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/* -*-c++-*- OpenSceneGraph - Copyright (C) 1998-2003 Robert Osfield
*
* This application is open source and may be redistributed and / or modified
* freely and without restriction , both in commericial and non commericial applications ,
* as long as this copyright notice is maintained .
*
* This application 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 .
*/
# include <osg/Texture2D>
# include <osg/Geometry>
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# include <osg/State>
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# include <osg/ClusterCullingCallback>
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# include <osg/io_utils>
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# include <osgDB/ReadFile>
# include <osgDB/WriteFile>
# include <osgDB/ImageOptions>
# include <osgDB/FileNameUtils>
# include <osgUtil/Optimizer>
# include <osgUtil/TriStripVisitor>
# include <osgProducer/Viewer>
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class GraphicsContext {
public :
GraphicsContext ( )
{
rs = new Producer : : RenderSurface ;
rs - > setWindowRectangle ( 0 , 0 , 1 , 1 ) ;
rs - > useBorder ( false ) ;
rs - > useConfigEventThread ( false ) ;
rs - > realize ( ) ;
std : : cout < < " Realized window " < < std : : endl ;
}
virtual ~ GraphicsContext ( )
{
}
private :
Producer : : ref_ptr < Producer : : RenderSurface > rs ;
} ;
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osg : : Vec3 computePosition ( bool leftHemisphere , double x , double y )
{
double latitude = osg : : PI * x ;
double longitude = osg : : PI * y ;
double sin_longitude = sin ( longitude ) ;
if ( leftHemisphere ) return osg : : Vec3 ( cos ( latitude ) * sin_longitude , sin ( latitude ) * sin_longitude , - cos ( longitude ) ) ;
else return osg : : Vec3 ( - cos ( latitude ) * sin_longitude , - sin ( latitude ) * sin_longitude , - cos ( longitude ) ) ;
}
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bool useCompressedTextures = true ;
bool use565 = true ;
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osg : : Node * createTile ( const std : : string & filename , bool leftHemisphere , double x , double y , double w , double h )
{
osg : : Geode * geode = new osg : : Geode ;
osg : : StateSet * stateset = new osg : : StateSet ( ) ;
osg : : ref_ptr < osgDB : : ImageOptions > options = new osgDB : : ImageOptions ;
options - > _sourceImageWindowMode = osgDB : : ImageOptions : : RATIO_WINDOW ;
options - > _sourceRatioWindow . set ( x , 1 - ( y + h ) , w , h ) ;
options - > _destinationImageWindowMode = osgDB : : ImageOptions : : PIXEL_WINDOW ;
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options - > _destinationPixelWindow . set ( 0 , 0 , 256 , 256 ) ;
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osgDB : : ImageOptions : : TexCoordRange * texCoordRange = 0 ;
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osgDB : : Registry : : instance ( ) - > setOptions ( options . get ( ) ) ;
osg : : Image * image = osgDB : : readImageFile ( filename . c_str ( ) ) ;
if ( image )
{
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texCoordRange = dynamic_cast < osgDB : : ImageOptions : : TexCoordRange * > ( image - > getUserData ( ) ) ;
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osg : : Texture2D * texture = new osg : : Texture2D ;
texture - > setImage ( image ) ;
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texture - > setWrap ( osg : : Texture : : WRAP_S , osg : : Texture : : CLAMP_TO_EDGE ) ;
texture - > setWrap ( osg : : Texture : : WRAP_T , osg : : Texture : : CLAMP_TO_EDGE ) ;
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texture - > setFilter ( osg : : Texture : : MIN_FILTER , osg : : Texture : : LINEAR ) ;
texture - > setFilter ( osg : : Texture : : MAG_FILTER , osg : : Texture : : LINEAR ) ;
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texture - > setMaxAnisotropy ( 8 ) ;
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stateset - > setTextureAttributeAndModes ( 0 , texture , osg : : StateAttribute : : ON ) ;
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if ( useCompressedTextures )
{
texture - > setInternalFormatMode ( osg : : Texture : : USE_S3TC_DXT3_COMPRESSION ) ;
osg : : ref_ptr < osg : : State > state = new osg : : State ;
texture - > apply ( * state ) ;
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image - > readImageFromCurrentTexture ( 0 , true ) ;
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texture - > setInternalFormatMode ( osg : : Texture : : USE_IMAGE_DATA_FORMAT ) ;
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} else if ( use565 )
{
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image - > scaleImage ( image - > s ( ) , image - > t ( ) , image - > r ( ) , GL_UNSIGNED_SHORT_5_6_5 ) ;
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}
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}
geode - > setStateSet ( stateset ) ;
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// unsigned int numColumns = 10;
// unsigned int numRows = 10;
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unsigned int numColumns = 10 ;
unsigned int numRows = 10 ;
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unsigned int r ;
