//
// Written by David Megginson, started December 2001.
//
-// Copyright (C) 2001 - 2003 Curtis L. Olson - curt@flightgear.org
+// Copyright (C) 2001 - 2003 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
//
// 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.
+// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
//
// $Id$
+#ifdef HAVE_CONFIG_H
+# include <simgear_config.h>
+#endif
-#include <plib/sg.h>
-#include <plib/ssg.h>
+#include <osgDB/Registry>
#include <simgear/sg_inlines.h>
-#include <simgear/math/point3d.hxx>
#include <simgear/math/sg_geodesy.hxx>
#include <simgear/math/sg_random.h>
#include <simgear/scene/material/mat.hxx>
#include <simgear/scene/material/matmodel.hxx>
+#include "SGModelBin.hxx"
#include "userdata.hxx"
-
+#include "SGReaderWriterBTG.hxx"
// the following are static values needed by the runtime object
// loader. However, the loading is done via a call back so these
// building / drawing any scenery.
static bool _inited = false;
-static SGModelLib *modellib = NULL;
-static string model_root = "";
static SGPropertyNode *root_props = NULL;
-static double sim_time_sec = 0.0;
-void sgUserDataInit( SGModelLib *m, const string &r,
- SGPropertyNode *p, double t ) {
+// Because BTG files are now loaded through the osgDB::Registry, there
+// are no symbols referenced by FlightGear in this library other than
+// sgUserDataInit. But the libraries are all statically linked, so
+// none of the other object files in this library would be included in
+// the executable! Sticking the static proxy here forces the BTG code
+// to be sucked in.
+osgDB::RegisterReaderWriterProxy<SGReaderWriterBTG> g_readerWriter_BTG_Proxy;
+
+void sgUserDataInit( SGPropertyNode *p ) {
_inited = true;
- modellib = m;
- model_root = r;
root_props = p;
- sim_time_sec = t;
-}
-
-
-static void random_pt_inside_tri( float *res,
- float *n1, float *n2, float *n3 )
-{
- double a = sg_random();
- double b = sg_random();
- if ( a + b > 1.0 ) {
- a = 1.0 - a;
- b = 1.0 - b;
- }
- double c = 1 - a - b;
-
- res[0] = n1[0]*a + n2[0]*b + n3[0]*c;
- res[1] = n1[1]*a + n2[1]*b + n3[1]*c;
- res[2] = n1[2]*a + n2[2]*b + n3[2]*c;
}
+osg::Node* sgGetRandomModel(SGMatModel *obj, mt seed) {
+ return obj->get_random_model( root_props, seed );
+ }
-/**
- * Fill in a triangle with randomly-placed objects.
- *
- * This method is invoked by a callback when the triangle is in range
- * but not yet populated.
- *
- */
-
-void SGTriUserData::fill_in_triangle ()
-{
- // generate a repeatable random seed
- sg_srandom(seed);
-
- int nObjects = object_group->get_object_count();
-
- for (int i = 0; i < nObjects; i++) {
- SGMatModel * object = object_group->get_object(i);
- double num = area / object->get_coverage_m2();
-
- // place an object each unit of area
- while ( num > 1.0 ) {
- add_object_to_triangle(object);
- num -= 1.0;
- }
- // for partial units of area, use a zombie door method to
- // create the proper random chance of an object being created
- // for this triangle
- if ( num > 0.0 ) {
- if ( sg_random() <= num ) {
- // a zombie made it through our door
- add_object_to_triangle(object);
- }
- }
- }
-}
-
-void SGTriUserData::add_object_to_triangle (SGMatModel * object)
+namespace simgear
{
- // Set up the random heading if required.
- double hdg_deg = 0;
- if (object->get_heading_type() == SGMatModel::HEADING_RANDOM)
- hdg_deg = sg_random() * 360;
-
- sgMat4 mat;
- makeWorldMatrix(mat, hdg_deg);
-
- ssgTransform * pos = new ssgTransform;
- pos->setTransform(mat);
- // the parameters to get_random_model() are set in local static
- // data via the ssgUserDataInit() function. This function must be
- // called before any scenery is drawn.
- pos->addKid( object->get_random_model( modellib, model_root,
- root_props, sim_time_sec )
- );
- branch->addKid(pos);
-}
-
-void SGTriUserData::makeWorldMatrix (sgMat4 mat, double hdg_deg )
+SGPropertyNode* getPropertyRoot()
{
- if (hdg_deg == 0) {
- mat[0][0] = leafData->sin_lat * leafData->cos_lon;
- mat[0][1] = leafData->sin_lat * leafData->sin_lon;
- mat[0][2] = -leafData->cos_lat;
- mat[0][3] = SG_ZERO;
-
- mat[1][0] = -leafData->sin_lon;
- mat[1][1] = leafData->cos_lon;
- mat[1][2] = SG_ZERO;
- mat[1][3] = SG_ZERO;
- } else {
- float sin_hdg = sin( hdg_deg * SGD_DEGREES_TO_RADIANS ) ;
- float cos_hdg = cos( hdg_deg * SGD_DEGREES_TO_RADIANS ) ;
- mat[0][0] = cos_hdg * leafData->sin_lat * leafData->cos_lon - sin_hdg * leafData->sin_lon;
- mat[0][1] = cos_hdg * leafData->sin_lat * leafData->sin_lon + sin_hdg * leafData->cos_lon;
- mat[0][2] = -cos_hdg * leafData->cos_lat;
- mat[0][3] = SG_ZERO;
-
- mat[1][0] = -sin_hdg * leafData->sin_lat * leafData->cos_lon - cos_hdg * leafData->sin_lon;
- mat[1][1] = -sin_hdg * leafData->sin_lat * leafData->sin_lon + cos_hdg * leafData->cos_lon;
- mat[1][2] = sin_hdg * leafData->cos_lat;
- mat[1][3] = SG_ZERO;
- }
-
- mat[2][0] = leafData->cos_lat * leafData->cos_lon;
- mat[2][1] = leafData->cos_lat * leafData->sin_lon;
- mat[2][2] = leafData->sin_lat;
- mat[2][3] = SG_ZERO;
-
- // translate to random point in triangle
- sgVec3 result;
- random_pt_inside_tri(result, p1, p2, p3);
- sgSubVec3(mat[3], result, center);
-
- mat[3][3] = SG_ONE ;
+ return root_props;
}
-
-/**
- * SSG callback for an in-range triangle of randomly-placed objects.
