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flightgear/src/Scenery/tileentry.cxx

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// tileentry.cxx -- routines to handle a scenery tile
//
// Written by Curtis Olson, started May 1998.
//
// Copyright (C) 1998 - 2001 Curtis L. Olson - http://www.flightgear.org/~curt
//
// This program is free software; you can redistribute it and/or
// modify it under the terms of the GNU General Public License as
// published by the Free Software Foundation; either version 2 of the
// License, or (at your option) any later version.
//
// This program is distributed in the hope that it will be useful, but
// WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
//
// $Id$
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
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#include <simgear/compiler.h>
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#include <plib/ul.h>
#include <Main/main.hxx>
#include STL_STRING
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#include <simgear/bucket/newbucket.hxx>
#include <simgear/debug/logstream.hxx>
#include <simgear/math/polar3d.hxx>
#include <simgear/math/sg_geodesy.hxx>
#include <simgear/math/sg_random.h>
#include <simgear/misc/sgstream.hxx>
#include <simgear/scene/material/mat.hxx>
#include <simgear/scene/material/matlib.hxx>
#include <simgear/scene/tgdb/apt_signs.hxx>
#include <simgear/scene/tgdb/obj.hxx>
#include <simgear/scene/tgdb/vasi.hxx>
Mathias: I have done a patch to eliminate the jitter of 3D-objects near the viewpoint (for example 3D cockpit objects). The problem is the roundoff accuracy of the float values used in the scenegraph together with the transforms of the eyepoint relative to the scenery center. The solution will be to move the scenery center near the view point. This way floats relative accuracy is enough to show a stable picture. To get that right I have introduced a transform node for the scenegraph which is responsible for that shift and uses double values as long as possible. The scenery subsystem now has a list of all those transforms required to place objects in the world and will tell all those transforms that the scenery center has changed when the set_scenery_center() of the scenery subsystem is called. The problem was not solvable by SGModelPlacement and SGLocation, since not all objects, especially the scenery, are placed using these classes. The first approach was to have the scenery center exactly at the eyepoint. This works well for the cockpit. But then the ground jitters a bit below the aircraft. With our default views you can't see that, but that F-18 has a camera view below the left engine intake with the nose gear and the ground in its field of view, here I could see that. Having the scenery center constant will still have this roundoff problems, but like it is now too, the roundoff error here is exactly the same in each frame, so you will not notice any jitter. The real solution is now to keep the scenery center constant as long as it is in a ball of 30m radius around the view point. If the scenery center is outside this ball, just put it at the view point. As a sideeffect of now beeing able to switch the scenery center in the whole scenegraph with one function call, I was able to remove a one half of a problem when switching views, where the scenery center was far off for one or two frames past switching from one view to the next. Also included is a fix to the other half of this problem, where the view position was not yet copied into a view when it is switched (at least under glut). This was responsible for the 'Error: ...' messages of the cloud subsystem when views were switched.
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#include <simgear/scene/model/placementtrans.hxx>
#include <Aircraft/aircraft.hxx>
#include <Include/general.hxx>
#include <Main/fg_props.hxx>
#include <Main/globals.hxx>
#include <Main/viewer.hxx>
#include <Scenery/scenery.hxx>
#include <Time/light.hxx>
#include "tileentry.hxx"
#include "tilemgr.hxx"
SG_USING_STD(string);
// Constructor
FGTileEntry::FGTileEntry ( const SGBucket& b )
: center( Point3D( 0.0 ) ),
tile_bucket( b ),
Mathias: I have done a patch to eliminate the jitter of 3D-objects near the viewpoint (for example 3D cockpit objects). The problem is the roundoff accuracy of the float values used in the scenegraph together with the transforms of the eyepoint relative to the scenery center. The solution will be to move the scenery center near the view point. This way floats relative accuracy is enough to show a stable picture. To get that right I have introduced a transform node for the scenegraph which is responsible for that shift and uses double values as long as possible. The scenery subsystem now has a list of all those transforms required to place objects in the world and will tell all those transforms that the scenery center has changed when the set_scenery_center() of the scenery subsystem is called. The problem was not solvable by SGModelPlacement and SGLocation, since not all objects, especially the scenery, are placed using these classes. The first approach was to have the scenery center exactly at the eyepoint. This works well for the cockpit. But then the ground jitters a bit below the aircraft. With our default views you can't see that, but that F-18 has a camera view below the left engine intake with the nose gear and the ground in its field of view, here I could see that. Having the scenery center constant will still have this roundoff problems, but like it is now too, the roundoff error here is exactly the same in each frame, so you will not notice any jitter. The real solution is now to keep the scenery center constant as long as it is in a ball of 30m radius around the view point. If the scenery center is outside this ball, just put it at the view point. As a sideeffect of now beeing able to switch the scenery center in the whole scenegraph with one function call, I was able to remove a one half of a problem when switching views, where the scenery center was far off for one or two frames past switching from one view to the next. Also included is a fix to the other half of this problem, where the view position was not yet copied into a view when it is switched (at least under glut). This was responsible for the 'Error: ...' messages of the cloud subsystem when views were switched.
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terra_transform( new ssgPlacementTransform ),
vasi_lights_transform( new ssgPlacementTransform ),
rwy_lights_transform( new ssgPlacementTransform ),
taxi_lights_transform( new ssgPlacementTransform ),
terra_range( new ssgRangeSelector ),
vasi_lights_selector( new ssgSelector ),
rwy_lights_selector( new ssgSelector ),
taxi_lights_selector( new ssgSelector ),
loaded(false),
pending_models(0),
is_inner_ring(false),
free_tracker(0)
{
// update the contents
// if ( vec3_ptrs.size() || vec2_ptrs.size() || index_ptrs.size() ) {
// SG_LOG( SG_TERRAIN, SG_ALERT,
// "Attempting to overwrite existing or"
// << " not properly freed leaf data." );
// exit(-1);
// }
}
// Destructor
FGTileEntry::~FGTileEntry () {
// cout << "nodes = " << nodes.size() << endl;;
// delete[] nodes;
}
#if 0
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// Please keep this for reference. We use Norman's optimized routine,
// but here is what the routine really is doing.
void
FGTileEntry::WorldCoordinate( sgCoord *obj_pos, Point3D center,
double lat, double lon, double elev, double hdg)
{
// setup transforms
Point3D geod( lon * SGD_DEGREES_TO_RADIANS,
lat * SGD_DEGREES_TO_RADIANS,
elev );
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Point3D world_pos = sgGeodToCart( geod );
Point3D offset = world_pos - center;
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sgMat4 POS;
sgMakeTransMat4( POS, offset.x(), offset.y(), offset.z() );
sgVec3 obj_rt, obj_up;
sgSetVec3( obj_rt, 0.0, 1.0, 0.0); // Y axis
sgSetVec3( obj_up, 0.0, 0.0, 1.0); // Z axis
sgMat4 ROT_lon, ROT_lat, ROT_hdg;
sgMakeRotMat4( ROT_lon, lon, obj_up );
sgMakeRotMat4( ROT_lat, 90 - lat, obj_rt );
sgMakeRotMat4( ROT_hdg, hdg, obj_up );
sgMat4 TUX;
sgCopyMat4( TUX, ROT_hdg );
sgPostMultMat4( TUX, ROT_lat );
sgPostMultMat4( TUX, ROT_lon );
sgPostMultMat4( TUX, POS );
sgSetCoord( obj_pos, TUX );
}
#endif
// Norman's 'fast hack' for above
static void WorldCoordinate( sgCoord *obj_pos, Point3D center, double lat,
double lon, double elev, double hdg )
{
double lon_rad = lon * SGD_DEGREES_TO_RADIANS;
double lat_rad = lat * SGD_DEGREES_TO_RADIANS;
double hdg_rad = hdg * SGD_DEGREES_TO_RADIANS;
// setup transforms
Point3D geod( lon_rad, lat_rad, elev );
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Point3D world_pos = sgGeodToCart( geod );
Point3D offset = world_pos - center;
sgMat4 mat;
SGfloat sin_lat = (SGfloat)sin( lat_rad );
SGfloat cos_lat = (SGfloat)cos( lat_rad );
SGfloat cos_lon = (SGfloat)cos( lon_rad );
SGfloat sin_lon = (SGfloat)sin( lon_rad );
SGfloat sin_hdg = (SGfloat)sin( hdg_rad ) ;
SGfloat cos_hdg = (SGfloat)cos( hdg_rad ) ;
mat[0][0] = cos_hdg * (SGfloat)sin_lat * (SGfloat)cos_lon - sin_hdg * (SGfloat)sin_lon;
mat[0][1] = cos_hdg * (SGfloat)sin_lat * (SGfloat)sin_lon + sin_hdg * (SGfloat)cos_lon;
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mat[0][2] = -cos_hdg * (SGfloat)cos_lat;
mat[0][3] = SG_ZERO;
mat[1][0] = -sin_hdg * (SGfloat)sin_lat * (SGfloat)cos_lon - cos_hdg * (SGfloat)sin_lon;
mat[1][1] = -sin_hdg * (SGfloat)sin_lat * (SGfloat)sin_lon + cos_hdg * (SGfloat)cos_lon;
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mat[1][2] = sin_hdg * (SGfloat)cos_lat;
mat[1][3] = SG_ZERO;
mat[2][0] = (SGfloat)cos_lat * (SGfloat)cos_lon;
mat[2][1] = (SGfloat)cos_lat * (SGfloat)sin_lon;
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mat[2][2] = (SGfloat)sin_lat;
mat[2][3] = SG_ZERO;
mat[3][0] = offset.x();
mat[3][1] = offset.y();
mat[3][2] = offset.z();
mat[3][3] = SG_ONE ;
sgSetCoord( obj_pos, mat );
}
// recurse an ssg tree and call removeKid() on every node from the
// bottom up. Leaves the original branch in existance, but empty so
// it can be removed by the calling routine.
static void my_remove_branch( ssgBranch * branch ) {
for ( ssgEntity *k = branch->getKid( 0 );
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k != NULL;
k = branch->getNextKid() )
{
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if ( k -> isAKindOf ( ssgTypeBranch() ) ) {
my_remove_branch( (ssgBranch *)k );
branch -> removeKid ( k );
} else if ( k -> isAKindOf ( ssgTypeLeaf() ) ) {
branch -> removeKid ( k ) ;
}
}
}
// Free "n" leaf elements of an ssg tree. returns the number of
// elements freed. An empty branch node is considered a leaf. This
// is intended to spread the load of freeing a complex tile out over
// several frames.
static int fgPartialFreeSSGtree( ssgBranch *b, int n ) {
int num_deletes = 0;
if ( n > 0 ) {
// we still have some delete budget left
// if ( b->getNumKids() > 100 ) {
// cout << "large family = " << b->getNumKids() << endl;
// }
// deleting in reverse would help if my plib patch get's
// applied, but for now it will make things slower.
