//========= Copyright Valve Corporation, All rights reserved. ============// // // Purpose: Implements an explosion entity and a support spark shower entity. // // $NoKeywords: $ //=============================================================================// #include "cbase.h" #include "decals.h" #include "explode.h" #include "ai_basenpc.h" #include "IEffects.h" #include "vstdlib/random.h" #include "tier1/strtools.h" #include "shareddefs.h" // memdbgon must be the last include file in a .cpp file!!! #include "tier0/memdbgon.h" //----------------------------------------------------------------------------- // Purpose: Spark shower, created by the explosion entity. //----------------------------------------------------------------------------- class CShower : public CPointEntity { public: DECLARE_CLASS( CShower, CPointEntity ); void Spawn( void ); void Think( void ); void Touch( CBaseEntity *pOther ); int ObjectCaps( void ) { return FCAP_DONT_SAVE; } }; LINK_ENTITY_TO_CLASS( spark_shower, CShower ); void CShower::Spawn( void ) { Vector vecForward; AngleVectors( GetLocalAngles(), &vecForward ); Vector vecNewVelocity; vecNewVelocity = random->RandomFloat( 200, 300 ) * vecForward; vecNewVelocity.x += random->RandomFloat(-100.f,100.f); vecNewVelocity.y += random->RandomFloat(-100.f,100.f); if ( vecNewVelocity.z >= 0 ) vecNewVelocity.z += 200; else vecNewVelocity.z -= 200; SetAbsVelocity( vecNewVelocity ); SetMoveType( MOVETYPE_FLYGRAVITY, MOVECOLLIDE_FLY_BOUNCE ); SetGravity( UTIL_ScaleForGravity( 400 ) ); // fall a bit more slowly than normal SetNextThink( gpGlobals->curtime + 0.1f ); SetSolid( SOLID_NONE ); UTIL_SetSize(this, vec3_origin, vec3_origin ); AddEffects( EF_NODRAW ); m_flSpeed = random->RandomFloat( 0.5, 1.5 ); SetLocalAngles( vec3_angle ); } void CShower::Think( void ) { g_pEffects->Sparks( GetAbsOrigin() ); m_flSpeed -= 0.1; if ( m_flSpeed > 0 ) SetNextThink( gpGlobals->curtime + 0.1f ); else UTIL_Remove( this ); SetGroundEntity( NULL ); } void CShower::Touch( CBaseEntity *pOther ) { Vector vecNewVelocity = GetAbsVelocity(); if ( GetFlags() & FL_ONGROUND ) vecNewVelocity *= 0.1; else vecNewVelocity *= 0.6; if ( (vecNewVelocity.x*vecNewVelocity.x+vecNewVelocity.y*vecNewVelocity.y) < 10.0 ) m_flSpeed = 0; SetAbsVelocity( vecNewVelocity ); } class CEnvExplosion : public CPointEntity { public: DECLARE_CLASS( CEnvExplosion, CPointEntity ); CEnvExplosion( void ) { // Default to invalid. m_sFireballSprite = -1; }; void Precache( void ); void Spawn( ); void Smoke ( void ); void SetCustomDamageType( int iType ) { m_iCustomDamageType = iType; } bool KeyValue( const char *szKeyName, const char *szValue ); int DrawDebugTextOverlays(void); // Input handlers void InputExplode( inputdata_t &inputdata ); DECLARE_DATADESC(); int m_iMagnitude;// how large is the fireball? how much damage? int m_iRadiusOverride;// For use when m_iMagnitude results in larger radius than designer desires. int m_spriteScale; // what's the exact fireball sprite scale? float m_flDamageForce; // How much damage force should we use? string_t m_iszFireballSprite; short m_sFireballSprite; EHANDLE