unsigned int c ;
osg : : Geometry * geometry = new osg : : Geometry ;
osg : : Vec3Array & v = * ( new osg : : Vec3Array ( numColumns * numRows ) ) ;
osg : : Vec3Array & n = * ( new osg : : Vec3Array ( numColumns * numRows ) ) ;
osg : : Vec2Array & t = * ( new osg : : Vec2Array ( numColumns * numRows ) ) ;
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osg : : Vec4ubArray & color = * ( new osg : : Vec4ubArray ( 1 ) ) ;
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color [ 0 ] . set ( 255 , 255 , 255 , 255 ) ;
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osg : : Vec2 tex_orig ( 0.0f , 0.0f ) ;
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float rowTexDelta = 1.0f / ( float ) ( numRows - 1 ) ;
float columnTexDelta = 1.0f / ( float ) ( numColumns - 1 ) ;
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if ( texCoordRange )
{
tex_orig . set ( texCoordRange - > _x , texCoordRange - > _y ) ;
rowTexDelta = texCoordRange - > _h / ( float ) ( numRows - 1 ) ;
columnTexDelta = texCoordRange - > _w / ( float ) ( numColumns - 1 ) ;
std : : cout < < " setting tex values to use texCoordRange " < < std : : endl ;
std : : cout < < " tex_orig= " < < tex_orig < < std : : endl ;
std : : cout < < " rowTexDelta " < < rowTexDelta < < std : : endl ;
std : : cout < < " columnTexDelta " < < columnTexDelta < < std : : endl ;
}
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double orig_latitude = osg : : PI * x ;
double delta_latitude = osg : : PI * w / ( double ) ( numColumns - 1 ) ;
// measure as 0 at south pole, postive going north
double orig_longitude = osg : : PI * y ;
double delta_longitude = osg : : PI * h / ( double ) ( numRows - 1 ) ;
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osg : : Vec2 tex ( tex_orig ) ;
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int vi = 0 ;
double longitude = orig_longitude ;
osg : : Vec3 normal ;
for ( r = 0 ; r < numRows ; + + r )
{
double latitude = orig_latitude ;
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tex . x ( ) = tex_orig . x ( ) ;
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for ( c = 0 ; c < numColumns ; + + c )
{
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double sin_longitude = sin ( longitude ) ;
if ( leftHemisphere )
{
normal . set ( cos ( latitude ) * sin_longitude , sin ( latitude ) * sin_longitude , - cos ( longitude ) ) ;
}
else
{
normal . set ( - cos ( latitude ) * sin_longitude , - sin ( latitude ) * sin_longitude , - cos ( longitude ) ) ;
}
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v [ vi ] = normal ;
n [ vi ] = normal ;
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t [ vi ] . set ( tex . x ( ) , tex . y ( ) ) ;
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latitude + = delta_latitude ;
tex . x ( ) + = columnTexDelta ;
+ + vi ;
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}
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longitude + = delta_longitude ;
tex . y ( ) + = rowTexDelta ;
}
geometry - > setVertexArray ( & v ) ;
geometry - > setNormalArray ( & n ) ;
geometry - > setNormalBinding ( osg : : Geometry : : BIND_PER_VERTEX ) ;
geometry - > setColorArray ( & color ) ;
geometry - > setColorBinding ( osg : : Geometry : : BIND_OVERALL ) ;
geometry - > setTexCoordArray ( 0 , & t ) ;
for ( r = 0 ; r < numRows - 1 ; + + r )
{
osg : : DrawElementsUShort & drawElements = * ( new osg : : DrawElementsUShort ( GL_QUAD_STRIP , 2 * numColumns ) ) ;
geometry - > addPrimitiveSet ( & drawElements ) ;
int ei = 0 ;
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for ( c = 0 ; c < numColumns ; + + c )
{
drawElements [ ei + + ] = ( r + 1 ) * numColumns + c ;
drawElements [ ei + + ] = ( r ) * numColumns + c ;
}
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}
osgUtil : : TriStripVisitor tsv ;
tsv . stripify ( * geometry ) ;
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//geometry->setUseVertexBufferObjects(true);
geometry - > setUseDisplayList ( false ) ;
geometry - > setUseVertexBufferObjects ( false ) ;
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{
osg : : Vec3 center = computePosition ( leftHemisphere , x + w * 0.5 , y + h * 0.5 ) ;
osg : : Vec3 normal = center ;
osg : : Vec3 n00 = computePosition ( leftHemisphere , x , y ) ;
osg : : Vec3 n10 = computePosition ( leftHemisphere , x + w , y ) ;
osg : : Vec3 n11 = computePosition ( leftHemisphere , x + w , y + h ) ;
osg : : Vec3 n01 = computePosition ( leftHemisphere , x , y + h ) ;
float radius = ( center - n00 ) . length ( ) ;
radius = osg : : maximum ( ( center - n10 ) . length ( ) , radius ) ;
radius = osg : : maximum ( ( center - n11 ) . length ( ) , radius ) ;
radius = osg : : maximum ( ( center - n01 ) . length ( ) , radius ) ;
float min_dot = normal * n00 ;
min_dot = osg : : minimum ( normal * n10 , min_dot ) ;
min_dot = osg : : minimum ( normal * n11 , min_dot ) ;
min_dot = osg : : minimum ( normal * n01 , min_dot ) ;
float angle = acosf ( min_dot ) + osg : : PI * 0.5f ;
float deviation = ( angle < osg : : PI ) ? deviation = cosf ( angle ) : - 1.0f ;
osg : : ClusterCullingCallback * ccc = new osg : : ClusterCullingCallback ;
ccc - > setControlPoint ( center ) ;
ccc - > setNormal ( normal ) ;
ccc - > setRadius ( radius ) ;
ccc - > setDeviation ( deviation ) ;
