GeoImage
ImageLayer::createImageFromTileSource(const TileKey& key,
ProgressCallback* progress)
{
TileSource* source = getTileSource();
if ( !source )
return GeoImage::INVALID;
// If the profiles are different, use a compositing method to assemble the tile.
if ( !key.getProfile()->isHorizEquivalentTo( getProfile() ) )
{
return assembleImage( key, progress );
}
// Good to go, ask the tile source for an image:
osg::ref_ptr<TileSource::ImageOperation> op = getOrCreatePreCacheOp();
// Fail is the image is blacklisted.
if ( source->getBlacklist()->contains(key) )
{
OE_DEBUG << LC << "createImageFromTileSource: blacklisted(" << key.str() << ")" << std::endl;
return GeoImage::INVALID;
}
if (!mayHaveData(key))
{
OE_DEBUG << LC << "createImageFromTileSource: mayHaveData(" << key.str() << ") == false" << std::endl;
return GeoImage::INVALID;
}
//if ( !source->hasData( key ) )
//{
// OE_DEBUG << LC << "createImageFromTileSource: hasData(" << key.str() << ") == false" << std::endl;
// return GeoImage::INVALID;
//}
// create an image from the tile source.
osg::ref_ptr<osg::Image> result = source->createImage( key, op.get(), progress );
// Process images with full alpha to properly support MP blending.
if (result.valid() &&
options().featherPixels() == true)
{
ImageUtils::featherAlphaRegions( result.get() );
}
// If image creation failed (but was not intentionally canceled and
// didn't time out or end for any other recoverable reason), then
// blacklist this tile for future requests.
if (result == 0L)
{
if ( progress == 0L ||
( !progress->isCanceled() && !progress->needsRetry() ) )
{
source->getBlacklist()->add( key );
}
}
return GeoImage(result.get(), key.getExtent());
}
GeoImage
ImageLayer::createImageFromTileSource(const TileKey& key,
ProgressCallback* progress)
{
TileSource* source = getTileSource();
if ( !source )
return GeoImage::INVALID;
// If the profiles are different, use a compositing method to assemble the tile.
if ( !key.getProfile()->isHorizEquivalentTo( getProfile() ) )
{
return assembleImageFromTileSource( key, progress );
}
// Good to go, ask the tile source for an image:
osg::ref_ptr<TileSource::ImageOperation> op = _preCacheOp;
// Fail is the image is blacklisted.
if ( source->getBlacklist()->contains(key) )
{
OE_DEBUG << LC << "createImageFromTileSource: blacklisted(" << key.str() << ")" << std::endl;
return GeoImage::INVALID;
}
if ( !source->hasData( key ) )
{
OE_DEBUG << LC << "createImageFromTileSource: hasData(" << key.str() << ") == false" << std::endl;
return GeoImage::INVALID;
}
// create an image from the tile source.
osg::ref_ptr<osg::Image> result = source->createImage( key, op.get(), progress );
// Process images with full alpha to properly support MP blending.
if ( result.valid() && *_runtimeOptions.featherPixels())
{
ImageUtils::featherAlphaRegions( result.get() );
}
// If image creation failed (but was not intentionally canceled),
// blacklist this tile for future requests.
