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404 lines
13 KiB
404 lines
13 KiB
//========= Copyright © 1996-2005, Valve Corporation, All rights reserved. ============//
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//
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// Purpose:
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//
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// $NoKeywords: $
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//=============================================================================//
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#include "cbase.h"
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#include "env_meteor_shared.h"
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#include "mapdata_shared.h"
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#include "sharedInterface.h"
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// NOTE: This has to be the last file included!
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#include "tier0/memdbgon.h"
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//=============================================================================
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//
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// Meteor Functions.
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//
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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CEnvMeteorShared::CEnvMeteorShared()
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{
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m_nID = 0;
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m_vecStartPosition.Init();
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m_vecDirection.Init();
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m_flSpeed = 0.0f;
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m_flDamageRadius = 0.0f;
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m_flStartTime = METEOR_INVALID_TIME;
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m_flPassiveTime = METEOR_INVALID_TIME;
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m_flWorldEnterTime = METEOR_INVALID_TIME;
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m_flWorldExitTime = METEOR_INVALID_TIME;
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m_nLocation = METEOR_LOCATION_INVALID;
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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void CEnvMeteorShared::Init( int nID, float flStartTime, float flPassiveTime,
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const Vector &vecStartPosition,
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const Vector &vecDirection, float flSpeed, float flDamageRadius,
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const Vector &vecTriggerMins, const Vector &vecTriggerMaxs )
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{
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// Setup initial parametric state.
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m_nID = nID;
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VectorCopy( vecStartPosition, m_vecStartPosition );
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VectorCopy( vecStartPosition, m_vecPos );
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VectorCopy( vecDirection, m_vecDirection );
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m_flSpeed = flSpeed;
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m_flDamageRadius = flDamageRadius;
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m_flStartTime = flPassiveTime + flStartTime;
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m_flPassiveTime = flPassiveTime;
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m_flPosTime = m_flStartTime;
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// Calculate the enter/exit times.
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CalcEnterAndExitTimes( vecTriggerMins, vecTriggerMaxs );
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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void CEnvMeteorShared::GetPositionAtTime( float flTime, Vector &vecPosition )
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{
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float flDeltaTime = flTime - m_flPosTime;
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Vector vecVelocity( m_vecDirection.x * m_flSpeed, m_vecDirection.y * m_flSpeed, m_vecDirection.z * m_flSpeed );
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VectorMA( m_vecPos, flDeltaTime, vecVelocity, vecPosition );
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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void CEnvMeteorShared::ConvertFromSkyboxToWorld( void )
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{
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// The new start position is the position at which the meteor enters
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// the skybox.
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Vector vecSkyboxOrigin;
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g_pMapData->Get3DSkyboxOrigin( vecSkyboxOrigin );
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float flSkyboxScale = g_pMapData->Get3DSkyboxScale();
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m_vecPos += ( m_flSpeed * m_vecDirection ) * ( m_flWorldEnterTime - m_flStartTime );
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m_vecPos -= vecSkyboxOrigin;
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m_vecPos *= flSkyboxScale;
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// Scale the speed.
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m_flSpeed *= flSkyboxScale;
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// Reset the start time.
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m_flPosTime = m_flWorldEnterTime;
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// Set the location to world.
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m_nLocation = METEOR_LOCATION_WORLD;
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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void CEnvMeteorShared::ConvertFromWorldToSkybox( void )
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{
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// Scale the speed.
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float flSkyboxScale = g_pMapData->Get3DSkyboxScale();
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m_flSpeed /= flSkyboxScale;
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float flDeltaTime = m_flWorldExitTime - m_flStartTime;
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Vector vecVelocity( m_vecDirection.x * m_flSpeed, m_vecDirection.y * m_flSpeed, m_vecDirection.z * m_flSpeed );
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VectorMA( m_vecStartPosition, flDeltaTime, vecVelocity, m_vecPos );
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// Reset the start time.
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m_flPosTime = m_flWorldExitTime;
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// Set the location to skybox.
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m_nLocation = METEOR_LOCATION_SKYBOX;
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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bool CEnvMeteorShared::IsInSkybox( float flTime )
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{
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// Check to see if we are always in the skybox!
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if ( m_flWorldEnterTime == METEOR_INVALID_TIME )
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return true;
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return ( ( flTime < m_flWorldEnterTime ) || ( flTime > m_flWorldExitTime ) );
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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bool CEnvMeteorShared::IsPassive( float flTime )
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{
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return ( flTime < m_flPassiveTime );
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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bool CEnvMeteorShared::WillTransition( void )
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{
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return ( m_flWorldEnterTime == METEOR_INVALID_TIME );
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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float CEnvMeteorShared::GetDamageRadius( void )
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{
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return m_flDamageRadius;
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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void CEnvMeteorShared::CalcEnterAndExitTimes( const Vector &vecTriggerMins,
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const Vector &vecTriggerMaxs )
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{
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#define METEOR_TRIGGER_EPSILON 0.001f
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// Initialize the enter/exit fractions.
