Status initialize(const osgDB::Options* dbOptions)
{
_dbOptions = Registry::instance()->cloneOrCreateOptions(dbOptions);
URI xyzURI = _options.url().value();
if ( xyzURI.empty() )
{
return Status::Error( "Fail: driver requires a valid \"url\" property" );
}
// driver requires a profile.
if ( !getProfile() )
{
return Status::Error( "An explicit profile definition is required by the XYZ driver." );
}
_template = xyzURI.full();
_rotateStart = _template.find("[");
_rotateEnd = _template.find("]");
if ( _rotateStart != std::string::npos && _rotateEnd != std::string::npos && _rotateEnd-_rotateStart > 1 )
{
_rotateString = _template.substr(_rotateStart, _rotateEnd-_rotateStart+1);
_rotateChoices = _template.substr(_rotateStart+1, _rotateEnd-_rotateStart-1);
}
_format = _options.format().isSet()
? *_options.format()
: osgDB::getLowerCaseFileExtension( xyzURI.base() );
return STATUS_OK;
}
void initialize( const std::string& referenceURI, const Profile* overrideProfile)
{
if ( !overrideProfile )
{
OE_WARN << LC << "An explicit profile definition is required by the OSG driver." << std::endl;
return;
}
setProfile( overrideProfile );
osg::ref_ptr<osg::Image> image;
URI url = _options.url().value();
if ( !url.empty() )
{
url = URI( url.full(), referenceURI ); // obselete?
HTTPClient::ResultCode code = HTTPClient::readImageFile( url.full(), image );
if ( code != HTTPClient::RESULT_OK )
{
OE_WARN << LC << "Failed to load data from \"" << url.full() << "\", because: " <<
HTTPClient::getResultCodeString(code) << std::endl;
}
}
if ( !image.valid() )
OE_WARN << LC << "Faild to load data from \"" << url.full() << "\"" << std::endl;
// calculate and store the maximum LOD for which to return data
if ( image.valid() )
{
int minSpan = osg::minimum( image->s(), image->t() );
int tileSize = _options.tileSize().value();
_maxDataLevel = (int)LOG2((minSpan/tileSize)+1);
//OE_NOTICE << "[osgEarth::OSG driver] minSpan=" << minSpan << ", _tileSize=" << tileSize << ", maxDataLevel = " << _maxDataLevel << std::endl;
getDataExtents().push_back( DataExtent(overrideProfile->getExtent(), 0, _maxDataLevel) );
bool computeAlpha =
(_options.convertLuminanceToRGBA() == true && image->getPixelFormat() == GL_LUMINANCE) ||
(_options.addAlpha() == true && !ImageUtils::hasAlphaChannel( image.get() ) );
if ( computeAlpha )
{
image = makeRGBAandComputeAlpha( image.get() );
}
else if ( ImageUtils::hasAlphaChannel( image.get() ))
{
image = ImageUtils::convertToRGBA8( image.get() );
}
else
{
image = ImageUtils::convertToRGB8( image.get() );
}
_image = GeoImage( image.get(), getProfile()->getExtent() );
}
_extension = osgDB::getFileExtension( url.full() );
}
void CPlotter::set_data_set(const URI &uri)
{
cf3_assert ( !uri.empty() );
cf3_assert ( uri.scheme() == URI::Scheme::CPATH );
m_data = uri;
}
void NLink::set_target_path(const URI & path)
{
if(!path.empty())
{
Handle< CNode > target(access_component_checked(path));
this->set_target_node(target);
}
}
void GraphicalUriArray::btAddClicked()
{
if(m_editAdd->text().isEmpty())
{
if(m_comboType->currentText() == "cpath")
{
SelectPathDialog spd;
QString modified_path = m_editAdd->text();
URI path = spd.show(modified_path.toStdString());
if(!path.empty())
m_editAdd->setText( path.string().c_str() );
}
else if(m_comboType->currentText() == "file")
{
NRemoteOpen::Ptr nro = NRemoteOpen::create();
QStringList fileList = nro->showMultipleSelect("");
QStringList::iterator file = fileList.begin();
for( ; file != fileList.end() ; ++ file)
{
file->prepend( m_comboType->currentText() + ':' );
}
if(!fileList.isEmpty())
m_model->setStringList( m_model->stringList() << fileList );
}
}
if(!m_editAdd->text().isEmpty())
{
QString pathStr = m_editAdd->text();
if( !pathStr.startsWith(m_comboType->currentText()) )
pathStr.prepend(m_comboType->currentText() + ':');
m_model->setStringList( m_model->stringList() << pathStr );
m_editAdd->clear();
}
emit valueChanged();
}
void C3DViewBuilder::signal_create_3dview(SignalArgs &args)
{
SignalOptions options( args );
std::string name = options.value<std::string>("3DView name");
URI parent = options.value<URI>("Parent");
// some checks
if(name.empty())
throw BadValue(FromHere(), "The 3DView name is empty.");
if(parent.empty())
throw BadValue(FromHere(), "The parent is empty.");
if(parent.scheme() != URI::Scheme::CPATH)
throw InvalidURI(FromHere(), "The parent scheme is not CPATH");
// create and add the component
Handle<Component> parent_comp = Core::instance().root().access_component(parent);
Handle<C3DView> view = parent_comp->create_component<C3DView>( name );
view->mark_basic();
}
void CPlotter::signal_create_xyplot(SignalArgs &args)
{
SignalOptions options( args );
