flightgear/src/Main/main.cxx

// main.cxx -- top level sim routines
//
// Written by Curtis Olson for OpenGL, started May 1997.
//
// Copyright (C) 1997 - 1999  Curtis L. Olson  - curt@flightgear.org
//
// 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

#ifdef FG_MATH_EXCEPTION_CLASH
#  include <math.h>
#endif

#ifdef HAVE_WINDOWS_H
#  include <windows.h>                     
#  include <float.h>                    
#endif

#include <GL/glut.h>
#include <simgear/xgl/xgl.h>

#include <stdio.h>
#include <string.h>
#include <string>

#ifdef HAVE_STDLIB_H
#   include <stdlib.h>
#endif

#ifdef HAVE_SYS_STAT_H
#  include <sys/stat.h> /* for stat() */
#endif

#ifdef HAVE_UNISTD_H
#  include <unistd.h>    /* for stat() */
#endif

#include <plib/pu.h>			// plib include
#include <plib/ssg.h>		// plib include

#ifdef ENABLE_AUDIO_SUPPORT
#  include <plib/sl.h>		// plib include
#  include <plib/sm.h>		// plib include
#endif

#include <simgear/constants.h>  // for VERSION
#include <simgear/debug/logstream.hxx>
#include <simgear/math/polar3d.hxx>
#include <simgear/math/fg_random.h>
#include <simgear/misc/fgpath.hxx>
#include <simgear/sky/sky.hxx>
#include <simgear/timing/sg_time.hxx>
#include <simgear/timing/lowleveltime.h>

#include <Include/general.hxx>

#include <Aircraft/aircraft.hxx>

#include <Autopilot/newauto.hxx>
#include <Cockpit/cockpit.hxx>
#include <Cockpit/radiostack.hxx>
#include <Cockpit/steam.hxx>

#include <FDM/UIUCModel/uiuc_aircraftdir.h>
#include <GUI/gui.h>
#include <Joystick/joystick.hxx>
#ifdef FG_NETWORK_OLK
#include <NetworkOLK/network.h>
#endif
#include <Scenery/scenery.hxx>
#include <Scenery/tilemgr.hxx>
#include <Time/event.hxx>
#include <Time/fg_timer.hxx>
#include <Time/sunpos.hxx>
#include <Time/tmp.hxx>

#ifndef FG_OLD_WEATHER
#  include <WeatherCM/FGLocalWeatherDatabase.h>
#else
#  include <Weather/weather.hxx>
#endif

#include "version.h"

#include "bfi.hxx"
#include "fg_init.hxx"
#include "fg_io.hxx"
#include "globals.hxx"
#include "keyboard.hxx"
#include "options.hxx"
#include "splash.hxx"
#include "views.hxx"


// -dw- use custom sioux settings so I can see output window
#ifdef macintosh
#  ifndef FG_NDEBUG
#    include <sioux.h> // settings for output window
#  endif
#  include <console.h>
#endif


// This is a record containing a bit of global housekeeping information
FGGeneral general;

// Specify our current idle function state.  This is used to run all
// our initializations out of the glutIdleLoop() so that we can get a
// splash screen up and running right away.
static int idle_state = 0;
static int global_multi_loop;

// attempt to avoid a large bounce at startup
static bool initial_freeze = true;

// Another hack
int use_signals = 0;

// Global structures for the Audio library
#ifdef ENABLE_AUDIO_SUPPORT
slEnvelope pitch_envelope ( 1, SL_SAMPLE_ONE_SHOT ) ;
slEnvelope volume_envelope ( 1, SL_SAMPLE_ONE_SHOT ) ;
slScheduler *audio_sched;
smMixer *audio_mixer;
slSample *s1;
slSample *s2;
#endif


// ssg variables
ssgRoot *scene = NULL;
ssgBranch *terrain = NULL;
ssgSelector *penguin_sel = NULL;
ssgTransform *penguin_pos = NULL;

#ifdef FG_NETWORK_OLK
ssgSelector *fgd_sel = NULL;
ssgTransform *fgd_pos = NULL;
//sgMat4 sgTUX;
#endif

// current fdm/position used for view
FGInterface cur_view_fdm;

// Sky structures
SGSky *thesky;

// hack
sgMat4 copy_of_ssgOpenGLAxisSwapMatrix =
{
  {  1.0f,  0.0f,  0.0f,  0.0f },
  {  0.0f,  0.0f, -1.0f,  0.0f },
  {  0.0f,  1.0f,  0.0f,  0.0f },
  {  0.0f,  0.0f,  0.0f,  1.0f }
} ;

// The following defines flightgear options. Because glutlib will also
// want to parse its own options, those options must not be included here
// or they will get parsed by the main program option parser. Hence case
// is significant for any option added that might be in conflict with
// glutlib's parser.
//
// glutlib parses for:
//    -display
//    -direct   (invalid in Win32)
//    -geometry
//    -gldebug
//    -iconized
//    -indirect (invalid in Win32)
//    -synce
//
// Note that glutlib depends upon strings while this program's
// option parser wants only initial characters followed by numbers
// or pathnames.
//


ssgSimpleState *default_state;
ssgSimpleState *hud_and_panel;
ssgSimpleState *menus;

void fgBuildRenderStates( void ) {
    default_state = new ssgSimpleState;
    default_state->ref();
    default_state->disable( GL_TEXTURE_2D );
    default_state->enable( GL_CULL_FACE );
    default_state->enable( GL_COLOR_MATERIAL );
    default_state->setColourMaterial( GL_AMBIENT_AND_DIFFUSE );
    default_state->setMaterial( GL_EMISSION, 0, 0, 0, 1 );
    default_state->setMaterial( GL_SPECULAR, 0, 0, 0, 1 );
    default_state->disable( GL_BLEND );
    default_state->disable( GL_ALPHA_TEST );
    default_state->disable( GL_LIGHTING );

    hud_and_panel = new ssgSimpleState;
    hud_and_panel->ref();
    hud_and_panel->disable( GL_CULL_FACE );
    hud_and_panel->disable( GL_TEXTURE_2D );
    hud_and_panel->disable( GL_LIGHTING );
    hud_and_panel->enable( GL_BLEND );

    menus = new ssgSimpleState;
    menus->ref();
    menus->disable( GL_CULL_FACE );
    menus->disable( GL_TEXTURE_2D );
    menus->enable( GL_BLEND );
}


// fgInitVisuals() -- Initialize various GL/view parameters
void fgInitVisuals( void ) {
    fgLIGHT *l;

    l = &cur_light_params;

#ifndef GLUT_WRONG_VERSION
    // Go full screen if requested ...
    if ( current_options.get_fullscreen() ) {
	glutFullScreen();
    }
#endif