// for ( int i = b->getNumKids() - 1; i >= 0 ; --i ) {
for ( int i = 0; i < b->getNumKids(); ++i ) {
ssgEntity *kid = b->getKid(i);
if ( kid->isAKindOf( ssgTypeBranch() ) && kid->getRef() <= 1 ) {
int result = fgPartialFreeSSGtree( (ssgBranch *)kid, n );
num_deletes += result;
n -= result;
if ( n < 0 ) {
break;
}
}
// remove the kid if (a) it is now empty -or- (b) it's ref
// count is > zero at which point we don't care if it's
// empty, we don't want to touch it's contents.
if ( kid->getNumKids() == 0 || kid->getRef() > 1 ) {
b->removeKid( kid );
num_deletes++;
n--;
}
}
}
return num_deletes;
}
// Clean up the memory used by this tile and delete the arrays used by
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// ssg as well as the whole ssg branch
bool FGTileEntry::free_tile() {
int delete_size = 100;
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SG_LOG( SG_TERRAIN, SG_DEBUG,
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"FREEING TILE = (" << tile_bucket << ")" );
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SG_LOG( SG_TERRAIN, SG_DEBUG, "(start) free_tracker = " << free_tracker );
if ( !(free_tracker & NODES) ) {
free_tracker |= NODES;
} else if ( !(free_tracker & VEC_PTRS) ) {
free_tracker |= VEC_PTRS;
} else if ( !(free_tracker & TERRA_NODE) ) {
// delete the terrain branch (this should already have been
// disconnected from the scene graph)
SG_LOG( SG_TERRAIN, SG_DEBUG, "FREEING terra_transform" );
if ( fgPartialFreeSSGtree( terra_transform, delete_size ) == 0 ) {
terra_transform = 0;
free_tracker |= TERRA_NODE;
}
} else if ( !(free_tracker & GROUND_LIGHTS) && gnd_lights_transform ) {
// delete the terrain lighting branch (this should already have been
// disconnected from the scene graph)
SG_LOG( SG_TERRAIN, SG_DEBUG, "FREEING gnd_lights_transform" );
if ( fgPartialFreeSSGtree( gnd_lights_transform, delete_size ) == 0 ) {
gnd_lights_transform = 0;
free_tracker |= GROUND_LIGHTS;
}
} else if ( !(free_tracker & VASI_LIGHTS) && vasi_lights_selector ) {
// delete the runway lighting branch (this should already have
// been disconnected from the scene graph)
SG_LOG( SG_TERRAIN, SG_DEBUG, "FREEING vasi_lights_selector" );
if ( fgPartialFreeSSGtree( vasi_lights_selector, delete_size ) == 0 ) {
vasi_lights_selector = 0;
free_tracker |= VASI_LIGHTS;
}
} else if ( !(free_tracker & RWY_LIGHTS) && rwy_lights_selector ) {
// delete the runway lighting branch (this should already have
// been disconnected from the scene graph)
SG_LOG( SG_TERRAIN, SG_DEBUG, "FREEING rwy_lights_selector" );
if ( fgPartialFreeSSGtree( rwy_lights_selector, delete_size ) == 0 ) {
rwy_lights_selector = 0;
free_tracker |= RWY_LIGHTS;
}
} else if ( !(free_tracker & TAXI_LIGHTS) && taxi_lights_selector ) {
// delete the taxi lighting branch (this should already have been
// disconnected from the scene graph)
SG_LOG( SG_TERRAIN, SG_DEBUG, "FREEING taxi_lights_selector" );
if ( fgPartialFreeSSGtree( taxi_lights_selector, delete_size ) == 0 ) {
taxi_lights_selector = 0;
free_tracker |= TAXI_LIGHTS;
}
} else if ( !(free_tracker & LIGHTMAPS) ) {
free_tracker |= LIGHTMAPS;
} else {
return true;
}
SG_LOG( SG_TERRAIN, SG_DEBUG, "(end) free_tracker = " << free_tracker );
// if we fall down to here, we still have work todo, return false
return false;
}
// Update the ssg transform node for this tile so it can be
// properly drawn relative to our (0,0,0) point
void FGTileEntry::prep_ssg_node( const Point3D& p, sgVec3 up, float vis) {
if ( !loaded ) return;
// visibility can change from frame to frame so we update the
// range selector cutoff's each time.
terra_range->setRange( 0, SG_ZERO );
terra_range->setRange( 1, vis + bounding_radius );
if ( gnd_lights_range ) {
gnd_lights_range->setRange( 0, SG_ZERO );
gnd_lights_range->setRange( 1, vis * 1.5 + bounding_radius );
}
Mathias: I have done a patch to eliminate the jitter of 3D-objects near the viewpoint (for example 3D cockpit objects). The problem is the roundoff accuracy of the float values used in the scenegraph together with the transforms of the eyepoint relative to the scenery center. The solution will be to move the scenery center near the view point. This way floats relative accuracy is enough to show a stable picture. To get that right I have introduced a transform node for the scenegraph which is responsible for that shift and uses double values as long as possible. The scenery subsystem now has a list of all those transforms required to place objects in the world and will tell all those transforms that the scenery center has changed when the set_scenery_center() of the scenery subsystem is called. The problem was not solvable by SGModelPlacement and SGLocation, since not all objects, especially the scenery, are placed using these classes. The first approach was to have the scenery center exactly at the eyepoint. This works well for the cockpit. But then the ground jitters a bit below the aircraft. With our default views you can't see that, but that F-18 has a camera view below the left engine intake with the nose gear and the ground in its field of view, here I could see that. Having the scenery center constant will still have this roundoff problems, but like it is now too, the roundoff error here is exactly the same in each frame, so you will not notice any jitter. The real solution is now to keep the scenery center constant as long as it is in a ball of 30m radius around the view point. If the scenery center is outside this ball, just put it at the view point. As a sideeffect of now beeing able to switch the scenery center in the whole scenegraph with one function call, I was able to remove a one half of a problem when switching views, where the scenery center was far off for one or two frames past switching from one view to the next. Also included is a fix to the other half of this problem, where the view position was not yet copied into a view when it is switched (at least under glut). This was responsible for the 'Error: ...' messages of the cloud subsystem when views were switched.
2005-04-29 14:38:24 +00:00
sgdVec3 sgdTrans;
sgdSetVec3( sgdTrans, center.x(), center.y(), center.z() );
FGLight *l = (FGLight *)(globals->get_subsystem("lighting"));
if ( gnd_lights_transform ) {
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// we need to lift the lights above the terrain to avoid
// z-buffer fighting. We do this based on our altitude and
// the distance this tile is away from scenery center.
// we expect 'up' to be a unit vector coming in, but since we
// modify the value of lift_vec, we need to create a local
// copy.
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sgVec3 lift_vec;
sgCopyVec3( lift_vec, up );
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double agl;
agl = globals->get_current_view()->getAltitudeASL_ft()*SG_FEET_TO_METER
- globals->get_current_view()->getSGLocation()->get_cur_elev_m();
Mathias: I have done a patch to eliminate the jitter of 3D-objects near the viewpoint (for example 3D cockpit objects). The problem is the roundoff accuracy of the float values used in the scenegraph together with the transforms of the eyepoint relative to the scenery center. The solution will be to move the scenery center near the view point. This way floats relative accuracy is enough to show a stable picture. To get that right I have introduced a transform node for the scenegraph which is responsible for that shift and uses double values as long as possible. The scenery subsystem now has a list of all those transforms required to place objects in the world and will tell all those transforms that the scenery center has changed when the set_scenery_center() of the scenery subsystem is called. The problem was not solvable by SGModelPlacement and SGLocation, since not all objects, especially the scenery, are placed using these classes. The first approach was to have the scenery center exactly at the eyepoint. This works well for the cockpit. But then the ground jitters a bit below the aircraft. With our default views you can't see that, but that F-18 has a camera view below the left engine intake with the nose gear and the ground in its field of view, here I could see that. Having the scenery center constant will still have this roundoff problems, but like it is now too, the roundoff error here is exactly the same in each frame, so you will not notice any jitter. The real solution is now to keep the scenery center constant as long as it is in a ball of 30m radius around the view point. If the scenery center is outside this ball, just put it at the view point. As a sideeffect of now beeing able to switch the scenery center in the whole scenegraph with one function call, I was able to remove a one half of a problem when switching views, where the scenery center was far off for one or two frames past switching from one view to the next. Also included is a fix to the other half of this problem, where the view position was not yet copied into a view when it is switched (at least under glut). This was responsible for the 'Error: ...' messages of the cloud subsystem when views were switched.