std::string name = options.value<std::string>("Plot name");
URI parent = options.value<URI>("Parent");
// some checks
if(name.empty())
throw BadValue(FromHere(), "The plot name is empty.");
if(parent.empty())
throw BadValue(FromHere(), "The parent is empty.");
if(parent.scheme() != URI::Scheme::CPATH)
throw InvalidURI(FromHere(), "The parent scheme is not CPATH");
// create and add the component
Handle< Component > parent_comp = Core::instance().root().access_component(parent);
boost::shared_ptr< CPlotXY > plot(common::allocate_component<CPlotXY>(name));
parent_comp->add_component( plot );
plot->mark_basic();
plot->set_data(m_data);
}
bool JSONAPI::handlePage(HTTP::WebContext &ctx, ostream &stream,
const URI &uri) {
if (!String::startsWith(uri.getPath(), root)) return false;
string cmd = uri.getPath().substr(root.length());
// Look up command
api_t::const_iterator it = api.find(cmd);
if (it == api.end()) return false;
ctx.setDynamic(); // Don't cache
HTTP::Connection &con = ctx.getConnection();
bool jsonp = !jsonpCB.empty() && uri.has(jsonpCB);
if (jsonp) {
con.getResponse().setContentType("application/javascript");
con << uri.get(jsonpCB) << '(';
} else con.getResponse().setContentType("application/json");
JSON::Writer writer(con, 0, !uri.has("pretty"),
uri.has("python_mode") ? JSON::Writer::PYTHON_MODE :
JSON::Writer::JSON_MODE);
try {
// Parse JSON data
JSON::ValuePtr msg;
if (con.getRequest().hasContentType() &&
String::startsWith(con.getRequest().getContentType(),
"application/json")) {
MemoryBuffer &payload = con.getPayload();
if (payload.getFill()) msg = JSON::Reader(payload).parse();
} else if (!uri.empty()) {
msg = new JSON::Dict;
for (URI::const_iterator it = uri.begin(); it != uri.end(); it++)
msg->insert(it->first, it->second);
}
// Dispatch API command
if (msg.isNull()) LOG_DEBUG(5, "JSONAPI Call: " << cmd << "()");
else LOG_DEBUG(5, "JSONAPI Call: " << cmd << '(' << *msg << ')');
it->second->handle(ctx, cmd, msg, writer);
// Make sure JSON stream is complete
writer.close();
} catch (const Exception &e) {
LOG_ERROR(e);
// Clear possibly partial or invalid response
con.clearResponseBuffer();
// jsonp header
if (jsonp) con << uri.get(jsonpCB) << '(';
// Send error message
JSON::Writer writer(con, 0, true);
writer.beginList();
writer.append("error");
writer.append(e.getMessage());
writer.endList();
writer.close();
}
if (jsonp) con << ");";
return true;
}
std::istream* HTTPStreamFactory::open(const URI& uri)
{
poco_assert (uri.getScheme() == "http");
URI resolvedURI(uri);
URI proxyUri;
HTTPClientSession* pSession = 0;
HTTPResponse res;
bool retry = false;
bool authorize = false;
std::string username;
std::string password;
try
{
do
{
if (!pSession)
{
pSession = new HTTPClientSession(resolvedURI.getHost(), resolvedURI.getPort());
if (proxyUri.empty())
pSession->setProxy(_proxyHost, _proxyPort);
else
pSession->setProxy(proxyUri.getHost(), proxyUri.getPort());
pSession->setProxyCredentials(_proxyUsername, _proxyPassword);
}
std::string path = resolvedURI.getPathAndQuery();
if (path.empty()) path = "/";
HTTPRequest req(HTTPRequest::HTTP_GET, path, HTTPMessage::HTTP_1_1);
if (authorize)
{
HTTPCredentials::extractCredentials(uri, username, password);
HTTPCredentials cred(username, password);
cred.authenticate(req, res);
}
pSession->sendRequest(req);
std::istream& rs = pSession->receiveResponse(res);
bool moved = (res.getStatus() == HTTPResponse::HTTP_MOVED_PERMANENTLY ||
res.getStatus() == HTTPResponse::HTTP_FOUND ||
res.getStatus() == HTTPResponse::HTTP_SEE_OTHER ||
res.getStatus() == HTTPResponse::HTTP_TEMPORARY_REDIRECT);
if (moved)
{
resolvedURI.resolve(res.get("Location"));
if (!username.empty())
{
resolvedURI.setUserInfo(username + ":" + password);
}
throw URIRedirection(resolvedURI.toString());
}
else if (res.getStatus() == HTTPResponse::HTTP_OK)
{
return new HTTPResponseStream(rs, pSession);
}
else if (res.getStatus() == HTTPResponse::HTTP_USEPROXY && !retry)
{
// The requested resource MUST be accessed through the proxy
// given by the Location field. The Location field gives the
// URI of the proxy. The recipient is expected to repeat this
// single request via the proxy. 305 responses MUST only be generated by origin servers.
// only use for one single request!
proxyUri.resolve(res.get("Location"));
delete pSession; pSession = 0;
retry = true; // only allow useproxy once
}
else if (res.getStatus() == HTTPResponse::HTTP_UNAUTHORIZED && !authorize)
{
authorize = true;
retry = true;
Poco::NullOutputStream null;
Poco::StreamCopier::copyStream(rs, null);
}
else throw HTTPException(res.getReason(), uri.toString());
}
while (retry);
throw HTTPException("Too many redirects", uri.toString());
}
catch (...)
