//========= Copyright Valve Corporation, All rights reserved. ============// // // Purpose: // //=============================================================================// #include "cbase.h" #include "mathlib/mathlib.h" #include "util_shared.h" #include "model_types.h" #include "convar.h" #include "IEffects.h" #include "vphysics/object_hash.h" #include "mathlib/IceKey.H" #include "checksum_crc.h" #ifdef TF_CLIENT_DLL #include "cdll_util.h" #endif #include "particle_parse.h" #include "KeyValues.h" #include "time.h" #ifdef USES_ECON_ITEMS #include "econ_item_constants.h" #include "econ_holidays.h" #include "rtime.h" #endif // USES_ECON_ITEMS #ifdef CLIENT_DLL #include "c_te_effect_dispatch.h" #else #include "te_effect_dispatch.h" bool NPC_CheckBrushExclude( CBaseEntity *pEntity, CBaseEntity *pBrush ); #endif // memdbgon must be the last include file in a .cpp file!!! #include "tier0/memdbgon.h" ConVar r_visualizetraces( "r_visualizetraces", "0", FCVAR_CHEAT ); ConVar developer("developer", "0", 0, "Set developer message level" ); // developer mode float UTIL_VecToYaw( const Vector &vec ) { if (vec.y == 0 && vec.x == 0) return 0; float yaw = atan2( vec.y, vec.x ); yaw = RAD2DEG(yaw); if (yaw < 0) yaw += 360; return yaw; } float UTIL_VecToPitch( const Vector &vec ) { if (vec.y == 0 && vec.x == 0) { if (vec.z < 0) return 180.0; else return -180.0; } float dist = vec.Length2D(); float pitch = atan2( -vec.z, dist ); pitch = RAD2DEG(pitch); return pitch; } float UTIL_VecToYaw( const matrix3x4_t &matrix, const Vector &vec ) { Vector tmp = vec; VectorNormalize( tmp ); float x = matrix[0][0] * tmp.x + matrix[1][0] * tmp.y + matrix[2][0] * tmp.z; float y = matrix[0][1] * tmp.x + matrix[1][1] * tmp.y + matrix[2][1] * tmp.z; if (x == 0.0f && y == 0.0f) return 0.0f; float yaw = atan2( -y, x ); yaw = RAD2DEG(yaw); if (yaw < 0) yaw += 360; return yaw; } float UTIL_VecToPitch( const matrix3x4_t &matrix, const Vector &vec ) { Vector tmp = vec; VectorNormalize( tmp ); float x = matrix[0][0] * tmp.x + matrix[1][0] * tmp.y + matrix[2][0] * tmp.z; float z = matrix[0][2] * tmp.x + matrix[1][2] * tmp.y + matrix[2][2] * tmp.z; if (x == 0.0f && z == 0.0f) return 0.0f; float pitch = atan2( z, x ); pitch = RAD2DEG(pitch); if (pitch < 0) pitch += 360; return pitch; } Vector UTIL_YawToVector( float yaw ) { Vector ret; ret.z = 0; float angle = DEG2RAD( yaw ); SinCos( angle, &ret.y, &ret.x ); return ret; } //----------------------------------------------------------------------------- // Purpose: Helper function get get determinisitc random values for shared/prediction code // Input : seedvalue - // *module - // line - // Output : static int //----------------------------------------------------------------------------- static int SeedFileLineHash( int seedvalue, const char *sharedname, int additionalSeed ) { CRC32_t retval; CRC32_Init( &retval ); CRC32_ProcessBuffer( &retval, (void *)&seedvalue, sizeof( int ) ); CRC32_ProcessBuffer( &retval, (void *)&additionalSeed, sizeof( int ) ); CRC32_ProcessBuffer( &retval, (void *)sharedname, Q_strlen( sharedname ) ); CRC32_Final( &retval ); return (int)( retval ); } float SharedRandomFloat( const char *sharedname, float flMinVal, float flMaxVal, int additionalSeed /*=0*/ ) { Assert( CBaseEntity::GetPredictionRandomSeed() != -1 ); int seed = SeedFileLineHash( CBaseEntity::GetPredictionRandomSeed(), sharedname, additionalSeed ); RandomSeed( seed ); return RandomFloat( flMinVal, flMaxVal ); } int SharedRandomInt( const char *sharedname, int iMinVal, int iMaxVal, int additionalSeed /*=0*/ ) { Assert( CBaseEntity::GetPredictionRandomSeed() != -1 ); int seed = SeedFileLineHash( CBaseEntity::GetPredictionRandomSeed(), sharedname, additionalSeed ); RandomSeed( seed ); return RandomInt( iMinVal, iMaxVal ); } Vector SharedRandomVector( const char *sharedname, float minVal, float maxVal, int additionalSeed /*=0*/ ) { Assert( CBaseEntity::GetPredictionRandomSeed() != -1 ); int seed = SeedFileLineHash( CBaseEntity::GetPredictionRandomSeed(), sharedname, additionalSeed ); RandomSeed( seed ); // HACK: Can't call RandomVector/Angle because it uses rand() not vstlib Random*() functions! // Get a random vector. Vector random; random.x = RandomFloat( minVal, maxVal ); random.y = RandomFloat( minVal, maxVal ); random.z = RandomFloat( minVal, maxVal ); return random; } QAngle SharedRandomAngle( const char *sharedname, float minVal, float maxVal, int additionalSeed /*=0*/ ) { Assert( CBaseEntity::GetPredictionRandomSeed() != -1 ); int seed = SeedFileLineHash( CBaseEntity::GetPredictionRandomSeed(), sharedname, additionalSeed ); RandomSeed( seed ); // HACK: Can't call RandomVector/Angle because it uses rand() not vstlib Random*() functions! // Get a random vector. Vector random; random.x = RandomFloat( minVal, maxVal ); random.y = RandomFloat( minVal, maxVal ); random.z = RandomFloat( minVal, maxVal ); return QAngle( random.x, random.y, random.z ); } //----------------------------------------------------------------------------- // // Shared client/server trace filter code // //----------------------------------------------------------------------------- bool PassServerEntityFilter( const IHandleEntity *pTouch, const IHandleEntity *pPass ) { if ( !pPass ) return true; if ( pTouch == pPass ) return false; const CBaseEntity *pEntTouch = EntityFromEntityHandle( pTouch ); const CBaseEntity *pEntPass = EntityFromEntityHandle( pPass ); if ( !pEntTouch || !pEntPass ) return true; // don't clip against own missiles if ( pEntTouch->GetOwnerEntity() == pEntPass ) return false; // don't clip against owner if ( pEntPass->GetOwnerEntity() == pEntTouch ) return false; return true; } //----------------------------------------------------------------------------- // A standard filter to be applied to just about everything. //----------------------------------------------------------------------------- bool StandardFilterRules( IHandleEntity *pHandleEntity, int fContentsMask ) { CBaseEntity *pCollide = EntityFromEntityHandle( pHandleEntity ); // Static prop case... if ( !pCollide ) return true; SolidType_t solid = pCollide->GetSolid(); const model_t *pModel = pCollide->GetModel(); if ( ( modelinfo->GetModelType( pModel ) != mod_brush ) || (solid != SOLID_BSP && solid != SOLID_VPHYSICS) ) { if ( (fContentsMask & CONTENTS_MONSTER) == 0 ) return false; } // This code is used to cull out tests against see-thru entities if ( !(fContentsMask & CONTENTS_WINDOW) && pCollide->IsTransparent() ) return false; // FIXME: this is to skip BSP models that are entities that can be // potentially moved/deleted, similar to a monster but doors don't seem to // be flagged as monsters // FIXME: the FL_WORLDBRUSH looked promising, but it needs to be set on // everything that's actually a worldbrush and it currently isn't if ( !(fContentsMask & CONTENTS_MOVEABLE) && (pCollide->GetMoveType() == MOVETYPE_PUSH))// !(touch->flags & FL_WORLDBRUSH) ) return false; return true; } //----------------------------------------------------------------------------- // Simple trace filter //----------------------------------------------------------------------------- CTraceFilterSimple::CTraceFilterSimple( const IHandleEntity *passedict, int collisionGroup, ShouldHitFunc_t pExtraShouldHitFunc ) { m_pPassEnt = passedict; m_collisionGroup = collisionGroup; m_pExtraShouldHitCheckFunction = pExtraShouldHitFunc; } //----------------------------------------------------------------------------- // The trace filter! //----------------------------------------------------------------------------- bool CTraceFilterSimple::ShouldHitEntity( IHandleEntity *pHandleEntity, int contentsMask ) { if ( !StandardFilterRules( pHandleEntity, contentsMask ) ) return false; if ( m_pPassEnt ) { if ( !PassServerEntityFilter( pHandleEntity, m_pPassEnt ) ) { return false; } } // Don't test if the game code tells us we should ignore this collision... CBaseEntity *pEntity = EntityFromEntityHandle( pHandleEntity ); if ( !pEntity ) return false; if ( !pEntity->ShouldCollide( m_collisionGroup, contentsMask ) ) return false; if ( pEntity && !g_pGameRules->ShouldCollide( m_collisionGroup, pEntity->GetCollisionGroup() ) ) return false; if ( m_pExtraShouldHitCheckFunction && (! ( m_pExtraShouldHitCheckFunction( pHandleEntity, contentsMask ) ) ) ) return false; return true; } //----------------------------------------------------------------------------- // Purpose: Trace filter that only hits NPCs and the player //----------------------------------------------------------------------------- bool CTraceFilterOnlyNPCsAndPlayer::ShouldHitEntity( IHandleEntity *pHandleEntity, int contentsMask ) { if ( CTraceFilterSimple::ShouldHitEntity( pHandleEntity, contentsMask ) ) { CBaseEntity *pEntity = EntityFromEntityHandle( pHandleEntity ); if ( !pEntity ) return false; #ifdef CSTRIKE_DLL #ifndef CLIENT_DLL if ( pEntity->Classify() == CLASS_PLAYER_ALLY ) return true; // CS hostages are CLASS_PLAYER_ALLY but not IsNPC() #endif // !CLIENT_DLL #endif // CSTRIKE_DLL return (pEntity->IsNPC() || pEntity->IsPlayer()); } return false; } //----------------------------------------------------------------------------- // Purpose: Trace filter that only hits anything but NPCs and the player //----------------------------------------------------------------------------- bool CTraceFilterNoNPCsOrPlayer::ShouldHitEntity( IHandleEntity *pHandleEntity, int contentsMask ) { if ( CTraceFilterSimple::ShouldHitEntity( pHandleEntity, contentsMask ) ) { CBaseEntity *pEntity = EntityFromEntityHandle( pHandleEntity ); if ( !pEntity ) return NULL; #ifndef CLIENT_DLL if ( pEntity->Classify() == CLASS_PLAYER_ALLY ) return false; // CS hostages are CLASS_PLAYER_ALLY but not IsNPC() #endif return (!pEntity->IsNPC() && !pEntity->IsPlayer()); } return false; } //----------------------------------------------------------------------------- // Trace filter that skips two entities //----------------------------------------------------------------------------- CTraceFilterSkipTwoEntities::CTraceFilterSkipTwoEntities( const IHandleEntity *passentity, const IHandleEntity *passentity2, int collisionGroup ) : BaseClass( passentity, collisionGroup ), m_pPassEnt2(passentity2) { } bool CTraceFilterSkipTwoEntities::ShouldHitEntity( IHandleEntity *pHandleEntity, int contentsMask ) { Assert( pHandleEntity ); if ( !PassServerEntityFilter( pHandleEntity, m_pPassEnt2 ) ) return false; return BaseClass::ShouldHitEntity( pHandleEntity, contentsMask ); } //----------------------------------------------------------------------------- // Trace filter that can take a list of entities to ignore //----------------------------------------------------------------------------- CTraceFilterSimpleList::CTraceFilterSimpleList( int collisionGroup ) : CTraceFilterSimple( NULL, collisionGroup ) { } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- bool CTraceFilterSimpleList::ShouldHitEntity( IHandleEntity *pHandleEntity, int contentsMask ) { if ( m_PassEntities.Find(pHandleEntity) != m_PassEntities.InvalidIndex() ) return false; return CTraceFilterSimple::ShouldHitEntity( pHandleEntity, contentsMask ); } //----------------------------------------------------------------------------- // Purpose: Add an entity to my list of entities to ignore in the trace //----------------------------------------------------------------------------- void CTraceFilterSimpleList::AddEntityToIgnore( IHandleEntity *pEntity ) { m_PassEntities.AddToTail( pEntity ); } //----------------------------------------------------------------------------- // Purpose: Custom trace filter used for NPC LOS traces //----------------------------------------------------------------------------- CTraceFilterLOS::CTraceFilterLOS( IHandleEntity *pHandleEntity, int collisionGroup, IHandleEntity *pHandleEntity2 ) : CTraceFilterSkipTwoEntities( pHandleEntity, pHandleEntity2, collisionGroup ) { } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- bool CTraceFilterLOS::ShouldHitEntity( IHandleEntity *pHandleEntity, int contentsMask ) { CBaseEntity *pEntity = EntityFromEntityHandle( pHandleEntity ); if ( !pEntity->BlocksLOS() ) return false; return