geometry - > setCullCallback ( ccc ) ;
}
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geode - > addDrawable ( geometry ) ;
return geode ;
}
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osg : : Node * createTileAndRecurse ( const std : : string & filename , const std : : string & basename , const std : : string & extension , bool leftHemisphere , unsigned int noTilesX , unsigned int noTilesY , double x , double y , double w , double h , unsigned int numLevelsLeft )
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{
osg : : Group * group = new osg : : Group ;
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double dx = w / ( double ) noTilesX ;
double dy = h / ( double ) noTilesY ;
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if ( numLevelsLeft > 0 )
{
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float cut_off_distance = 4.0f * dy * osg : : PI ;
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float max_visible_distance = 1e7 ;
// create current layer, and write to disk.
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unsigned int numTiles = 0 ;
double lx = x ;
for ( unsigned i = 0 ; i < noTilesX ; + + i , lx + = dx )
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{
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double ly = y ;
for ( unsigned j = 0 ; j < noTilesY ; + + j , ly + = dy )
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{
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// create name for tile.
char char_num = ' A ' + numTiles ;
std : : string lbasename = basename + " _ " + char_num ;
// create the subtiles and write out to disk.
{
osg : : ref_ptr < osg : : Node > node = createTileAndRecurse ( filename , lbasename , extension , leftHemisphere , 2 , 2 , lx , ly , dx , dy , numLevelsLeft - 1 ) ;
osgDB : : writeNodeFile ( * node , lbasename + extension ) ;
}
// create PagedLOD for tile.
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osg : : PagedLOD * pagedlod = new osg : : PagedLOD ;
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osg : : Node * tile = createTile ( filename , leftHemisphere , lx , ly , dx , dy ) ;
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pagedlod - > addChild ( tile , cut_off_distance , max_visible_distance ) ;
pagedlod - > setRange ( 1 , 0.0f , cut_off_distance ) ;
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pagedlod - > setFileName ( 1 , lbasename + extension ) ;
pagedlod - > setCenter ( computePosition ( leftHemisphere , lx + dx * 0.5 , ly + dy * 0.5 ) ) ;
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group - > addChild ( pagedlod ) ;
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// increment number of tiles.
+ + numTiles ;
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}
}
}
else
{
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double lx = x ;
for ( unsigned i = 0 ; i < noTilesX ; + + i , lx + = dx )
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{
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double ly = y ;
for ( unsigned j = 0 ; j < noTilesY ; + + j , ly + = dy )
{
group - > addChild ( createTile ( filename , leftHemisphere , lx , ly , dx , dy ) ) ;
}
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}
}
return group ;
}
bool createWorld ( const std : : string & left_hemisphere , const std : : string & right_hemisphere , const std : : string & baseName , unsigned int numLevels )
{
osgDB : : ReaderWriter * readerWriter = osgDB : : Registry : : instance ( ) - > getReaderWriterForExtension ( " gdal " ) ;
if ( ! readerWriter )
{
std : : cout < < " Error: GDAL plugin not available, cannot preceed with database creation " < < std : : endl ;
return false ;
}
osg : : Timer timer ;
osg : : Timer_t start_tick = timer . tick ( ) ;
// create the world
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std : : string path = osgDB : : getFilePath ( baseName ) ;
std : : string base = path . empty ( ) ? osgDB : : getStrippedName ( baseName ) :
path + ' / ' + osgDB : : getStrippedName ( baseName ) ;
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std : : string extension = ' . ' + osgDB : : getLowerCaseFileExtension ( baseName ) ;
std : : cout < < " baseName = " < < baseName < < std : : endl ;
std : : cout < < " base = " < < base < < std : : endl ;
std : : cout < < " extension = " < < extension < < std : : endl ;
osg : : ref_ptr < osg : : Group > group = new osg : : Group ;
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group - > addChild ( createTileAndRecurse ( left_hemisphere , base + " _west " , extension , true , 5 , 5 , 0.0 , 0.0 , 1.0 , 1.0 , numLevels ) ) ;
group - > addChild ( createTileAndRecurse ( right_hemisphere , base + " _east " , extension , false , 5 , 5 , 0.0 , 0.0 , 1.0 , 1.0 , numLevels ) ) ;
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osg : : StateSet * stateset = group - > getOrCreateStateSet ( ) ;
stateset - > setMode ( GL_CULL_FACE , osg : : StateAttribute : : ON ) ;
osgDB : : writeNodeFile ( * group , baseName ) ;
osg : : Timer_t end_tick = timer . tick ( ) ;
std : : cout < < " Time to create world " < < timer . delta_s ( start_tick , end_tick ) < < std : : endl ;
return true ;
}
int main ( int argc , char * * argv )
{
// use an ArgumentParser object to manage the program arguments.