- *
- * This pretraversal callback is attached to a branch that is traversed
- * only when a triangle is in range. If the triangle is not currently
- * populated with randomly-placed objects, this callback will populate
- * it.
- *
- * @param entity The entity to which the callback is attached (not used).
- * @param mask The entity's traversal mask (not used).
- * @return Always 1, to allow traversal and culling to continue.
- */
-static int
-tri_in_range_callback (ssgEntity * entity, int mask)
-{
- SGTriUserData * data = (SGTriUserData *)entity->getUserData();
- if (!data->is_filled_in) {
- data->fill_in_triangle();
- data->is_filled_in = true;
- }
- return 1;
-}
-
-
-/**
- * SSG callback for an out-of-range triangle of randomly-placed objects.
- *
- * This pretraversal callback is attached to a branch that is traversed
- * only when a triangle is out of range. If the triangle is currently
- * populated with randomly-placed objects, the objects will be removed.
- *
- *
- * @param entity The entity to which the callback is attached (not used).
- * @param mask The entity's traversal mask (not used).
- * @return Always 0, to prevent any further traversal or culling.
- */
-static int
-tri_out_of_range_callback (ssgEntity * entity, int mask)
-{
- SGTriUserData * data = (SGTriUserData *)entity->getUserData();
- if (data->is_filled_in) {
- data->branch->removeAllKids();
- data->is_filled_in = false;
- }
- return 0;
-}
-
-
-/**
- * Calculate the bounding radius of a triangle from its center.
- *
- * @param center The triangle center.
- * @param p1 The first point in the triangle.
- * @param p2 The second point in the triangle.
- * @param p3 The third point in the triangle.
- * @return The greatest distance any point lies from the center.
- */
-static inline float
-get_bounding_radius( sgVec3 center, float *p1, float *p2, float *p3)
-{
- return sqrt( SG_MAX3( sgDistanceSquaredVec3(center, p1),
- sgDistanceSquaredVec3(center, p2),
- sgDistanceSquaredVec3(center, p3) ) );
-}
-
-
-/**
- * Set up a triangle for randomly-placed objects.
- *
- * No objects will be added unless the triangle comes into range.
- *
- */
-
-void SGLeafUserData::setup_triangle (int i )
-{
- short n1, n2, n3;
- leaf->getTriangle(i, &n1, &n2, &n3);
-
- float * p1 = leaf->getVertex(n1);
- float * p2 = leaf->getVertex(n2);
- float * p3 = leaf->getVertex(n3);
-
- // Set up a single center point for LOD
- sgVec3 center;
- sgSetVec3(center,
- (p1[0] + p2[0] + p3[0]) / 3.0,
- (p1[1] + p2[1] + p3[1]) / 3.0,
- (p1[2] + p2[2] + p3[2]) / 3.0);
- double area = sgTriArea(p1, p2, p3);
-
- // maximum radius of an object from center.
- double bounding_radius = get_bounding_radius(center, p1, p2, p3);
-
- // Set up a transformation to the center
- // point, so that everything else can
- // be specified relative to it.
- ssgTransform * location = new ssgTransform;
- sgMat4 TRANS;
- sgMakeTransMat4(TRANS, center);
- location->setTransform(TRANS);
- branch->addKid(location);
-
- // Iterate through all the object types.
- int num_groups = mat->get_object_group_count();
- for (int j = 0; j < num_groups; j++) {
- // Look up the random object.
- SGMatModelGroup * group = mat->get_object_group(j);
-
- // Set up the range selector for the entire
- // triangle; note that we use the object
- // range plus the bounding radius here, to
- // allow for objects far from the center.
- float ranges[] = { 0,
- group->get_range_m() + bounding_radius,
- SG_MAX };
- ssgRangeSelector * lod = new ssgRangeSelector;
- lod->setRanges(ranges, 3);
- location->addKid(lod);
-
- // Create the in-range and out-of-range
- // branches.
- ssgBranch * in_range = new ssgBranch;
- ssgBranch * out_of_range = new ssgBranch;
-
- // Set up the user data for if/when
- // the random objects in this triangle
- // are filled in.
- SGTriUserData * data = new SGTriUserData;
- data->is_filled_in = false;
- data->p1 = p1;
- data->p2 = p2;
- data->p3 = p3;
- sgCopyVec3 (data->center, center);
- data->area = area;
- data->object_group = group;
- data->branch = in_range;
- data->leafData = this;
- data->seed = (unsigned int)(p1[0] * j);
-
- // Set up the in-range node.
- in_range->setUserData(data);
- in_range->setTravCallback(SSG_CALLBACK_PRETRAV,
- tri_in_range_callback);
- lod->addKid(in_range);
-
- // Set up the out-of-range node.
- out_of_range->setUserData(data);
- out_of_range->setTravCallback(SSG_CALLBACK_PRETRAV,
- tri_out_of_range_callback);
- out_of_range->addKid(new SGDummyBSphereEntity(bounding_radius));
- lod->addKid(out_of_range);
- }
}