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Europeana Metadata Quality Assurance API

The common Java API for all Europeana metadata quality assurance related projects. This API is based on the general Metadata Quality Assurance API project. All the Java classes of this project are extend or implement a type in the API.

Usage

The central class (and usually this is the only one you have to use) is the EdmCalculatorFacade (in the de.gwdg.europeanaqa.api.calculator namespace). You have to do two things:

  1. configure the object - i.e. deciding which metrics you want to run on the records
  2. run the meausements
  3. retrieve the results

1. Configuration

The result will contain a bunch of information depending on the configuration. The information blocks are:

  1. Extracted fields from the JSON record: identifier, dataset and data provider
  2. Completeness
    1. Existence of fields (if a field exists it gets 1, otherwise 0)
    2. Cardinality of fields (how many times a field exists in a record)
  3. Uniqueness values of (at the time of writing) three fields: dc:title, dcterms:alterative, dc:description. Each values appear in two flavors: an aggregated one and an average
  4. Problem catalog. You can check existence of known metadata problems in a record. The score gives you the number of times they appear in the record. Right now there are 3 problems defined: „long subject”, „ientical title and description”, and „empty strings”.
  5. Encountering languages. It gives you a different return value - the codes used in the language attribute of a string value. Since it requires a different post-processing method it might worth to run in a separate batch process.

The parameters you can set:

  1. runFieldExistence(boolean) configure to run the existence measurement (see #2.i in the above list)
  2. runFieldCardinality(boolean) configure to run the cardinality measurement (see #2.ii in the above list)
  3. runCompleteness(boolean) configure to run the completeness measurement (see #2 in the above list)
  4. runTfIdf(boolean) configure to run the uniqueness measurement (see #4 in the above list)
  5. runProblemCatalog(boolean) configure to run the problem catalog measurement (see #5 in the above list)
  6. runLanguage(boolean) configure to run the language measurement (see #6 in the above list)

Other options:

  • verbose(boolean) The completeness calculation will collect empty, existent and missing fields
  • abbreviate(boolean) The field extractor will use a predefined dictionary to translate dataset and data provider names to numbers (which makes the output CSV smaller)
  • collectTfIdfTerms(boolean) If it is set, the measurement will collect each individual terms with their Term Ferquency and Invers Document Frequency scores.

When you set the values, you have to issue

 calculator.configure();

to make everything prepared.

2. Run measurement

To run the measurement you have to call measure(String) method with the JSON string as the parameter. It parses JSON and if it finds invalid throws com.jayway.jsonpath.InvalidJsonException error. The method return the result as CSV (Comma Separated Values) string.

try {
    String csv = calculator.measure(jsonRecord);
} catch (InvalidJsonException e) {
    // handle exception
}

3. Retrieve the results

The measure() method already returns a CSV string, but you might want more.

  • Map<String, Double> getResults() returns the raw scores in a Map
  • List<String> getExistingFields() returns the list of existing fields
  • List<String> getEmptyFields() returns the list of empty fields
  • List<String> getMissingFields() returns the list of missing fields
  • Map<String, List<TfIdf>> getTermsCollection() returns the TF-IDF term list

Examples

Note: these examples are for illustrating the API usage, when you write real code, organize it according to the general design and code organization principles.

Most general usage: measuring scores

The first step the class provides a number of configuration options.

import de.gwdg.europeanaqa.api.calculator.EdmCalculatorFacade;
import com.jayway.jsonpath.InvalidJsonException;

...
// create an instance and configure the object
EdmCalculatorFacade calculator = new EdmCalculatorFacade();
calculator.doAbbreviate(true);
calculator.runCompleteness(true);
calculator.runFieldCardinality(true);
calculator.runFieldExistence(true);
calculator.runTfIdf(false);
calculator.runProblemCatalog(true);
calculator.configure();

List<String> jsonRecords = ... // read JSON records from file/database
List<String> metrics = new ArrayList<>();
for (String jsonRecord : jsonRecords) {
   try {
      metrics.add(calculator.measure(jsonRecord));
   } catch (InvalidJsonException e) {
      // handle exception
   }
}

Returning a JSON object (if you want to create a REST API)

First, create a Result object which is a simple placeholder for all the data:

public class Result {
   private List<String> existingFields;
   private List<String> missingFields;
   private List<String> emptyFields;
   private Map<String, Double> results;
   private Map<String, List<TfIdf>> termsCollection;

   public Result() {} // a parameterless constructor is need for JSON converter

   ... // getters and setters come here
}

The main class:

EdmCalculatorFacade calculator = new EdmCalculatorFacade();
calculator.abbreviate(true);
calculator.runCompleteness(true);
calculator.runFieldCardinality(true);
calculator.runFieldExistence(true);
calculator.runTfIdf(true);
calculator.runProblemCatalog(true);
calculator.collectTfIdfTerms(true);
calculator.verbose(true);
calculator.configure();

Result result = null;
try {
    calculator.measure(jsonRecord);

    result = new Result();
    result.setResults(calculator.getResults());
    result.setExistingFields(calculator.getExistingFields());
    result.setMissingFields(calculator.getMissingFields());
    result.setEmptyFields(calculator.getEmptyFields());
    result.setTermsCollection(calculator.getTermsCollection());
} catch (InvalidJsonException e) {
   // handle exception
}

String resultAsJson = null;
if (result != null) {
   ObjectMapper mapper = new ObjectMapper();
   try {
      resultAsJson = mapper.writeValueAsString(result);
   } catch (IOException ex) {
      // handle exception
   }
}

return resultAsJson;

Measuring language usage

EdmCalculatorFacade calculator = new EdmCalculatorFacade();
calculator.abbreviate(true);
calculator.runCompleteness(false);
calculator.runFieldCardinality(false);
calculator.runFieldExistence(false);
calculator.runTfIdf(false);
calculator.runProblemCatalog(false);
calculator.runLanguage(true);
calculator.configure();

List<String> jsonRecords = ... // read JSON records from file/database
List<String> metrics = new ArrayList<>();
for (String jsonRecord : jsonRecords) {
   try {
      metrics.add(calculator.measure(jsonRecord));
   } catch (InvalidJsonException e) {
      // handle exception
   }
}

This CSV is a bit different in nature than the basic one. Here is an excerpt:

31,558,02301/urn_imss_biography_300020,it:1;en:1,_1:1,it:1;en:1,_1:1,it:1,_1:1,it:1;en:1,_0:1,_0:2,_1:1,...

As you can see the first three fields are the same as for the basic one (data provider, dataset and record id). After that however there are special units, which takes the form:

[language 1]:[count];[language 2]:[count];[language 3]:[count]...

where

  • [language 1], [language 2] etc. means the language code as it appears in the record. There are special codes as well:
    • _0: no language code specified
    • _1: the field is missing (the very same information that of field existence metric)
    • _2: the field is a resource (it contains a URL and tagged as resource)
  • [count] means the number of times a language appears in field instances

For example the following JSON fragment

"dc:title": [
  "Hamlet",
  {
    "@lang": "en",
    "#value": "Hamlet"
  }
]

will produce

_0:1;en:1

because the first Hamlet doesn't have any language code specified, and the second one has "en".

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