+void
+FGViewer::setPosition (double lon_deg, double lat_deg, double alt_ft)
+{
+ _dirty = true;
+ _lon_deg = lon_deg;
+ _lat_deg = lat_deg;
+ _alt_ft = alt_ft;
+}
+
+void
+FGViewer::setTargetLongitude_deg (double lon_deg)
+{
+ _dirty = true;
+ _target_lon_deg = lon_deg;
+}
+
+void
+FGViewer::setTargetLatitude_deg (double lat_deg)
+{
+ _dirty = true;
+ _target_lat_deg = lat_deg;
+}
+
+void
+FGViewer::setTargetAltitude_ft (double alt_ft)
+{
+ _dirty = true;
+ _target_alt_ft = alt_ft;
+}
+
+void
+FGViewer::setTargetPosition (double lon_deg, double lat_deg, double alt_ft)
+{
+ _dirty = true;
+ _target_lon_deg = lon_deg;
+ _target_lat_deg = lat_deg;
+ _target_alt_ft = alt_ft;
+}
+
+void
+FGViewer::setRoll_deg (double roll_deg)
+{
+ _dirty = true;
+ _roll_deg = roll_deg;
+}
+
+void
+FGViewer::setPitch_deg (double pitch_deg)
+{
+ _dirty = true;
+ _pitch_deg = pitch_deg;
+}
+
+void
+FGViewer::setHeading_deg (double heading_deg)
+{
+ _dirty = true;
+ _heading_deg = heading_deg;
+}
+
+void
+FGViewer::setOrientation (double roll_deg, double pitch_deg, double heading_deg)
+{
+ _dirty = true;
+ _roll_deg = roll_deg;
+ _pitch_deg = pitch_deg;
+ _heading_deg = heading_deg;
+}
+
+void
+FGViewer::setTargetRoll_deg (double target_roll_deg)
+{
+ _dirty = true;
+ _target_roll_deg = target_roll_deg;
+}
+
+void
+FGViewer::setTargetPitch_deg (double target_pitch_deg)
+{
+ _dirty = true;
+ _target_pitch_deg = target_pitch_deg;
+}
+
+void
+FGViewer::setTargetHeading_deg (double target_heading_deg)
+{
+ _dirty = true;
+ _target_heading_deg = target_heading_deg;
+}
+
+void
+FGViewer::setTargetOrientation (double target_roll_deg, double target_pitch_deg, double target_heading_deg)
+{
+ _dirty = true;
+ _target_roll_deg = target_roll_deg;
+ _target_pitch_deg = target_pitch_deg;
+ _target_heading_deg = target_heading_deg;
+}
+
+void
+FGViewer::setXOffset_m (double x_offset_m)
+{
+ _dirty = true;
+ _x_offset_m = x_offset_m;
+}
+
+void
+FGViewer::setYOffset_m (double y_offset_m)
+{
+ _dirty = true;
+ _y_offset_m = y_offset_m;
+}
+
+void
+FGViewer::setZOffset_m (double z_offset_m)
+{
+ _dirty = true;
+ _z_offset_m = z_offset_m;
+}
+
+void
+FGViewer::setTargetXOffset_m (double target_x_offset_m)
+{
+ _dirty = true;
+ _target_x_offset_m = target_x_offset_m;
+}
+
+void
+FGViewer::setTargetYOffset_m (double target_y_offset_m)
+{
+ _dirty = true;
+ _target_y_offset_m = target_y_offset_m;
+}
+
+void
+FGViewer::setTargetZOffset_m (double target_z_offset_m)
+{
+ _dirty = true;
+ _target_z_offset_m = target_z_offset_m;
+}
+
+void
+FGViewer::setPositionOffsets (double x_offset_m, double y_offset_m, double z_offset_m)
+{
+ _dirty = true;
+ _x_offset_m = x_offset_m;
+ _y_offset_m = y_offset_m;
+ _z_offset_m = z_offset_m;
+}
+
+void
+FGViewer::setRollOffset_deg (double roll_offset_deg)
+{
+ _dirty = true;
+ _roll_offset_deg = roll_offset_deg;
+}
+
+void
+FGViewer::setPitchOffset_deg (double pitch_offset_deg)
+{
+ _dirty = true;
+ _pitch_offset_deg = pitch_offset_deg;
+}
+
+void
+FGViewer::setHeadingOffset_deg (double heading_offset_deg)
+{
+ _dirty = true;
+ _heading_offset_deg = heading_offset_deg;
+}
+
+void
+FGViewer::setGoalRollOffset_deg (double goal_roll_offset_deg)
+{
+ _dirty = true;
+ _goal_roll_offset_deg = goal_roll_offset_deg;
+}
+
+void
+FGViewer::setGoalPitchOffset_deg (double goal_pitch_offset_deg)
+{
+ _dirty = true;