CTraceFilterSimple::ShouldHitEntity( pHandleEntity, contentsMask ); } //----------------------------------------------------------------------------- // Trace filter that can take a classname to ignore //----------------------------------------------------------------------------- CTraceFilterSkipClassname::CTraceFilterSkipClassname( const IHandleEntity *passentity, const char *pchClassname, int collisionGroup ) : CTraceFilterSimple( passentity, collisionGroup ), m_pchClassname( pchClassname ) { } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- bool CTraceFilterSkipClassname::ShouldHitEntity( IHandleEntity *pHandleEntity, int contentsMask ) { CBaseEntity *pEntity = EntityFromEntityHandle( pHandleEntity ); if ( !pEntity || FClassnameIs( pEntity, m_pchClassname ) ) return false; return CTraceFilterSimple::ShouldHitEntity( pHandleEntity, contentsMask ); } //----------------------------------------------------------------------------- // Trace filter that skips two classnames //----------------------------------------------------------------------------- CTraceFilterSkipTwoClassnames::CTraceFilterSkipTwoClassnames( const IHandleEntity *passentity, const char *pchClassname, const char *pchClassname2, int collisionGroup ) : BaseClass( passentity, pchClassname, collisionGroup ), m_pchClassname2(pchClassname2) { } bool CTraceFilterSkipTwoClassnames::ShouldHitEntity( IHandleEntity *pHandleEntity, int contentsMask ) { CBaseEntity *pEntity = EntityFromEntityHandle( pHandleEntity ); if ( !pEntity || FClassnameIs( pEntity, m_pchClassname2 ) ) return false; return BaseClass::ShouldHitEntity( pHandleEntity, contentsMask ); } //----------------------------------------------------------------------------- // Trace filter that can take a list of entities to ignore //----------------------------------------------------------------------------- CTraceFilterSimpleClassnameList::CTraceFilterSimpleClassnameList( const IHandleEntity *passentity, int collisionGroup ) : CTraceFilterSimple( passentity, collisionGroup ) { } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- bool CTraceFilterSimpleClassnameList::ShouldHitEntity( IHandleEntity *pHandleEntity, int contentsMask ) { CBaseEntity *pEntity = EntityFromEntityHandle( pHandleEntity ); if ( !pEntity ) return false; for ( int i = 0; i < m_PassClassnames.Count(); ++i ) { if ( FClassnameIs( pEntity, m_PassClassnames[ i ] ) ) return false; } return CTraceFilterSimple::ShouldHitEntity( pHandleEntity, contentsMask ); } //----------------------------------------------------------------------------- // Purpose: Add an entity to my list of entities to ignore in the trace //----------------------------------------------------------------------------- void CTraceFilterSimpleClassnameList::AddClassnameToIgnore( const char *pchClassname ) { m_PassClassnames.AddToTail( pchClassname ); } CTraceFilterChain::CTraceFilterChain( ITraceFilter *pTraceFilter1, ITraceFilter *pTraceFilter2 ) { m_pTraceFilter1 = pTraceFilter1; m_pTraceFilter2 = pTraceFilter2; } bool CTraceFilterChain::ShouldHitEntity( IHandleEntity *pHandleEntity, int contentsMask ) { bool bResult1 = true; bool bResult2 = true; if ( m_pTraceFilter1 ) bResult1 = m_pTraceFilter1->ShouldHitEntity( pHandleEntity, contentsMask ); if ( m_pTraceFilter2 ) bResult2 = m_pTraceFilter2->ShouldHitEntity( pHandleEntity, contentsMask ); return ( bResult1 && bResult2 ); } //----------------------------------------------------------------------------- // Sweeps against a particular model, using collision rules //----------------------------------------------------------------------------- void UTIL_TraceModel( const Vector &vecStart, const Vector &vecEnd, const Vector &hullMin, const Vector &hullMax, CBaseEntity *pentModel, int collisionGroup, trace_t *ptr ) { // Cull it.... if ( pentModel && pentModel->ShouldCollide( collisionGroup, MASK_ALL ) ) { Ray_t ray; ray.Init( vecStart, vecEnd, hullMin, hullMax ); enginetrace->ClipRayToEntity( ray, MASK_ALL, pentModel, ptr ); } else { memset( ptr, 0, sizeof(trace_t) ); ptr->fraction = 1.0f; } } bool