// rotation of ship around x axis ---------------------------------------------
//
INLINE
void User_ShipPitch()
{
if ( DepressedKeys->key_DiveDown ) {
bams_t c_angle = MyShip->PitchPerRefFrame * CurScreenRefFrames;
INP_UserRotX( c_angle );
} else if ( DepressedKeys->key_PullUp ) {
bams_t c_angle = MyShip->PitchPerRefFrame * CurScreenRefFrames;
INP_UserRotX( -c_angle );
}
}
// do the desired object control ----------------------------------------------
//
int OCT_DoControl( object_control_s* objctl )
{
ASSERT( objctl != NULL );
ASSERT( ( objctl->rot_x >= -1.0f ) && ( objctl->rot_x <= 1.0f ) );
ASSERT( ( objctl->rot_y >= -1.0f ) && ( objctl->rot_y <= 1.0f ) );
ASSERT( ( objctl->rot_z >= -1.0f ) && ( objctl->rot_z <= 1.0f ) );
ASSERT( ( objctl->accel >= -1.0f ) && ( objctl->accel <= 1.0f ) );
// check whether we have a valid object to control
if ( objctl->pShip == NULL ) {
CON_AddMessage( "OCT: not object to control is set." );
return FALSE;
}
//FIXME: for now we only support ship objects
if ( !OBJECT_TYPE_SHIP( objctl->pShip ) ) {
CON_AddMessage( "OCT: controlled object is not a ship." );
return FALSE;
}
int ship_controlled = FALSE;
// check for rotation around x axis - PITCH - ( -1 = pullup, +1 = divedown )
if ( objctl->rot_x != 0.0f ) {
bams_t _angle = (bams_t)(objctl->rot_x * objctl->pShip->PitchPerRefFrame * CurScreenRefFrames);
//ObjRotX( objctl->pShip->ObjPosition, _angle );
INP_UserRotX( _angle );
ship_controlled = TRUE;
}
// check for rotation around y axis - YAW - ( -1 = right, +1 = left )
if ( objctl->rot_y != 0.0f ) {
bams_t _angle = (bams_t)(objctl->rot_y * objctl->pShip->YawPerRefFrame * CurScreenRefFrames);
//ObjRotY( objctl->pShip->ObjPosition, _angle );
INP_UserRotY( _angle );
ship_controlled = TRUE;
}
// check for rotation around z axis - ROLL - ( -1 = right, +1 = left )
if ( objctl->rot_z != 0.0f ) {
bams_t _angle = (bams_t)(objctl->rot_z * objctl->pShip->RollPerRefFrame * CurScreenRefFrames);
//ObjRotZ( objctl->pShip->ObjPosition, _angle );
INP_UserRotZ( _angle );
ship_controlled = TRUE;
}
// check for accel control ( +1 accelerate, -1 decelerate )
if ( objctl->accel != 0.0f ) {
//fixed_t _accel = FLOAT_TO_FIXED( objctl->accel * (float)(objctl->pShip->SpeedIncPerRefFrame) * CurScreenRefFrames );
fixed_t _accel = (fixed_t)(objctl->accel * objctl->pShip->SpeedIncPerRefFrame * CurScreenRefFrames);
INP_UserAcceleration( _accel );
/*
// alter accel
objctl->pShip->CurSpeed += c_speed;
// check against speed constraints
if ( objctl->pShip->CurSpeed > objctl->pShip->MaxSpeed ) {
objctl->pShip->CurSpeed = objctl->pShip->MaxSpeed;
} else if ( objctl->pShip->CurSpeed < 0 ) {
objctl->pShip->CurSpeed = 0;
}
*/
ship_controlled = TRUE;
}
//// we always move the controlled ship according to the speed
//if ( objctl->pShip->CurSpeed != 0 ) {
//
// // actually move the ship
// Vector3 dirvec;
// fixed_t speed = objctl->pShip->CurSpeed * CurScreenRefFrames;
// DirVctMUL( objctl->pShip->ObjPosition, FIXED_TO_GEOMV( speed ), &dirvec );
// objctl->pShip->ObjPosition[ 0 ][ 3 ] += dirvec.X;
// objctl->pShip->ObjPosition[ 1 ][ 3 ] += dirvec.Y;
// objctl->pShip->ObjPosition[ 2 ][ 3 ] += dirvec.Z;
//}
return ship_controlled;
}