m_hInflictor; int m_iCustomDamageType; // passed along to the RadiusDamage call int m_iClassIgnore; EHANDLE m_hEntityIgnore; }; LINK_ENTITY_TO_CLASS( env_explosion, CEnvExplosion ); BEGIN_DATADESC( CEnvExplosion ) DEFINE_KEYFIELD( m_iMagnitude, FIELD_INTEGER, "iMagnitude" ), DEFINE_KEYFIELD( m_iRadiusOverride, FIELD_INTEGER, "iRadiusOverride" ), DEFINE_FIELD( m_spriteScale, FIELD_INTEGER ), DEFINE_KEYFIELD( m_flDamageForce, FIELD_FLOAT, "DamageForce" ), DEFINE_FIELD( m_iszFireballSprite, FIELD_STRING ), DEFINE_FIELD( m_sFireballSprite, FIELD_SHORT ), DEFINE_FIELD( m_hInflictor, FIELD_EHANDLE ), DEFINE_FIELD( m_iCustomDamageType, FIELD_INTEGER ), DEFINE_FIELD( m_iClassIgnore, FIELD_INTEGER ), DEFINE_KEYFIELD( m_hEntityIgnore, FIELD_EHANDLE, "ignoredEntity" ), // Function Pointers DEFINE_THINKFUNC( Smoke ), // Inputs DEFINE_INPUTFUNC(FIELD_VOID, "Explode", InputExplode), END_DATADESC() bool CEnvExplosion::KeyValue( const char *szKeyName, const char *szValue ) { if (FStrEq(szKeyName, "fireballsprite")) { m_iszFireballSprite = AllocPooledString( szValue ); } else { return BaseClass::KeyValue( szKeyName, szValue ); } return true; } void CEnvExplosion::Precache( void ) { if ( m_iszFireballSprite != NULL_STRING ) { m_sFireballSprite = PrecacheModel( STRING( m_iszFireballSprite ) ); } } void CEnvExplosion::Spawn( void ) { Precache(); SetSolid( SOLID_NONE ); AddEffects( EF_NODRAW ); SetMoveType( MOVETYPE_NONE ); /* if ( m_iMagnitude > 250 ) { m_iMagnitude = 250; } */ float flSpriteScale; flSpriteScale = ( m_iMagnitude - 50) * 0.6; // Control the clamping of the fireball sprite if( m_spawnflags & SF_ENVEXPLOSION_NOCLAMPMIN ) { // Don't inhibit clamping altogether. Just relax it a bit. if ( flSpriteScale < 1 ) { flSpriteScale = 1; } } else { if ( flSpriteScale < 10 ) { flSpriteScale = 10; } } if( m_spawnflags & SF_ENVEXPLOSION_NOCLAMPMAX ) { // We may need to adjust this to suit designers' needs. if ( flSpriteScale > 200 ) { flSpriteScale = 200; } } else { if ( flSpriteScale > 50 ) { flSpriteScale = 50; } } m_spriteScale = (int)flSpriteScale; m_iCustomDamageType = -1; } //----------------------------------------------------------------------------- // Purpose: Input handler for making the explosion explode. //----------------------------------------------------------------------------- void CEnvExplosion::InputExplode( inputdata_t &inputdata ) { trace_t tr; SetModelName( NULL_STRING );//invisible SetSolid( SOLID_NONE );// intangible Vector vecSpot = GetAbsOrigin() + Vector( 0 , 0 , 8 ); UTIL_TraceLine( vecSpot, vecSpot + Vector( 0, 0, -40 ), (MASK_SOLID_BRUSHONLY | MASK_WATER), this, COLLISION_GROUP_NONE, &tr ); // Pull out of the wall a bit. We used to move the explosion origin itself, but that seems unnecessary, not to mention a // little weird when you consider that it might be in hierarchy. Instead we just calculate a new virtual position at // which to place the explosion. We don't use that new position to calculate radius damage because according to Steve's // comment, that adversely affects the force vector imparted on explosion victims when they