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https://github.com/alliedmodders/hl2sdk.git
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387 lines
11 KiB
C++
387 lines
11 KiB
C++
//========= Copyright 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 "bone_setup.h"
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#include "c_ai_basenpc.h"
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#include "engine/ivdebugoverlay.h"
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#include "tier0/vprof.h"
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#include "soundinfo.h"
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// memdbgon must be the last include file in a .cpp file!!!
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#include "tier0/memdbgon.h"
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//-----------------------------------------------------------------------------
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// Purpose:
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//-----------------------------------------------------------------------------
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class C_NPC_Hydra : public C_AI_BaseNPC
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{
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public:
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DECLARE_CLASS( C_NPC_Hydra, C_AI_BaseNPC );
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DECLARE_CLIENTCLASS();
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DECLARE_INTERPOLATION();
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C_NPC_Hydra();
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virtual ~C_NPC_Hydra();
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// model specific
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virtual void OnLatchInterpolatedVariables( int flags );
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virtual bool SetupBones( matrix3x4_t *pBoneToWorldOut, int nMaxBones, int boneMask, float currentTime );
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virtual void StandardBlendingRules( Vector pos[], Quaternion q[], float currentTime, int boneMask );
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void CalcBoneChain( Vector pos[], const Vector chain[] );
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void CalcBoneAngles( const Vector pos[], Quaternion q[] );
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virtual bool GetSoundSpatialization( SpatializationInfo_t& info );
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virtual void ResetLatched();
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#define CHAIN_LINKS 32
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bool m_bNewChain;
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int m_fLatchFlags;
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Vector m_vecChain[CHAIN_LINKS];
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Vector m_vecHeadDir;
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CInterpolatedVar< Vector > m_iv_vecHeadDir;
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//Vector m_vecInterpHeadDir;
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float m_flRelaxedLength;
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Vector *m_vecPos; // current animation
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CInterpolatedVar< Vector > *m_iv_vecPos;
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int m_numHydraBones;
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float *m_boneLength;
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float m_maxPossibleLength;
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private:
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C_NPC_Hydra( const C_NPC_Hydra & ); // not defined, not accessible
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};
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IMPLEMENT_CLIENTCLASS_DT(C_NPC_Hydra, DT_NPC_Hydra, CNPC_Hydra)
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RecvPropVector ( RECVINFO( m_vecChain[0] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[1] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[2] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[3] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[4] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[5] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[6] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[7] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[8] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[9] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[10] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[11] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[12] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[13] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[14] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[15] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[16] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[17] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[18] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[19] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[20] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[21] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[22] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[23] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[24] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[25] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[26] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[27] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[28] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[29] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[30] ) ),
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RecvPropVector ( RECVINFO( m_vecChain[31] ) ),
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RecvPropVector ( RECVINFO( m_vecHeadDir ) ),
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RecvPropFloat ( RECVINFO( m_flRelaxedLength ) ),
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END_RECV_TABLE()
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C_NPC_Hydra::C_NPC_Hydra() : m_iv_vecHeadDir( "C_NPC_Hydra::m_iv_vecHeadDir" )
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{
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AddVar( &m_vecHeadDir, &m_iv_vecHeadDir, LATCH_ANIMATION_VAR );
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m_numHydraBones = 0;
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m_boneLength = NULL;
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m_maxPossibleLength = 1;
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m_vecPos = NULL;
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m_iv_vecPos = NULL;
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}
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C_NPC_Hydra::~C_NPC_Hydra()
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{
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delete m_boneLength;
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delete m_vecPos;
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delete[] m_iv_vecPos;
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m_iv_vecPos = NULL;
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}
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void C_NPC_Hydra::OnLatchInterpolatedVariables( int flags )
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{
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m_bNewChain = true;
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m_fLatchFlags = flags;
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BaseClass::OnLatchInterpolatedVariables( flags );
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}
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void C_NPC_Hydra::ResetLatched()
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{
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for (int i = 0; i < m_numHydraBones; i++)
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{
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m_iv_vecPos[i].Reset();
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}
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BaseClass::ResetLatched();