{
delete pSession;
throw;
}
}
// one-time initialization (per source)
Status initialize(const osgDB::Options* dbOptions)
{
_dbOptions = Registry::instance()->cloneOrCreateOptions(dbOptions);
const Profile* profile = getProfile();
URI tmsURI = _options.url().value();
if ( tmsURI.empty() )
{
return Status::Error( "Fail: TMS driver requires a valid \"url\" property" );
}
// Take the override profile if one is given
if ( profile )
{
OE_INFO << LC
<< "Using override profile \"" << getProfile()->toString()
<< "\" for URI \"" << tmsURI.base() << "\""
<< std::endl;
_tileMap = TMS::TileMap::create(
_options.url()->full(),
profile,
_options.format().value(),
_options.tileSize().value(),
_options.tileSize().value() );
}
else
{
// Attempt to read the tile map parameters from a TMS TileMap XML tile on the server:
_tileMap = TMS::TileMapReaderWriter::read( tmsURI.full(), _dbOptions.get() );
if (!_tileMap.valid())
{
return Status::Error( Stringify() << "Failed to read tilemap from " << tmsURI.full() );
}
OE_INFO << LC
<< "TMS tile map datestamp = "
<< DateTime(_tileMap->getTimeStamp()).asRFC1123()
<< std::endl;
profile = _tileMap->createProfile();
if ( profile )
setProfile( profile );
}
// Make sure we've established a profile by this point:
if ( !profile )
{
return Status::Error( Stringify() << "Failed to establish a profile for " << tmsURI.full() );
}
// TileMap and profile are valid at this point. Build the tile sets.
// Automatically set the min and max level of the TileMap
if ( _tileMap->getTileSets().size() > 0 )
{
OE_DEBUG << LC << "TileMap min/max " << _tileMap->getMinLevel() << ", " << _tileMap->getMaxLevel() << std::endl;
if (_tileMap->getDataExtents().size() > 0)
{
for (DataExtentList::iterator itr = _tileMap->getDataExtents().begin(); itr != _tileMap->getDataExtents().end(); ++itr)
{
this->getDataExtents().push_back(*itr);
}
}
else
{
//Push back a single area that encompasses the whole profile going up to the max level
this->getDataExtents().push_back(DataExtent(profile->getExtent(), 0, _tileMap->getMaxLevel()));
}
}
// set up the IO options so that we do not cache TMS tiles:
CachePolicy::NO_CACHE.apply( _dbOptions.get() );
return STATUS_OK;
}
void
PlaceNode::init(const osgDB::Options* dbOptions)
{
_geode = new osg::Geode();
osg::Drawable* text = 0L;
// If there's no explicit text, look to the text symbol for content.
if ( _text.empty() && _style.has<TextSymbol>() )
_text = _style.get<TextSymbol>()->content()->eval();
osg::ref_ptr<const InstanceSymbol> instance = _style.get<InstanceSymbol>();
// backwards compability, support for deprecated MarkerSymbol
if ( !instance.valid() && _style.has<MarkerSymbol>() )
instance = _style.get<MarkerSymbol>()->convertToInstanceSymbol();
const IconSymbol* icon = instance->asIcon();
if ( !_image.valid() )
{
URI imageURI;
if ( icon )
{
if ( icon->url().isSet() )
{
imageURI = URI( icon->url()->eval(), icon->url()->uriContext() );
}
}
if ( !imageURI.empty() )
{
_image = imageURI.getImage( dbOptions );
}
}
// found an image; now format it:
if ( _image.get() )
{
// this offset anchors the image at the bottom
osg::Vec2s offset;
if ( !icon || !icon->alignment().isSet() )
{
// default to bottom center
offset.set(0.0, (_image->t() / 2.0));
}
else
{ // default to bottom center
switch (icon->alignment().value())
{
case IconSymbol::ALIGN_LEFT_TOP:
offset.set((_image->s() / 2.0), -(_image->t() / 2.0));
break;
case IconSymbol::ALIGN_LEFT_CENTER:
offset.set((_image->s() / 2.0), 0.0);
break;
case IconSymbol::ALIGN_LEFT_BOTTOM:
offset.set((_image->s() / 2.0), (_image->t() / 2.0));
break;
case IconSymbol::ALIGN_CENTER_TOP:
offset.set(0.0, -(_image->t() / 2.0));
break;
case IconSymbol::ALIGN_CENTER_CENTER:
offset.set(0.0, 0.0);
break;
case IconSymbol::ALIGN_CENTER_BOTTOM:
default:
offset.set(0.0, (_image->t() / 2.0));
break;
case IconSymbol::ALIGN_RIGHT_TOP:
offset.set(-(_image->s() / 2.0), -(_image->t() / 2.0));
break;
case IconSymbol::ALIGN_RIGHT_CENTER:
offset.set(-(_image->s() / 2.0), 0.0);
break;
case IconSymbol::ALIGN_RIGHT_BOTTOM:
offset.set(-(_image->s() / 2.0), (_image->t() / 2.0));
break;
}
}
// Apply a rotation to the marker if requested:
double heading = 0.0;
if ( icon && icon->heading().isSet() )
{
heading = osg::DegreesToRadians( icon->heading()->eval() );
}
//We must actually rotate the geometry itself and not use a MatrixTransform b/c the
//decluttering doesn't respect Transforms above the drawable.