    // If enabled, normal vectors specified with glNormal are scaled
    // to unit length after transformation.  See glNormal.
    // glEnable( GL_NORMALIZE );

    glEnable( GL_LIGHTING );
    glEnable( GL_LIGHT0 );
    glLightfv( GL_LIGHT0, GL_POSITION, l->sun_vec );

    sgVec3 sunpos;
    sgSetVec3( sunpos, l->sun_vec[0], l->sun_vec[1], l->sun_vec[2] );
    ssgGetLight( 0 ) -> setPosition( sunpos );

    // glFogi (GL_FOG_MODE, GL_LINEAR);
    glFogi (GL_FOG_MODE, GL_EXP2);
    if ( (current_options.get_fog() == 1) || 
	 (current_options.get_shading() == 0) ) {
	// if fastest fog requested, or if flat shading force fastest
	glHint ( GL_FOG_HINT, GL_FASTEST );
    } else if ( current_options.get_fog() == 2 ) {
	glHint ( GL_FOG_HINT, GL_NICEST );
    }
    if ( current_options.get_wireframe() ) {
	// draw wire frame
	glPolygonMode( GL_FRONT_AND_BACK, GL_LINE );
    }

    // This is the default anyways, but it can't hurt
    glFrontFace ( GL_CCW );

    // Just testing ...
    // glEnable(GL_POINT_SMOOTH);
    // glEnable(GL_LINE_SMOOTH);
    // glEnable(GL_POLYGON_SMOOTH);      
}


// Update all Visuals (redraws anything graphics related)
void fgRenderFrame( void ) {
    // Update the BFI.
    FGBFI::update();

    fgLIGHT *l = &cur_light_params;
    static double last_visibility = -9999;

    double angle;
    // GLfloat black[4] = { 0.0, 0.0, 0.0, 1.0 };
    // GLfloat white[4] = { 1.0, 1.0, 1.0, 1.0 };
    // GLfloat terrain_color[4] = { 0.54, 0.44, 0.29, 1.0 };
    // GLfloat mat_shininess[] = { 10.0 };
    GLbitfield clear_mask;
    
    if ( idle_state != 1000 ) {
	// still initializing, draw the splash screen
	if ( current_options.get_splash_screen() == 1 ) {
	    fgSplashUpdate(0.0);
	}
    } else {
	// idle_state is now 1000 meaning we've finished all our
	// initializations and are running the main loop, so this will
	// now work without seg faulting the system.

	// printf("Ground = %.2f  Altitude = %.2f\n", scenery.cur_elev, 
	//        FG_Altitude * FEET_TO_METER);
    
	// this is just a temporary hack, to make me understand Pui
	// timerText -> setLabel (ctime (&t->cur_time));
	// end of hack

	// update view volume parameters
	// cout << "before pilot_view update" << endl;
        if ( current_options.get_view_mode() == fgOPTIONS::FG_VIEW_FOLLOW ) {
	  float * offset = pilot_view.get_pilot_offset();
	  current_view.set_pilot_offset(offset[0], offset[1], offset[2]);
	} else {
	  current_view.set_pilot_offset(0.0, 0.0, 0.0);
	}
	pilot_view.UpdateViewParams(*cur_fdm_state);
	// cout << "after pilot_view update" << endl;
	current_view.UpdateViewParams(cur_view_fdm);

	// set the sun position
	glLightfv( GL_LIGHT0, GL_POSITION, l->sun_vec );

	clear_mask = GL_DEPTH_BUFFER_BIT;
	if ( current_options.get_wireframe() ) {
	    clear_mask |= GL_COLOR_BUFFER_BIT;
	}

	if ( current_options.get_skyblend() ) {
	    if ( current_options.get_textures() ) {
		// glClearColor(black[0], black[1], black[2], black[3]);
		glClearColor(l->adj_fog_color[0], l->adj_fog_color[1], 
			     l->adj_fog_color[2], l->adj_fog_color[3]);
		clear_mask |= GL_COLOR_BUFFER_BIT;
	    }
	} else {
	    glClearColor(l->sky_color[0], l->sky_color[1], 
			 l->sky_color[2], l->sky_color[3]);
	    clear_mask |= GL_COLOR_BUFFER_BIT;
	}
	glClear( clear_mask );

	// Tell GL we are switching to model view parameters

	// I really should create a derived ssg node or use a call
	// back or something so that I can draw the sky within the
	// ssgCullAndDraw() function, but for now I just mimic what
	// ssg does to set up the model view matrix
	glMatrixMode(GL_MODELVIEW);
	glLoadIdentity();
	ssgSetCamera( current_view.VIEW );

	/*
	sgMat4 vm_tmp, view_mat;
	sgTransposeNegateMat4 ( vm_tmp, current_view.VIEW ) ;
	sgCopyMat4( view_mat, copy_of_ssgOpenGLAxisSwapMatrix ) ;
	sgPreMultMat4( view_mat, vm_tmp ) ;
	glLoadMatrixf( (float *)view_mat );
	*/

	// set the opengl state to known default values
	default_state->force();

	// update fog params if visibility has changed
#ifndef FG_OLD_WEATHER
	thesky->set_visibility( WeatherDatabase->getWeatherVisibility() );
#else
	thesky->set_visibility( current_weather.get_visibility() );
#endif

	thesky->modify_vis( cur_fdm_state->get_Altitude() * FEET_TO_METER,
				
			    ( global_multi_loop * 
			      current_options.get_speed_up() ) /
			    (double)current_options.get_model_hz() );

	double actual_visibility = thesky->get_visibility();
	// cout << "actual visibility = " << actual_visibility << endl;

	if ( actual_visibility != last_visibility ) {
	    last_visibility = actual_visibility;

	    // cout << "----> updating fog params" << endl;
		
	    GLfloat fog_exp_density;
	    GLfloat fog_exp2_density;
    
	    // for GL_FOG_EXP
	    fog_exp_density = -log(0.01 / actual_visibility);
    
	    // for GL_FOG_EXP2
	    fog_exp2_density = sqrt( -log(0.01) ) / actual_visibility;
    
	    // Set correct opengl fog density
	    glFogf (GL_FOG_DENSITY, fog_exp2_density);
	}
 
	// update the sky dome
	if ( current_options.get_skyblend() ) {
	    sgVec3 view_pos;
	    sgSetVec3( view_pos,
		       current_view.get_view_pos().x(),
		       current_view.get_view_pos().y(),
		       current_view.get_view_pos().z() );

	    sgVec3 zero_elev;
	    sgSetVec3( zero_elev,
		       current_view.get_cur_zero_elev().x(),
		       current_view.get_cur_zero_elev().y(),
		       current_view.get_cur_zero_elev().z() );