UTIL_EntityHasMatchingRootParent( CBaseEntity *pRootParent, CBaseEntity *pEntity ) { if ( pRootParent ) { // NOTE: Don't let siblings/parents collide. if ( pRootParent == pEntity->GetRootMoveParent() ) return true; if ( pEntity->GetOwnerEntity() && pRootParent == pEntity->GetOwnerEntity()->GetRootMoveParent() ) return true; } return false; } //----------------------------------------------------------------------------- // Sweep an entity from the starting to the ending position //----------------------------------------------------------------------------- class CTraceFilterEntity : public CTraceFilterSimple { DECLARE_CLASS( CTraceFilterEntity, CTraceFilterSimple ); public: CTraceFilterEntity( CBaseEntity *pEntity, int nCollisionGroup ) : CTraceFilterSimple( pEntity, nCollisionGroup ) { m_pRootParent = pEntity->GetRootMoveParent(); m_pEntity = pEntity; m_checkHash = g_EntityCollisionHash->IsObjectInHash(pEntity); } bool ShouldHitEntity( IHandleEntity *pHandleEntity, int contentsMask ) { CBaseEntity *pEntity = EntityFromEntityHandle( pHandleEntity ); if ( !pEntity ) return false; // Check parents against each other // NOTE: Don't let siblings/parents collide. if ( UTIL_EntityHasMatchingRootParent( m_pRootParent, pEntity ) ) return false; if ( m_checkHash ) { if ( g_EntityCollisionHash->IsObjectPairInHash( m_pEntity, pEntity ) ) return false; } #ifndef CLIENT_DLL if ( m_pEntity->IsNPC() ) { if ( NPC_CheckBrushExclude( m_pEntity, pEntity ) ) return false; } #endif return BaseClass::ShouldHitEntity( pHandleEntity, contentsMask ); } private: CBaseEntity *m_pRootParent; CBaseEntity *m_pEntity; bool m_checkHash; }; class CTraceFilterEntityIgnoreOther : public CTraceFilterEntity { DECLARE_CLASS( CTraceFilterEntityIgnoreOther, CTraceFilterEntity ); public: CTraceFilterEntityIgnoreOther( CBaseEntity *pEntity, const IHandleEntity *pIgnore, int nCollisionGroup ) : CTraceFilterEntity( pEntity, nCollisionGroup ), m_pIgnoreOther( pIgnore ) { } bool ShouldHitEntity( IHandleEntity *pHandleEntity, int contentsMask ) { if ( pHandleEntity == m_pIgnoreOther ) return false; return BaseClass::ShouldHitEntity( pHandleEntity, contentsMask ); } private: const IHandleEntity *m_pIgnoreOther; }; //----------------------------------------------------------------------------- // Sweeps a particular entity through the world //----------------------------------------------------------------------------- void UTIL_TraceEntity( CBaseEntity *pEntity, const Vector &vecAbsStart, const Vector &vecAbsEnd, unsigned int mask, trace_t *ptr ) { ICollideable *pCollision = pEntity->GetCollideable(); // Adding this assertion here so game code catches it, but really the assertion belongs in the engine // because one day, rotated collideables will work! Assert( pCollision->GetCollisionAngles() == vec3_angle ); CTraceFilterEntity traceFilter( pEntity, pCollision->GetCollisionGroup() ); #ifdef PORTAL UTIL_Portal_TraceEntity( pEntity, vecAbsStart, vecAbsEnd, mask, &traceFilter, ptr ); #else enginetrace->SweepCollideable( pCollision, vecAbsStart, vecAbsEnd, pCollision->GetCollisionAngles(), mask, &traceFilter, ptr ); #endif } void UTIL_TraceEntity( CBaseEntity *pEntity, const Vector &vecAbsStart, const Vector &vecAbsEnd, unsigned int mask, const IHandleEntity *pIgnore, int nCollisionGroup, trace_t *ptr ) { ICollideable *pCollision; pCollision = pEntity->GetCollideable(); // Adding this assertion here so game code catches it, but really the assertion belongs in the engine // because one day, rotated collideables will work! Assert( pCollision->GetCollisionAngles() == vec3_angle ); CTraceFilterEntityIgnoreOther traceFilter( pEntity, pIgnore, nCollisionGroup ); #ifdef PORTAL UTIL_Portal_TraceEntity( pEntity, vecAbsStart, vecAbsEnd, mask, &traceFilter, ptr ); #else enginetrace->SweepCollideable( pCollision, vecAbsStart, vecAbsEnd, pCollision->GetCollisionAngles(), mask, &traceFilter, ptr ); #endif } void UTIL_TraceEntity( CBaseEntity *pEntity, const Vector &vecAbsStart, const Vector &vecAbsEnd, unsigned int mask, ITraceFilter *pFilter, trace_t *ptr ) { ICollideable *pCollision; pCollision = pEntity->GetCollideable(); // Adding this assertion here so game code catches it, but really the assertion belongs in the engine // because one day, rotated collideables will work! Assert( pCollision->GetCollisionAngles() == vec3_angle ); #ifdef PORTAL UTIL_Portal_TraceEntity( pEntity, vecAbsStart, vecAbsEnd, mask, pFilter, ptr ); #else enginetrace->SweepCollideable( pCollision, vecAbsStart, vecAbsEnd, pCollision->GetCollisionAngles(), mask, pFilter, ptr ); #endif } // ---- // This is basically a regular TraceLine that uses the FilterEntity filter. void UTIL_TraceLineFilterEntity( CBaseEntity *pEntity, const Vector &vecAbsStart, const Vector &vecAbsEnd, unsigned int mask, int nCollisionGroup, trace_t *ptr ) { CTraceFilterEntity traceFilter( pEntity, nCollisionGroup ); UTIL_TraceLine( vecAbsStart, vecAbsEnd, mask, &traceFilter, ptr ); } void UTIL_ClipTraceToPlayers( const Vector& vecAbsStart, const Vector& vecAbsEnd, unsigned int mask, ITraceFilter *filter, trace_t *tr ) { trace_t playerTrace; Ray_t ray; float smallestFraction = tr->fraction; const float maxRange = 60.0f; ray.Init( vecAbsStart, vecAbsEnd ); for ( int k = 1; k <= gpGlobals->maxClients; ++k ) { CBasePlayer *player = UTIL_PlayerByIndex( k ); if ( !player || !player->IsAlive() ) continue; #ifdef CLIENT_DLL if ( player->IsDormant() ) continue; #endif // CLIENT_DLL if ( filter && filter->ShouldHitEntity( player, mask ) == false ) continue; float range = DistanceToRay( player->WorldSpaceCenter(), vecAbsStart, vecAbsEnd ); if ( range < 0.0f || range > maxRange ) continue; enginetrace->ClipRayToEntity( ray, mask|CONTENTS_HITBOX, player, &playerTrace ); if ( playerTrace.fraction < smallestFraction ) { // we shortened the ray - save off the trace *tr = playerTrace; smallestFraction = playerTrace.fraction; } } } //----------------------------------------------------------------------------- // Purpose: Make a tracer using a particle effect //----------------------------------------------------------------------------- void UTIL_ParticleTracer( const char *pszTracerEffectName, const Vector &vecStart, const Vector &vecEnd, int iEntIndex, int iAttachment, bool bWhiz ) { int iParticleIndex = GetParticleSystemIndex( pszTracerEffectName ); UTIL_Tracer( vecStart, vecEnd, iEntIndex, iAttachment, 0, bWhiz, "ParticleTracer", iParticleIndex ); } //----------------------------------------------------------------------------- // Purpose: Make a tracer effect using the old, non-particle system, tracer effects. //----------------------------------------------------------------------------- void UTIL_Tracer( const Vector &vecStart, const Vector &vecEnd, int iEntIndex, int iAttachment, float flVelocity, bool bWhiz, const char *pCustomTracerName, int iParticleID ) { CEffectData data; data.m_vStart = vecStart; data.m_vOrigin = vecEnd; #ifdef CLIENT_DLL data.m_hEntity = ClientEntityList().EntIndexToHandle( iEntIndex ); #else data.m_nEntIndex = iEntIndex; #endif data.m_flScale = flVelocity; data.m_nHitBox = iParticleID; // Flags if ( bWhiz ) { data.m_fFlags |= TRACER_FLAG_WHIZ; } if ( iAttachment != TRACER_DONT_USE_ATTACHMENT ) { data.m_fFlags |= TRACER_FLAG_USEATTACHMENT; data.m_nAttachmentIndex = iAttachment; } // Fire it off if ( pCustomTracerName ) { DispatchEffect( pCustomTracerName, data ); } else { DispatchEffect( "Tracer", data ); } } void UTIL_BloodDrips( const Vector &origin, const Vector &direction, int color, int amount ) { if ( !UTIL_ShouldShowBlood( color ) ) return; if ( color == DONT_BLEED || amount == 0 ) return; if ( g_Language.GetInt() == LANGUAGE_GERMAN && color == BLOOD_COLOR_RED ) color = 0; if ( g_pGameRules->IsMultiplayer() ) { // scale up blood effect in multiplayer for better visibility amount *= 5; } if ( amount > 255 ) amount = 255; if (color == BLOOD_COLOR_MECH) { g_pEffects->Sparks(origin); if (random->RandomFloat(0, 2) >= 1) { UTIL_Smoke(origin, random->RandomInt(10, 15), 10); } } else { // Normal blood impact UTIL_BloodImpact( origin, direction, color, amount ); } } //----------------------------------------------------------------------------- // Purpose: Returns low violence settings //----------------------------------------------------------------------------- static ConVar violence_hblood( "violence_hblood","1", 0, "Draw human blood" ); static ConVar violence_hgibs( "violence_hgibs","1", 0, "Show human gib entities" ); static ConVar violence_ablood( "violence_ablood","1", 0, "Draw alien blood" ); static ConVar violence_agibs( "violence_agibs","1", 0, "Show alien gib entities" ); bool UTIL_IsLowViolence( void ) { // These convars are no longer necessary -- the engine is the final arbiter of // violence settings -- but they're here for legacy support and for testing low // violence when the engine is in normal violence mode. if ( !violence_hblood.GetBool() || !violence_ablood.GetBool() || !violence_hgibs.GetBool() || !violence_agibs.GetBool() ) return true; #ifdef TF_CLIENT_DLL // Use low violence if the local player has an item that allows them to see it (Pyro Goggles) if ( IsLocalPlayerUsingVisionFilterFlags( TF_VISION_FILTER_PYRO ) ) { return true; } #endif return engine->IsLowViolence(); } bool UTIL_ShouldShowBlood( int color ) { if ( color != DONT_BLEED ) { if ( color == BLOOD_COLOR_RED ) { return violence_hblood.GetBool(); } else { return violence_ablood.GetBool(); } } return false; } //------------------------------------------------------------------------------ // Purpose : Use trace to pass a specific decal type to the entity being decaled // Input : // Output : //------------------------------------------------------------------------------ void UTIL_DecalTrace( trace_t *pTrace, char const *decalName ) { if (pTrace->fraction == 1.0) return; CBaseEntity *pEntity = pTrace->m_pEnt; pEntity->DecalTrace( pTrace, decalName ); } void UTIL_BloodDecalTrace( trace_t *pTrace, int bloodColor ) { if ( UTIL_ShouldShowBlood( bloodColor ) ) { if ( bloodColor == BLOOD_COLOR_RED ) { UTIL_DecalTrace( pTrace, "Blood" ); } else { UTIL_DecalTrace( pTrace, "YellowBlood" ); } } } //----------------------------------------------------------------------------- // Purpose: // Input : &pos - // &dir - // color - // amount - //----------------------------------------------------------------------------- void UTIL_BloodImpact( const Vector &pos, const Vector &dir, int color, int amount ) { CEffectData data; data.m_vOrigin = pos; data.m_vNormal = dir; data.m_flScale = (float)amount; data.m_nColor = (unsigned char)color; DispatchEffect( "bloodimpact", data ); } bool UTIL_IsSpaceEmpty( CBaseEntity *pMainEnt, const Vector &vMin, const Vector &vMax ) { Vector vHalfDims = ( vMax - vMin ) * 0.5f; Vector vCenter = vMin + vHalfDims; trace_t trace; UTIL_TraceHull( vCenter, vCenter, -vHalfDims, vHalfDims, MASK_SOLID, pMainEnt, COLLISION_GROUP_NONE, &trace ); bool bClear = ( trace.fraction == 1 && trace.allsolid != 1 && (trace.startsolid != 1) ); return bClear; } void UTIL_StringToFloatArray( float *pVector, int count, const char *pString ) { char *pstr, *pfront, tempString[128]; int j; Q_strncpy( tempString, pString, sizeof(tempString) ); pstr = pfront = tempString; for ( j = 0; j < count; j++ ) // lifted from pr_edict.c { pVector[j] = atof( pfront ); // skip any leading whitespace while ( *pstr && *pstr <= ' ' ) pstr++; // skip to next whitespace while ( *pstr && *pstr > ' ' ) pstr++; if (!*pstr) break; pstr++; pfront = pstr; } for ( j++; j < count; j++ ) { pVector[j] = 0; } } void UTIL_StringToVector( float *pVector, const char *pString ) { UTIL_StringToFloatArray( pVector, 3, pString ); } void UTIL_StringToIntArray( int *pVector, int count, const char *pString ) { char *pstr, *pfront, tempString[128]; int j; Q_strncpy( tempString, pString, sizeof(tempString) ); pstr = pfront = tempString; for ( j = 0; j < count; j++ ) // lifted from pr_edict.c { pVector[j] = atoi( pfront ); while ( *pstr && *pstr != ' ' ) pstr++; if (!