osg::Geometry* imageGeom = AnnotationUtils::createImageGeometry( _image.get(), offset, 0, heading );
if ( imageGeom )
_geode->addDrawable( imageGeom );
text = AnnotationUtils::createTextDrawable(
_text,
_style.get<TextSymbol>(),
osg::Vec3( (offset.x() + (_image->s() / 2.0) + 2), offset.y(), 0 ) );
}
else
{
text = AnnotationUtils::createTextDrawable(
_text,
_style.get<TextSymbol>(),
osg::Vec3( 0, 0, 0 ) );
}
if ( text )
_geode->addDrawable( text );
osg::StateSet* stateSet = _geode->getOrCreateStateSet();
stateSet->setAttributeAndModes( new osg::Depth(osg::Depth::ALWAYS, 0, 1, false), 1 );
getAttachPoint()->addChild( _geode );
// for clamping
applyStyle( _style );
setLightingIfNotSet( false );
ShaderGenerator gen( Registry::stateSetCache() );
this->accept( gen );
}
/** override */
Status initialize( const osgDB::Options* dbOptions )
{
osg::ref_ptr<const Profile> result;
char sep = _options.url()->full().find_first_of('?') == std::string::npos? '?' : '&';
URI capUrl = _options.capabilitiesUrl().value();
if ( capUrl.empty() )
{
capUrl = URI(
_options.url()->full() +
sep +
std::string("SERVICE=WMS") +
std::string("&VERSION=") + _options.wmsVersion().value() +
std::string("&REQUEST=GetCapabilities") );
}
//Try to read the WMS capabilities
osg::ref_ptr<WMSCapabilities> capabilities = WMSCapabilitiesReader::read( capUrl, dbOptions );
if ( !capabilities.valid() )
{
return Status::Error( Status::ResourceUnavailable, "Unable to read WMS GetCapabilities." );
}
else
{
OE_INFO << LC << "Got capabilities from " << capUrl.full() << std::endl;
}
if ( _formatToUse.empty() && capabilities.valid() )
{
_formatToUse = capabilities->suggestExtension();
OE_INFO << LC << "No format specified, capabilities suggested extension " << _formatToUse << std::endl;
}
if ( _formatToUse.empty() )
_formatToUse = "png";
if ( _srsToUse.empty() )
_srsToUse = "EPSG:4326";
std::string wmsFormatToUse = _options.wmsFormat().value();
//Initialize the WMS request prototype
std::stringstream buf;
// first the mandatory keys:
buf
<< std::fixed << _options.url()->full() << sep
<< "SERVICE=WMS"
<< "&VERSION=" << _options.wmsVersion().value()
<< "&REQUEST=GetMap"
<< "&LAYERS=" << _options.layers().value()
<< "&FORMAT=" << ( wmsFormatToUse.empty() ? std::string("image/") + _formatToUse : wmsFormatToUse )
<< "&STYLES=" << _options.style().value()
<< (_options.wmsVersion().value() == "1.3.0" ? "&CRS=" : "&SRS=") << _srsToUse
<< "&WIDTH="<< getPixelsPerTile()
<< "&HEIGHT=" << getPixelsPerTile()
<< "&BBOX=%lf,%lf,%lf,%lf";
// then the optional keys:
if ( _options.transparent().isSet() )
buf << "&TRANSPARENT=" << (_options.transparent() == true ? "TRUE" : "FALSE");
_prototype = "";
_prototype = buf.str();
//OE_NOTICE << "Prototype " << _prototype << std::endl;
osg::ref_ptr<SpatialReference> wms_srs = SpatialReference::create( _srsToUse );
// check for spherical mercator:
if ( wms_srs.valid() && wms_srs->isEquivalentTo( osgEarth::Registry::instance()->getSphericalMercatorProfile()->getSRS() ) )
{
result = osgEarth::Registry::instance()->getSphericalMercatorProfile();
}
else if (wms_srs.valid() && wms_srs->isEquivalentTo( osgEarth::Registry::instance()->getGlobalGeodeticProfile()->getSRS()))
{
result = osgEarth::Registry::instance()->getGlobalGeodeticProfile();
}
// Next, try to glean the extents from the layer list
if ( capabilities.valid() )
{
StringTokenizer tok(",");
StringVector tized;
tok.tokenize(_options.layers().value(), tized);
for (StringVector::const_iterator itr = tized.begin(); itr != tized.end(); ++itr)
{
std::string layerName = *itr;
WMSLayer* layer = capabilities->getLayerByName(layerName);
if (layer)
{
// Get the lat/lon extents
double minLon, minLat, maxLon, maxLat;
layer->getLatLonExtents(minLon, minLat, maxLon, maxLat);
GeoExtent wgs84Extent(SpatialReference::create("wgs84"), minLon, minLat, maxLon, maxLat);
getDataExtents().push_back(DataExtent(wgs84Extent, 0));
}
}
// If we don't have a profile yet, transform the lat/lon extents to the requested srs and use it as the extents of the profile.
if (!result.valid())
{
const SpatialReference* srs = SpatialReference::create(_srsToUse);
GeoExtent totalExtent(srs);
for (DataExtentList::const_iterator itr = getDataExtents().begin(); itr != getDataExtents().end(); ++itr)
{
GeoExtent dataExtent = *itr;
GeoExtent nativeExtent;
dataExtent.transform(srs, nativeExtent);
totalExtent.expandToInclude(nativeExtent);
}
result = Profile::create(srs, totalExtent.xMin(), totalExtent.yMin(), totalExtent.xMax(), totalExtent.yMax());
}
}
// Last resort: create a global extent profile (only valid for global maps)
if ( !result.valid() && wms_srs->isGeographic())
{
result = osgEarth::Registry::instance()->getGlobalGeodeticProfile();
}
#ifdef SUPPORT_JPL_TILESERVICE
// JPL uses an experimental interface called TileService -- ping to see if that's what
// we are trying to read:
URI tsUrl = _options.tileServiceUrl().value();
if ( tsUrl.empty() )
{
tsUrl = URI(_options.url()->full() + sep + std::string("request=GetTileService"), tsUrl.context());
}
OE_INFO << LC << "Testing for JPL/TileService at " << tsUrl.full() << std::endl;
osg::ref_ptr<TileService> tileService = TileServiceReader::read(tsUrl.full(), dbOptions);
if (tileService.valid())
{
OE_INFO << LC << "Found JPL/TileService spec" << std::endl;
TileService::TilePatternList patterns;
tileService->getMatchingPatterns(
_options.layers().value(),
_formatToUse,
_options.style().value(),
_srsToUse,
getPixelsPerTile(),
getPixelsPerTile(),
patterns );
if (patterns.size() > 0)
{
result = tileService->createProfile( patterns );
_prototype = _options.url()->full() + sep + patterns[0].getPrototype();
}
}
else
{
OE_INFO << LC << "No JPL/TileService spec found; assuming standard WMS" << std::endl;
}
#endif
// Use the override profile if one is passed in.