	    /* cout << "thesky->repaint() sky_color = "
		 << cur_light_params.sky_color[0] << " "
		 << cur_light_params.sky_color[1] << " "
		 << cur_light_params.sky_color[2] << " "
		 << cur_light_params.sky_color[3] << endl;
	    cout << "    fog = "
		 << cur_light_params.fog_color[0] << " "
		 << cur_light_params.fog_color[1] << " "
		 << cur_light_params.fog_color[2] << " "
		 << cur_light_params.fog_color[3] << endl;
	    cout << "    sun_angle = " << cur_light_params.sun_angle
		 << "    moon_angle = " << cur_light_params.moon_angle
                 << endl; */
	    thesky->repaint( cur_light_params.sky_color,
			     cur_light_params.adj_fog_color,
			     cur_light_params.sun_angle,
			     cur_light_params.moon_angle,
			     globals->get_ephem()->getNumPlanets(),
			     globals->get_ephem()->getPlanets(),
			     globals->get_ephem()->getNumStars(),
			     globals->get_ephem()->getStars() );
 
	    /* cout << "thesky->reposition( view_pos = " << view_pos[0] << " "
		 << view_pos[1] << " " << view_pos[2] << endl;
	    cout << "    zero_elev = " << zero_elev[0] << " "
		 << zero_elev[1] << " " << zero_elev[2]
		 << " lon = " << cur_fdm_state->get_Longitude()
		 << " lat = " << cur_fdm_state->get_Latitude() << endl;
	    cout << "    sun_rot = " << cur_light_params.sun_rotation
		 << " gst = " << SGTime::cur_time_params->getGst() << endl;
	    cout << "    sun ra = " << globals->get_ephem()->getSunRightAscension()
		 << " sun dec = " << globals->get_ephem()->getSunDeclination() 
		 << " moon ra = " << globals->get_ephem()->getMoonRightAscension()
		 << " moon dec = " << globals->get_ephem()->getMoonDeclination() << endl; */

	    thesky->reposition( view_pos, zero_elev,
				current_view.get_local_up(),
				cur_fdm_state->get_Longitude(),
				cur_fdm_state->get_Latitude(),
				cur_fdm_state->get_Altitude() * FEET_TO_METER,
				cur_light_params.sun_rotation,
				globals->get_time_params()->getGst(),
				globals->get_ephem()->getSunRightAscension(),
				globals->get_ephem()->getSunDeclination(),
				50000.0,
				globals->get_ephem()->getMoonRightAscension(),
				globals->get_ephem()->getMoonDeclination(),
				50000.0 );
	}

	glEnable( GL_DEPTH_TEST );
	if ( current_options.get_fog() > 0 ) {
	    glEnable( GL_FOG );
	    glFogi( GL_FOG_MODE, GL_EXP2 );
	    glFogfv( GL_FOG_COLOR, l->adj_fog_color );
	}

	// set lighting parameters
	GLfloat black[4] = { 0.0, 0.0, 0.0, 1.0 };
	glLightModelfv( GL_LIGHT_MODEL_AMBIENT, l->scene_ambient );
	glLightfv( GL_LIGHT0, GL_AMBIENT, black );
	glLightfv( GL_LIGHT0, GL_DIFFUSE, l->scene_diffuse );
	// glLightfv(GL_LIGHT0, GL_SPECULAR, white );

	// texture parameters
	// glEnable( GL_TEXTURE_2D );
	glTexEnvi( GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_MODULATE ) ;
	glHint( GL_PERSPECTIVE_CORRECTION_HINT, GL_NICEST ) ;
	// set base color (I don't think this is doing anything here)
	// glMaterialfv (GL_FRONT, GL_AMBIENT, white);
	//  (GL_FRONT, GL_DIFFUSE, white);
	// glMaterialfv (GL_FRONT, GL_SPECULAR, white);
	// glMaterialfv (GL_FRONT, GL_SHININESS, mat_shininess);

	sgVec3 sunpos;
	sgSetVec3( sunpos, l->sun_vec[0], l->sun_vec[1], l->sun_vec[2] );
	ssgGetLight( 0 ) -> setPosition( sunpos );

	// glMatrixMode( GL_PROJECTION );
	// glLoadIdentity();
 	float fov = current_options.get_fov();
 	// ssgSetFOV(fov * current_view.get_win_ratio(), fov);
 	ssgSetFOV(fov, fov * current_view.get_win_ratio());

	double agl = current_aircraft.fdm_state->get_Altitude() * FEET_TO_METER
	    - scenery.cur_elev;

	// FG_LOG( FG_ALL, FG_INFO, "visibility is " 
	//         << current_weather.get_visibility() );
	    
	if ( agl > 10.0 ) {
	    ssgSetNearFar( 10.0f, 120000.0f );
	} else {
	    ssgSetNearFar( 0.5f, 120000.0f );
	}

	if ( current_options.get_view_mode() == 
	     fgOPTIONS::FG_VIEW_PILOT )
        {
	    // disable TuX
	    penguin_sel->select(0);
	} else if ( current_options.get_view_mode() == 
		    fgOPTIONS::FG_VIEW_FOLLOW )
        {
	    // select view matrix from front of view matrix queue
	    // FGMat4Wrapper tmp = current_view.follow.front();
	    // sgCopyMat4( sgVIEW, tmp.m );

	    // enable TuX and set up his position and orientation
	    penguin_sel->select(1);

	    sgMat4 sgTRANS;
	    sgMakeTransMat4( sgTRANS, 
			     pilot_view.view_pos.x(),
			     pilot_view.view_pos.y(),
			     pilot_view.view_pos.z() );

	    sgVec3 ownship_up;
	    sgSetVec3( ownship_up, 0.0, 0.0, 1.0);

	    sgMat4 sgROT;
	    sgMakeRotMat4( sgROT, -90.0, ownship_up );

	    // sgMat4 sgTMP;
	    // sgMat4 sgTUX;
	    // sgMultMat4( sgTMP, sgROT, pilot_view.VIEW_ROT );
	    // sgMultMat4( sgTUX, sgTMP, sgTRANS );

	    // sgTUX = ( sgROT * pilot_view.VIEW_ROT ) * sgTRANS
	    sgMat4 sgTUX;
	    sgCopyMat4( sgTUX, sgROT );
	    sgPostMultMat4( sgTUX, pilot_view.VIEW_ROT );
	    sgPostMultMat4( sgTUX, sgTRANS );
	
	    sgCoord tuxpos;
	    sgSetCoord( &tuxpos, sgTUX );
	    penguin_pos->setTransform( &tuxpos );
	}

# ifdef FG_NETWORK_OLK
	if ( current_options.get_network_olk() ) {
	    sgCoord fgdpos;
	    other = head->next;             /* put listpointer to start  */
	    while ( other != tail) {        /* display all except myself */
		if ( strcmp( other->ipadr, fgd_mcp_ip) != 0) {
		    other->fgd_sel->select(1);
		    sgSetCoord( &fgdpos, other->sgFGD_COORD );
		    other->fgd_pos->setTransform( &fgdpos );
		}
		other = other->next;
	    }

	    // fgd_sel->select(1);
	    // sgCopyMat4( sgTUX, current_view.sgVIEW);
	    // sgCoord fgdpos;
	    // sgSetCoord( &fgdpos, sgFGD_VIEW );
	    // fgd_pos->setTransform( &fgdpos);
	}
# endif