if ( result == 0L && (!progress || !progress->isCanceled()) )
{
source->getBlacklist()->add( key );
}
return GeoImage(result.get(), key.getExtent());
}
osg::Image*
CompositeTileSource::createImage( const TileKey& key, ProgressCallback* progress )
{
ImageMixVector images;
images.reserve( _options._components.size() );
for(CompositeTileSourceOptions::ComponentVector::const_iterator i = _options._components.begin();
i != _options._components.end();
++i )
{
if ( progress && progress->isCanceled() )
return 0L;
// check that this source is within the level bounds:
if (i->_imageLayerOptions->minLevel().value() > key.getLevelOfDetail() ||
i->_imageLayerOptions->maxLevel().value() < key.getLevelOfDetail() )
{
continue;
}
TileSource* source = i->_tileSourceInstance->get();
if ( source )
{
if ( !source->getBlacklist()->contains( key.getTileId() ) )
{
//Only try to get data if the source actually has data
if ( source->hasData( key ) )
{
ImageOpacityPair imagePair(
source->createImage( key, _preCacheOp.get(), progress ),
1.0f );
//If the image is not valid and the progress was not cancelled, blacklist
if (!imagePair.first.valid() && (!progress || !progress->isCanceled()))
{
//Add the tile to the blacklist
OE_DEBUG << LC << "Adding tile " << key.str() << " to the blacklist" << std::endl;
source->getBlacklist()->add( key.getTileId() );
}
if ( imagePair.first.valid() )
{
// check for opacity:
imagePair.second = i->_imageLayerOptions.isSet() ? i->_imageLayerOptions->opacity().value() : 1.0f;
images.push_back( imagePair );
}
}
else
{
OE_DEBUG << LC << "Source has no data at " << key.str() << std::endl;
}
}
else
{
OE_DEBUG << LC << "Tile " << key.str() << " is blacklisted, not checking" << std::endl;
}
}
}
if ( progress && progress->isCanceled() )
{
return 0L;
}
else if ( images.size() == 0 )
{
return 0L;
}
else if ( images.size() == 1 )
{
return images[0].first.release();
}
else
{
osg::Image* result = new osg::Image( *images[0].first.get() );
for( unsigned int i=1; i<images.size(); ++i )
{
ImageOpacityPair& pair = images[i];
if ( pair.first.valid() )
{
ImageUtils::mix( result, pair.first.get(), pair.second );
}
}
return result;
}
}
osg::Image*
CompositeTileSource::createImage(const TileKey& key,
ProgressCallback* progress )
{
ImageMixVector images;
images.reserve( _options._components.size() );
for(CompositeTileSourceOptions::ComponentVector::const_iterator i = _options._components.begin();
i != _options._components.end();
++i )
{
if ( progress && progress->isCanceled() )
return 0L;
ImageInfo imageInfo;
imageInfo.dataInExtents = false;
TileSource* source = i->_tileSourceInstance.get();
if ( source )
{
//TODO: This duplicates code in ImageLayer::isKeyValid. Maybe should move that to TileSource::isKeyValid instead
int minLevel = 0;
int maxLevel = INT_MAX;
if (i->_imageLayerOptions->minLevel().isSet())
{
minLevel = i->_imageLayerOptions->minLevel().value();
}
else if (i->_imageLayerOptions->minResolution().isSet())
{
minLevel = source->getProfile()->getLevelOfDetailForHorizResolution(
i->_imageLayerOptions->minResolution().value(),
source->getPixelsPerTile());
}
if (i->_imageLayerOptions->maxLevel().isSet())
{
maxLevel = i->_imageLayerOptions->maxLevel().value();
}
else if (i->_imageLayerOptions->maxResolution().isSet())
{
maxLevel = source->getProfile()->getLevelOfDetailForHorizResolution(
i->_imageLayerOptions->maxResolution().value(),
source->getPixelsPerTile());
}
// check that this source is within the level bounds:
if (minLevel > (int)key.getLevelOfDetail() ||
maxLevel < (int)key.getLevelOfDetail() )
{
continue;
}
//Only try to get data if the source actually has data
if (source->hasDataInExtent( key.getExtent() ) )
{
//We have data within these extents
imageInfo.dataInExtents = true;
if ( !source->getBlacklist()->contains( key.getTileId() ) )
{
osg::ref_ptr< ImageLayerPreCacheOperation > preCacheOp;
if ( i->_imageLayerOptions.isSet() )
{
preCacheOp = new ImageLayerPreCacheOperation();
preCacheOp->_processor.init( i->_imageLayerOptions.value(), _dbOptions.get(), true );
}
imageInfo.image = source->createImage( key, preCacheOp.get(), progress );
imageInfo.opacity = 1.0f;
//If the image is not valid and the progress was not cancelled, blacklist
if (!imageInfo.image.valid() && (!progress || !progress->isCanceled()))
{
//Add the tile to the blacklist
OE_DEBUG << LC << "Adding tile " << key.str() << " to the blacklist" << std::endl;
source->getBlacklist()->add( key.getTileId() );
}