ragdoll. Vector vecExplodeOrigin = GetAbsOrigin(); if ( tr.fraction != 1.0 ) { vecExplodeOrigin = tr.endpos + (tr.plane.normal * 24 ); } // draw decal if (! ( m_spawnflags & SF_ENVEXPLOSION_NODECAL)) { UTIL_DecalTrace( &tr, "Scorch" ); } // It's stupid that this entity's spawnflags and the flags for the // explosion temp ent don't match up. But because they don't, we // have to reinterpret some of the spawnflags to determine which // flags to pass to the temp ent. int nFlags = TE_EXPLFLAG_NONE; if( m_spawnflags & SF_ENVEXPLOSION_NOFIREBALL ) { nFlags |= TE_EXPLFLAG_NOFIREBALL; } if( m_spawnflags & SF_ENVEXPLOSION_NOSOUND ) { nFlags |= TE_EXPLFLAG_NOSOUND; } if ( m_spawnflags & SF_ENVEXPLOSION_RND_ORIENT ) { nFlags |= TE_EXPLFLAG_ROTATE; } if ( m_nRenderMode == kRenderTransAlpha ) { nFlags |= TE_EXPLFLAG_DRAWALPHA; } else if ( m_nRenderMode != kRenderTransAdd ) { nFlags |= TE_EXPLFLAG_NOADDITIVE; } if( m_spawnflags & SF_ENVEXPLOSION_NOPARTICLES ) { nFlags |= TE_EXPLFLAG_NOPARTICLES; } if( m_spawnflags & SF_ENVEXPLOSION_NODLIGHTS ) { nFlags |= TE_EXPLFLAG_NODLIGHTS; } if ( m_spawnflags & SF_ENVEXPLOSION_NOFIREBALLSMOKE ) { nFlags |= TE_EXPLFLAG_NOFIREBALLSMOKE; } //Get the damage override if specified int iRadius = ( m_iRadiusOverride > 0 ) ? m_iRadiusOverride : ( m_iMagnitude * 2.5f ); CPASFilter filter( vecExplodeOrigin ); te->Explosion( filter, 0.0, &vecExplodeOrigin, ( m_sFireballSprite < 1 ) ? g_sModelIndexFireball : m_sFireballSprite, !( m_spawnflags & SF_ENVEXPLOSION_NOFIREBALL ) ? ( m_spriteScale / 10.0 ) : 0.0, 15, nFlags, iRadius, m_iMagnitude ); // do damage if ( !( m_spawnflags & SF_ENVEXPLOSION_NODAMAGE ) ) { CBaseEntity *pAttacker = GetOwnerEntity() ? GetOwnerEntity() : this; // Only calculate damage type if we didn't get a custom one passed in int iDamageType = m_iCustomDamageType; if ( iDamageType == -1 ) { iDamageType = HasSpawnFlags( SF_ENVEXPLOSION_GENERIC_DAMAGE ) ? DMG_GENERIC : DMG_BLAST; } CTakeDamageInfo info( m_hInflictor ? m_hInflictor : this, pAttacker, m_iMagnitude, iDamageType ); if( HasSpawnFlags( SF_ENVEXPLOSION_SURFACEONLY ) ) { info.AddDamageType( DMG_BLAST_SURFACE ); } if ( m_flDamageForce ) { // Not the right direction, but it'll be fixed up by RadiusDamage. info.SetDamagePosition( GetAbsOrigin() ); info.SetDamageForce( Vector( m_flDamageForce, 0, 0 ) ); } RadiusDamage( info, GetAbsOrigin(), iRadius, m_iClassIgnore, m_hEntityIgnore.Get() ); } SetThink( &CEnvExplosion::Smoke ); SetNextThink( gpGlobals->curtime + 0.3 ); // Only do these effects if we're not submerged if ( UTIL_PointContents( GetAbsOrigin() ) & CONTENTS_WATER ) { // draw sparks if ( !( m_spawnflags & SF_ENVEXPLOSION_NOSPARKS ) ) { int sparkCount = random->RandomInt(0,3); for ( int i = 0; i < sparkCount; i++ ) { QAngle angles; VectorAngles( tr.plane.normal, angles ); Create( "spark_shower", vecExplodeOrigin, angles, NULL ); } } } } void CEnvExplosion::Smoke( void ) { if ( !