	// ssgSetCamera( current_view.VIEW );

	// position tile nodes and update range selectors
	global_tile_mgr.prep_ssg_nodes();

	// force the default state so ssg can get back on track if
	// we've changed things elsewhere (this is now handled
	// differently)
	// 
	// FGMaterialSlot m_slot;
	// FGMaterialSlot *m_ptr = &m_slot;
	// if ( material_mgr.find( "Default", m_ptr ) ) {
	//    m_ptr->get_state()->force();
	// }

	// draw the sky backdrop
	thesky->preDraw();

	// draw the ssg scene
	glEnable( GL_DEPTH_TEST );
	ssgCullAndDraw( scene );

	// draw the sky cloud layers
	thesky->postDraw( cur_fdm_state->get_Altitude() * FEET_TO_METER );

	// display HUD && Panel
	glDisable( GL_FOG );
	glDisable( GL_DEPTH_TEST );
	// glDisable( GL_CULL_FACE );
	// glDisable( GL_TEXTURE_2D );
	hud_and_panel->apply();
	fgCockpitUpdate();

	// We can do translucent menus, so why not. :-)
	// glEnable ( GL_BLEND ) ;
	menus->apply();
	glBlendFunc ( GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA ) ;
	puDisplay();
	// glDisable ( GL_BLEND ) ;

	// glEnable( GL_FOG );
    }

    glutSwapBuffers();
}


// Update internal time dependent calculations (i.e. flight model)
void fgUpdateTimeDepCalcs(int multi_loop, int remainder) {
    static fdm_state_list fdm_list;
    fgLIGHT *l = &cur_light_params;
    int i;

    // update the flight model
    if ( multi_loop < 0 ) {
	multi_loop = 1;
    }

    if ( !globals->get_freeze() && !initial_freeze ) {
	// run Autopilot system
	current_autopilot->run();

	// printf("updating flight model x %d\n", multi_loop);
	/* fgFDMUpdate( current_options.get_flight_model(), 
		     fdm_state, 
		     multi_loop * current_options.get_speed_up(),
		     remainder ); */
	cur_fdm_state->update( multi_loop * current_options.get_speed_up() );
	FGSteam::update( multi_loop * current_options.get_speed_up() );
    } else {
	// fgFDMUpdate( current_options.get_flight_model(), 
	//              fdm_state, 0, remainder );
	cur_fdm_state->update( 0 );
	FGSteam::update( 0 );

	if ( global_tile_mgr.queue_size() == 0 ) {
	    initial_freeze = false;
	}
    }

    fdm_list.push_back( *cur_fdm_state );
    while ( fdm_list.size() > 15 ) {
	fdm_list.pop_front();
    }

    if ( current_options.get_view_mode() == fgOPTIONS::FG_VIEW_PILOT ) {
	cur_view_fdm = *cur_fdm_state;
	// do nothing
    } else if ( current_options.get_view_mode() == fgOPTIONS::FG_VIEW_FOLLOW ) {
	cur_view_fdm = fdm_list.front();
    }

    // update the view angle
    for ( i = 0; i < multi_loop; i++ ) {
	if ( fabs(current_view.get_goal_view_offset() - 
		  current_view.get_view_offset()) < 0.05 )
	{
	    current_view.set_view_offset( current_view.get_goal_view_offset() );
	    break;
	} else {
	    // move current_view.view_offset towards current_view.goal_view_offset
	    if ( current_view.get_goal_view_offset() > 
		 current_view.get_view_offset() )
            {
		if ( current_view.get_goal_view_offset() - 
		     current_view.get_view_offset() < FG_PI )
                {
		    current_view.inc_view_offset( 0.01 );
		} else {
		    current_view.inc_view_offset( -0.01 );
		}
	    } else {
		if ( current_view.get_view_offset() - 
		     current_view.get_goal_view_offset() < FG_PI )
                {
		    current_view.inc_view_offset( -0.01 );
		} else {
		    current_view.inc_view_offset( 0.01 );
		}
	    }
	    if ( current_view.get_view_offset() > FG_2PI ) {
		current_view.inc_view_offset( -FG_2PI );
	    } else if ( current_view.get_view_offset() < 0 ) {
		current_view.inc_view_offset( FG_2PI );
	    }
	}
    }

    double tmp = -(l->sun_rotation + FG_PI) 
	- (cur_fdm_state->get_Psi() - current_view.get_view_offset() );
    while ( tmp < 0.0 ) {
	tmp += FG_2PI;
    }
    while ( tmp > FG_2PI ) {
	tmp -= FG_2PI;
    }
    /* printf("Psi = %.2f, viewoffset = %.2f sunrot = %.2f rottosun = %.2f\n",
	   FG_Psi * RAD_TO_DEG, current_view.view_offset * RAD_TO_DEG, 
	   -(l->sun_rotation+FG_PI) * RAD_TO_DEG, tmp * RAD_TO_DEG); */
    l->UpdateAdjFog();

    // Update solar system
    globals->get_ephem()->update( globals->get_time_params()->getMjd(),
				  globals->get_time_params()->getLst(),
				  cur_fdm_state->get_Latitude() );

    // Update radio stack model
    current_radiostack->update( cur_fdm_state->get_Longitude(),
				cur_fdm_state->get_Latitude(),
				cur_fdm_state->get_Altitude() * FEET_TO_METER );
}


void fgInitTimeDepCalcs( void ) {
    // initialize timer

    // #ifdef HAVE_SETITIMER
    //   fgTimerInit( 1.0 / current_options.get_model_hz(), 
    //                fgUpdateTimeDepCalcs );
    // #endif HAVE_SETITIMER
}


static const double alt_adjust_ft = 3.758099;
static const double alt_adjust_m = alt_adjust_ft * FEET_TO_METER;


// What should we do when we have nothing else to do?  Let's get ready
// for the next move and update the display?
static void fgMainLoop( void ) {
    static long remainder = 0;
    long elapsed;
#ifdef FANCY_FRAME_COUNTER
    int i;
    double accum;
#else
    static time_t last_time = 0;
    static int frames = 0;
#endif // FANCY_FRAME_COUNTER

    SGTime *t = globals->get_time_params();

    FG_LOG( FG_ALL, FG_DEBUG, "Running Main Loop");
    FG_LOG( FG_ALL, FG_DEBUG, "======= ==== ====");

#ifdef FG_NETWORK_OLK
    if ( current_options.get_network_olk() ) {
	if ( net_is_registered == 0 ) {	     // We first have to reg. to fgd
	    // printf("FGD: Netupdate\n");
	    fgd_send_com( "A", FGFS_host);   // Send Mat4 data
	    fgd_send_com( "B", FGFS_host);   // Recv Mat4 data
	}
    }
#endif

