Working with Documents
When you have data ready in your database, you need a way to access it in order to manipulate it through your application. There are three ways to do this:
- Retrieving Documents through the Java API.
- Querying Documents through SQL.
- Traversing Documents through the Java Traverse API.
Retrieving Documents
Using the Java API, you can retrieve documents into an object or access the database otherwise using the ODocument
object. If you're more comfortable working in Java than SQL, this solution may work best for you.
-
Browse all documents in a cluster:
for (ODocument doc : database.browserCluster("CityCars")) { System.out.println(doc.field("model")); }
-
Browe all records in a class:
for (ODocument animal : database.browseClass("Animal")) { System.out.println(animal.field("name")); }
-
Count records in a class:
long cars = database.countClass("Cars");
-
Count records in a cluster:
long cityCars = database.countCLuster("CityCar");
Querying Documents
While OrientDB is a NoSQL database implementation, it does support a subset of SQL. This allows it to process links to documents and graphs. For example,
List<ODocument> result = db.query(
new OSQLQuery<ODocument>(
"SELECT FROM Animal WHERE id = 10
AND NAME LIKE 'G%'"
)
);
For more information on the OrientDB syntax, see SQL.
NOTE: OrientDB is a Graph Database. This means that it is very efficient at traversals. You can use this feature to optimize your queries, such as with pivoting.
Asynchronous Queries
In addition to the standard SQL queries, OrientDB also has support for asynchronous queries. Here, the result is not collected and returned in a synchronous manner, (as above), but rather it uses a callback every time it finds a record that satisfies the predicates.
database.command(
new OSQLAsynchQuery<ODocument>(
"SELECT FROM Animal WHERE name = 'Gipsy'",
new OCommandResultListener() {
resultCount = 0;
@Override
public boolean result(Object iRecord) {
resultCount++;
ODocument doc = (ODocument) iRecord;
// ENTER YOUR CODE TO WORK WITH DOCUMENT
return resultCount > 20 ? false: true;
}
@Override
public void end() {}
}
)
).execute();
When OrientDB executes an asynchronous query, it only needs to allocate memory for each of the individual callbacks as it encounters them. You may find this a huge benefit in cases where you need to work with large result-sets. Asynchronous Query are not designed for data manipulation, avoid executed update or transaction inside the listener code.
Non-Blocking Queries
Both synchronous and asynchronous queries are blocking queries. What this means is that the first instruction you issue after db.query()
or db.command().execute()
executes only after you invoke the last callback or receive the complete result-set.
Beginning in version 2.1, OrientDB introduces support for non-blocking queries. These use a similar API to asynchronous queries. That is, you have a callback that gets invoked for every record in the result-set. However, the behavior is very different. Execution on the current thread continues without blocking on db.query()
or db.command().execute()
while it invokes the callback on a different thread. This means that you can close the database instance while still receiving callbacks from the query result.
Future future = database.command(
new OSQLNonBlockingQuery<Object>(
"SELECT FROM Animal WHERE name = 'Gipsy'",
new CommandResultListener(){
resultCount = 0;
@Override
public boolean result(Object iRecord){
// ENTER YOUR CODE HERE
System.out.print("callback "+resultCount+" invoked");
return resultCount > 20 ? false: true;
}
@Override
public void end(){}
}
)
).execute();
System.outprintln("query executed");
future.get();
When the code executes, the results look something like this:
query executed
callback 0 invoked
callback 1 invoked
callback 2 invoked
callback 3 invoked
callback 4 invoked
You might also get results something like this:
query executed
callback 0 invoked
callback 1 invoked
query executed
callback 2 invoked
callback 3 invoked
callback 4 invoked
Whether this occurs depends on race conditions on the two parallel threads. That is, a case where one fires the query execution and then continues with "query executed", while the other invokes the callbacks.
The future.get()
method is a blocking call that returns only after the last callback invocation. You can avoid this in cases where you don't need to know when the query terminates.
Prepared Queries
Similar to the Prepared Statement of JDBC, OrientDB now supports prepared queries. With prepared queries, the database pre-parses the query so that, in cases of multiple executions of the same query, they run faster than the class SQL queries. Furthermore, the pre-parsing mitigates SQL Injection.
Prepared queries use two kinds of markers to substitute parameters on execution:
-
?
Syntax is used in reference to position parameters. For instance,OSQLSynchQuery<ODocument> query = new OSQLSynchQuery<ODocument>( "SELECT FROM Profile WHERE name = ? AND surname = ?" ); List<ODocument> result = database.command(query).execute("Barack", "Obama");
-
:<parameter>
Syntax is used in reference to named parameters. For instance,OSQLSynchQuery<ODocument> query = new OSQLSynchQuery<ODocument>( "SELECT FROM Profile WHERE name = :name AND surname = :surname" ); Map<String,Object> params = new HashMap<String,Object>(); params.put("name", "Barack"); params.put("surname", "Obama"); List<ODocument> result = database.command(query).execute(params);
NOTE: With prepared queries, the parameter substitution feature only works with
SELECT
statements. It does not work withSELECT
statements nested with other query types, such asCREATE VERTEX
.
SQL Commands
In addition to queries, you can also execute SQL commands through the Java API. These require that you use the .command()
method, passing it an OCommandSQL
object. For instance,
int recordsUpdated = db.comamnd(
new OCommandSQL("UPDATE Animal SET sold = false"
).execute();
When the command modifies the schema, such as CREATE CLASS
or ALTER PROPERTY
, remember that you also need to force a schema update on the database instance you're using.
db.getMetadata().getSchema().reload();
Traversing Documents
When using SQL, the process of combining two or more tables is handled through joins. Since OrientDB is a Graph Database, it can operate across documents by traversing links. This is much more efficient than the SQL join. For more information, see Java Traverse API.
In the example below, the application operates on a database with information on movies. It traverses each movie instance following links up to the fifth depth level:
for (OIdentifiable id : new OTraverse()
.field("in").field("out")
.target(database.browseClass("Movie").iterator())
.predicate(new OCommandPredicate() {
public boolean evaluate(ORecord<?> iRecord, OCommandContext iContext) {
return ((Integer) iContext.getVariable("depth")) <= 5;
}
})
){
System.out.println(id);
}