if ( getProfile() == 0L )
{
setProfile( result.get() );
}
if ( getProfile() )
{
OE_INFO << LC << "Profile=" << getProfile()->toString() << std::endl;
// set up the cache options properly for a TileSource.
_dbOptions = Registry::instance()->cloneOrCreateOptions( dbOptions );
return Status::OK();
}
else
{
return Status::Error( "Unable to establish profile" );
}
}
Status
TMSTileSource::initialize(const osgDB::Options* dbOptions)
{
// local copy of options we can modify if necessary.
_dbOptions = Registry::instance()->cloneOrCreateOptions(dbOptions);
// see if the use passed in a profile
const Profile* profile = getProfile();
// URI is mandatory.
URI tmsURI = _options.url().value();
if ( tmsURI.empty() )
{
return Status::Error( Status::ConfigurationError, "Fail: TMS driver requires a valid \"url\" property" );
}
// A repo is writable only if it's local.
if ( tmsURI.isRemote() )
{
OE_DEBUG << LC << "Repo is remote; opening in read-only mode" << std::endl;
}
// Is this a new repo? (You can only create a new repo at a local non-archive URI.)
bool isNewRepo = false;
if (!tmsURI.isRemote() &&
!osgEarth::isPathToArchivedFile(tmsURI.full()) &&
!osgDB::fileExists(tmsURI.full()) )
{
isNewRepo = true;
// new repo REQUIRES a profile:
if ( !profile )
{
return Status::Error(Status::ConfigurationError, "Fail: profile required to create new TMS repo");
}
}
// Take the override profile if one is given
if ( profile )
{
OE_INFO << LC
<< "Using express profile \"" << getProfile()->toString()
<< "\" for URI \"" << tmsURI.base() << "\""
<< std::endl;
DataExtentList extents;
_tileMap = TMS::TileMap::create(
_options.url()->full(),
profile,
extents,
_options.format().value(),
256,
256);
//getPixelsPerTile(),
//getPixelsPerTile() );
// If this is a new repo, write the tilemap file to disk now.
if ( isNewRepo )
{
if ( !_options.format().isSet() )
{
return Status::Error(Status::ConfigurationError, "Missing required \"format\" property: e.g. png, jpg");
}
TMS::TileMapReaderWriter::write( _tileMap.get(), tmsURI.full() );
OE_INFO << LC << "Created new TMS repo at " << tmsURI.full() << std::endl;
}
}
else
{
// Attempt to read the tile map parameters from a TMS TileMap XML tile on the server:
_tileMap = TMS::TileMapReaderWriter::read( tmsURI.full(), _dbOptions.get() );
if (!_tileMap.valid())
{
return Status::Error( Status::ResourceUnavailable, Stringify() << "Failed to read configuration from " << tmsURI.full() );
}
OE_INFO << LC
<< "TMS tile map datestamp = "
<< DateTime(_tileMap->getTimeStamp()).asRFC1123()
<< std::endl;
profile = _tileMap->createProfile();
if ( profile )
setProfile( profile );
}
// Make sure we've established a profile by this point:
if ( !profile )
{
return Status::Error( Stringify() << "Failed to establish a profile for " << tmsURI.full() );
}
// resolve the writer
if ( !tmsURI.isRemote() && !resolveWriter() )
{
OE_WARN << LC << "Cannot create writer; writing disabled" << std::endl;
}
// TileMap and profile are valid at this point. Build the tile sets.
// Automatically set the min and max level of the TileMap
if ( _tileMap->getTileSets().size() > 0 )
{
OE_DEBUG << LC << "TileMap min/max " << _tileMap->getMinLevel() << ", " << _tileMap->getMaxLevel() << std::endl;
if (_tileMap->getDataExtents().size() > 0)
{
for (DataExtentList::iterator itr = _tileMap->getDataExtents().begin(); itr != _tileMap->getDataExtents().end(); ++itr)
{
this->getDataExtents().push_back(*itr);
}
}
}
return STATUS_OK;
}
void
PlaceNode::init()
{
Decluttering::setEnabled( this->getOrCreateStateSet(), true );
osgEarth::clearChildren( getPositionAttitudeTransform() );
_geode = new osg::Geode();
// ensure that (0,0,0) is the bounding sphere control/center point.
// useful for things like horizon culling.