#if defined( ENABLE_PLIB_JOYSTICK )
    // Read joystick and update control settings
    if ( current_options.get_control_mode() == fgOPTIONS::FG_JOYSTICK ) {
	fgJoystickRead();
    }
#elif defined( ENABLE_GLUT_JOYSTICK )
    // Glut joystick support works by feeding a joystick handler
    // function to glut.  This is taken care of once in the joystick
    // init routine and we don't have to worry about it again.
#endif

#ifdef FG_OLD_WEATHER
    current_weather.Update();
#endif

    // Fix elevation.  I'm just sticking this here for now, it should
    // probably move eventually

    /* printf("Before - ground = %.2f  runway = %.2f  alt = %.2f\n",
	   scenery.cur_elev,
	   cur_fdm_state->get_Runway_altitude() * FEET_TO_METER,
	   cur_fdm_state->get_Altitude() * FEET_TO_METER); */

    if ( scenery.cur_elev > -9990 ) {
	if ( cur_fdm_state->get_Altitude() * FEET_TO_METER < 
	     (scenery.cur_elev + alt_adjust_m - 3.0) ) {
	    // now set aircraft altitude above ground
	    printf("(*) Current Altitude = %.2f < %.2f forcing to %.2f\n", 
		   cur_fdm_state->get_Altitude() * FEET_TO_METER,
		   scenery.cur_elev + alt_adjust_m - 3.0,
		   scenery.cur_elev + alt_adjust_m );
	    fgFDMForceAltitude( current_options.get_flight_model(), 
				scenery.cur_elev + alt_adjust_m );

	    FG_LOG( FG_ALL, FG_DEBUG, 
		    "<*> resetting altitude to " 
		    << cur_fdm_state->get_Altitude() * FEET_TO_METER << " meters" );
	}
	fgFDMSetGroundElevation( current_options.get_flight_model(),
				 scenery.cur_elev );  // meters
    }

    /* printf("Adjustment - ground = %.2f  runway = %.2f  alt = %.2f\n",
	   scenery.cur_elev,
	   cur_fdm_state->get_Runway_altitude() * FEET_TO_METER,
	   cur_fdm_state->get_Altitude() * FEET_TO_METER); */

    // update "time"
    if ( globals->get_warp_delta() != 0 ) {
	globals->inc_warp( globals->get_warp_delta() );
    }

    t->update( cur_fdm_state->get_Longitude(),
	       cur_fdm_state->get_Latitude(),
	       globals->get_warp() );

    if ( globals->get_warp_delta() != 0 ) {
	fgUpdateSkyAndLightingParams();
    }

    // update magvar model
    globals->get_mag()->update( cur_fdm_state->get_Longitude(),
				cur_fdm_state->get_Latitude(),
				cur_fdm_state->get_Altitude()* FEET_TO_METER,
				globals->get_time_params()->getJD() );

    // Get elapsed time (in usec) for this past frame
    elapsed = fgGetTimeInterval();
    FG_LOG( FG_ALL, FG_DEBUG, 
	    "Elapsed time interval is = " << elapsed 
	    << ", previous remainder is = " << remainder );

    // Calculate frame rate average
#ifdef FANCY_FRAME_COUNTER
    /* old fps calculation */
    if ( elapsed > 0 ) {
        double tmp;
        accum = 0.0;
        for ( i = FG_FRAME_RATE_HISTORY - 2; i >= 0; i-- ) {
            tmp = general.get_frame(i);
            accum += tmp;
            // printf("frame[%d] = %.2f\n", i, g->frames[i]);
            general.set_frame(i+1,tmp);
        }
        tmp = 1000000.0 / (float)elapsed;
        general.set_frame(0,tmp);
        // printf("frame[0] = %.2f\n", general.frames[0]);
        accum += tmp;
        general.set_frame_rate(accum / (float)FG_FRAME_RATE_HISTORY);
        // printf("ave = %.2f\n", general.frame_rate);
    }
#else
    if ( (t->get_cur_time() != last_time) && (last_time > 0) ) {
	general.set_frame_rate( frames );
	FG_LOG( FG_ALL, FG_DEBUG, 
		"--> Frame rate is = " << general.get_frame_rate() );
	frames = 0;
    }
    last_time = t->get_cur_time();
    ++frames;
#endif

    // Run flight model
    if ( ! use_signals ) {
	// Calculate model iterations needed for next frame
	elapsed += remainder;

	global_multi_loop = (int)(((double)elapsed * 0.000001) * 
			   current_options.get_model_hz());
	remainder = elapsed - ( (global_multi_loop*1000000) / 
				current_options.get_model_hz() );
	FG_LOG( FG_ALL, FG_DEBUG, 
		"Model iterations needed = " << global_multi_loop
		<< ", new remainder = " << remainder );
	
	// flight model
	if ( global_multi_loop > 0 ) {
	    fgUpdateTimeDepCalcs(global_multi_loop, remainder);
	} else {
	    FG_LOG( FG_ALL, FG_DEBUG, 
		    "Elapsed time is zero ... we're zinging" );
	}
    }

#if ! defined( macintosh )
    // Do any I/O channel work that might need to be done
    fgIOProcess();
#endif

    // see if we need to load any new scenery tiles
    global_tile_mgr.update( cur_fdm_state->get_Longitude() * RAD_TO_DEG,
			    cur_fdm_state->get_Latitude() * RAD_TO_DEG );

    // Process/manage pending events
    global_events.Process();

    // Run audio scheduler
#ifdef ENABLE_AUDIO_SUPPORT
    if ( current_options.get_sound() && !audio_sched->not_working() ) {

	if ( current_options.get_aircraft() == "c172" ) {
	    // pitch corresponds to rpm
	    // volume corresponds to manifold pressure

	    double rpm_factor;
	    if ( cur_fdm_state->get_engine(0) != NULL ) {
		rpm_factor = cur_fdm_state->get_engine(0)->get_RPM() / 2500.0;
	    } else {
		rpm_factor = 1.0;
	    }
	    // cout << "rpm = " << cur_fdm_state->get_engine(0)->get_RPM()
	    //      << endl;

	    double pitch = 0.3 + rpm_factor * 3.0;
	
	    // don't run at absurdly slow rates -- not realistic
	    // and sounds bad to boot.  :-)
	    if (pitch < 0.7) { pitch = 0.7; }
	    if (pitch > 5.0) { pitch = 5.0; }
	    // cout << "pitch = " << pitch << endl;

	    double mp_factor;
	    if ( cur_fdm_state->get_engine(0) != NULL ) {
		mp_factor = 
		    cur_fdm_state->get_engine(0)->get_Manifold_Pressure() / 28;
	    } else {
		mp_factor = 1.0;
	    }
	    // cout << "mp = " 
	    //      << cur_fdm_state->get_engine(0)->get_Manifold_Pressure()
	    //      << endl;

	    double volume = mp_factor;

	    if ( volume < 0.3 ) { volume = 0.3; }
	    if ( volume > 2.0 ) { volume = 2.0; }
	    // cout << "volume = " << volume << endl;

	    pitch_envelope.setStep  ( 0, 0.01, pitch );
	    volume_envelope.setStep ( 0, 0.01, volume );
	} else {
	    double param = controls.get_throttle( 0 ) * 2.0 + 1.0;
	    pitch_envelope.setStep  ( 0, 0.01, param );
	    volume_envelope.setStep ( 0, 0.01, param );
	}

	audio_sched -> update();
    }
#endif

    // redraw display
    fgRenderFrame();