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}
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bool C_NPC_Hydra::SetupBones( matrix3x4_t *pBoneToWorldOut, int nMaxBones, int boneMask, float currentTime )
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{
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return BaseClass::SetupBones( pBoneToWorldOut, nMaxBones, boneMask, currentTime );
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}
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void C_NPC_Hydra::StandardBlendingRules( Vector pos[], Quaternion q[], float currentTime, int boneMask )
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{
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VPROF( "C_NPC_Hydra::StandardBlendingRules" );
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studiohdr_t *hdr = GetModelPtr();
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if ( !hdr )
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{
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return;
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}
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int i;
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// check for changing model memory requirements
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bool bNewlyInited = false;
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if (m_numHydraBones != hdr->numbones)
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{
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m_numHydraBones = hdr->numbones;
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// build root animation
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float poseparam[MAXSTUDIOPOSEPARAM];
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for (i = 0; i < hdr->GetNumPoseParameters(); i++)
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{
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poseparam[i] = 0;
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}
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CalcPose( hdr, NULL, pos, q, 0.0f, 0.0f, poseparam, BONE_USED_BY_ANYTHING );
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// allocate arrays
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if (m_boneLength)
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{
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delete[] m_boneLength;
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}
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m_boneLength = new float [m_numHydraBones];
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if (m_vecPos)
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{
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delete[] m_vecPos;
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}
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m_vecPos = new Vector [m_numHydraBones];
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if (m_iv_vecPos)
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{
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delete m_iv_vecPos;
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}
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m_iv_vecPos = new CInterpolatedVar< Vector >[m_numHydraBones];
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for ( i = 0; i < m_numHydraBones; i++ )
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{
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m_iv_vecPos[ i ].Setup( &m_vecPos[ i ], LATCH_SIMULATION_VAR | EXCLUDE_AUTO_LATCH | EXCLUDE_AUTO_INTERPOLATE );
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}
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// calc models bone lengths
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m_maxPossibleLength = 0;
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for (i = 0; i < m_numHydraBones-1; i++)
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{
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m_boneLength[i] = (pos[i+1] - pos[i]).Length();
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m_maxPossibleLength += m_boneLength[i];
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}
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m_boneLength[i] = 0.0f;
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bNewlyInited = true;
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}
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// calc new bone setup if networked.
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if (m_bNewChain)
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{
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CalcBoneChain( m_vecPos, m_vecChain );
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for (i = 0; i < m_numHydraBones; i++)
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{
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// debugoverlay->AddLineOverlay( m_vecPos[i], m_vecPos[i<m_numHydraBones-1?i+1:m_numHydraBones-1], 0, 255, 0, false, 0.1 );
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m_vecPos[i] = m_vecPos[i] - GetAbsOrigin();
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if ( m_fLatchFlags & LATCH_SIMULATION_VAR )
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{
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m_iv_vecPos[i].NoteChanged( currentTime, true );
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}
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}
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m_bNewChain = false;
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}
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// if just allocated, initialize bones
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if (bNewlyInited)
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{
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for (i = 0; i < m_numHydraBones; i++)
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{
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m_iv_vecPos[i].Reset();
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}
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}
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for (i = 0; i < m_numHydraBones; i++)
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{
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m_iv_vecPos[i].Interpolate( currentTime );
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pos[ i ] = m_vecPos[ i ];
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}
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// calculate bone angles
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CalcBoneAngles( pos, q );
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// rotate the last bone of the hydra 90 degrees since it's oriented differently than the others
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Quaternion qTmp;
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AngleQuaternion( QAngle( 0, -90, 0) , qTmp );
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QuaternionMult( q[m_numHydraBones - 1], qTmp, q[m_numHydraBones - 1] );
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}
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//-----------------------------------------------------------------------------
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// Purpose: Fits skeleton of hydra to the variable segment length "chain" array
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// Adjusts overall hydra so that "m_flRelaxedLength" of texture fits over
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// the actual length of the chain
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//-----------------------------------------------------------------------------
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void C_NPC_Hydra::CalcBoneChain( Vector pos[], const Vector chain[] )
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{
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int i, j;
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// Find the dist chain link that's not zero length
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i = CHAIN_LINKS-1;
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while (i > 0)
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{