+ _goal_pitch_offset_deg = goal_pitch_offset_deg;
+ if ( _goal_pitch_offset_deg < -90 ) {
+ _goal_pitch_offset_deg = -90.0;
+ }
+ if ( _goal_pitch_offset_deg > 90.0 ) {
+ _goal_pitch_offset_deg = 90.0;
+ }
+
+}
+
+void
+FGViewer::setGoalHeadingOffset_deg (double goal_heading_offset_deg)
+{
+ _dirty = true;
+ _goal_heading_offset_deg = goal_heading_offset_deg;
+ while ( _goal_heading_offset_deg < 0.0 ) {
+ _goal_heading_offset_deg += 360;
+ }
+ while ( _goal_heading_offset_deg > 360 ) {
+ _goal_heading_offset_deg -= 360;
+ }
+}
+
+void
+FGViewer::setOrientationOffsets (double roll_offset_deg, double pitch_offset_deg, double heading_offset_deg)
+{
+ _dirty = true;
+ _roll_offset_deg = roll_offset_deg;
+ _pitch_offset_deg = pitch_offset_deg;
+ _heading_offset_deg = heading_offset_deg;
+}
+
+double *
+FGViewer::get_absolute_view_pos ()
+{
+ if (_dirty)
+ recalc();
+ return _absolute_view_pos;
+}
+
+float *
+FGViewer::getRelativeViewPos ()
+{
+ if (_dirty)
+ recalc();
+ return _relative_view_pos;
+}
+
+float *
+FGViewer::getZeroElevViewPos ()
+{
+ if (_dirty)
+ recalc();
+ return _zero_elev_view_pos;
+}
+
+void
+FGViewer::updateFromModelLocation (SGLocation * location)
+{
+ sgCopyMat4(LOCAL, location->getCachedTransformMatrix());
+}
+
+void
+FGViewer::updateAtModelLocation (SGLocation * location)
+{
+ sgCopyMat4(ATLOCAL,
+ location->getCachedTransformMatrix());
+}
+
+void
+FGViewer::recalcOurOwnLocation (SGLocation * location, double lon_deg, double lat_deg, double alt_ft,
+ double roll_deg, double pitch_deg, double heading_deg)
+{
+ // update from our own data...
+ dampEyeData(roll_deg, pitch_deg, heading_deg);
+ location->setPosition( lon_deg, lat_deg, alt_ft );
+ location->setOrientation( roll_deg, pitch_deg, heading_deg );
+ sgCopyMat4(LOCAL,
+ location->getTransformMatrix(globals->get_scenery()->get_center()));
+}
+
+// recalc() is done every time one of the setters is called (making the
+// cached data "dirty") on the next "get". It calculates all the outputs
+// for viewer.
+void
+FGViewer::recalc ()
+{
+ if (_type == FG_LOOKFROM) {
+ recalcLookFrom();
+ } else {
+ recalcLookAt();
+ }
+
+ set_clean();
+}
+
+// recalculate for LookFrom view type...
+void
+FGViewer::recalcLookFrom ()
+{
+
+ sgVec3 right, forward;
+ // sgVec3 eye_pos;
+ sgVec3 position_offset; // eye position offsets (xyz)
+
+ // LOOKFROM mode...
+
+ // Update location data...
+ if ( _from_model ) {
+ // update or data from model location
+ updateFromModelLocation(_location);
+ } else {
+ // update from our own data...
+ recalcOurOwnLocation( _location, _lon_deg, _lat_deg, _alt_ft,
+ _roll_deg, _pitch_deg, _heading_deg );
+ }
+
+ // copy data from location class to local items...
+ copyLocationData();
+
+ // make sg vectors view up, right and forward vectors from LOCAL
+ sgSetVec3( _view_up, LOCAL[2][0], LOCAL[2][1], LOCAL[2][2] );
+ sgSetVec3( right, LOCAL[1][0], LOCAL[1][1], LOCAL[1][2] );
+ sgSetVec3( forward, -LOCAL[0][0], -LOCAL[0][1], -LOCAL[0][2] );
+
+
+ // Note that when in "lookfrom" view the "view up" vector is always applied
+ // to the viewer. View up is based on verticle of the aircraft itself. (see
+ // "LOCAL" matrix above)
+
+ // Orientation Offsets matrix
+ MakeVIEW_OFFSET( VIEW_OFFSET,
+ _heading_offset_deg * SG_DEGREES_TO_RADIANS, _view_up,
+ _pitch_offset_deg * SG_DEGREES_TO_RADIANS, right );
+
+ // Make the VIEW matrix.
