//========= Copyright Valve Corporation, All rights reserved. ============// // // Purpose: // // $NoKeywords: $ //===========================================================================// #include "cbase.h" #include "cdll_bounded_cvars.h" #include "convar_serverbounded.h" #include "tier0/icommandline.h" bool g_bForceCLPredictOff = false; // ------------------------------------------------------------------------------------------ // // cl_predict. // ------------------------------------------------------------------------------------------ // class CBoundedCvar_Predict : public ConVar_ServerBounded { public: CBoundedCvar_Predict() : ConVar_ServerBounded( "cl_predict", "1.0", #if defined(DOD_DLL) || defined(CSTRIKE_DLL) FCVAR_USERINFO | FCVAR_CHEAT, #else FCVAR_USERINFO | FCVAR_NOT_CONNECTED, #endif "Perform client side prediction." ) { } virtual float GetFloat() const { // Used temporarily for CS kill cam. if ( g_bForceCLPredictOff ) return 0; static const ConVar *pClientPredict = g_pCVar->FindVar( "sv_client_predict" ); if ( pClientPredict && pClientPredict->GetInt() != -1 ) { // Ok, the server wants to control this value. return pClientPredict->GetFloat(); } else { return GetBaseFloatValue(); } } }; static CBoundedCvar_Predict cl_predict_var; ConVar_ServerBounded *cl_predict = &cl_predict_var; // ------------------------------------------------------------------------------------------ // // cl_interp_ratio. // ------------------------------------------------------------------------------------------ // class CBoundedCvar_InterpRatio : public ConVar_ServerBounded { public: CBoundedCvar_InterpRatio() : ConVar_ServerBounded( "cl_interp_ratio", "2.0", FCVAR_USERINFO | FCVAR_NOT_CONNECTED | FCVAR_ARCHIVE, "Sets the interpolation amount (final amount is cl_interp_ratio / cl_updaterate)." ) { } virtual float GetFloat() const { static const ConVar *pMin = g_pCVar->FindVar( "sv_client_min_interp_ratio" ); static const ConVar *pMax = g_pCVar->FindVar( "sv_client_max_interp_ratio" ); if ( pMin && pMax && pMin->GetFloat() != -1 ) { return clamp( GetBaseFloatValue(), pMin->GetFloat(), pMax->GetFloat() ); } else { return GetBaseFloatValue(); } } }; static CBoundedCvar_InterpRatio cl_interp_ratio_var; ConVar_ServerBounded *cl_interp_ratio = &cl_interp_ratio_var; // ------------------------------------------------------------------------------------------ // // cl_interp // ------------------------------------------------------------------------------------------ // class CBoundedCvar_Interp : public ConVar_ServerBounded { public: CBoundedCvar_Interp() : ConVar_ServerBounded( "cl_interp", "0.1", FCVAR_USERINFO | FCVAR_NOT_CONNECTED | FCVAR_ARCHIVE, "Sets the interpolation amount (bounded on low side by server interp ratio settings).", true, 0.0f, true, 0.5f ) { } virtual float GetFloat() const { static const ConVar *pUpdateRate = g_pCVar->FindVar( "cl_updaterate" ); static const ConVar *pMin = g_pCVar->FindVar( "sv_client_min_interp_ratio" ); if ( pUpdateRate && pMin && pMin->GetFloat() != -1 ) { return MAX( GetBaseFloatValue(), pMin->GetFloat() / pUpdateRate->GetFloat() ); } else { return GetBaseFloatValue(); } } }; static CBoundedCvar_Interp cl_interp_var; ConVar_ServerBounded *cl_interp = &cl_interp_var; float GetClientInterpAmount() { static const ConVar *pUpdateRate = g_pCVar->FindVar( "cl_updaterate" ); if ( pUpdateRate ) { // #define FIXME_INTERP_RATIO return MAX( cl_interp->GetFloat(), cl_interp_ratio->GetFloat() / pUpdateRate->GetFloat() ); } else { if ( !HushAsserts() ) { AssertMsgOnce( false, "GetInterpolationAmount: can't get cl_updaterate cvar." ); } return 0.1; } }