2005-04-29 14:38:24 +00:00
// Compute the distance of the scenery center from the view position.
double dist = center.distance3D(p);
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if ( general.get_glDepthBits() > 16 ) {
sgScaleVec3( lift_vec, 10.0 + agl / 100.0 + dist / 10000 );
} else {
sgScaleVec3( lift_vec, 10.0 + agl / 20.0 + dist / 5000 );
}
Mathias: I have done a patch to eliminate the jitter of 3D-objects near the viewpoint (for example 3D cockpit objects). The problem is the roundoff accuracy of the float values used in the scenegraph together with the transforms of the eyepoint relative to the scenery center. The solution will be to move the scenery center near the view point. This way floats relative accuracy is enough to show a stable picture. To get that right I have introduced a transform node for the scenegraph which is responsible for that shift and uses double values as long as possible. The scenery subsystem now has a list of all those transforms required to place objects in the world and will tell all those transforms that the scenery center has changed when the set_scenery_center() of the scenery subsystem is called. The problem was not solvable by SGModelPlacement and SGLocation, since not all objects, especially the scenery, are placed using these classes. The first approach was to have the scenery center exactly at the eyepoint. This works well for the cockpit. But then the ground jitters a bit below the aircraft. With our default views you can't see that, but that F-18 has a camera view below the left engine intake with the nose gear and the ground in its field of view, here I could see that. Having the scenery center constant will still have this roundoff problems, but like it is now too, the roundoff error here is exactly the same in each frame, so you will not notice any jitter. The real solution is now to keep the scenery center constant as long as it is in a ball of 30m radius around the view point. If the scenery center is outside this ball, just put it at the view point. As a sideeffect of now beeing able to switch the scenery center in the whole scenegraph with one function call, I was able to remove a one half of a problem when switching views, where the scenery center was far off for one or two frames past switching from one view to the next. Also included is a fix to the other half of this problem, where the view position was not yet copied into a view when it is switched (at least under glut). This was responsible for the 'Error: ...' messages of the cloud subsystem when views were switched.
2005-04-29 14:38:24 +00:00
sgdVec3 dlt_trans;
sgdCopyVec3( dlt_trans, sgdTrans );
sgdVec3 dlift_vec;
sgdSetVec3( dlift_vec, lift_vec );
sgdAddVec3( dlt_trans, dlift_vec );
gnd_lights_transform->setTransform( dlt_trans );
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// select which set of lights based on sun angle
float sun_angle = l->get_sun_angle() * SGD_RADIANS_TO_DEGREES;
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if ( sun_angle > 95 ) {
gnd_lights_brightness->select(0x04);
} else if ( sun_angle > 92 ) {
gnd_lights_brightness->select(0x02);
} else if ( sun_angle > 89 ) {
gnd_lights_brightness->select(0x01);
} else {
gnd_lights_brightness->select(0x00);
}
}
if ( vasi_lights_transform ) {
// we need to lift the lights above the terrain to avoid
// z-buffer fighting. We do this based on our altitude and
// the distance this tile is away from scenery center.
sgVec3 lift_vec;
sgCopyVec3( lift_vec, up );
// we fudge agl by 30 meters so that the lifting function
// doesn't phase in until we are > 30m agl.
double agl;
agl = globals->get_current_view()->getAltitudeASL_ft()*SG_FEET_TO_METER
- globals->get_current_view()->getSGLocation()->get_cur_elev_m()
- 30.0;
if ( agl < 0.0 ) {
agl = 0.0;
}
if ( general.get_glDepthBits() > 16 ) {
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sgScaleVec3( lift_vec, 0.25 + agl / 400.0 + agl*agl / 5000000.0 );
} else {
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sgScaleVec3( lift_vec, 0.25 + agl / 150.0 );
}
Mathias: I have done a patch to eliminate the jitter of 3D-objects near the viewpoint (for example 3D cockpit objects). The problem is the roundoff accuracy of the float values used in the scenegraph together with the transforms of the eyepoint relative to the scenery center. The solution will be to move the scenery center near the view point. This way floats relative accuracy is enough to show a stable picture. To get that right I have introduced a transform node for the scenegraph which is responsible for that shift and uses double values as long as possible. The scenery subsystem now has a list of all those transforms required to place objects in the world and will tell all those transforms that the scenery center has changed when the set_scenery_center() of the scenery subsystem is called. The problem was not solvable by SGModelPlacement and SGLocation, since not all objects, especially the scenery, are placed using these classes. The first approach was to have the scenery center exactly at the eyepoint. This works well for the cockpit. But then the ground jitters a bit below the aircraft. With our default views you can't see that, but that F-18 has a camera view below the left engine intake with the nose gear and the ground in its field of view, here I could see that. Having the scenery center constant will still have this roundoff problems, but like it is now too, the roundoff error here is exactly the same in each frame, so you will not notice any jitter. The real solution is now to keep the scenery center constant as long as it is in a ball of 30m radius around the view point. If the scenery center is outside this ball, just put it at the view point. As a sideeffect of now beeing able to switch the scenery center in the whole scenegraph with one function call, I was able to remove a one half of a problem when switching views, where the scenery center was far off for one or two frames past switching from one view to the next. Also included is a fix to the other half of this problem, where the view position was not yet copied into a view when it is switched (at least under glut). This was responsible for the 'Error: ...' messages of the cloud subsystem when views were switched.
2005-04-29 14:38:24 +00:00
sgdVec3 dlt_trans;
sgdCopyVec3( dlt_trans, sgdTrans );
sgdVec3 dlift_vec;
sgdSetVec3( dlift_vec, lift_vec );
sgdAddVec3( dlt_trans, dlift_vec );
vasi_lights_transform->setTransform( dlt_trans );
// generally, vasi lights are always on
vasi_lights_selector->select(0x01);
}
if ( rwy_lights_transform ) {
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// we need to lift the lights above the terrain to avoid
// z-buffer fighting. We do this based on our altitude and
// the distance this tile is away from scenery center.
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sgVec3 lift_vec;
sgCopyVec3( lift_vec, up );
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// we fudge agl by 30 meters so that the lifting function
// doesn't phase in until we are > 30m agl.
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double agl;
agl = globals->get_current_view()->getAltitudeASL_ft()*SG_FEET_TO_METER
- globals->get_current_view()->getSGLocation()->get_cur_elev_m()
- 30.0;
if ( agl < 0.0 ) {
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agl = 0.0;
}
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if ( general.get_glDepthBits() > 16 ) {
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sgScaleVec3( lift_vec, 0.01 + agl / 400.0 + agl*agl / 5000000.0 );
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} else {
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sgScaleVec3( lift_vec, 0.25 + agl / 150.0 );
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}
Mathias: I have done a patch to eliminate the jitter of 3D-objects near the viewpoint (for example 3D cockpit objects). The problem is the roundoff accuracy of the float values used in the scenegraph together with the transforms of the eyepoint relative to the scenery center. The solution will be to move the scenery center near the view point. This way floats relative accuracy is enough to show a stable picture. To get that right I have introduced a transform node for the scenegraph which is responsible for that shift and uses double values as long as possible. The scenery subsystem now has a list of all those transforms required to place objects in the world and will tell all those transforms that the scenery center has changed when the set_scenery_center() of the scenery subsystem is called. The problem was not solvable by SGModelPlacement and SGLocation, since not all objects, especially the scenery, are placed using these classes. The first approach was to have the scenery center exactly at the eyepoint. This works well for the cockpit. But then the ground jitters a bit below the aircraft. With our default views you can't see that, but that F-18 has a camera view below the left engine intake with the nose gear and the ground in its field of view, here I could see that. Having the scenery center constant will still have this roundoff problems, but like it is now too, the roundoff error here is exactly the same in each frame, so you will not notice any jitter. The real solution is now to keep the scenery center constant as long as it is in a ball of 30m radius around the view point. If the scenery center is outside this ball, just put it at the view point. As a sideeffect of now beeing able to switch the scenery center in the whole scenegraph with one function call, I was able to remove a one half of a problem when switching views, where the scenery center was far off for one or two frames past switching from one view to the next. Also included is a fix to the other half of this problem, where the view position was not yet copied into a view when it is switched (at least under glut). This was responsible for the 'Error: ...' messages of the cloud subsystem when views were switched.
2005-04-29 14:38:24 +00:00
sgdVec3 dlt_trans;
sgdCopyVec3( dlt_trans, sgdTrans );
sgdVec3 dlift_vec;
sgdSetVec3( dlift_vec, lift_vec );
sgdAddVec3( dlt_trans, dlift_vec );
rwy_lights_transform->setTransform( dlt_trans );
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// turn runway lights on/off based on sun angle and visibility
float sun_angle = l->get_sun_angle() * SGD_RADIANS_TO_DEGREES;
if ( sun_angle > 85 ||
(fgGetDouble("/environment/visibility-m") < 5000.0) ) {
rwy_lights_selector->select(0x01);
} else {
rwy_lights_selector->select(0x00);
}
}
if ( taxi_lights_transform ) {
// we need to lift the lights above the terrain to avoid
// z-buffer fighting. We do this based on our altitude and
// the distance this tile is away from scenery center.
sgVec3 lift_vec;
sgCopyVec3( lift_vec, up );
// we fudge agl by 30 meters so that the lifting function
// doesn't phase in until we are > 30m agl.
double agl;
agl = globals->get_current_view()->getAltitudeASL_ft()*SG_FEET_TO_METER
- globals->get_current_view()->getSGLocation()->get_cur_elev_m()
- 30.0;
if ( agl < 0.0 ) {
agl = 0.0;
}
if ( general.get_glDepthBits() > 16 ) {
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sgScaleVec3( lift_vec, 0.01 + agl / 400.0 + agl*agl / 5000000.0 );
} else {
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sgScaleVec3( lift_vec, 0.25 + agl / 150.0 );
}
Mathias: I have done a patch to eliminate the jitter of 3D-objects near the viewpoint (for example 3D cockpit objects). The problem is the roundoff accuracy of the float values used in the scenegraph together with the transforms of the eyepoint relative to the scenery center. The solution will be to move the scenery center near the view point. This way floats relative accuracy is enough to show a stable picture. To get that right I have introduced a transform node for the scenegraph which is responsible for that shift and uses double values as long as possible. The scenery subsystem now has a list of all those transforms required to place objects in the world and will tell all those transforms that the scenery center has changed when the set_scenery_center() of the scenery subsystem is called. The problem was not solvable by SGModelPlacement and SGLocation, since not all objects, especially the scenery, are placed using these classes. The first approach was to have the scenery center exactly at the eyepoint. This works well for the cockpit. But then the ground jitters a bit below the aircraft. With our default views you can't see that, but that F-18 has a camera view below the left engine intake with the nose gear and the ground in its field of view, here I could see that. Having the scenery center constant will still have this roundoff problems, but like it is now too, the roundoff error here is exactly the same in each frame, so you will not notice any jitter. The real solution is now to keep the scenery center constant as long as it is in a ball of 30m radius around the view point. If the scenery center is outside this ball, just put it at the view point. As a sideeffect of now beeing able to switch the scenery center in the whole scenegraph with one function call, I was able to remove a one half of a problem when switching views, where the scenery center was far off for one or two frames past switching from one view to the next. Also included is a fix to the other half of this problem, where the view position was not yet copied into a view when it is switched (at least under glut). This was responsible for the 'Error: ...' messages of the cloud subsystem when views were switched.