    FG_LOG( FG_ALL, FG_DEBUG, "" );
}


// This is the top level master main function that is registered as
// our idle funciton
//

// The first few passes take care of initialization things (a couple
// per pass) and once everything has been initialized fgMainLoop from
// then on.

static void fgIdleFunction ( void ) {
    // printf("idle state == %d\n", idle_state);

    if ( idle_state == 0 ) {
	// Initialize the splash screen right away
	if ( current_options.get_splash_screen() ) {
	    fgSplashInit();
	}
	
	idle_state++;
    } else if ( idle_state == 1 ) {
	// Start the intro music
#if !defined(WIN32)
	if ( current_options.get_intro_music() ) {
	    string lockfile = "/tmp/mpg123.running";
	    FGPath mp3file( current_options.get_fg_root() );
	    mp3file.append( "Sounds/intro.mp3" );

	    string command = "(touch " + lockfile + "; mpg123 "
		+ mp3file.str() + "> /dev/null 2>&1; /bin/rm "
		+ lockfile + ") &";
	    FG_LOG( FG_GENERAL, FG_INFO, 
		    "Starting intro music: " << mp3file.str() );
	    system ( command.c_str() );
	}
#endif

	idle_state++;
    } else if ( idle_state == 2 ) {
	// These are a few miscellaneous things that aren't really
	// "subsystems" but still need to be initialized.

#ifdef USE_GLIDE
	if ( strstr ( general.get_glRenderer(), "Glide" ) ) {
	    grTexLodBiasValue ( GR_TMU0, 1.0 ) ;
	}
#endif

	idle_state++;
    } else if ( idle_state == 3 ) {
	// This is the top level init routine which calls all the
	// other subsystem initialization routines.  If you are adding
	// a subsystem to flightgear, its initialization call should
	// located in this routine.
	if( !fgInitSubsystems()) {
	    FG_LOG( FG_GENERAL, FG_ALERT,
		    "Subsystem initializations failed ..." );
	    exit(-1);
	}

	idle_state++;
    } else if ( idle_state == 4 ) {
	// setup OpenGL view parameters
	fgInitVisuals();

	if ( use_signals ) {
	    // init timer routines, signals, etc.  Arrange for an alarm
	    // signal to be generated, etc.
	    fgInitTimeDepCalcs();
	}

	idle_state++;
    } else if ( idle_state == 5 ) {

	idle_state++;
    } else if ( idle_state == 6 ) {
	// Initialize audio support
#ifdef ENABLE_AUDIO_SUPPORT

#if !defined(WIN32)
	if ( current_options.get_intro_music() ) {
	    // Let's wait for mpg123 to finish
	    string lockfile = "/tmp/mpg123.running";
	    struct stat stat_buf;

	    FG_LOG( FG_GENERAL, FG_INFO, 
		    "Waiting for mpg123 player to finish ..." );
	    while ( stat(lockfile.c_str(), &stat_buf) == 0 ) {
		// file exist, wait ...
		sleep(1);
		FG_LOG( FG_GENERAL, FG_INFO, ".");
	    }
	    FG_LOG( FG_GENERAL, FG_INFO, "");
	}
#endif // WIN32

	if ( current_options.get_sound() ) {
	    audio_sched = new slScheduler ( 8000 );
	    audio_mixer = new smMixer;
	    audio_mixer -> setMasterVolume ( 80 ) ;  /* 80% of max volume. */
	    audio_sched -> setSafetyMargin ( 1.0 ) ;

	    FGPath slfile( current_options.get_fg_root() );
	    slfile.append( "Sounds/wasp.wav" );

	    s1 = new slSample ( (char *)slfile.c_str() );
	    FG_LOG( FG_GENERAL, FG_INFO,
		    "Rate = " << s1 -> getRate()
		    << "  Bps = " << s1 -> getBps()
		    << "  Stereo = " << s1 -> getStereo() );
	    audio_sched -> loopSample ( s1 );

	    if ( audio_sched->not_working() ) {
		// skip
	    } else {
		pitch_envelope.setStep  ( 0, 0.01, 0.6 );
		volume_envelope.setStep ( 0, 0.01, 0.6 );

		audio_sched -> addSampleEnvelope( s1, 0, 0, 
						  &pitch_envelope,
						  SL_PITCH_ENVELOPE );
		audio_sched -> addSampleEnvelope( s1, 0, 1, 
						  &volume_envelope,
						  SL_VOLUME_ENVELOPE );
	    }

	    // strcpy(slfile, path);
	    // strcat(slfile, "thunder.wav");
	    // s2 -> loadFile ( slfile );
	    // s2 -> adjustVolume(0.5);
	    // audio_sched -> playSample ( s2 );
	}
#endif

	// sleep(1);
	idle_state = 1000;
    } 

    if ( idle_state == 1000 ) {
	// We've finished all our initialization steps, from now on we
	// run the main loop.

	fgMainLoop();
    } else {
	if ( current_options.get_splash_screen() == 1 ) {
	    fgSplashUpdate(0.0);
	}
    }
}

// options.cxx needs to see this for toggle_panel()
// Handle new window size or exposure
void fgReshape( int width, int height ) {
    if ( ! fgPanelVisible() || idle_state != 1000 ) {
	current_view.set_win_ratio( (float)height / (float)width );
	glViewport(0, 0 , (GLint)(width), (GLint)(height) );
    } else {
        int view_h =
	  int((current_panel->getViewHeight() - current_panel->getYOffset())
	      * (height / 768.0)) + 1;
	current_view.set_win_ratio( (float)view_h / (float)width );
	glViewport(0, (GLint)(height - view_h),
		   (GLint)(width), (GLint)(view_h) );
    }

    current_view.set_winWidth( width );
    current_view.set_winHeight( height );
    current_view.force_update_fov_math();

    // set these fov to be the same as in fgRenderFrame()
    // float x_fov = current_options.get_fov();
    // float y_fov = x_fov * 1.0 / current_view.get_win_ratio();
    // ssgSetFOV( x_fov, y_fov );

    // glViewport ( 0, 0, width, height );
    float fov = current_options.get_fov();
    // ssgSetFOV(fov * current_view.get_win_ratio(), fov);
    ssgSetFOV(fov, fov * current_view.get_win_ratio());

    fgHUDReshape();

    if ( idle_state == 1000 ) {
	// yes we've finished all our initializations and are running
	// the main loop, so this will now work without seg faulting
	// the system.
	current_view.UpdateViewParams(cur_view_fdm);
    }
}