+ sgSetVec4(VIEW[0], right[0], right[1], right[2],SG_ZERO);
+ sgSetVec4(VIEW[1], forward[0], forward[1], forward[2],SG_ZERO);
+ sgSetVec4(VIEW[2], _view_up[0], _view_up[1], _view_up[2],SG_ZERO);
+ sgSetVec4(VIEW[3], SG_ZERO, SG_ZERO, SG_ZERO,SG_ONE);
+
+ // rotate model or local matrix to get a matrix to apply Eye Position Offsets
+ sgMat4 VIEW_UP; // L0 forward L1 right L2 up
+ sgCopyVec4(VIEW_UP[0], LOCAL[1]);
+ sgCopyVec4(VIEW_UP[1], LOCAL[2]);
+ sgCopyVec4(VIEW_UP[2], LOCAL[0]);
+ sgZeroVec4(VIEW_UP[3]);
+
+ // Eye Position Offsets to vector
+ sgSetVec3( position_offset, _x_offset_m, _y_offset_m, _z_offset_m );
+ sgXformVec3( position_offset, position_offset, VIEW_UP);
+
+ // add the offsets including rotations to the translation vector
+ sgAddVec3( _view_pos, position_offset );
+
+ // multiply the OFFSETS (for heading and pitch) into the VIEW
+ sgPostMultMat4(VIEW, VIEW_OFFSET);
+
+ // add the position data to the matrix
+ sgSetVec4(VIEW[3], _view_pos[0], _view_pos[1], _view_pos[2],SG_ONE);
+
+}
+
+void
+FGViewer::recalcLookAt ()
+{
+
+ sgVec3 right;
+ sgVec3 eye_pos, at_pos;
+ sgVec3 position_offset; // eye position offsets (xyz)
+ sgVec3 target_position_offset; // target position offsets (xyz)
+
+ // The position vectors originate from the view point or target location
+ // depending on the type of view.
+
+ // LOOKAT mode...
+
+ // Update location data for target...
+ if ( _at_model ) {
+ // update or data from model location
+ updateAtModelLocation(_target_location);
+ } else {
+ // if not model then calculate our own target position...
+ recalcOurOwnLocation( _target_location, _target_lon_deg, _target_lat_deg, _target_alt_ft,
+ _target_roll_deg, _target_pitch_deg, _target_heading_deg );
+ }
+ // calculate the "at" target object positon relative to eye or view's tile center...
+ sgdVec3 dVec3;
+ sgdSetVec3(dVec3, _location->get_tile_center()[0], _location->get_tile_center()[1], _location->get_tile_center()[2]);
+ sgdSubVec3(dVec3,
+ _target_location->get_absolute_view_pos(globals->get_scenery()->get_center()),
+ dVec3 );
+ sgSetVec3(at_pos, dVec3[0], dVec3[1], dVec3[2]);
+
+ // Update location data for eye...
+ if ( _from_model ) {
+ // update or data from model location
+ updateFromModelLocation(_location);
+ } else {
+ // update from our own data, just the rotation here...
+ recalcOurOwnLocation( _location, _lon_deg, _lat_deg, _alt_ft,
+ _roll_deg, _pitch_deg, _heading_deg );
+ }
+ // save the eye positon...
+ sgCopyVec3(eye_pos, _location->get_view_pos());
+
+ // copy data from location class to local items...
+ copyLocationData();
+
+ // make sg vectors view up, right and forward vectors from LOCAL
+ sgSetVec3( _view_up, LOCAL[2][0], LOCAL[2][1], LOCAL[2][2] );
+ sgSetVec3( right, LOCAL[1][0], LOCAL[1][1], LOCAL[1][2] );
+
+ // rotate model or local matrix to get a matrix to apply Eye Position Offsets
+ sgMat4 VIEW_UP; // L0 forward L1 right L2 up
+ sgCopyVec4(VIEW_UP[0], LOCAL[1]);
+ sgCopyVec4(VIEW_UP[1], LOCAL[2]);
+ sgCopyVec4(VIEW_UP[2], LOCAL[0]);
+ sgZeroVec4(VIEW_UP[3]);
+
+ // get Orientation Offsets matrix
+ MakeVIEW_OFFSET( VIEW_OFFSET,
+ (_heading_offset_deg - 180) * SG_DEGREES_TO_RADIANS, _view_up,
+ _pitch_offset_deg * SG_DEGREES_TO_RADIANS, right );
+
+ // add in the position offsets
+ sgSetVec3( position_offset, _y_offset_m, _x_offset_m, _z_offset_m );
+ sgXformVec3( position_offset, position_offset, VIEW_UP);
+
+ // apply the Orientation offsets
+ sgXformVec3( position_offset, position_offset, VIEW_OFFSET );
+
+ // add the Position offsets from object to the eye position
+ sgAddVec3( eye_pos, eye_pos, position_offset );
+
+ // add target offsets to at_position...