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float flEnterFrac = 0.0f;
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float flExitFrac = 1.0f;
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// Create an arbitrarily large end position.
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Vector vecEndPosition;
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VectorMA( m_vecStartPosition, 32000.0f, m_vecDirection, vecEndPosition );
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float flFrac, flDistStart, flDistEnd;
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for( int iAxis = 0; iAxis < 3; iAxis++ )
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{
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// Negative Axis
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flDistStart = -m_vecStartPosition[iAxis] + vecTriggerMins[iAxis];
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flDistEnd = -vecEndPosition[iAxis] + vecTriggerMins[iAxis];
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if ( ( flDistStart > 0.0f ) && ( flDistEnd < 0.0f ) )
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{
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flFrac = ( flDistStart - METEOR_TRIGGER_EPSILON ) / ( flDistStart - flDistEnd );
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if ( flFrac > flEnterFrac ) { flEnterFrac = flFrac; }
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}
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if ( ( flDistStart < 0.0f ) && ( flDistEnd > 0.0f ) )
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{
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flFrac = ( flDistStart + METEOR_TRIGGER_EPSILON ) / ( flDistStart - flDistEnd );
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if( flFrac < flExitFrac ) { flExitFrac = flFrac; }
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}
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if ( ( flDistStart > 0.0f ) && ( flDistEnd > 0.0f ) )
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return;
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// Positive Axis
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flDistStart = m_vecStartPosition[iAxis] - vecTriggerMaxs[iAxis];
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flDistEnd = vecEndPosition[iAxis] - vecTriggerMaxs[iAxis];
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if ( ( flDistStart > 0.0f ) && ( flDistEnd < 0.0f ) )
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{
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flFrac = ( flDistStart - METEOR_TRIGGER_EPSILON ) / ( flDistStart - flDistEnd );
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if ( flFrac > flEnterFrac ) { flEnterFrac = flFrac; }
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}
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if ( ( flDistStart < 0.0f ) && ( flDistEnd > 0.0f ) )
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{
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flFrac = ( flDistStart + METEOR_TRIGGER_EPSILON ) / ( flDistStart - flDistEnd );
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if( flFrac < flExitFrac ) { flExitFrac = flFrac; }
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}
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if ( ( flDistStart > 0.0f ) && ( flDistEnd > 0.0f ) )
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return;
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}
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// Check for intersection.
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if ( flExitFrac >= flEnterFrac )
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{
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// Check to see if we start in the world or the skybox!
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if ( flEnterFrac == 0.0f )
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{
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m_nLocation = METEOR_LOCATION_WORLD;
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}
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else
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{
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m_nLocation = METEOR_LOCATION_SKYBOX;
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}
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// Calculate the enter/exit times.
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Vector vecEnterPoint, vecExitPoint, vecDeltaPosition;
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VectorSubtract( vecEndPosition, m_vecStartPosition, vecDeltaPosition );
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VectorScale( vecDeltaPosition, flEnterFrac, vecEnterPoint );
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VectorScale( vecDeltaPosition, flExitFrac, vecExitPoint );
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m_flWorldEnterTime = vecEnterPoint.Length() / m_flSpeed;
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m_flWorldExitTime = vecExitPoint.Length() / m_flSpeed;
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m_flWorldEnterTime += m_flStartTime;
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m_flWorldExitTime += m_flStartTime;
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}
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#undef METEOR_TRIGGER_EPSILON
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}
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//=============================================================================
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//
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// Meteor Spawner Functions.
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//
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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CEnvMeteorSpawnerShared::CEnvMeteorSpawnerShared()
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{
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m_pFactory = NULL;
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m_nMeteorCount = 0;
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m_flStartTime = 0.0f;
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m_nRandomSeed = 0;
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m_iMeteorType = -1;
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m_flMeteorDamageRadius = 0.0f;
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m_bSkybox = true;
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m_flMinSpawnTime = 0.0f;
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m_flMaxSpawnTime = 0.0f;
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m_nMinSpawnCount = 0;
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m_nMaxSpawnCount = 0;
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m_vecMinBounds.Init();
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m_vecMaxBounds.Init();
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m_flMinSpeed = 0.0f;
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m_flMaxSpeed = 0.0f;
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m_flNextSpawnTime = 0.0f;
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m_vecTriggerMins.Init();
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m_vecTriggerMaxs.Init();
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m_vecTriggerCenter.Init();
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// Debug!
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m_nRandomCallCount = 0;
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m_aTargets.Purge();
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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void CEnvMeteorSpawnerShared::Init( IMeteorFactory *pFactory, int nRandomSeed, float flTime,
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const Vector &vecMinBounds, const Vector &vecMaxBounds,
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const Vector &vecTriggerMins, const Vector &vecTriggerMaxs )
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{
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// Factory.
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m_pFactory = pFactory;
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// Setup the random number stream.
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m_nRandomSeed = nRandomSeed;
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m_NumberStream.SetSeed( nRandomSeed );
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// Start time.