osg : : ArgumentParser arguments ( & argc , argv ) ;
// set up the usage document, in case we need to print out how to use this program.
arguments . getApplicationUsage ( ) - > setApplicationName ( arguments . getApplicationName ( ) ) ;
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arguments . getApplicationUsage ( ) - > setDescription ( arguments . getApplicationName ( ) + " is an example which creates and paged database from the Nase blue marble hemisphere's. " ) ;
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arguments . getApplicationUsage ( ) - > setCommandLineUsage ( arguments . getApplicationName ( ) + " [options] filename ... " ) ;
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arguments . getApplicationUsage ( ) - > addCommandLineOption ( " -e <filename> " , " Specify the east hemisphere input file to process " ) ;
arguments . getApplicationUsage ( ) - > addCommandLineOption ( " -w <filename> " , " Specify the west hemisphere input file to process " ) ;
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arguments . getApplicationUsage ( ) - > addCommandLineOption ( " -o <outputfile> " , " Specify the output master file to generate " ) ;
arguments . getApplicationUsage ( ) - > addCommandLineOption ( " -l <numOfLevels> " , " Specify the number of PagedLOD levels to generate " ) ;
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arguments . getApplicationUsage ( ) - > addCommandLineOption ( " --compressed " , " Create compressed textures (default) " ) ;
arguments . getApplicationUsage ( ) - > addCommandLineOption ( " --565 " , " Create R5G5B5A1 textures " ) ;
arguments . getApplicationUsage ( ) - > addCommandLineOption ( " --RGB " , " Create R8G8B8 textures " ) ;
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arguments . getApplicationUsage ( ) - > addCommandLineOption ( " -h or --help " , " Display this information " ) ;
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std : : string west_hemisphere ( " land_shallow_topo_west.tif " ) ;
while ( arguments . read ( " -w " , west_hemisphere ) ) { }
std : : string east_hemisphere ( " land_shallow_topo_east.tif " ) ;
while ( arguments . read ( " -e " , east_hemisphere ) ) { }
std : : string basename ( " bluemarble.ive " ) ;
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while ( arguments . read ( " -o " , basename ) ) { }
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float numLevels = 4 ;
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while ( arguments . read ( " -l " , numLevels ) ) { }
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while ( arguments . read ( " --compressed " ) ) { useCompressedTextures = true ; use565 = false ; }
while ( arguments . read ( " --565 " ) ) { useCompressedTextures = false ; use565 = true ; }
while ( arguments . read ( " --RGB " ) ) { useCompressedTextures = false ; use565 = false ; }
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// if user request help write it out to cout.
if ( arguments . read ( " -h " ) | | arguments . read ( " --help " ) )
{
arguments . getApplicationUsage ( ) - > write ( std : : cout ) ;
return 1 ;
}
// any option left unread are converted into errors to write out later.
arguments . reportRemainingOptionsAsUnrecognized ( ) ;
// report any errors if they have occured when parsing the program aguments.
if ( arguments . errors ( ) )
{
arguments . writeErrorMessages ( std : : cout ) ;
return 1 ;
}
// if (arguments.argc()<=1)
// {
// arguments.getApplicationUsage()->write(std::cout,osg::ApplicationUsage::COMMAND_LINE_OPTION);
// return 1;
// }
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// create a graphics context to allow us to use OpenGL to compress textures.
GraphicsContext gfx ;
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createWorld ( west_hemisphere , east_hemisphere , basename , ( unsigned int ) numLevels ) ;
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return 0 ;
}