+ sgSetVec3(target_position_offset, _target_z_offset_m, _target_x_offset_m,
+ _target_y_offset_m );
+ sgXformVec3(target_position_offset, target_position_offset, ATLOCAL);
+ sgAddVec3( at_pos, at_pos, target_position_offset);
+
+ sgAddVec3( eye_pos, eye_pos, target_position_offset);
+
+ // Make the VIEW matrix for a "LOOKAT".
+ sgMakeLookAtMat4( VIEW, eye_pos, at_pos, _view_up );
+
+}
+
+// copy results from location class to viewer...
+// FIXME: some of these should be changed to reference directly to SGLocation...
+void
+FGViewer::copyLocationData()
+{
+ // Get our friendly vectors from the eye location...
+ sgCopyVec3(_zero_elev_view_pos, _location->get_zero_elev());
+ sgCopyVec3(_relative_view_pos, _location->get_view_pos());
+ sgdCopyVec3(_absolute_view_pos,
+ _location->get_absolute_view_pos(globals->get_scenery()->get_center()));
+ sgCopyMat4(UP, _location->getCachedUpMatrix());
+ sgCopyVec3(_world_up, _location->get_world_up());
+ // these are the vectors that the sun and moon code like to get...
+ sgCopyVec3(_surface_east, _location->get_surface_east());
+ sgCopyVec3(_surface_south, _location->get_surface_south());
+
+ // Update viewer's postion data for the eye location...
+ _lon_deg = _location->getLongitude_deg();
+ _lat_deg = _location->getLatitude_deg();
+ _alt_ft = _location->getAltitudeASL_ft();
+ _roll_deg = _location->getRoll_deg();
+ _pitch_deg = _location->getPitch_deg();
+ _heading_deg = _location->getHeading_deg();
+
+ // Update viewer's postion data for the target (at object) location
+ if (_type == FG_LOOKAT) {
+ _target_lon_deg = _target_location->getLongitude_deg();
+ _target_lat_deg = _target_location->getLatitude_deg();
+ _target_alt_ft = _target_location->getAltitudeASL_ft();
+ _target_roll_deg = _target_location->getRoll_deg();
+ _target_pitch_deg = _target_location->getPitch_deg();
+ _target_heading_deg = _target_location->getHeading_deg();
+ }
+
+ // copy coordinates to outputs for viewer...
+ sgCopyVec3(_zero_elev, _zero_elev_view_pos);
+ sgCopyVec3(_view_pos, _relative_view_pos);
+}
+
+void
+FGViewer::dampEyeData (double &roll_deg, double &pitch_deg, double &heading_deg)
+{
+ const double interval = 0.01;
+
+ static FGViewer *last_view = 0;
+ if (last_view != this) {
+ _damp_sync = 0.0;
+ _damped_roll_deg = roll_deg;
+ _damped_pitch_deg = pitch_deg;
+ _damped_heading_deg = heading_deg;
+ last_view = this;
+ return;
+ }
+
+ if (_damp_sync < interval) {
+ if (_damp_roll > 0.0)
+ roll_deg = _damped_roll_deg;
+ if (_damp_pitch > 0.0)
+ pitch_deg = _damped_pitch_deg;
+ if (_damp_heading > 0.0)
+ heading_deg = _damped_heading_deg;
+ return;
+ }
+
+ while (_damp_sync >= interval) {
+ _damp_sync -= interval;
+
+ double d;
+ if (_damp_roll > 0.0) {
+ d = _damped_roll_deg - roll_deg;
+ if (d >= 180.0)
+ _damped_roll_deg -= 360.0;
+ else if (d < -180.0)
+ _damped_roll_deg += 360.0;
+ roll_deg = _damped_roll_deg = roll_deg * _damp_roll + _damped_roll_deg * (1 - _damp_roll);