A Ruby toolkit for managing geospatial metadata, including:
- tasks for cloning, updating, and indexing OpenGeoMetadata metadata
- library for converting metadata between standards
Add this line to your application's Gemfile
:
gem 'geo_combine'
And then execute:
$ bundle install
Or install it yourself as:
$ gem install geo_combine
GeoCombine provides several classes representing different metadata standards that implement the #to_geoblacklight
method for generating records in the GeoBlacklight JSON format:
GeoCombine::Iso19139 # ISO 19139 XML
GeoCombine::OGP # OpenGeoPortal JSON
GeoCombine::Fgdc # FGDC XML
GeoCombine::EsriOpenData # Esri Open Data Portal JSON
GeoCombine::CkanMetadata # CKAN JSON
An example for converting an ISO 19139 XML record:
# Create a new ISO19139 object
> iso_metadata = GeoCombine::Iso19139.new('./tmp/opengeometadata/edu.stanford.purl/bb/338/jh/0716/iso19139.xml')
# Convert to GeoBlacklight's metadata format
> iso_metadata.to_geoblacklight
# Output it as JSON instead of a Ruby hash
> iso_metadata.to_geoblacklight.to_json
Some formats also support conversion into HTML for display in a web browser:
# Create a new ISO19139 object
> iso_metadata = GeoCombine::Iso19139.new('./tmp/opengeometadata/edu.stanford.purl/bb/338/jh/0716/iso19139.xml')
# Convert ISO to HTML
> iso_metadata.to_html
You can use the GeoCombine::Migrators
to migrate metadata from one schema to another.
Currently, the only migrator is GeoCombine::Migrators::V1AardvarkMigrator
which migrates from the GeoBlacklight v1 schema to the Aardvark schema
# Load a record in geoblacklight v1 schema
record = JSON.parse(File.read('.spec/fixtures/docs/full_geoblacklight.json'))
# Migrate it to Aardvark schema
GeoCombine::Migrators::V1AardvarkMigrator.new(v1_hash: record).run
Some fields cannot be migrated automatically. To handle the migration of collection names to IDs when migrating from v1 to Aardvark, you can provide a mapping of collection names to IDs to the migrator:
# You can store this mapping as a JSON or CSV file and load it into a hash
id_map = {
'My Collection 1' => 'institution:my-collection-1',
'My Collection 2' => 'institution:my-collection-2'
}
GeoCombine::Migrators::V1AardvarkMigrator.new(v1_hash: record, collection_id_map: id_map).run
Some of the tools and scripts in this gem use Ruby's Logger
class to print information to $stderr
. By default, the log level is set to Logger::INFO
. For more verbose information, you can set the LOG_LEVEL
environment variable to DEBUG
:
$ LOG_LEVEL=DEBUG bundle exec rake geocombine:clone
$ bundle exec rake geocombine:clone
Will clone all edu.*
, org.*
, and uk.*
OpenGeoMetadata repositories into ./tmp/opengeometadata
. Location of the OpenGeoMetadata repositories can be configured using the OGM_PATH
environment variable.
$ OGM_PATH='my/custom/location' bundle exec rake geocombine:clone
You can also specify a single repository:
$ bundle exec rake geocombine:clone[edu.stanford.purl]
Note: If you are using zsh, you will need to use escape characters in front of the brackets:
$ bundle exec rake geocombine:clone\[edu.stanford.purl\]
$ bundle exec rake geocombine:pull
Runs git pull origin master
on all cloned repositories in ./tmp/opengeometadata
(or custom path with configured environment variable OGM_PATH
).
You can also specify a single repository:
$ bundle exec rake geocombine:pull[edu.stanford.purl]
Note: If you are using zsh, you will need to use escape characters in front of the brackets:
$ bundle exec rake geocombine:pull\[edu.stanford.purl\]
To index into Solr, GeoCombine requires a Solr instance that is running the GeoBlacklight schema:
$ bundle exec rake geocombine:index
If Blacklight is installed in the ruby environment and a solr index is configured, the rake task will use the solr index configured in the Blacklight application (this is the case when invoking GeoCombine from your GeoBlacklight installation). If Blacklight is unavailable, the rake task will try to find a Solr instance running at http://localhost:8983/solr/blacklight-core
.
You can also set a the Solr instance URL using SOLR_URL
:
$ SOLR_URL=http://www.example.com:1234/solr/collection bundle exec rake geocombine:index
By default, GeoCombine will index only records using the Aardvark metadata format. If you instead want to index records using an older format (e.g. because your GeoBlacklight instance is version 3 or older), you can set the SCHEMA_VERSION
environment variable:
# Only index schema version 1.0 records
$ SCHEMA_VERSION=1.0 bundle exec rake geocombine:index
GeoCombine provides a Harvester class and rake task to harvest and index content from GeoBlacklight sites (or any site that follows the Blacklight API format). Given that the configurations can change from consumer to consumer and site to site, the class provides a relatively simple configuration API. This can be configured in an initializer, a wrapping rake task, or any other ruby context where the rake task our class would be invoked.
bundle exec rake geocombine:geoblacklight_harvester:index[YOUR_CONFIGURED_SITE_KEY]
Only the sites themselves are required to be configured but there are various configuration options that can (optionally) be supplied to modify the harvester's behavior.
GeoCombine::GeoBlacklightHarvester.configure do
{
commit_within: '10000',
crawl_delay: 1, # All sites
debug: true,
SITE1: {
crawl_delay: 2, # SITE1 only
host: 'https://geoblacklight.example.edu',
params: {
f: {
dct_provenance_s: ['Institution']
}
}
},
SITE2: {
host: 'https://geoportal.example.edu',
params: {
q: '*'
}
}
}
end
Crawl delays can be configured (in seconds) either globally for all sites or on a per-site basis. This will cause a delay for that number of seconds between each search results page (note that Blacklight 7 necessitates a lot of requests per results page and this only causes the delay per page of results)
Solr's commitWithin option can be configured (in milliseconds) by passing a value under the commit_within key.
You may need to transform documents that are harvested for various purposes (removing fields, adding fields, omitting a document all together, etc). You can configure some ruby code (a proc) that will take the document in, transform it, and return the transformed document. By default the indexer will remove the score
, timestamp
, and _version_
fields from the documents harvested. If you provide your own transformer, you'll likely want to remove these fields in addition to the other transformations you provide.
GeoCombine::GeoBlacklightIndexer.document_transformer = -> (document) do
# Removes "bogus_field" from the content we're harvesting
# in addition to some other solr fields we don't want
%w[_version_ score timestamp bogus_field].each do |field|
document.delete(field)
end
document
end
To run the tests, use:
$ bundle exec rake spec
- Fork it ( https://github.com/[my-github-username]/GeoCombine/fork )
- Create your feature branch (
git checkout -b my-new-feature
) - Commit your changes (
git commit -am 'Add some feature'
) - Push to the branch (
git push origin my-new-feature
) - Create a new Pull Request