2005-04-29 14:38:24 +00:00
sgdVec3 dlt_trans;
sgdCopyVec3( dlt_trans, sgdTrans );
sgdVec3 dlift_vec;
sgdSetVec3( dlift_vec, lift_vec );
sgdAddVec3( dlt_trans, dlift_vec );
taxi_lights_transform->setTransform( dlt_trans );
// turn taxi lights on/off based on sun angle and visibility
float sun_angle = l->get_sun_angle() * SGD_RADIANS_TO_DEGREES;
if ( sun_angle > 85 ||
(fgGetDouble("/environment/visibility-m") < 5000.0) ) {
taxi_lights_selector->select(0x01);
} else {
taxi_lights_selector->select(0x00);
}
}
if ( vasi_lights_transform && is_inner_ring ) {
// now we need to traverse the list of vasi lights and update
// their coloring (but only for the inner ring, no point in
// doing this extra work for tiles that are relatively far
// away.)
for ( int i = 0; i < vasi_lights_transform->getNumKids(); ++i ) {
// cout << "vasi root = " << i << endl;
ssgBranch *v = (ssgBranch *)vasi_lights_transform->getKid(i);
for ( int j = 0; j < v->getNumKids(); ++j ) {
// cout << " vasi branch = " << j << endl;
ssgTransform *kid = (ssgTransform *)v->getKid(j);
SGVASIUserData *vasi = (SGVASIUserData *)kid->getUserData();
if ( vasi != NULL ) {
sgdVec3 s;
sgdCopyVec3( s, vasi->get_abs_pos() );
Point3D start(s[0], s[1], s[2]);
sgdVec3 d;
sgdCopyVec3( d, globals->get_current_view()->get_absolute_view_pos() );
double dist = sgdDistanceVec3( s, d );
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if ( dist < 10000 ) {
double cur_alt
= globals->get_current_view()->getAltitudeASL_ft()
* SG_FEET_TO_METER;
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double y = cur_alt - vasi->get_alt_m();
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double angle;
if ( dist != 0 ) {
angle = asin( y / dist );
} else {
angle = 0.0;
}
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vasi->set_color(angle * SG_RADIANS_TO_DEGREES);
}
// cout << " dist = " << dist
// << " angle = " << angle * SG_RADIANS_TO_DEGREES
// << endl;
} else {
SG_LOG( SG_TERRAIN, SG_ALERT, "no vasi data!" );
}
}
}
}
}
// Set up lights rendering call backs
static int fgLightsPredraw( ssgEntity *e ) {
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#if 0
if (glPointParameterIsSupported) {
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static float quadratic[3] = {1.0, 0.01, 0.0001};
glPointParameterfvProc(GL_DISTANCE_ATTENUATION_EXT, quadratic);
glPointParameterfProc(GL_POINT_SIZE_MIN_EXT, 1.0);
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glPointSize(4.0);
}
#endif
return true;
}
static int fgLightsPostdraw( ssgEntity *e ) {
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#if 0
if (glPointParameterIsSupported) {
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static float default_attenuation[3] = {1.0, 0.0, 0.0};
glPointParameterfvProc(GL_DISTANCE_ATTENUATION_EXT,
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default_attenuation);
glPointSize(1.0);
}
#endif
return true;
}
ssgLeaf* FGTileEntry::gen_lights( SGMaterialLib *matlib, ssgVertexArray *lights,
int inc, float bright )
{
// generate a repeatable random seed
float *p1 = lights->get( 0 );
unsigned int *seed = (unsigned int *)p1;
sg_srandom( *seed );
int size = lights->getNum() / inc;
// Allocate ssg structure
ssgVertexArray *vl = new ssgVertexArray( size + 1 );
ssgNormalArray *nl = NULL;
ssgTexCoordArray *tl = NULL;
ssgColourArray *cl = new ssgColourArray( size + 1 );
sgVec4 color;
for ( int i = 0; i < lights->getNum(); ++i ) {
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// this loop is slightly less efficient than it otherwise
// could be, but we want a red light to always be red, and a
// yellow light to always be yellow, etc. so we are trying to
// preserve the random sequence.
float zombie = sg_random();
if ( i % inc == 0 ) {
vl->add( lights->get(i) );
// factor = sg_random() ^ 2, range = 0 .. 1 concentrated towards 0
float factor = sg_random();
factor *= factor;
if ( zombie > 0.5 ) {
// 50% chance of yellowish
sgSetVec4( color, 0.9, 0.9, 0.3, bright - factor * 0.2 );
} else if ( zombie > 0.15 ) {
// 35% chance of whitish
sgSetVec4( color, 0.9, 0.9, 0.8, bright - factor * 0.2 );
} else if ( zombie > 0.05 ) {
// 10% chance of orangish
sgSetVec4( color, 0.9, 0.6, 0.2, bright - factor * 0.2 );
} else {
// 5% chance of redish
sgSetVec4( color, 0.9, 0.2, 0.2, bright - factor * 0.2 );
}
cl->add( color );
}
}
// create ssg leaf
ssgLeaf *leaf =
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new ssgVtxTable ( GL_POINTS, vl, nl, tl, cl );
// assign state
SGMaterial *mat = matlib->find( "GROUND_LIGHTS" );
leaf->setState( mat->get_state() );
leaf->setCallback( SSG_CALLBACK_PREDRAW, fgLightsPredraw );
leaf->setCallback( SSG_CALLBACK_POSTDRAW, fgLightsPostdraw );
return leaf;
}
bool FGTileEntry::obj_load( const string& path,
ssgBranch *geometry,
ssgBranch *vasi_lights,
ssgBranch *rwy_lights,
ssgBranch *taxi_lights,
ssgVertexArray *ground_lights, bool is_base )
{
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Point3D c; // returned center point
double br; // returned bounding radius
bool use_random_objects =
fgGetBool("/sim/rendering/random-objects", true);
// try loading binary format
if ( sgBinObjLoad( path, is_base,
&c, &br, globals->get_matlib(), use_random_objects,
geometry, vasi_lights, rwy_lights, taxi_lights,
ground_lights ) )
{
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if ( is_base ) {
center = c;
bounding_radius = br;
}
}
return (geometry != NULL);
}
typedef enum {
OBJECT,
OBJECT_SHARED,
OBJECT_STATIC,
OBJECT_TAXI_SIGN,
OBJECT_RUNWAY_SIGN
} object_type;
// storage class for deferred object processing in FGTileEntry::load()
struct Object {
Object(object_type t, const string& token, const SGPath& p, istream& in)
: type(t), path(p)
{
in >> name;
if (type != OBJECT)
in >> lon >> lat >> elev >> hdg;
in >> ::skipeol;
if (type == OBJECT)
SG_LOG(SG_TERRAIN, SG_INFO, " " << token << " " << name);
else
SG_LOG(SG_TERRAIN, SG_INFO, " " << token << " " << name << " lon=" <<
lon << " lat=" << lat << " elev=" << elev << " hdg=" << hdg);
}
object_type type;
string name;
SGPath path;
double lon, lat, elev, hdg;
};
void
FGTileEntry::load( const string_list &path_list, bool is_base )
{
bool found_tile_base = false;
SGPath object_base;
vector<const Object*> objects;
string index_str = tile_bucket.gen_index_str();
SG_LOG( SG_TERRAIN, SG_INFO, "Loading tile " << index_str );
// scan and parse all files and store information
for (unsigned int i = 0; i < path_list.size(); i++) {
// If we found a terrain tile in Terrain/, we have to process the
// Objects/ dir in the same group, too, before we can stop scanning.