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m_flStartTime = flTime;
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// Copy the spawner bounds.
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m_vecMinBounds = vecMinBounds;
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m_vecMaxBounds = vecMaxBounds;
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// Copy the trigger bounds.
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m_vecTriggerMins = vecTriggerMins;
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m_vecTriggerMaxs = vecTriggerMaxs;
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// Get the center of the trigger bounds.
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m_vecTriggerCenter = ( m_vecTriggerMins + m_vecTriggerMaxs ) * 0.5f;
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// Setup spawn time.
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m_flNextSpawnTime = m_flStartTime + m_flMaxSpawnTime;
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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int CEnvMeteorSpawnerShared::GetRandomInt( int nMin, int nMax )
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{
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m_nRandomCallCount++;
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return m_NumberStream.RandomInt( nMin, nMax );
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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float CEnvMeteorSpawnerShared::GetRandomFloat( float flMin, float flMax )
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{
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m_nRandomCallCount++;
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return m_NumberStream.RandomFloat( flMin, flMax );
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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float CEnvMeteorSpawnerShared::MeteorThink( float flTime )
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{
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// Check for spawn.
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if ( flTime < m_flNextSpawnTime )
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return m_flNextSpawnTime;
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while ( m_flNextSpawnTime < flTime )
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{
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// Get a random number of meteors to spawn and spawn them.
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int nMeteorCount = GetRandomInt( m_nMinSpawnCount, m_nMaxSpawnCount );
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for ( int iMeteor = 0; iMeteor < nMeteorCount; iMeteor++ )
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{
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// Increment the number of meteors created (starting with 1).
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m_nMeteorCount++;
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// Get a random meteor position.
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Vector meteorOrigin( GetRandomFloat( m_vecMinBounds.GetX(), m_vecMaxBounds.GetX() ) /* x */,
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GetRandomFloat( m_vecMinBounds.GetY(), m_vecMaxBounds.GetY() ) /* y */,
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GetRandomFloat( m_vecMinBounds.GetZ(), m_vecMaxBounds.GetZ() ) /* z */ );
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// Calculate the direction of the meteor based on "targets."
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Vector vecDirection( 0.0f, 0.0f, -1.0f );
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if ( m_aTargets.Count() > 0 )
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{
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float flFreq = 1.0f / m_aTargets.Count();
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float flFreqAccum = flFreq;
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int iTarget;
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for( iTarget = 0; iTarget < m_aTargets.Count(); ++iTarget )
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{
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float flRandom = GetRandomFloat( 0.0f, 1.0f );
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if ( flRandom < flFreqAccum )
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break;
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flFreqAccum += flFreq;
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}
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// Should ever be here!
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if ( iTarget == m_aTargets.Count() )
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{
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iTarget--;
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}
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// Just set it to the first target for now!!!
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// NOTE: Will randomly generate from list of targets when more than 1 in
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// the future.
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// Move the meteor into the "world."
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Vector vecPositionInWorld;
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Vector vecSkyboxOrigin;
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g_pMapData->Get3DSkyboxOrigin( vecSkyboxOrigin );
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vecPositionInWorld = ( meteorOrigin - vecSkyboxOrigin );
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vecPositionInWorld *= g_pMapData->Get3DSkyboxScale();
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Vector vecTargetPos = m_aTargets[iTarget].m_vecPosition;
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vecTargetPos.x += GetRandomFloat( -m_aTargets[iTarget].m_flRadius, m_aTargets[iTarget].m_flRadius );
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vecTargetPos.y += GetRandomFloat( -m_aTargets[iTarget].m_flRadius, m_aTargets[iTarget].m_flRadius );
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vecTargetPos.z += GetRandomFloat( -m_aTargets[iTarget].m_flRadius, m_aTargets[iTarget].m_flRadius );
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vecDirection = vecTargetPos - vecPositionInWorld;
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VectorNormalize( vecDirection );
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}
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// Pass in the randomized position, randomized speed, and start time.
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m_pFactory->CreateMeteor( m_nMeteorCount, m_iMeteorType, meteorOrigin,
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vecDirection /* direction */,
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GetRandomFloat( m_flMinSpeed, m_flMaxSpeed ) /* speed */,
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m_flNextSpawnTime, m_flMeteorDamageRadius,
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m_vecTriggerMins, m_vecTriggerMaxs );
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}
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// Set next spawn time.
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m_flNextSpawnTime += GetRandomFloat( m_flMinSpawnTime, m_flMaxSpawnTime );
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}
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// Return the next spawn time.
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return ( m_flNextSpawnTime - gpGlobals->curtime );
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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void CEnvMeteorSpawnerShared::AddToTargetList( const Vector &vecPosition, float flRadius )
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{
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int iTarget = m_aTargets.AddToTail();
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m_aTargets[iTarget].m_vecPosition = vecPosition;
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m_aTargets[iTarget].m_flRadius = flRadius;
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}
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