINTMSG]; static bool inupdate;
if ( !host_initialized ) return;
va_start (argptr,fmt); Q_vsnprintf (msg,sizeof( msg ), fmt,argptr); va_end (argptr);
if ( !HandleRedirectAndDebugLog( msg ) ) { return; } return;// printf( "%s", msg );
}
void Con_NPrintf( int pos, const char *fmt, ... ){ va_list argptr; char text[4096]; va_start (argptr, fmt); Q_vsnprintf(text, sizeof( text ), fmt, argptr); va_end (argptr);
return;// printf( "%s", text );
}
void SCR_UpdateScreen (void){}
void SCR_EndLoadingPlaque (void){}
void ClientDLL_FrameStageNotify( ClientFrameStage_t frameStage ){}
ClientClass *ClientDLL_GetAllClasses( void ){ return g_pClientClassHead;}
#define LIGHT_MIN_LIGHT_VALUE 0.03f
float ComputeLightRadius( dworldlight_t *pLight, bool bIsHDR ){ float flLightRadius = pLight->radius; if (flLightRadius == 0.0f) { // Compute the light range based on attenuation factors
float flIntensity = sqrtf( DotProduct( pLight->intensity, pLight->intensity ) ); if (pLight->quadratic_attn == 0.0f) { if (pLight->linear_attn == 0.0f) { // Infinite, but we're not going to draw it as such
flLightRadius = 2000; } else { flLightRadius = (flIntensity / LIGHT_MIN_LIGHT_VALUE - pLight->constant_attn) / pLight->linear_attn; } } else { float a = pLight->quadratic_attn; float b = pLight->linear_attn; float c = pLight->constant_attn - flIntensity / LIGHT_MIN_LIGHT_VALUE; float discrim = b * b - 4 * a * c; if (discrim < 0.0f) { // Infinite, but we're not going to draw it as such
flLightRadius = 2000; } else { flLightRadius = (-b + sqrtf(discrim)) / (2.0f * a); if (flLightRadius < 0) flLightRadius = 0; } } }
return flLightRadius;}
CClientState::CClientState() {}CClientState::~CClientState() {}void CClientState::ConnectionClosing( const char * reason ) {}void CClientState::ConnectionCrashed( const char * reason ) {}bool CClientState::ProcessConnectionlessPacket( netpacket_t *packet ){ return false; }void CClientState::PacketStart(int incoming_sequence, int outgoing_acknowledged) {}void CClientState::PacketEnd( void ) {}void CClientState::FileReceived( const char *fileName, unsigned int transferID ) {}void CClientState::FileRequested( const char *fileName, unsigned int transferID ) {}void CClientState::FileDenied(const char *fileName, unsigned int transferID ) {}void CClientState::FileSent( const char *fileName, unsigned int transferID ) {}void CClientState::Disconnect( const char *pszReason, bool showmainmenu ) {}void CClientState::FullConnect( netadr_t &adr ) {}bool CClientState::SetSignonState ( int state, int count ) { return false;}void CClientState::SendClientInfo( void ) {}void CClientState::SendServerCmdKeyValues( KeyValues *pKeyValues ) {}void CClientState::InstallStringTableCallback( char const *tableName ) {}bool CClientState::InstallEngineStringTableCallback( char const *tableName ) { return false;}void CClientState::ReadEnterPVS( CEntityReadInfo &u ) {}void CClientState::ReadLeavePVS( CEntityReadInfo &u ) {}void CClientState::ReadDeltaEnt( CEntityReadInfo &u ) {}void CClientState::ReadPreserveEnt( CEntityReadInfo &u ) {}void CClientState::ReadDeletions( CEntityReadInfo &u ) {}const char *CClientState::GetCDKeyHash( void ) { return "123";}void CClientState::Clear( void ) {}bool CClientState::ProcessGameEvent(SVC_GameEvent *msg) { return true; }bool CClientState::ProcessUserMessage(SVC_UserMessage *msg) { return true; }bool CClientState::ProcessEntityMessage(SVC_EntityMessage *msg) { return true; }bool CClientState::ProcessBSPDecal( SVC_BSPDecal *msg ) { return true; }bool CClientState::ProcessCrosshairAngle( SVC_CrosshairAngle *msg ) { return true; }bool CClientState::ProcessFixAngle( SVC_FixAngle *msg ) { return true; }bool CClientState::ProcessVoiceData( SVC_VoiceData *msg ) { return true; }bool CClientState::ProcessVoiceInit( SVC_VoiceInit *msg ) { return true; }bool CClientState::ProcessSetPause( SVC_SetPause *msg ) { return true; }bool CClientState::ProcessSetPauseTimed( SVC_SetPauseTimed *msg ) { return true; }bool CClientState::ProcessClassInfo( SVC_ClassInfo *msg ) { return true; }bool CClientState::ProcessStringCmd( NET_StringCmd *msg ) { return true; }bool CClientState::ProcessServerInfo( SVC_ServerInfo *msg ) { return true; }bool CClientState::ProcessTick( NET_Tick *msg ) { return true; }bool CClientState::ProcessTempEntities( SVC_TempEntities *msg ) { return true; }bool CClientState::ProcessPacketEntities( SVC_PacketEntities *msg ) { return true; }bool CClientState::ProcessSounds( SVC_Sounds *msg ) { return true; }bool CClientState::ProcessPrefetch( SVC_Prefetch *msg ) {return true;}float CClientState::GetTime() const { return 0.0f;}void CClientState::RunFrame() {}bool CClientState::HookClientStringTable( char const *tableName ) { return false; }
CClientState cl;
char g_minidumpinfo[ 4096 ] = {0};PAGED_POOL_INFO_t g_pagedpoolinfo = { 0 };
#endif
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