// FGGlobals::set_fg_scenery() inserts an empty string to path_list
// as marker.
if (path_list[i].empty()) {
if (found_tile_base)
break;
else
continue;
}
bool has_base = false;
SGPath tile_path = path_list[i];
tile_path.append( tile_bucket.gen_base_path() );
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SGPath basename = tile_path;
basename.append( index_str );
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SG_LOG( SG_TERRAIN, SG_INFO, " Trying " << basename.str() );
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// Check for master .stg (scene terra gear) file
SGPath stg_name = basename;
stg_name.concat( ".stg" );
sg_gzifstream in( stg_name.str() );
if ( !in.is_open() )
continue;
while ( ! in.eof() ) {
string token;
in >> token;
if ( token[0] == '#' ) {
in >> ::skipeol;
continue;
}
// Load only once (first found)
if ( token == "OBJECT_BASE" ) {
string name;
in >> name >> ::skipws;
SG_LOG( SG_TERRAIN, SG_INFO, " " << token << " " << name );
if (!found_tile_base) {
found_tile_base = true;
has_base = true;
object_base = tile_path;
object_base.append(name);
} else
SG_LOG(SG_TERRAIN, SG_INFO, " (skipped)");
// Load only if base is not in another file
} else if ( token == "OBJECT" ) {
if (!found_tile_base || has_base)
objects.push_back(new Object(OBJECT, token, tile_path, in));
else {
string name;
in >> name >> ::skipeol;
SG_LOG(SG_TERRAIN, SG_INFO, " " << token << " "
<< name << " (skipped)");
}
// Always OK to load
} else if ( token == "OBJECT_STATIC" ) {
objects.push_back(new Object(OBJECT_STATIC, token, tile_path, in));
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} else if ( token == "OBJECT_SHARED" ) {
objects.push_back(new Object(OBJECT_SHARED, token, tile_path, in));
} else if ( token == "OBJECT_TAXI_SIGN" ) {
objects.push_back(new Object(OBJECT_TAXI_SIGN, token, tile_path, in));
} else if ( token == "OBJECT_RUNWAY_SIGN" ) {
objects.push_back(new Object(OBJECT_RUNWAY_SIGN, token, tile_path, in));
} else {
SG_LOG( SG_TERRAIN, SG_DEBUG,
"Unknown token '" << token << "' in " << stg_name.str() );
in >> ::skipws;
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}
}
}
// obj_load() will generate ground lighting for us ...
ssgVertexArray *light_pts = new ssgVertexArray( 100 );
ssgBranch* new_tile = new ssgBranch;
if (found_tile_base) {
// load tile if found ...
ssgSharedPtr<ssgBranch> geometry = new ssgBranch;
if ( obj_load( object_base.str(), geometry,
NULL, NULL, NULL, light_pts, true ) ) {
geometry->getKid( 0 )->setTravCallback(SSG_CALLBACK_PRETRAV,
&FGTileMgr::tile_filter_cb);
new_tile -> addKid( geometry );
}
} else {
// ... or generate an ocean tile on the fly
SG_LOG(SG_TERRAIN, SG_INFO, " Generating ocean tile");
ssgSharedPtr<ssgBranch> geometry = new ssgBranch;
Point3D c;
double br;
if ( sgGenTile( path_list[0], tile_bucket, &c, &br,
globals->get_matlib(), geometry ) ) {
center = c;
bounding_radius = br;
new_tile -> addKid( geometry );
} else {
SG_LOG( SG_TERRAIN, SG_ALERT,
"Warning: failed to generate ocean tile!" );
}
}
// now that we have a valid center, process all the objects
for (unsigned int j = 0; j < objects.size(); j++) {
const Object *obj = objects[j];
if (obj->type == OBJECT) {
SGPath custom_path = obj->path;
custom_path.append( obj->name );
ssgSharedPtr<ssgBranch> geometry = new ssgBranch;
ssgSharedPtr<ssgBranch> vasi_lights = new ssgBranch;
ssgSharedPtr<ssgBranch> rwy_lights = new ssgBranch;
ssgSharedPtr<ssgBranch> taxi_lights = new ssgBranch;
if ( obj_load( custom_path.str(),
geometry, vasi_lights, rwy_lights,
taxi_lights, NULL, false ) ) {
if ( geometry -> getNumKids() > 0 ) {
geometry->getKid( 0 )->setTravCallback(
SSG_CALLBACK_PRETRAV,
&FGTileMgr::tile_filter_cb );
new_tile -> addKid( geometry );
}
if ( vasi_lights -> getNumKids() > 0 )
vasi_lights_transform -> addKid( vasi_lights );
if ( rwy_lights -> getNumKids() > 0 )
rwy_lights_transform -> addKid( rwy_lights );
if ( taxi_lights -> getNumKids() > 0 )
taxi_lights_transform -> addKid( taxi_lights );
}
} else if (obj->type == OBJECT_SHARED || obj->type == OBJECT_STATIC) {
// object loading is deferred to main render thread,
// but lets figure out the paths right now.
SGPath custom_path;
if ( obj->type == OBJECT_STATIC ) {
custom_path = obj->path;
} else {
custom_path = globals->get_fg_root();
}
custom_path.append( obj->name );
sgCoord obj_pos;
WorldCoordinate( &obj_pos, center, obj->lat, obj->lon, obj->elev, obj->hdg );
ssgTransform *obj_trans = new ssgTransform;
obj_trans->setTransform( &obj_pos );
// wire as much of the scene graph together as we can
new_tile->addKid( obj_trans );
pending_models++;
// push an entry onto the model load queue
FGDeferredModel *dm
= new FGDeferredModel( custom_path.str(),
obj->path.str(),
tile_bucket,
this, obj_trans );
FGTileMgr::model_ready( dm );
} else if (obj->type == OBJECT_TAXI_SIGN || obj->type == OBJECT_RUNWAY_SIGN) {
ssgBranch *(*make_sign)(SGMaterialLib *, const string, const string);
make_sign = obj->type == OBJECT_TAXI_SIGN ? sgMakeTaxiSign : sgMakeRunwaySign;
// load the object itself
SGPath custom_path = obj->path;
custom_path.append( obj->name );
sgCoord obj_pos;
WorldCoordinate( &obj_pos, center, obj->lat, obj->lon, obj->elev, obj->hdg );
ssgTransform *obj_trans = new ssgTransform;
obj_trans->setTransform( &obj_pos );
ssgBranch *custom_obj
= (*make_sign)(globals->get_matlib(), custom_path.str(), obj->name);
// wire the pieces together
if ( custom_obj != NULL ) {
obj_trans -> addKid( custom_obj );
}
new_tile->addKid( obj_trans );
}
delete obj;
}
if ( new_tile != NULL ) {
terra_range->addKid( new_tile );
}
terra_transform->addKid( terra_range );
// calculate initial tile offset
Mathias: I have done a patch to eliminate the jitter of 3D-objects near the viewpoint (for example 3D cockpit objects). The problem is the roundoff accuracy of the float values used in the scenegraph together with the transforms of the eyepoint relative to the scenery center. The solution will be to move the scenery center near the view point. This way floats relative accuracy is enough to show a stable picture. To get that right I have introduced a transform node for the scenegraph which is responsible for that shift and uses double values as long as possible. The scenery subsystem now has a list of all those transforms required to place objects in the world and will tell all those transforms that the scenery center has changed when the set_scenery_center() of the scenery subsystem is called. The problem was not solvable by SGModelPlacement and SGLocation, since not all objects, especially the scenery, are placed using these classes. The first approach was to have the scenery center exactly at the eyepoint. This works well for the cockpit. But then the ground jitters a bit below the aircraft. With our default views you can't see that, but that F-18 has a camera view below the left engine intake with the nose gear and the ground in its field of view, here I could see that. Having the scenery center constant will still have this roundoff problems, but like it is now too, the roundoff error here is exactly the same in each frame, so you will not notice any jitter. The real solution is now to keep the scenery center constant as long as it is in a ball of 30m radius around the view point. If the scenery center is outside this ball, just put it at the view point. As a sideeffect of now beeing able to switch the scenery center in the whole scenegraph with one function call, I was able to remove a one half of a problem when switching views, where the scenery center was far off for one or two frames past switching from one view to the next. Also included is a fix to the other half of this problem, where the view position was not yet copied into a view when it is switched (at least under glut). This was responsible for the 'Error: ...' messages of the cloud subsystem when views were switched.
2005-04-29 14:38:24 +00:00
sgdVec3 sgdTrans;
sgdSetVec3( sgdTrans, center.x(), center.y(), center.z() );
terra_transform->setTransform( sgdTrans );
// Add ground lights to scene graph if any exist
gnd_lights_transform = NULL;
gnd_lights_range = NULL;
if ( light_pts->getNum() ) {
2002-09-23 15:27:46 +00:00
SG_LOG( SG_TERRAIN, SG_DEBUG, "generating lights" );
Mathias: I have done a patch to eliminate the jitter of 3D-objects near the viewpoint (for example 3D cockpit objects). The problem is the roundoff accuracy of the float values used in the scenegraph together with the transforms of the eyepoint relative to the scenery center. The solution will be to move the scenery center near the view point. This way floats relative accuracy is enough to show a stable picture. To get that right I have introduced a transform node for the scenegraph which is responsible for that shift and uses double values as long as possible. The scenery subsystem now has a list of all those transforms required to place objects in the world and will tell all those transforms that the scenery center has changed when the set_scenery_center() of the scenery subsystem is called. The problem was not solvable by SGModelPlacement and SGLocation, since not all objects, especially the scenery, are placed using these classes. The first approach was to have the scenery center exactly at the eyepoint. This works well for the cockpit. But then the ground jitters a bit below the aircraft. With our default views you can't see that, but that F-18 has a camera view below the left engine intake with the nose gear and the ground in its field of view, here I could see that. Having the scenery center constant will still have this roundoff problems, but like it is now too, the roundoff error here is exactly the same in each frame, so you will not notice any jitter. The real solution is now to keep the scenery center constant as long as it is in a ball of 30m radius around the view point. If the scenery center is outside this ball, just put it at the view point. As a sideeffect of now beeing able to switch the scenery center in the whole scenegraph with one function call, I was able to remove a one half of a problem when switching views, where the scenery center was far off for one or two frames past switching from one view to the next. Also included is a fix to the other half of this problem, where the view position was not yet copied into a view when it is switched (at least under glut). This was responsible for the 'Error: ...' messages of the cloud subsystem when views were switched.
