//========= Copyright © 1996-2005, Valve Corporation, All rights reserved. ============// // // Purpose: // // $NoKeywords: $ //=============================================================================// #include "cbase.h" #include "test_stressentities.h" #include "vstdlib/random.h" #include "world.h" // memdbgon must be the last include file in a .cpp file!!! #include "tier0/memdbgon.h" CStressEntityReg *CStressEntityReg::s_pHead = NULL; // CStressEntityReg::s_pHead in array form for convenient access. CUtlVector g_StressEntityRegs; CUtlVector g_StressEntities; CBaseEntity* MoveToRandomSpot( CBaseEntity *pEnt ) { if ( pEnt ) { CBasePlayer *pLocalPlayer = UTIL_GetLocalPlayer(); if ( pLocalPlayer ) { Vector vForward; pLocalPlayer->EyeVectors(&vForward ); UTIL_SetOrigin( pEnt, GetRandomSpot() ); } } return pEnt; } Vector GetRandomSpot() { CWorld *pEnt = GetWorldEntity(); if ( pEnt ) { Vector vMin, vMax; pEnt->GetWorldBounds( vMin, vMax ); return Vector( RandomFloat( vMin.x, vMax.x ), RandomFloat( vMin.y, vMax.y ), RandomFloat( vMin.z, vMax.z ) ); } else { return Vector( 0, 0, 0 ); } } void Test_InitRandomEntitySpawner( const CCommand &args ) { // Put the list of registered functions into array form for convenience. g_StressEntityRegs.Purge(); for ( CStressEntityReg *pCur=CStressEntityReg::GetListHead(); pCur; pCur=pCur->GetNext() ) g_StressEntityRegs.AddToTail( pCur ); // Create slots for all the entities.. int nSlots = 100; if ( args.ArgC() >= 2 ) nSlots = atoi( args[ 1 ] ); g_StressEntities.Purge(); g_StressEntities.SetSize( nSlots ); Msg( "Test_InitRandomEntitySpawner: created %d slots.\n", nSlots ); } void Test_SpawnRandomEntities( const CCommand &args ) { if ( args.ArgC() < 3 ) { Error( "Test_SpawnRandomEntities missing arguments." ); } if ( g_StressEntities.Count() == 0 ) { Error( "Test_SpawnRandomEntities: not initialized (call Test_InitRandomEntitySpawner frst)." ); } int nMin = atoi( args[ 1 ] ); int nMax = atoi( args[ 2 ] ); int count = RandomInt( nMin, nMax ); for ( int i=0; i < count; i++ ) { int iSlot = RandomInt( 0, g_StressEntities.Count() - 1 ); // Remove any old entity in this slot. if ( g_StressEntities[iSlot].Get() ) UTIL_RemoveImmediate( g_StressEntities[iSlot] ); // Create a new one in this slot. int iType = RandomInt( 0, g_StressEntityRegs.Count() - 1 ); g_StressEntities[iSlot] = g_StressEntityRegs[iType]->GetFn()(); } } void Test_RandomizeInPVS( const CCommand &args ) { if ( args.ArgC() < 2 ) { Error( "Test_RandomizeInPVS " ); } int percent = atoi( args[ 1 ] ); for ( int i=0; i < g_StressEntities.Count(); i++ ) { CBaseEntity *pEnt = g_StressEntities[i]; if ( pEnt ) { if ( RandomInt( 0, 100 ) < percent ) { if ( pEnt->IsEffectActive( EF_NODRAW ) ) pEnt->RemoveEffects( EF_NODRAW ); else pEnt->AddEffects( EF_NODRAW ); } } } } void Test_RemoveAllRandomEntities() { for ( int i=0; i < g_StressEntities.Count(); i++ ) { if ( g_StressEntities[i].Get() ) UTIL_Remove( g_StressEntities[i] ); } } ConCommand cc_Test_InitRandomEntitySpawner( "Test_InitRandomEntitySpawner", Test_InitRandomEntitySpawner, 0, FCVAR_CHEAT ); ConCommand cc_Test_SpawnRandomEntities( "Test_SpawnRandomEntities", Test_SpawnRandomEntities, 0, FCVAR_CHEAT ); ConCommand cc_Test_RandomizeInPVS( "Test_RandomizeInPVS", Test_RandomizeInPVS, 0, FCVAR_CHEAT ); ConCommand cc_Test_RemoveAllRandomEntities( "Test_RemoveAllRandomEntities", Test_RemoveAllRandomEntities, 0, FCVAR_CHEAT );