_geode->setComputeBoundingSphereCallback(new ControlPointCallback());
osg::Drawable* text = 0L;
// If there's no explicit text, look to the text symbol for content.
if ( _text.empty() && _style.has<TextSymbol>() )
{
_text = _style.get<TextSymbol>()->content()->eval();
}
osg::ref_ptr<const InstanceSymbol> instance = _style.get<InstanceSymbol>();
// backwards compability, support for deprecated MarkerSymbol
if ( !instance.valid() && _style.has<MarkerSymbol>() )
{
instance = _style.get<MarkerSymbol>()->convertToInstanceSymbol();
}
const IconSymbol* icon = instance->asIcon();
if ( !_image.valid() )
{
URI imageURI;
if ( icon )
{
if ( icon->url().isSet() )
{
imageURI = icon->url()->evalURI();
}
else if (icon->getImage())
{
_image = icon->getImage();
}
}
if ( !imageURI.empty() )
{
_image = imageURI.getImage( _dbOptions.get() );
}
}
osg::BoundingBox imageBox(0,0,0,0,0,0);
// found an image; now format it:
if ( _image.get() )
{
// Scale the icon if necessary
double scale = 1.0;
if ( icon && icon->scale().isSet() )
{
scale = icon->scale()->eval();
}
double s = scale * _image->s();
double t = scale * _image->t();
// this offset anchors the image at the bottom
osg::Vec2s offset;
if ( !icon || !icon->alignment().isSet() )
{
// default to bottom center
offset.set(0.0, t / 2.0);
}
else
{ // default to bottom center
switch (icon->alignment().value())
{
case IconSymbol::ALIGN_LEFT_TOP:
offset.set((s / 2.0), -(t / 2.0));
break;
case IconSymbol::ALIGN_LEFT_CENTER:
offset.set((s / 2.0), 0.0);
break;
case IconSymbol::ALIGN_LEFT_BOTTOM:
offset.set((s / 2.0), (t / 2.0));
break;
case IconSymbol::ALIGN_CENTER_TOP:
offset.set(0.0, -(t / 2.0));
break;
case IconSymbol::ALIGN_CENTER_CENTER:
offset.set(0.0, 0.0);
break;
case IconSymbol::ALIGN_CENTER_BOTTOM:
default:
offset.set(0.0, (t / 2.0));
break;
case IconSymbol::ALIGN_RIGHT_TOP:
offset.set(-(s / 2.0), -(t / 2.0));
break;
case IconSymbol::ALIGN_RIGHT_CENTER:
offset.set(-(s / 2.0), 0.0);
break;
case IconSymbol::ALIGN_RIGHT_BOTTOM:
offset.set(-(s / 2.0), (t / 2.0));
break;
}
}
// Apply a rotation to the marker if requested:
double heading = 0.0;
if ( icon && icon->heading().isSet() )
{
heading = osg::DegreesToRadians( icon->heading()->eval() );
}
//We must actually rotate the geometry itself and not use a MatrixTransform b/c the
//decluttering doesn't respect Transforms above the drawable.
osg::Geometry* imageGeom = AnnotationUtils::createImageGeometry( _image.get(), offset, 0, heading, scale );
if ( imageGeom )
{
_geode->addDrawable( imageGeom );
imageBox = osgEarth::Utils::getBoundingBox( imageGeom );
}
}
if ( _image.valid() )
{
TextSymbol* textSymbol = _style.getOrCreate<TextSymbol>();
if ( !textSymbol->alignment().isSet() )
textSymbol->alignment() = textSymbol->ALIGN_LEFT_CENTER;
}
text = AnnotationUtils::createTextDrawable(
_text,
_style.get<TextSymbol>(),
imageBox );
if ( text )
_geode->addDrawable( text );
osg::StateSet* stateSet = _geode->getOrCreateStateSet();
stateSet->setAttributeAndModes( new osg::Depth(osg::Depth::ALWAYS, 0, 1, false), 1 );
getPositionAttitudeTransform()->addChild( _geode );
// for clamping and occlusion culling
//OE_WARN << LC << "PlaceNode::applyStyle: " << _style.getConfig().toJSON(true) << std::endl;
applyStyle( _style );
setLightingIfNotSet( false );
// generate shaders:
Registry::shaderGenerator().run(
this,
"osgEarth.PlaceNode",
Registry::stateSetCache() );
setPriority(getPriority());
if ( _dynamic )
setDynamic( _dynamic );
updateLayoutData();
}
void
PlaceNode::init()
{
//reset.
this->clearDecoration();
getAttachPoint()->removeChildren(0, getAttachPoint()->getNumChildren());
_geode = new osg::Geode();
osg::Drawable* text = 0L;
// If there's no explicit text, look to the text symbol for content.
