//=========================================================
//=========================================================
bool CAnimating::HasPoseParameter( int iSequence, const char *szName )
{
int iParameter = LookupPoseParameter( szName );
if (iParameter == -1)
{
return false;
}
return HasPoseParameter( iSequence, iParameter );
}
void CAI_Motor::MoveFacing( const AILocalMoveGoal_t &move )
{
if ( GetOuter()->OverrideMoveFacing( move, GetMoveInterval() ) )
return;
// required movement direction
float flMoveYaw = UTIL_VecToYaw( move.dir );
int nSequence = GetSequence();
float fSequenceMoveYaw = GetSequenceMoveYaw( nSequence );
if ( fSequenceMoveYaw == NOMOTION )
{
fSequenceMoveYaw = 0;
}
if (!HasPoseParameter( nSequence, "move_yaw" ))
{
SetIdealYawAndUpdate( UTIL_AngleMod( flMoveYaw - fSequenceMoveYaw ) );
}
else
{
// FIXME: move this up to navigator so that path goals can ignore these overrides.
Vector dir;
float flInfluence = GetFacingDirection( dir );
dir = move.facing * (1 - flInfluence) + dir * flInfluence;
VectorNormalize( dir );
// ideal facing direction
float idealYaw = UTIL_AngleMod( UTIL_VecToYaw( dir ) );
// FIXME: facing has important max velocity issues
SetIdealYawAndUpdate( idealYaw );
// find movement direction to compensate for not being turned far enough
float flDiff = UTIL_AngleDiff( flMoveYaw, GetLocalAngles().y );
SetPoseParameter( "move_yaw", flDiff );
/*
if ((GetOuter()->m_debugOverlays & OVERLAY_NPC_SELECTED_BIT))
{
Msg( "move %.1f : diff %.1f : ideal %.1f\n", flMoveYaw, flDiff, m_IdealYaw );
}
*/
}
}