(m_spawnflags & SF_ENVEXPLOSION_REPEATABLE) ) { UTIL_Remove( this ); } } // HACKHACK -- create one of these and fake a keyvalue to get the right explosion setup void ExplosionCreate( const Vector ¢er, const QAngle &angles, CBaseEntity *pOwner, int magnitude, int radius, int nSpawnFlags, float flExplosionForce, CBaseEntity *pInflictor, int iCustomDamageType, const EHANDLE *ignoredEntity , Class_T ignoredClass ) { char buf[128]; CEnvExplosion *pExplosion = (CEnvExplosion*)CBaseEntity::Create( "env_explosion", center, angles, pOwner ); Q_snprintf( buf,sizeof(buf), "%3d", magnitude ); char *szKeyName = "iMagnitude"; char *szValue = buf; pExplosion->KeyValue( szKeyName, szValue ); pExplosion->AddSpawnFlags( nSpawnFlags ); if ( radius ) { Q_snprintf( buf,sizeof(buf), "%d", radius ); pExplosion->KeyValue( "iRadiusOverride", buf ); } if ( flExplosionForce != 0.0f ) { Q_snprintf( buf,sizeof(buf), "%.3f", flExplosionForce ); pExplosion->KeyValue( "DamageForce", buf ); } variant_t emptyVariant; pExplosion->m_nRenderMode = kRenderTransAdd; pExplosion->SetOwnerEntity( pOwner ); pExplosion->Spawn(); pExplosion->m_hInflictor = pInflictor; pExplosion->SetCustomDamageType( iCustomDamageType ); if (ignoredEntity) { pExplosion->m_hEntityIgnore = *ignoredEntity; } pExplosion->m_iClassIgnore = ignoredClass; pExplosion->AcceptInput( "Explode", NULL, NULL, emptyVariant, 0 ); } void ExplosionCreate( const Vector ¢er, const QAngle &angles, CBaseEntity *pOwner, int magnitude, int radius, bool doDamage, float flExplosionForce, bool bSurfaceOnly, bool bSilent, int iCustomDamageType ) { // For E3, no sparks int nFlags = SF_ENVEXPLOSION_NOSPARKS | SF_ENVEXPLOSION_NODLIGHTS | SF_ENVEXPLOSION_NOSMOKE; if ( !doDamage ) { nFlags |= SF_ENVEXPLOSION_NODAMAGE; } if( bSurfaceOnly ) { nFlags |= SF_ENVEXPLOSION_SURFACEONLY; } if( bSilent ) { nFlags |= SF_ENVEXPLOSION_NOSOUND; } ExplosionCreate( center, angles, pOwner, magnitude, radius, nFlags, flExplosionForce, NULL, iCustomDamageType ); } // this version lets you specify classes or entities to be ignored void ExplosionCreate( const Vector ¢er, const QAngle &angles, CBaseEntity *pOwner, int magnitude, int radius, bool doDamage, const EHANDLE *ignoredEntity, Class_T ignoredClass, float flExplosionForce , bool bSurfaceOnly , bool bSilent , int iCustomDamageType ) { // For E3, no sparks int nFlags = SF_ENVEXPLOSION_NOSPARKS | SF_ENVEXPLOSION_NODLIGHTS | SF_ENVEXPLOSION_NOSMOKE; if ( !doDamage ) { nFlags |= SF_ENVEXPLOSION_NODAMAGE; } if( bSurfaceOnly ) { nFlags |= SF_ENVEXPLOSION_SURFACEONLY; } if( bSilent ) { nFlags |= SF_ENVEXPLOSION_NOSOUND; } ExplosionCreate( center, angles, pOwner, magnitude, radius, nFlags, flExplosionForce, NULL, iCustomDamageType, ignoredEntity, ignoredClass ); } //----------------------------------------------------------------------------- // Purpose: Draw any debug text overlays // Output : Current text offset from the top //----------------------------------------------------------------------------- int CEnvExplosion::DrawDebugTextOverlays( void ) { int text_offset = BaseClass::DrawDebugTextOverlays(); if (m_debugOverlays & OVERLAY_TEXT_BIT) { char tempstr[512]; Q_snprintf(tempstr,sizeof(tempstr)," magnitude: %i", m_iMagnitude); EntityText(text_offset,tempstr,0); text_offset++; } return text_offset; }