2005-04-29 14:38:24 +00:00
gnd_lights_transform = new ssgPlacementTransform;
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gnd_lights_range = new ssgRangeSelector;
gnd_lights_brightness = new ssgSelector;
ssgLeaf *lights;
lights = gen_lights( globals->get_matlib(), light_pts, 4, 0.7 );
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gnd_lights_brightness->addKid( lights );
lights = gen_lights( globals->get_matlib(), light_pts, 2, 0.85 );
2002-09-23 15:27:46 +00:00
gnd_lights_brightness->addKid( lights );
lights = gen_lights( globals->get_matlib(), light_pts, 1, 1.0 );
2002-09-23 15:27:46 +00:00
gnd_lights_brightness->addKid( lights );
2002-09-23 15:27:46 +00:00
gnd_lights_range->addKid( gnd_lights_brightness );
gnd_lights_transform->addKid( gnd_lights_range );
Mathias: I have done a patch to eliminate the jitter of 3D-objects near the viewpoint (for example 3D cockpit objects). The problem is the roundoff accuracy of the float values used in the scenegraph together with the transforms of the eyepoint relative to the scenery center. The solution will be to move the scenery center near the view point. This way floats relative accuracy is enough to show a stable picture. To get that right I have introduced a transform node for the scenegraph which is responsible for that shift and uses double values as long as possible. The scenery subsystem now has a list of all those transforms required to place objects in the world and will tell all those transforms that the scenery center has changed when the set_scenery_center() of the scenery subsystem is called. The problem was not solvable by SGModelPlacement and SGLocation, since not all objects, especially the scenery, are placed using these classes. The first approach was to have the scenery center exactly at the eyepoint. This works well for the cockpit. But then the ground jitters a bit below the aircraft. With our default views you can't see that, but that F-18 has a camera view below the left engine intake with the nose gear and the ground in its field of view, here I could see that. Having the scenery center constant will still have this roundoff problems, but like it is now too, the roundoff error here is exactly the same in each frame, so you will not notice any jitter. The real solution is now to keep the scenery center constant as long as it is in a ball of 30m radius around the view point. If the scenery center is outside this ball, just put it at the view point. As a sideeffect of now beeing able to switch the scenery center in the whole scenegraph with one function call, I was able to remove a one half of a problem when switching views, where the scenery center was far off for one or two frames past switching from one view to the next. Also included is a fix to the other half of this problem, where the view position was not yet copied into a view when it is switched (at least under glut). This was responsible for the 'Error: ...' messages of the cloud subsystem when views were switched.
2005-04-29 14:38:24 +00:00
gnd_lights_transform->setTransform( sgdTrans );
}
// Update vasi lights transform
if ( vasi_lights_transform->getNumKids() > 0 ) {
Mathias: I have done a patch to eliminate the jitter of 3D-objects near the viewpoint (for example 3D cockpit objects). The problem is the roundoff accuracy of the float values used in the scenegraph together with the transforms of the eyepoint relative to the scenery center. The solution will be to move the scenery center near the view point. This way floats relative accuracy is enough to show a stable picture. To get that right I have introduced a transform node for the scenegraph which is responsible for that shift and uses double values as long as possible. The scenery subsystem now has a list of all those transforms required to place objects in the world and will tell all those transforms that the scenery center has changed when the set_scenery_center() of the scenery subsystem is called. The problem was not solvable by SGModelPlacement and SGLocation, since not all objects, especially the scenery, are placed using these classes. The first approach was to have the scenery center exactly at the eyepoint. This works well for the cockpit. But then the ground jitters a bit below the aircraft. With our default views you can't see that, but that F-18 has a camera view below the left engine intake with the nose gear and the ground in its field of view, here I could see that. Having the scenery center constant will still have this roundoff problems, but like it is now too, the roundoff error here is exactly the same in each frame, so you will not notice any jitter. The real solution is now to keep the scenery center constant as long as it is in a ball of 30m radius around the view point. If the scenery center is outside this ball, just put it at the view point. As a sideeffect of now beeing able to switch the scenery center in the whole scenegraph with one function call, I was able to remove a one half of a problem when switching views, where the scenery center was far off for one or two frames past switching from one view to the next. Also included is a fix to the other half of this problem, where the view position was not yet copied into a view when it is switched (at least under glut). This was responsible for the 'Error: ...' messages of the cloud subsystem when views were switched.
2005-04-29 14:38:24 +00:00
vasi_lights_transform->setTransform( sgdTrans );
}
// Update runway lights transform
if ( rwy_lights_transform->getNumKids() > 0 ) {
Mathias: I have done a patch to eliminate the jitter of 3D-objects near the viewpoint (for example 3D cockpit objects). The problem is the roundoff accuracy of the float values used in the scenegraph together with the transforms of the eyepoint relative to the scenery center. The solution will be to move the scenery center near the view point. This way floats relative accuracy is enough to show a stable picture. To get that right I have introduced a transform node for the scenegraph which is responsible for that shift and uses double values as long as possible. The scenery subsystem now has a list of all those transforms required to place objects in the world and will tell all those transforms that the scenery center has changed when the set_scenery_center() of the scenery subsystem is called. The problem was not solvable by SGModelPlacement and SGLocation, since not all objects, especially the scenery, are placed using these classes. The first approach was to have the scenery center exactly at the eyepoint. This works well for the cockpit. But then the ground jitters a bit below the aircraft. With our default views you can't see that, but that F-18 has a camera view below the left engine intake with the nose gear and the ground in its field of view, here I could see that. Having the scenery center constant will still have this roundoff problems, but like it is now too, the roundoff error here is exactly the same in each frame, so you will not notice any jitter. The real solution is now to keep the scenery center constant as long as it is in a ball of 30m radius around the view point. If the scenery center is outside this ball, just put it at the view point. As a sideeffect of now beeing able to switch the scenery center in the whole scenegraph with one function call, I was able to remove a one half of a problem when switching views, where the scenery center was far off for one or two frames past switching from one view to the next. Also included is a fix to the other half of this problem, where the view position was not yet copied into a view when it is switched (at least under glut). This was responsible for the 'Error: ...' messages of the cloud subsystem when views were switched.
2005-04-29 14:38:24 +00:00
rwy_lights_transform->setTransform( sgdTrans );
}
// Update taxi lights transform
if ( taxi_lights_transform->getNumKids() > 0 ) {
Mathias: I have done a patch to eliminate the jitter of 3D-objects near the viewpoint (for example 3D cockpit objects). The problem is the roundoff accuracy of the float values used in the scenegraph together with the transforms of the eyepoint relative to the scenery center. The solution will be to move the scenery center near the view point. This way floats relative accuracy is enough to show a stable picture. To get that right I have introduced a transform node for the scenegraph which is responsible for that shift and uses double values as long as possible. The scenery subsystem now has a list of all those transforms required to place objects in the world and will tell all those transforms that the scenery center has changed when the set_scenery_center() of the scenery subsystem is called. The problem was not solvable by SGModelPlacement and SGLocation, since not all objects, especially the scenery, are placed using these classes. The first approach was to have the scenery center exactly at the eyepoint. This works well for the cockpit. But then the ground jitters a bit below the aircraft. With our default views you can't see that, but that F-18 has a camera view below the left engine intake with the nose gear and the ground in its field of view, here I could see that. Having the scenery center constant will still have this roundoff problems, but like it is now too, the roundoff error here is exactly the same in each frame, so you will not notice any jitter. The real solution is now to keep the scenery center constant as long as it is in a ball of 30m radius around the view point. If the scenery center is outside this ball, just put it at the view point. As a sideeffect of now beeing able to switch the scenery center in the whole scenegraph with one function call, I was able to remove a one half of a problem when switching views, where the scenery center was far off for one or two frames past switching from one view to the next. Also included is a fix to the other half of this problem, where the view position was not yet copied into a view when it is switched (at least under glut). This was responsible for the 'Error: ...' messages of the cloud subsystem when views were switched.
2005-04-29 14:38:24 +00:00
taxi_lights_transform->setTransform( sgdTrans );
}
delete light_pts;
}
void
FGTileEntry::makeDList( ssgBranch *b )
{
int nb = b->getNumKids();
for (int i = 0; i<nb; i++) {
ssgEntity *e = b->getKid(i);
if (e->isAKindOf(ssgTypeLeaf())) {
((ssgLeaf*)e)->makeDList();
} else if (e->isAKindOf(ssgTypeBranch())) {
makeDList( (ssgBranch*)e );
}
}
}
void
FGTileEntry::add_ssg_nodes( ssgBranch *terrain_branch,
ssgBranch *gnd_lights_branch,
ssgBranch *vasi_lights_branch,
ssgBranch *rwy_lights_branch,
ssgBranch *taxi_lights_branch )
{
// bump up the ref count so we can remove this later without
// having ssg try to free the memory.
#if PLIB_VERSION > 183
if ( fgGetBool( "/sim/rendering/use-display-list", true ) ) {
makeDList( terra_transform );
}
#endif
terrain_branch->addKid( terra_transform );
Mathias Frhlich: 2. I made YASim query the the ground cache at the wrong place. This one fixed this, one can now land the bo105 on top of the oracle buildings :) 3. Is a followup of the scenery center update code: Register the scenery center transform at the time it is put into the scene graph not at creation time. 4. I held that part back from the past hitlist patch, because I hoped that it will be sufficient (and the last one was in fact the biggest part) without. As some test cases from Melchior showed me, it is not. We have additionally to the wrong computed transform from the prevous patch some roundoff problems. This patch adds some small tolerance to for the point in triangle test. ... may be one even needs to increase the eps value further if starting at some tile boundaries still fails. 5. That is a big chunk. Tested now for two days while hunting the second patch :) . That is a partial rewrite of the groundcache to use its own datastructures for that flat scenegraph in the cache. The basic advantage is, what Erik suggested, to precompute some often used values of these triangles. Also allmost all computations are now in double precision which should decrease (hopefully fix), together with a similar tolerance for some point in triangle tests, the problems with 'no ground below aircraft'. I am playing with octrees for the groundcache, that will finally solve the performance problem when high triangular count models end up in the groundcache. This patch is also some prework for those octrees ...