*pstr) break; pstr++; pfront = pstr; } for ( j++; j < count; j++ ) { pVector[j] = 0; } } void UTIL_StringToColor32( color32 *color, const char *pString ) { int tmp[4]; UTIL_StringToIntArray( tmp, 4, pString ); color->r = tmp[0]; color->g = tmp[1]; color->b = tmp[2]; color->a = tmp[3]; } #ifndef _XBOX void UTIL_DecodeICE( unsigned char * buffer, int size, const unsigned char *key) { if ( !key ) return; IceKey ice( 0 ); // level 0 = 64bit key ice.set( key ); // set key int blockSize = ice.blockSize(); unsigned char *temp = (unsigned char *)_alloca( PAD_NUMBER( size, blockSize ) ); unsigned char *p1 = buffer; unsigned char *p2 = temp; // encrypt data in 8 byte blocks int bytesLeft = size; while ( bytesLeft >= blockSize ) { ice.decrypt( p1, p2 ); bytesLeft -= blockSize; p1+=blockSize; p2+=blockSize; } // copy encrypted data back to original buffer Q_memcpy( buffer, temp, size-bytesLeft ); } #endif // work-around since client header doesn't like inlined gpGlobals->curtime float IntervalTimer::Now( void ) const { return gpGlobals->curtime; } // work-around since client header doesn't like inlined gpGlobals->curtime float CountdownTimer::Now( void ) const { return gpGlobals->curtime; } #ifdef CLIENT_DLL CBasePlayer *UTIL_PlayerByIndex( int entindex ) { return ToBasePlayer( ClientEntityList().GetEnt( entindex ) ); } //============================================================================= // HPE_BEGIN: // [menglish] Added UTIL function for events in client win_panel which transmit the player as a user ID //============================================================================= CBasePlayer* UTIL_PlayerByUserId( int userID ) { for (int i = 1; i<=gpGlobals->maxClients; i++ ) { CBasePlayer *pPlayer = UTIL_PlayerByIndex( i ); if ( !pPlayer ) continue; if ( pPlayer->GetUserID() == userID ) { return pPlayer; } } return NULL; } //============================================================================= // HPE_END //============================================================================= #endif char* ReadAndAllocStringValue( KeyValues *pSub, const char *pName, const char *pFilename ) { const char *pValue = pSub->GetString( pName, NULL ); if ( !pValue ) { if ( pFilename ) { DevWarning( "Can't get key value '%s' from file '%s'.\n", pName, pFilename ); } return ""; } int len = Q_strlen( pValue ) + 1; char *pAlloced = new char[ len ]; Assert( pAlloced ); Q_strncpy( pAlloced, pValue, len ); return pAlloced; } int UTIL_StringFieldToInt( const char *szValue, const char **pValueStrings, int iNumStrings ) { if ( !szValue || !szValue[0] ) return -1; for ( int i = 0; i < iNumStrings; i++ ) { if ( FStrEq(szValue, pValueStrings[i]) ) return i; } Assert(0); return -1; } int find_day_of_week( struct tm& found_day, int day_of_week, int step ) { return 0; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- #ifdef USES_ECON_ITEMS static bool s_HolidaysCalculated = false; static CBitVec s_HolidaysActive; //----------------------------------------------------------------------------- // Purpose: Used at level change and round start to re-calculate which holiday is active //----------------------------------------------------------------------------- void UTIL_CalculateHolidays() { s_HolidaysActive.ClearAll(); CRTime::UpdateRealTime(); for ( int iHoliday = 0; iHoliday < kHolidayCount; iHoliday++ ) { if ( EconHolidays_IsHolidayActive( iHoliday, CRTime::RTime32TimeCur() ) ) { s_HolidaysActive.Set( iHoliday ); } } s_HolidaysCalculated = true; } #endif // USES_ECON_ITEMS bool UTIL_IsHolidayActive( /*EHoliday*/ int eHoliday ) { #ifdef USES_ECON_ITEMS if ( IsX360() ) return false; if ( !s_HolidaysCalculated ) { UTIL_CalculateHolidays(); } return s_HolidaysActive.IsBitSet( eHoliday ); #else return false; #endif } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- int UTIL_GetHolidayForString( const char* pszHolidayName ) { #ifdef USES_ECON_ITEMS if ( !pszHolidayName ) return kHoliday_None; return EconHolidays_GetHolidayForString( pszHolidayName ); #else return 0; #endif } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- const char* UTIL_GetActiveHolidayString() { #ifdef USES_ECON_ITEMS return EconHolidays_GetActiveHolidayString(); #else return NULL; #endif }