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if ((chain[i] - chain[i-1]).LengthSqr() > 0.0)
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{
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break;
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}
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i--;
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}
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// initialize the last bone to the last bone
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j = m_numHydraBones - 1;
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// clamp length
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float totalLength = 0;
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for (int k = i; k > 0; k--)
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{
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// debugoverlay->AddLineOverlay( chain[k], chain[k-1], 255, 255, 255, false, 0 );
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totalLength += (chain[k] - chain[k-1]).Length();
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}
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totalLength = clamp( totalLength, 1.0, m_maxPossibleLength );
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float scale = m_flRelaxedLength / totalLength;
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// starting from the head, fit the hydra skeleton onto the chain spline
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float dist = -16;
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while (j >= 0 && i > 0)
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{
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// debugoverlay->AddLineOverlay( chain[i], chain[i-1], 255, 255, 255, false, 0 );
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float dt = (chain[i] - chain[i-1]).Length() * scale;
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float dx = dt;
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while (j >= 0 && dist + dt >= m_boneLength[j])
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{
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float s = (dx - (dt - (m_boneLength[j] - dist))) / dx;
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if (s < 0 || s > 1.)
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s = 0;
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// pos[j] = chain[i] * (1 - s) + chain[i-1] * s;
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Catmull_Rom_Spline( chain[(i<CHAIN_LINKS-1)?i+1:CHAIN_LINKS-1], chain[i], chain[(i>0)?i-1:0], chain[(i>1)?i-2:0], s, pos[j] );
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// debugoverlay->AddLineOverlay( pos[j], chain[i], 0, 255, 0, false, 0 );
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// debugoverlay->AddLineOverlay( pos[j], chain[i-1], 0, 255, 0, false, 0 );
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dt = dt - (m_boneLength[j] - dist);
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j--;
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dist = 0;
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}
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dist += dt;
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i--;
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}
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while (j >= 0)
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{
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pos[j] = chain[0];
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j--;
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}
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}
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//-----------------------------------------------------------------------------
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// Purpose: Minimize the amount of twist between bone segments
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//-----------------------------------------------------------------------------
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void C_NPC_Hydra::CalcBoneAngles( const Vector pos[], Quaternion q[] )
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{
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int i;
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matrix3x4_t bonematrix;
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for (i = m_numHydraBones - 1; i >= 0; i--)
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{
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Vector forward;
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Vector left2;
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if (i != m_numHydraBones - 1)
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{
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QuaternionMatrix( q[i+1], bonematrix );
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MatrixGetColumn( bonematrix, 1, left2 );
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forward = (pos[i+1] - pos[i]) /* + (pos[i] - pos[i-1])*/;
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float length = VectorNormalize( forward );
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if (length == 0.0)
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{
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q[i] = q[i+1];
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continue;
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}
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}
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else
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{
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forward = m_vecHeadDir;
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VectorNormalize( forward );
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VectorMatrix( forward, bonematrix );
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MatrixGetColumn( bonematrix, 1, left2 );
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}
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Vector up = CrossProduct( forward, left2 );
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VectorNormalize( up );
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Vector left = CrossProduct( up, forward );
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MatrixSetColumn( forward, 0, bonematrix );
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MatrixSetColumn( left, 1, bonematrix );
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MatrixSetColumn( up, 2, bonematrix );
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// MatrixQuaternion( bonematrix, q[i] );
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QAngle angles;
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MatrixAngles( bonematrix, angles );
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AngleQuaternion( angles, q[i] );
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}
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}
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bool C_NPC_Hydra::GetSoundSpatialization( SpatializationInfo_t& info )
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{
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bool bret = BaseClass::GetSoundSpatialization( info );
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// Default things it's audible, put it at a better spot?
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if ( bret )
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{
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// TODO: Note, this is where you could override the sound position and orientation and use
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// an attachment points position as the sound source
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// You might have to issue C_BaseAnimating::AllowBoneAccess( true, false ); to allow
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// bone setup during sound spatialization if you run into asserts...
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}
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return bret;
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}
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