2005-05-30 08:48:27 +00:00
globals->get_scenery()->register_placement_transform(terra_transform);
SG_LOG( SG_TERRAIN, SG_DEBUG,
"connected a tile into scene graph. terra_transform = "
<< terra_transform );
SG_LOG( SG_TERRAIN, SG_DEBUG, "num parents now = "
<< terra_transform->getNumParents() );
if ( gnd_lights_transform != NULL ) {
2002-09-23 15:27:46 +00:00
// bump up the ref count so we can remove this later without
// having ssg try to free the memory.
gnd_lights_branch->addKid( gnd_lights_transform );
Mathias Frhlich: 2. I made YASim query the the ground cache at the wrong place. This one fixed this, one can now land the bo105 on top of the oracle buildings :) 3. Is a followup of the scenery center update code: Register the scenery center transform at the time it is put into the scene graph not at creation time. 4. I held that part back from the past hitlist patch, because I hoped that it will be sufficient (and the last one was in fact the biggest part) without. As some test cases from Melchior showed me, it is not. We have additionally to the wrong computed transform from the prevous patch some roundoff problems. This patch adds some small tolerance to for the point in triangle test. ... may be one even needs to increase the eps value further if starting at some tile boundaries still fails. 5. That is a big chunk. Tested now for two days while hunting the second patch :) . That is a partial rewrite of the groundcache to use its own datastructures for that flat scenegraph in the cache. The basic advantage is, what Erik suggested, to precompute some often used values of these triangles. Also allmost all computations are now in double precision which should decrease (hopefully fix), together with a similar tolerance for some point in triangle tests, the problems with 'no ground below aircraft'. I am playing with octrees for the groundcache, that will finally solve the performance problem when high triangular count models end up in the groundcache. This patch is also some prework for those octrees ...
2005-05-30 08:48:27 +00:00
globals->get_scenery()->register_placement_transform(gnd_lights_transform);
}
if ( vasi_lights_transform != NULL ) {
// bump up the ref count so we can remove this later without
// having ssg try to free the memory.
vasi_lights_selector->addKid( vasi_lights_transform );
Mathias Frhlich: 2. I made YASim query the the ground cache at the wrong place. This one fixed this, one can now land the bo105 on top of the oracle buildings :) 3. Is a followup of the scenery center update code: Register the scenery center transform at the time it is put into the scene graph not at creation time. 4. I held that part back from the past hitlist patch, because I hoped that it will be sufficient (and the last one was in fact the biggest part) without. As some test cases from Melchior showed me, it is not. We have additionally to the wrong computed transform from the prevous patch some roundoff problems. This patch adds some small tolerance to for the point in triangle test. ... may be one even needs to increase the eps value further if starting at some tile boundaries still fails. 5. That is a big chunk. Tested now for two days while hunting the second patch :) . That is a partial rewrite of the groundcache to use its own datastructures for that flat scenegraph in the cache. The basic advantage is, what Erik suggested, to precompute some often used values of these triangles. Also allmost all computations are now in double precision which should decrease (hopefully fix), together with a similar tolerance for some point in triangle tests, the problems with 'no ground below aircraft'. I am playing with octrees for the groundcache, that will finally solve the performance problem when high triangular count models end up in the groundcache. This patch is also some prework for those octrees ...
2005-05-30 08:48:27 +00:00
globals->get_scenery()->register_placement_transform(vasi_lights_transform);
vasi_lights_branch->addKid( vasi_lights_selector );
}
if ( rwy_lights_transform != NULL ) {
2002-09-23 15:27:46 +00:00
// bump up the ref count so we can remove this later without
// having ssg try to free the memory.
rwy_lights_selector->addKid( rwy_lights_transform );
Mathias Frhlich: 2. I made YASim query the the ground cache at the wrong place. This one fixed this, one can now land the bo105 on top of the oracle buildings :) 3. Is a followup of the scenery center update code: Register the scenery center transform at the time it is put into the scene graph not at creation time. 4. I held that part back from the past hitlist patch, because I hoped that it will be sufficient (and the last one was in fact the biggest part) without. As some test cases from Melchior showed me, it is not. We have additionally to the wrong computed transform from the prevous patch some roundoff problems. This patch adds some small tolerance to for the point in triangle test. ... may be one even needs to increase the eps value further if starting at some tile boundaries still fails. 5. That is a big chunk. Tested now for two days while hunting the second patch :) . That is a partial rewrite of the groundcache to use its own datastructures for that flat scenegraph in the cache. The basic advantage is, what Erik suggested, to precompute some often used values of these triangles. Also allmost all computations are now in double precision which should decrease (hopefully fix), together with a similar tolerance for some point in triangle tests, the problems with 'no ground below aircraft'. I am playing with octrees for the groundcache, that will finally solve the performance problem when high triangular count models end up in the groundcache. This patch is also some prework for those octrees ...
2005-05-30 08:48:27 +00:00
globals->get_scenery()->register_placement_transform(rwy_lights_transform);
rwy_lights_branch->addKid( rwy_lights_selector );
}
if ( taxi_lights_transform != NULL ) {
// bump up the ref count so we can remove this later without
// having ssg try to free the memory.
taxi_lights_selector->addKid( taxi_lights_transform );
Mathias Frhlich: 2. I made YASim query the the ground cache at the wrong place. This one fixed this, one can now land the bo105 on top of the oracle buildings :) 3. Is a followup of the scenery center update code: Register the scenery center transform at the time it is put into the scene graph not at creation time. 4. I held that part back from the past hitlist patch, because I hoped that it will be sufficient (and the last one was in fact the biggest part) without. As some test cases from Melchior showed me, it is not. We have additionally to the wrong computed transform from the prevous patch some roundoff problems. This patch adds some small tolerance to for the point in triangle test. ... may be one even needs to increase the eps value further if starting at some tile boundaries still fails. 5. That is a big chunk. Tested now for two days while hunting the second patch :) . That is a partial rewrite of the groundcache to use its own datastructures for that flat scenegraph in the cache. The basic advantage is, what Erik suggested, to precompute some often used values of these triangles. Also allmost all computations are now in double precision which should decrease (hopefully fix), together with a similar tolerance for some point in triangle tests, the problems with 'no ground below aircraft'. I am playing with octrees for the groundcache, that will finally solve the performance problem when high triangular count models end up in the groundcache. This patch is also some prework for those octrees ...
2005-05-30 08:48:27 +00:00
globals->get_scenery()->register_placement_transform(taxi_lights_transform);
taxi_lights_branch->addKid( taxi_lights_selector );
}
loaded = true;
}
void
FGTileEntry::disconnect_ssg_nodes()
{
SG_LOG( SG_TERRAIN, SG_DEBUG, "disconnecting ssg nodes" );
if ( ! loaded ) {
SG_LOG( SG_TERRAIN, SG_DEBUG, "removing a not-fully loaded tile!" );
} else {
SG_LOG( SG_TERRAIN, SG_DEBUG, "removing a fully loaded tile! terra_transform = " << terra_transform );
}
Mathias: I have done a patch to eliminate the jitter of 3D-objects near the viewpoint (for example 3D cockpit objects). The problem is the roundoff accuracy of the float values used in the scenegraph together with the transforms of the eyepoint relative to the scenery center. The solution will be to move the scenery center near the view point. This way floats relative accuracy is enough to show a stable picture. To get that right I have introduced a transform node for the scenegraph which is responsible for that shift and uses double values as long as possible. The scenery subsystem now has a list of all those transforms required to place objects in the world and will tell all those transforms that the scenery center has changed when the set_scenery_center() of the scenery subsystem is called. The problem was not solvable by SGModelPlacement and SGLocation, since not all objects, especially the scenery, are placed using these classes. The first approach was to have the scenery center exactly at the eyepoint. This works well for the cockpit. But then the ground jitters a bit below the aircraft. With our default views you can't see that, but that F-18 has a camera view below the left engine intake with the nose gear and the ground in its field of view, here I could see that. Having the scenery center constant will still have this roundoff problems, but like it is now too, the roundoff error here is exactly the same in each frame, so you will not notice any jitter. The real solution is now to keep the scenery center constant as long as it is in a ball of 30m radius around the view point. If the scenery center is outside this ball, just put it at the view point. As a sideeffect of now beeing able to switch the scenery center in the whole scenegraph with one function call, I was able to remove a one half of a problem when switching views, where the scenery center was far off for one or two frames past switching from one view to the next. Also included is a fix to the other half of this problem, where the view position was not yet copied into a view when it is switched (at least under glut). This was responsible for the 'Error: ...' messages of the cloud subsystem when views were switched.