if ( _text.empty() && _style.has<TextSymbol>() )
{
_text = _style.get<TextSymbol>()->content()->eval();
}
osg::ref_ptr<const InstanceSymbol> instance = _style.get<InstanceSymbol>();
// backwards compability, support for deprecated MarkerSymbol
if ( !instance.valid() && _style.has<MarkerSymbol>() )
{
instance = _style.get<MarkerSymbol>()->convertToInstanceSymbol();
}
const IconSymbol* icon = instance->asIcon();
if ( !_image.valid() )
{
URI imageURI;
if ( icon )
{
if ( icon->url().isSet() )
{
imageURI = URI( icon->url()->eval(), icon->url()->uriContext() );
}
}
if ( !imageURI.empty() )
{
_image = imageURI.getImage( _dbOptions.get() );
}
}
// found an image; now format it:
if ( _image.get() )
{
// Scale the icon if necessary
double scale = 1.0;
if ( icon && icon->scale().isSet() )
{
scale = icon->scale()->eval();
}
double s = scale * _image->s();
double t = scale * _image->t();
// this offset anchors the image at the bottom
osg::Vec2s offset;
if ( !icon || !icon->alignment().isSet() )
{
// default to bottom center
offset.set(0.0, t / 2.0);
}
else
{ // default to bottom center
switch (icon->alignment().value())
{
case IconSymbol::ALIGN_LEFT_TOP:
offset.set((s / 2.0), -(t / 2.0));
break;
case IconSymbol::ALIGN_LEFT_CENTER:
offset.set((s / 2.0), 0.0);
break;
case IconSymbol::ALIGN_LEFT_BOTTOM:
offset.set((s / 2.0), (t / 2.0));
break;
case IconSymbol::ALIGN_CENTER_TOP:
offset.set(0.0, -(t / 2.0));
break;
case IconSymbol::ALIGN_CENTER_CENTER:
offset.set(0.0, 0.0);
break;
case IconSymbol::ALIGN_CENTER_BOTTOM:
default:
offset.set(0.0, (t / 2.0));
break;
case IconSymbol::ALIGN_RIGHT_TOP:
offset.set(-(s / 2.0), -(t / 2.0));
break;
case IconSymbol::ALIGN_RIGHT_CENTER:
offset.set(-(s / 2.0), 0.0);
break;
case IconSymbol::ALIGN_RIGHT_BOTTOM:
offset.set(-(s / 2.0), (t / 2.0));
break;
}
}
// Apply a rotation to the marker if requested:
double heading = 0.0;
if ( icon && icon->heading().isSet() )
{
heading = osg::DegreesToRadians( icon->heading()->eval() );
}
//We must actually rotate the geometry itself and not use a MatrixTransform b/c the
//decluttering doesn't respect Transforms above the drawable.
osg::Geometry* imageGeom = AnnotationUtils::createImageGeometry( _image.get(), offset, 0, heading, scale );
if ( imageGeom )
{
_geode->addDrawable( imageGeom );
}
text = AnnotationUtils::createTextDrawable(
_text,
_style.get<TextSymbol>(),
osg::Vec3( (offset.x() + (s / 2.0) + 2), offset.y(), 0 ) );
}
else
{
text = AnnotationUtils::createTextDrawable(
_text,
_style.get<TextSymbol>(),
osg::Vec3( 0, 0, 0 ) );
}
if ( text )
_geode->addDrawable( text );
osg::StateSet* stateSet = _geode->getOrCreateStateSet();
stateSet->setAttributeAndModes( new osg::Depth(osg::Depth::ALWAYS, 0, 1, false), 1 );
getAttachPoint()->addChild( _geode );
// for clamping and occlusion culling
//OE_WARN << LC << "PlaceNode::applyStyle: " << _style.getConfig().toJSON(true) << std::endl;
applyStyle( _style );
setLightingIfNotSet( false );
ShaderGenerator gen;
gen.setProgramName( "osgEarth.PlaceNode" );
gen.run( this, Registry::stateSetCache() );
// re-apply annotation drawable-level stuff as neccesary.
AnnotationData* ad = getAnnotationData();
if ( ad )
setAnnotationData( ad );
if ( _dynamic )
setDynamic( _dynamic );
}
/** override */
Status initialize( const osgDB::Options* dbOptions )
{
osg::ref_ptr<const Profile> result;
char sep = _options.url()->full().find_first_of('?') == std::string::npos? '?' : '&';
URI capUrl = _options.capabilitiesUrl().value();
if ( capUrl.empty() )
{
capUrl = URI(
_options.url()->full() +
sep +
std::string("SERVICE=WMS") +
std::string("&VERSION=") + _options.wmsVersion().value() +
std::string("&REQUEST=GetCapabilities") );
}
//Try to read the WMS capabilities
osg::ref_ptr<WMSCapabilities> capabilities = WMSCapabilitiesReader::read( capUrl.full(), dbOptions );
if ( !capabilities.valid() )
{
return Status::Error( Status::ResourceUnavailable, "Unable to read WMS GetCapabilities." );
}
else
{
OE_INFO << LC << "Got capabilities from " << capUrl.full() << std::endl;
}
if ( _formatToUse.empty() && capabilities.valid() )
{
_formatToUse = capabilities->suggestExtension();
OE_INFO << LC << "No format specified, capabilities suggested extension " << _formatToUse << std::endl;
}
if ( _formatToUse.empty() )
_formatToUse = "png";
if ( _srsToUse.empty() )
_srsToUse = "EPSG:4326";
std::string wmsFormatToUse = _options.wmsFormat().value();
//Initialize the WMS request prototype
std::stringstream buf;
// first the mandatory keys:
buf
<< std::fixed << _options.url()->full() << sep
<< "SERVICE=WMS"
<< "&VERSION=" << _options.wmsVersion().value()
<< "&REQUEST=GetMap"
<< "&LAYERS=" << _options.layers().value()
<< "&FORMAT=" << ( wmsFormatToUse.empty() ? std::string("image/") + _formatToUse : wmsFormatToUse )
<< "&STYLES=" << _options.style().value()
<< (_options.wmsVersion().value() == "1.3.0" ? "&CRS=" : "&SRS=") << _srsToUse
<< "&WIDTH="<< getPixelsPerTile()
<< "&HEIGHT=" << getPixelsPerTile()
<< "&BBOX=%lf,%lf,%lf,%lf";
// then the optional keys:
if ( _options.transparent().isSet() )
buf << "&TRANSPARENT=" << (_options.transparent() == true ? "TRUE" : "FALSE");
_prototype = "";
_prototype = buf.str();
//OE_NOTICE << "Prototype " << _prototype << std::endl;
osg::ref_ptr<SpatialReference> wms_srs = SpatialReference::create( _srsToUse );
// check for spherical mercator:
if ( wms_srs.valid() && wms_srs->isEquivalentTo( osgEarth::Registry::instance()->getGlobalMercatorProfile()->getSRS() ) )
{
result = osgEarth::Registry::instance()->getGlobalMercatorProfile();
}
else if (wms_srs.valid() && wms_srs->isEquivalentTo( osgEarth::Registry::instance()->getGlobalGeodeticProfile()->getSRS()))
{
result = osgEarth::Registry::instance()->getGlobalGeodeticProfile();
}
// Next, try to glean the extents from the layer list
if ( capabilities.valid() )
{
//TODO: "layers" mights be a comma-separated list. need to loop through and
//combine the extents?? yes
WMSLayer* layer = capabilities->getLayerByName( _options.layers().value() );
if ( layer )
{
double minx, miny, maxx, maxy;
minx = miny = maxx = maxy = 0;
//Check to see if the profile is equivalent to global-geodetic
if (wms_srs->isGeographic())
{
//Try to get the lat lon extents if they are provided
layer->getLatLonExtents(minx, miny, maxx, maxy);
//If we still don't have any extents, just default to global geodetic.