// Initialize GLUT and define a main window
int fgGlutInit( int *argc, char **argv ) {

#if !defined( macintosh )
    // GLUT will extract all glut specific options so later on we only
    // need wory about our own.
    glutInit(argc, argv);
#endif

    // Define Display Parameters
    glutInitDisplayMode( GLUT_RGB | GLUT_DEPTH | GLUT_DOUBLE );

    FG_LOG( FG_GENERAL, FG_INFO, "Opening a window: " <<
	    current_options.get_xsize() << "x" << current_options.get_ysize() );

    // Define initial window size
    glutInitWindowSize( current_options.get_xsize(),
			 current_options.get_ysize() );

    // Initialize windows
    if ( current_options.get_game_mode() == 0 ) {
	// Open the regular window
	glutCreateWindow("FlightGear");
#ifndef GLUT_WRONG_VERSION
    } else {
	// Open the cool new 'game mode' window
	char game_mode_str[256];
	sprintf( game_mode_str, "width=%d height=%d bpp=%d",
		 current_options.get_xsize(),
		 current_options.get_ysize(),
		 current_options.get_bpp());

	FG_LOG( FG_GENERAL, FG_INFO, 
		"game mode params = " << game_mode_str );
	glutGameModeString( game_mode_str );
	glutEnterGameMode();
#endif
    }

    // This seems to be the absolute earliest in the init sequence
    // that these calls will return valid info.  Too bad it's after
    // we've already created and sized out window. :-(
    general.set_glVendor( (char *)glGetString ( GL_VENDOR ) );
    general.set_glRenderer( (char *)glGetString ( GL_RENDERER ) );
    general.set_glVersion( (char *)glGetString ( GL_VERSION ) );
    int tmp;
    glGetIntegerv( GL_MAX_TEXTURE_SIZE, &tmp );
    general.set_glMaxTexSize( tmp );
    FG_LOG ( FG_GENERAL, FG_INFO, general.get_glRenderer() );
    FG_LOG ( FG_GENERAL, FG_INFO, "Max texture size = " << tmp );

#if 0
    // try to determine if we should adjust the initial default
    // display resolution.  The options class defaults (is
    // initialized) to 640x480.
    string renderer = general.glRenderer;

    // currently we only know how to deal with Mesa/Glide/Voodoo cards
    if ( renderer.find( "Glide" ) != string::npos ) {
	FG_LOG( FG_GENERAL, FG_INFO, "Detected a Glide driver" );
	if ( renderer.find( "FB/8" ) != string::npos ) {
	    // probably a voodoo-2
	    if ( renderer.find( "TMU/SLI" ) != string::npos ) {
		// probably two SLI'd Voodoo-2's
		current_options.set_xsize( 1024 );
		current_options.set_ysize( 768 );
		FG_LOG( FG_GENERAL, FG_INFO,
			"It looks like you have two sli'd voodoo-2's." << endl
			<< "upgrading your win resolution to 1024 x 768" );
		glutReshapeWindow(1024, 768);
	    } else {
		// probably a single non-SLI'd Voodoo-2
		current_options.set_xsize( 800 );
		current_options.set_ysize( 600 );
		FG_LOG( FG_GENERAL, FG_INFO,
			"It looks like you have a voodoo-2." << endl
			<< "upgrading your win resolution to 800 x 600" );
		glutReshapeWindow(800, 600);
	    }
	} else if ( renderer.find( "FB/2" ) != string::npos ) {
	    // probably a voodoo-1, stick with the default
	}
    } else {
	// we have no special knowledge of this card, stick with the default
    }
#endif

    return(1);
}


// Initialize GLUT event handlers
int fgGlutInitEvents( void ) {
    // call fgReshape() on window resizes
    glutReshapeFunc( fgReshape );

    // call GLUTkey() on keyboard event
    glutKeyboardFunc( GLUTkey );
    glutSpecialFunc( GLUTspecialkey );

    // call guiMouseFunc() whenever our little rodent is used
    glutMouseFunc ( guiMouseFunc );
    glutMotionFunc (guiMotionFunc );
    glutPassiveMotionFunc (guiMotionFunc );

    // call fgMainLoop() whenever there is
    // nothing else to do
    glutIdleFunc( fgIdleFunction );

    // draw the scene
    glutDisplayFunc( fgRenderFrame );

    return(1);
}


// Main ...
int main( int argc, char **argv ) {

#if defined( macintosh )
    freopen ("stdout.txt", "w", stdout );
    freopen ("stderr.txt", "w", stderr );
    argc = ccommand( &argv );
#endif

#ifdef HAVE_BC5PLUS
    _control87(MCW_EM, MCW_EM);  /* defined in float.h */
#endif

    // set default log levels
    fglog().setLogLevels( FG_ALL, FG_INFO );

    FG_LOG( FG_GENERAL, FG_INFO, "FlightGear:  Version "
	    << FLIGHTGEAR_VERSION << endl );

    // seed the random number generater
    fg_srandom();

    // Scan the config file(s) and command line options to see if
    // fg_root was specified (ignore all other options for now)
    fgInitFGRoot(argc, argv);

    // cout << "1. airport_id = " << current_options.get_airport_id() << endl;

    // Read global preferences from $FG_ROOT/preferences.xml
    FGPath props_path(current_options.get_fg_root());
    props_path.append("preferences.xml");
    FG_LOG(FG_INPUT, FG_INFO, "Reading global preferences");
    if (!readPropertyList(props_path.str(), &current_properties)) {
      FG_LOG(FG_INPUT, FG_ALERT, "Failed to read global preferences from "
	     << props_path.str());
    } else {
      FG_LOG(FG_INPUT, FG_INFO, "Finished Reading global preferences");
    }

    // cout << "2. airport_id = " << current_options.get_airport_id() << endl;

    // Initialize the Aircraft directory to "" (UIUC)
    aircraft_dir = "";

    // needs to happen before we parse command line options
    globals = new FGGlobals;
    SGRoute *route = new SGRoute;
    globals->set_route( route );

    // Load the configuration parameters
    if ( !fgInitConfig(argc, argv) ) {
	FG_LOG( FG_GENERAL, FG_ALERT, "Config option parsing failed ..." );
	exit(-1);
    }

    // Initialize the Window/Graphics environment.
    if( !fgGlutInit(&argc, argv) ) {
	FG_LOG( FG_GENERAL, FG_ALERT, "GLUT initialization failed ..." );
	exit(-1);
    }

    // Initialize the various GLUT Event Handlers.
    if( !fgGlutInitEvents() ) {
 	FG_LOG( FG_GENERAL, FG_ALERT, 
 		"GLUT event handler initialization failed ..." );
 	exit(-1);
    }
 
    // Initialize ssg (from plib).  Needs to come before we do any
    // other ssg stuff, but after opengl/glut has been initialized.
    ssgInit();

    // Initialize the user interface (we need to do this before
    // passing off control to glut and before fgInitGeneral to get our
    // fonts !!!
    guiInit();