imageInfo.opacity = i->_imageLayerOptions.isSet() ? i->_imageLayerOptions->opacity().value() : 1.0f;
}
}
else
{
OE_DEBUG << LC << "Source has no data at " << key.str() << std::endl;
}
}
//Add the ImageInfo to the list
images.push_back( imageInfo );
}
unsigned numValidImages = 0;
osg::Vec2s textureSize;
for (unsigned int i = 0; i < images.size(); i++)
{
ImageInfo& info = images[i];
if (info.image.valid())
{
if (numValidImages == 0)
{
textureSize.set( info.image->s(), info.image->t());
}
numValidImages++;
}
}
//Try to fallback on any empty images if we have some valid images but not valid images for ALL layers
if (numValidImages > 0 && numValidImages < images.size())
{
for (unsigned int i = 0; i < images.size(); i++)
{
ImageInfo& info = images[i];
if (!info.image.valid() && info.dataInExtents)
{
TileKey parentKey = key.createParentKey();
TileSource* source = _options._components[i]._tileSourceInstance;
if (source)
{
osg::ref_ptr< ImageLayerPreCacheOperation > preCacheOp;
if ( _options._components[i]._imageLayerOptions.isSet() )
{
preCacheOp = new ImageLayerPreCacheOperation();
preCacheOp->_processor.init( _options._components[i]._imageLayerOptions.value(), _dbOptions.get(), true );
}
osg::ref_ptr< osg::Image > image;
while (!image.valid() && parentKey.valid())
{
image = source->createImage( parentKey, preCacheOp.get(), progress );
if (image.valid())
{
break;
}
parentKey = parentKey.createParentKey();
}
if (image.valid())
{
//We got an image, but now we need to crop it to match the incoming key's extents
GeoImage geoImage( image.get(), parentKey.getExtent());
GeoImage cropped = geoImage.crop( key.getExtent(), true, textureSize.x(), textureSize.y(), *source->_options.bilinearReprojection());
image = cropped.getImage();
}
info.image = image.get();
}
}
}
}
//Recompute the number of valid images
numValidImages = 0;
for (unsigned int i = 0; i < images.size(); i++)
{
ImageInfo& info = images[i];
if (info.image.valid()) numValidImages++;
}
if ( progress && progress->isCanceled() )
{
return 0L;
}
else if ( numValidImages == 0 )
{
return 0L;
}
else if ( numValidImages == 1 )
{
//We only have one valid image, so just return it and don't bother with compositing
for (unsigned int i = 0; i < images.size(); i++)
{
ImageInfo& info = images[i];
if (info.image.valid())
return info.image.release();
}
return 0L;
}
else
{
osg::Image* result = 0;
for (unsigned int i = 0; i < images.size(); i++)
{
ImageInfo& imageInfo = images[i];
if (!result)
{
if (imageInfo.image.valid())
{
result = new osg::Image( *imageInfo.image.get());
}
}
else
{
if (imageInfo.image.valid())
{
ImageUtils::mix( result, imageInfo.image, imageInfo.opacity );
}
}
}
return result;
}
}
GeoImage
ImageLayer::createImageFromTileSource(const TileKey& key,
ProgressCallback* progress,
bool forceFallback,
bool& out_isFallback)
{
// Results:
//
// * return an osg::Image matching the key extent is all goes well;
//
// * return NULL to indicate that the key exceeds the maximum LOD of the source data,
// and that the engine may need to generate a "fallback" tile if necessary;
//
// deprecated:
// * return an "empty image" if the LOD is valid BUT the key does not intersect the
// source's data extents.
out_isFallback = false;
TileSource* source = getTileSource();
if ( !source )
return GeoImage::INVALID;
// If the profiles are different, use a compositing method to assemble the tile.
if ( !key.getProfile()->isEquivalentTo( getProfile() ) )
{
return assembleImageFromTileSource( key, progress, out_isFallback );
}
// Good to go, ask the tile source for an image:
osg::ref_ptr<TileSource::ImageOperation> op = _preCacheOp;
osg::ref_ptr<osg::Image> result;
if ( forceFallback )
{
// check if the tile source has any data coverage for the requested key.
// the LOD is ignore here and checked later
if ( !source->hasDataInExtent( key.getExtent() ) )
{
OE_DEBUG << LC << "createImageFromTileSource: hasDataInExtent(" << key.str() << ") == false" << std::endl;
return GeoImage::INVALID;
}
TileKey finalKey = key;
while( !result.valid() && finalKey.valid() )
{
if ( !source->getBlacklist()->contains( finalKey.getTileId() ) &&
source->hasDataForFallback(finalKey))
{
result = source->createImage( finalKey, op.get(), progress );
if ( result.valid() )
{
if ( finalKey.getLevelOfDetail() != key.getLevelOfDetail() )
{
// crop the fallback image to match the input key, and ensure that it remains the
// same pixel size; because chances are if we're requesting a fallback that we're
// planning to mosaic it later, and the mosaicer requires same-size images.