if (!result.valid() && minx == 0 && miny == 0 && maxx == 0 && maxy == 0)
{
result = osgEarth::Registry::instance()->getGlobalGeodeticProfile();
}
}
if (minx == 0 && miny == 0 && maxx == 0 && maxy == 0)
{
layer->getExtents(minx, miny, maxx, maxy);
}
if (!result.valid())
{
result = Profile::create( _srsToUse, minx, miny, maxx, maxy );
}
//Add the layer extents to the list of valid areas
if (minx != 0 || maxx != 0 || miny != 0 || maxy != 0)
{
GeoExtent extent( result->getSRS(), minx, miny, maxx, maxy);
getDataExtents().push_back( DataExtent(extent, 0) );
}
}
}
// Last resort: create a global extent profile (only valid for global maps)
if ( !result.valid() && wms_srs->isGeographic())
{
result = osgEarth::Registry::instance()->getGlobalGeodeticProfile();
}
// JPL uses an experimental interface called TileService -- ping to see if that's what
// we are trying to read:
URI tsUrl = _options.tileServiceUrl().value();
if ( tsUrl.empty() )
{
tsUrl = URI(_options.url()->full() + sep + std::string("request=GetTileService") );
}
OE_INFO << LC << "Testing for JPL/TileService at " << tsUrl.full() << std::endl;
_tileService = TileServiceReader::read(tsUrl.full(), dbOptions);
if (_tileService.valid())
{
OE_INFO << LC << "Found JPL/TileService spec" << std::endl;
TileService::TilePatternList patterns;
_tileService->getMatchingPatterns(
_options.layers().value(),
_formatToUse,
_options.style().value(),
_srsToUse,
getPixelsPerTile(),
getPixelsPerTile(),
patterns );
if (patterns.size() > 0)
{
result = _tileService->createProfile( patterns );
_prototype = _options.url()->full() + sep + patterns[0].getPrototype();
}
}
else
{
OE_INFO << LC << "No JPL/TileService spec found; assuming standard WMS" << std::endl;
}
// Use the override profile if one is passed in.
if ( getProfile() == 0L )
{
setProfile( result.get() );
}
if ( getProfile() )
{
OE_INFO << LC << "Profile=" << getProfile()->toString() << std::endl;
// set up the cache options properly for a TileSource.
_dbOptions = Registry::instance()->cloneOrCreateOptions( dbOptions );
return Status::OK();
}
else
{
return Status::Error( "Unable to establish profile" );
}
}
void Component::complete_path ( URI& path ) const
{
using namespace boost::algorithm;
// CFinfo << "PATH [" << path.string() << "]\n" << CFflush;
cf_assert( path.scheme() == URI::Scheme::CPATH );
if(path.empty())
path = "./";
if ( is_null(m_raw_parent) )
throw InvalidURI(FromHere(), "Component \'" + name() + "\' has no parent");
if (m_root.expired())
throw InvalidURI(FromHere(), "Component \'" + name() + "\' has no root");
boost::shared_ptr<Component> parent = m_raw_parent->self();
boost::shared_ptr<Component> root = m_root.lock();
std::string sp = path.path();
if ( path.is_relative() ) // transform it to absolute
{
if ( starts_with(sp,"/") ) // remove leading "/" if any
boost::algorithm::replace_first(sp, "/", "" );
// substitute leading "../" for uri() of parent
if (starts_with(sp,".."))
{
std::string pfp = parent->uri().path();
boost::algorithm::replace_first(sp, "..", pfp);
}
// substitute leading "./" for uri() of this component
else if (starts_with(sp,"."))
{
boost::algorithm::replace_first(sp, ".", uri().path());
}
else
{
sp = uri().path()+"/"+sp;
}
}
cf_assert ( URI(sp).is_absolute() );
// break path in tokens and loop on them, while concatenaitng to a new path
boost::char_separator<char> sep("/");
typedef boost::tokenizer<boost::char_separator<char> > tokenizer;
tokenizer tok (sp,sep);
path = "/" ;
std::string last;
for(tokenizer::iterator el=tok.begin(); el!=tok.end(); ++el)
{
if ( equals (*el, ".") ) continue; // substitute any "/./" for nothing
if ( equals (*el, "..") ) // substitute any "../" for base path
path = path.base_path();
else
path /= *el;
}
// CFinfo << "FINAL PATH: [" << path.string() << "]\n" << CFflush;
cf_assert ( path.is_complete() );
}