    // set current_options lon/lat if an airport id is specified
    // cout << "3. airport_id = " << current_options.get_airport_id() << endl;
    if ( current_options.get_airport_id().length() ) {
	// fgSetPosFromAirportID( current_options.get_airport_id() );
	fgSetPosFromAirportIDandHdg( current_options.get_airport_id(),
				     current_options.get_heading() );
    }

    // Initialize time
    FGPath zone( current_options.get_fg_root() );
    zone.append( "Timezone" );
    SGTime *t = new SGTime( current_options.get_lon() * DEG_TO_RAD,
			    current_options.get_lat() * DEG_TO_RAD,
			    zone.str() );

    // Handle potential user specified time offsets
    time_t cur_time = t->get_cur_time();
    time_t currGMT = sgTimeGetGMT( gmtime(&cur_time) );
    time_t systemLocalTime = sgTimeGetGMT( localtime(&cur_time) );
    time_t aircraftLocalTime = 
	sgTimeGetGMT( fgLocaltime(&cur_time, t->get_zonename() ) );

    // Okay, we now have six possible scenarios
    switch ( current_options.get_time_offset_type() ) {
    case fgOPTIONS::FG_TIME_SYS_OFFSET:
	globals->set_warp( current_options.get_time_offset() );
	break;
    case fgOPTIONS::FG_TIME_GMT_OFFSET:
	globals->set_warp( current_options.get_time_offset() - 
			   (currGMT - systemLocalTime) );
	break;
    case fgOPTIONS::FG_TIME_LAT_OFFSET:
	globals->set_warp( current_options.get_time_offset() - 
			   (aircraftLocalTime - systemLocalTime) );
	break;
    case fgOPTIONS::FG_TIME_SYS_ABSOLUTE:
	globals->set_warp( current_options.get_time_offset() - cur_time );
	//printf("warp = %d\n", warp); 
	break;
    case fgOPTIONS::FG_TIME_GMT_ABSOLUTE:
	globals->set_warp( current_options.get_time_offset() - currGMT );
	break;
    case fgOPTIONS::FG_TIME_LAT_ABSOLUTE:
	globals->set_warp( current_options.get_time_offset() - 
			   (aircraftLocalTime - systemLocalTime) - 
			   cur_time ); 
	break;
    default:
	FG_LOG( FG_GENERAL, FG_ALERT, "Unsupported type" );
	exit( -1 );
    }

    FG_LOG( FG_GENERAL, FG_INFO, "After time init, warp = " 
	    << globals->get_warp() );

    globals->set_warp_delta( 0 );

    t->update( 0.0, 0.0, globals->get_warp() );

    globals->set_time_params( t );

    // Do some quick general initializations
    if( !fgInitGeneral()) {
	FG_LOG( FG_GENERAL, FG_ALERT, 
		"General initializations failed ..." );
	exit(-1);
    }

    //
    // some ssg test stuff (requires data from the plib source
    // distribution) specifically from the ssg tux example
    //

    FGPath modelpath( current_options.get_fg_root() );
    // modelpath.append( "Models" );
    // modelpath.append( "Geometry" );
  
    FGPath texturepath( current_options.get_fg_root() );
    texturepath.append( "Models" );
    texturepath.append( "Textures" );
  
    ssgModelPath( (char *)modelpath.c_str() );
    ssgTexturePath( (char *)texturepath.c_str() );

    // Scene graph root
    scene = new ssgRoot;
    scene->setName( "Scene" );

    // Initialize the sky
    FGPath ephem_data_path( current_options.get_fg_root() );
    ephem_data_path.append( "Astro" );
    SGEphemeris *ephem = new SGEphemeris( ephem_data_path.c_str() );
    ephem->update( globals->get_time_params()->getMjd(),
		   globals->get_time_params()->getLst(),
		   0.0 );
    globals->set_ephem( ephem );

    FGPath sky_tex_path( current_options.get_fg_root() );
    sky_tex_path.append( "Textures" );
    sky_tex_path.append( "Sky" );
    thesky = new SGSky;
    thesky->texture_path( sky_tex_path.str() );

    thesky->build( 550.0, 550.0,
		   globals->get_ephem()->getNumPlanets(), 
		   globals->get_ephem()->getPlanets(), 60000.0,
		   globals->get_ephem()->getNumStars(),
		   globals->get_ephem()->getStars(), 60000.0 );

    thesky->add_cloud_layer( 2600.0, 200.0, 50.0, 40000.0,
			     SG_CLOUD_MOSTLY_SUNNY );
    thesky->add_cloud_layer( 6000.0, 20.0, 10.0, 40000.0,
			     SG_CLOUD_CIRRUS );

    // thesky->add_cloud_layer( 1000.0, 200.0, 50.0, SG_CLOUD_MOSTLY_SUNNY );
    // thesky->add_cloud_layer( 1800.0, 400.0, 100.0, SG_CLOUD_OVERCAST );
    // thesky->add_cloud_layer( 5000.0, 20.0, 10.0, SG_CLOUD_CIRRUS );

    // Initialize MagVar model
    SGMagVar *magvar = new SGMagVar();
    globals->set_mag( magvar );

    // Terrain branch
    terrain = new ssgBranch;
    terrain->setName( "Terrain" );
    scene->addKid( terrain );

    // temporary visible aircraft "own ship"
    penguin_sel = new ssgSelector;
    penguin_pos = new ssgTransform;
    string tux_path =
      current_properties.getStringValue("/sim/model/path",
					"Models/Geometry/glider.ac");
    ssgEntity *tux_obj = ssgLoad((char *)(tux_path.c_str()));

    // align the model properly for FGFS
    ssgTransform *tux_align = new ssgTransform;
    tux_align->addKid(tux_obj);
    sgMat4 tux_matrix;
    float h_rot =
      current_properties.getFloatValue("/sim/model/h-rotation", 0.0);
    float p_rot =
      current_properties.getFloatValue("/sim/model/p-rotation", 0.0);
    float r_rot =
      current_properties.getFloatValue("/sim/model/r-rotation", 0.0);
    sgMakeRotMat4(tux_matrix, h_rot, h_rot, r_rot);
    tux_align->setTransform(tux_matrix);

    penguin_pos->addKid( tux_align );
    penguin_sel->addKid( penguin_pos );
    ssgFlatten( tux_obj );
    ssgStripify( penguin_sel );
    penguin_sel->clrTraversalMaskBits( SSGTRAV_HOT );
    scene->addKid( penguin_sel );

#ifdef FG_NETWORK_OLK
    // Do the network intialization
    if ( current_options.get_network_olk() ) {
	printf("Multipilot mode %s\n", fg_net_init( scene ) );
    }
#endif

    // build our custom render states
    fgBuildRenderStates();

    // pass control off to the master GLUT event handler
    glutMainLoop();

    // we never actually get here ... but to avoid compiler warnings,
    // etc.
    return 0;
}