GeoImage raw( result.get(), finalKey.getExtent() );
GeoImage cropped = raw.crop( key.getExtent(), true, raw.getImage()->s(), raw.getImage()->t(), *_runtimeOptions.driver()->bilinearReprojection() );
result = cropped.takeImage();
}
}
}
if ( !result.valid() )
{
finalKey = finalKey.createParentKey();
out_isFallback = true;
}
}
if ( !result.valid() )
{
result = 0L;
//result = _emptyImage.get();
finalKey = key;
}
}
else
{
// Fail is the image is blacklisted.
if ( source->getBlacklist()->contains( key.getTileId() ) )
{
OE_DEBUG << LC << "createImageFromTileSource: blacklisted(" << key.str() << ")" << std::endl;
return GeoImage::INVALID;
}
if ( !source->hasData( key ) )
{
OE_DEBUG << LC << "createImageFromTileSource: hasData(" << key.str() << ") == false" << std::endl;
return GeoImage::INVALID;
}
result = source->createImage( key, op.get(), progress );
}
// Process images with full alpha to properly support MP blending.
if ( result != 0L && *_runtimeOptions.featherPixels())
{
ImageUtils::featherAlphaRegions( result.get() );
}
// If image creation failed (but was not intentionally canceled),
// blacklist this tile for future requests.
if ( result == 0L && (!progress || !progress->isCanceled()) )
{
source->getBlacklist()->add( key.getTileId() );
}
return GeoImage(result.get(), key.getExtent());
}
osg::Image*
CompositeTileSource::createImage( const TileKey& key, ProgressCallback* progress )
{
ImageMixVector images;
images.reserve( _options._components.size() );
for(CompositeTileSourceOptions::ComponentVector::const_iterator i = _options._components.begin();
i != _options._components.end();
++i )
{
if ( progress && progress->isCanceled() )
return 0L;
TileSource* source = i->_tileSourceInstance->get();
if ( source )
{
//TODO: This duplicates code in ImageLayer::isKeyValid. Maybe should move that to TileSource::isKeyValid instead
int minLevel = 0;
int maxLevel = INT_MAX;
if (i->_imageLayerOptions->minLevel().isSet())
{
minLevel = i->_imageLayerOptions->minLevel().value();
}
else if (i->_imageLayerOptions->minLevelResolution().isSet())
{
minLevel = source->getProfile()->getLevelOfDetailForHorizResolution( i->_imageLayerOptions->minLevelResolution().value(), source->getPixelsPerTile());
}
if (i->_imageLayerOptions->maxLevel().isSet())
{
maxLevel = i->_imageLayerOptions->maxLevel().value();
}
else if (i->_imageLayerOptions->maxLevelResolution().isSet())
{
maxLevel = source->getProfile()->getLevelOfDetailForHorizResolution( i->_imageLayerOptions->maxLevelResolution().value(), source->getPixelsPerTile());
}
// check that this source is within the level bounds:
if (minLevel > key.getLevelOfDetail() ||
maxLevel < key.getLevelOfDetail() )
{
continue;
}
if ( !source->getBlacklist()->contains( key.getTileId() ) )
{
//Only try to get data if the source actually has data
if ( source->hasData( key ) )
{
osg::ref_ptr< ImageLayerPreCacheOperation > preCacheOp;
if ( i->_imageLayerOptions.isSet() )
{
preCacheOp = new ImageLayerPreCacheOperation();
preCacheOp->_processor.init( i->_imageLayerOptions.value(), true );
}
ImageOpacityPair imagePair(
source->createImage( key, preCacheOp.get(), progress ),
1.0f );
//If the image is not valid and the progress was not cancelled, blacklist
if (!imagePair.first.valid() && (!progress || !progress->isCanceled()))
{
//Add the tile to the blacklist
OE_DEBUG << LC << "Adding tile " << key.str() << " to the blacklist" << std::endl;
source->getBlacklist()->add( key.getTileId() );
}
if ( imagePair.first.valid() )
{
// check for opacity:
imagePair.second = i->_imageLayerOptions.isSet() ? i->_imageLayerOptions->opacity().value() : 1.0f;
images.push_back( imagePair );
}
}
else
{
OE_DEBUG << LC << "Source has no data at " << key.str() << std::endl;
}
}
else
{
OE_DEBUG << LC << "Tile " << key.str() << " is blacklisted, not checking" << std::endl;
}
}
}
if ( progress && progress->isCanceled() )
{
return 0L;
}
else if ( images.size() == 0 )
{
return 0L;
}
else if ( images.size() == 1 )
{
return images[0].first.release();
}
else
{
osg::Image* result = new osg::Image( *images[0].first.get() );
for( unsigned int i=1; i<images.size(); ++i )
{
ImageOpacityPair& pair = images[i];
if ( pair.first.valid() )
{
ImageUtils::mix( result, pair.first.get(), pair.second );
}
}
return result;
}
}