2005-04-29 14:38:24 +00:00
// Unregister that one at the scenery manager
globals->get_scenery()->unregister_placement_transform(terra_transform);
// find the terrain branch parent
int pcount = terra_transform->getNumParents();
if ( pcount > 0 ) {
2002-09-23 15:27:46 +00:00
// find the first parent (should only be one)
ssgBranch *parent = terra_transform->getParent( 0 ) ;
if( parent ) {
// disconnect the tile (we previously ref()'d it so it
// won't get freed now)
parent->removeKid( terra_transform );
} else {
SG_LOG( SG_TERRAIN, SG_ALERT,
"parent pointer is NULL! Dying" );
exit(-1);
}
} else {
2002-09-23 15:27:46 +00:00
SG_LOG( SG_TERRAIN, SG_ALERT,
"Parent count is zero for an ssg tile! Dying" );
exit(-1);
}
// find the ground lighting branch
if ( gnd_lights_transform ) {
Mathias: I have done a patch to eliminate the jitter of 3D-objects near the viewpoint (for example 3D cockpit objects). The problem is the roundoff accuracy of the float values used in the scenegraph together with the transforms of the eyepoint relative to the scenery center. The solution will be to move the scenery center near the view point. This way floats relative accuracy is enough to show a stable picture. To get that right I have introduced a transform node for the scenegraph which is responsible for that shift and uses double values as long as possible. The scenery subsystem now has a list of all those transforms required to place objects in the world and will tell all those transforms that the scenery center has changed when the set_scenery_center() of the scenery subsystem is called. The problem was not solvable by SGModelPlacement and SGLocation, since not all objects, especially the scenery, are placed using these classes. The first approach was to have the scenery center exactly at the eyepoint. This works well for the cockpit. But then the ground jitters a bit below the aircraft. With our default views you can't see that, but that F-18 has a camera view below the left engine intake with the nose gear and the ground in its field of view, here I could see that. Having the scenery center constant will still have this roundoff problems, but like it is now too, the roundoff error here is exactly the same in each frame, so you will not notice any jitter. The real solution is now to keep the scenery center constant as long as it is in a ball of 30m radius around the view point. If the scenery center is outside this ball, just put it at the view point. As a sideeffect of now beeing able to switch the scenery center in the whole scenegraph with one function call, I was able to remove a one half of a problem when switching views, where the scenery center was far off for one or two frames past switching from one view to the next. Also included is a fix to the other half of this problem, where the view position was not yet copied into a view when it is switched (at least under glut). This was responsible for the 'Error: ...' messages of the cloud subsystem when views were switched.
2005-04-29 14:38:24 +00:00
// Unregister that one at the scenery manager
globals->get_scenery()->unregister_placement_transform(gnd_lights_transform);
2002-09-23 15:27:46 +00:00
pcount = gnd_lights_transform->getNumParents();
if ( pcount > 0 ) {
// find the first parent (should only be one)
ssgBranch *parent = gnd_lights_transform->getParent( 0 ) ;
if( parent ) {
// disconnect the light branch (we previously ref()'d
// it so it won't get freed now)
parent->removeKid( gnd_lights_transform );
} else {
SG_LOG( SG_TERRAIN, SG_ALERT,
"parent pointer is NULL! Dying" );
exit(-1);
}
} else {
SG_LOG( SG_TERRAIN, SG_ALERT,
"Parent count is zero for an ssg light tile! Dying" );
exit(-1);
}
}
// find the vasi lighting branch
if ( vasi_lights_transform ) {
Mathias: I have done a patch to eliminate the jitter of 3D-objects near the viewpoint (for example 3D cockpit objects). The problem is the roundoff accuracy of the float values used in the scenegraph together with the transforms of the eyepoint relative to the scenery center. The solution will be to move the scenery center near the view point. This way floats relative accuracy is enough to show a stable picture. To get that right I have introduced a transform node for the scenegraph which is responsible for that shift and uses double values as long as possible. The scenery subsystem now has a list of all those transforms required to place objects in the world and will tell all those transforms that the scenery center has changed when the set_scenery_center() of the scenery subsystem is called. The problem was not solvable by SGModelPlacement and SGLocation, since not all objects, especially the scenery, are placed using these classes. The first approach was to have the scenery center exactly at the eyepoint. This works well for the cockpit. But then the ground jitters a bit below the aircraft. With our default views you can't see that, but that F-18 has a camera view below the left engine intake with the nose gear and the ground in its field of view, here I could see that. Having the scenery center constant will still have this roundoff problems, but like it is now too, the roundoff error here is exactly the same in each frame, so you will not notice any jitter. The real solution is now to keep the scenery center constant as long as it is in a ball of 30m radius around the view point. If the scenery center is outside this ball, just put it at the view point. As a sideeffect of now beeing able to switch the scenery center in the whole scenegraph with one function call, I was able to remove a one half of a problem when switching views, where the scenery center was far off for one or two frames past switching from one view to the next. Also included is a fix to the other half of this problem, where the view position was not yet copied into a view when it is switched (at least under glut). This was responsible for the 'Error: ...' messages of the cloud subsystem when views were switched.
2005-04-29 14:38:24 +00:00
// Unregister that one at the scenery manager
globals->get_scenery()->unregister_placement_transform(vasi_lights_transform);
pcount = vasi_lights_transform->getNumParents();
if ( pcount > 0 ) {
// find the first parent (should only be one)
ssgBranch *parent = vasi_lights_transform->getParent( 0 ) ;
if( parent ) {
// disconnect the light branch (we previously ref()'d
// it so it won't get freed now)
parent->removeKid( vasi_lights_transform );
} else {
SG_LOG( SG_TERRAIN, SG_ALERT,
"parent pointer is NULL! Dying" );
exit(-1);
}
} else {
SG_LOG( SG_TERRAIN, SG_ALERT,
"Parent count is zero for an ssg light tile! Dying" );
exit(-1);
}
}
// find the runway lighting branch
if ( rwy_lights_transform ) {
Mathias: I have done a patch to eliminate the jitter of 3D-objects near the viewpoint (for example 3D cockpit objects). The problem is the roundoff accuracy of the float values used in the scenegraph together with the transforms of the eyepoint relative to the scenery center. The solution will be to move the scenery center near the view point. This way floats relative accuracy is enough to show a stable picture. To get that right I have introduced a transform node for the scenegraph which is responsible for that shift and uses double values as long as possible. The scenery subsystem now has a list of all those transforms required to place objects in the world and will tell all those transforms that the scenery center has changed when the set_scenery_center() of the scenery subsystem is called. The problem was not solvable by SGModelPlacement and SGLocation, since not all objects, especially the scenery, are placed using these classes. The first approach was to have the scenery center exactly at the eyepoint. This works well for the cockpit. But then the ground jitters a bit below the aircraft. With our default views you can't see that, but that F-18 has a camera view below the left engine intake with the nose gear and the ground in its field of view, here I could see that. Having the scenery center constant will still have this roundoff problems, but like it is now too, the roundoff error here is exactly the same in each frame, so you will not notice any jitter. The real solution is now to keep the scenery center constant as long as it is in a ball of 30m radius around the view point. If the scenery center is outside this ball, just put it at the view point. As a sideeffect of now beeing able to switch the scenery center in the whole scenegraph with one function call, I was able to remove a one half of a problem when switching views, where the scenery center was far off for one or two frames past switching from one view to the next. Also included is a fix to the other half of this problem, where the view position was not yet copied into a view when it is switched (at least under glut). This was responsible for the 'Error: ...' messages of the cloud subsystem when views were switched.
2005-04-29 14:38:24 +00:00
// Unregister that one at the scenery manager
globals->get_scenery()->unregister_placement_transform(rwy_lights_transform);
2002-09-23 15:27:46 +00:00
pcount = rwy_lights_transform->getNumParents();
if ( pcount > 0 ) {
// find the first parent (should only be one)
ssgBranch *parent = rwy_lights_transform->getParent( 0 ) ;
if( parent ) {
// disconnect the light branch (we previously ref()'d
// it so it won't get freed now)
parent->removeKid( rwy_lights_transform );
} else {
SG_LOG( SG_TERRAIN, SG_ALERT,
"parent pointer is NULL! Dying" );
exit(-1);
}
} else {
SG_LOG( SG_TERRAIN, SG_ALERT,
"Parent count is zero for an ssg light tile! Dying" );
exit(-1);
}
}
// find the taxi lighting branch
if ( taxi_lights_transform ) {
Mathias: I have done a patch to eliminate the jitter of 3D-objects near the viewpoint (for example 3D cockpit objects). The problem is the roundoff accuracy of the float values used in the scenegraph together with the transforms of the eyepoint relative to the scenery center. The solution will be to move the scenery center near the view point. This way floats relative accuracy is enough to show a stable picture. To get that right I have introduced a transform node for the scenegraph which is responsible for that shift and uses double values as long as possible. The scenery subsystem now has a list of all those transforms required to place objects in the world and will tell all those transforms that the scenery center has changed when the set_scenery_center() of the scenery subsystem is called. The problem was not solvable by SGModelPlacement and SGLocation, since not all objects, especially the scenery, are placed using these classes. The first approach was to have the scenery center exactly at the eyepoint. This works well for the cockpit. But then the ground jitters a bit below the aircraft. With our default views you can't see that, but that F-18 has a camera view below the left engine intake with the nose gear and the ground in its field of view, here I could see that. Having the scenery center constant will still have this roundoff problems, but like it is now too, the roundoff error here is exactly the same in each frame, so you will not notice any jitter. The real solution is now to keep the scenery center constant as long as it is in a ball of 30m radius around the view point. If the scenery center is outside this ball, just put it at the view point. As a sideeffect of now beeing able to switch the scenery center in the whole scenegraph with one function call, I was able to remove a one half of a problem when switching views, where the scenery center was far off for one or two frames past switching from one view to the next. Also included is a fix to the other half of this problem, where the view position was not yet copied into a view when it is switched (at least under glut). This was responsible for the 'Error: ...' messages of the cloud subsystem when views were switched.
2005-04-29 14:38:24 +00:00
// Unregister that one at the scenery manager
globals->get_scenery()->unregister_placement_transform(taxi_lights_transform);
pcount = taxi_lights_transform->getNumParents();
if ( pcount > 0 ) {
// find the first parent (should only be one)
ssgBranch *parent = taxi_lights_transform->getParent( 0 ) ;
if( parent ) {
// disconnect the light branch (we previously ref()'d
// it so it won't get freed now)
parent->removeKid( taxi_lights_transform );
} else {
SG_LOG( SG_TERRAIN, SG_ALERT,
"parent pointer is NULL! Dying" );
exit(-1);
}
2002-09-23 15:27:46 +00:00
} else {
SG_LOG( SG_TERRAIN, SG_ALERT,
"Parent count is zero for an ssg light tile! Dying" );
exit(-1);
}
}
}