javax.jdo
Interface Query

All Superinterfaces:
java.io.Serializable

public interface Query
extends java.io.Serializable

The Query interface allows applications to obtain persistent instances, values, and aggregate data from the data store. The PersistenceManager is the factory for Query instances. There may be many Query instances associated with a PersistenceManager. Multiple queries might be executed simultaneously by different threads, but the implementation might choose to execute them serially. In either case, the implementation must be thread safe.

There are three required elements in a Query: the class of the results, the candidate collection of instances, and the filter.

There are optional elements: parameter declarations, variable declarations, import statements, ordering and grouping specifications, result and result class, the range of results, and flags indicating whether the query result is unique and whether the query can be modified.

The query namespace is modeled after methods in Java:

There are two namespaces in queries. Type names have their own namespace that is separate from the namespace for fields, variables and parameters.

The method setClass introduces the name of the candidate class in the type namespace. The method declareImports introduces the names of the imported class or interface types in the type namespace. Imported type names must be unique. When used (e.g. in a parameter declaration, cast expression, etc.) a type name must be the name of the candidate class, the name of a class or interface imported by method declareImports, or denote a class or interface from the same package as the candidate class.

The method setClass introduces the names of the candidate class fields.

The method declareParameters introduces the names of the parameters. A name introduced by declareParameters hides the name of a candidate class field of the same name. Parameter names must be unique.

The method declareVariables introduces the names of the variables. A name introduced by declareVariables hides the name of a candidate class field if equal. Variable names must be unique and must not conflict with parameter names.

The result of the query by default is a list of result class instances, but might be specified via setResult. The class of the result by default is the candidate class, but might be specified via setResultClass.

A hidden field may be accessed using the 'this' qualifier: this.fieldName.

The Query interface provides methods which execute the query based on the parameters given. They return a single instance or a List of result class instances which the user can iterate to get results. The signature of the execute methods specifies that they return an Object which must be cast to the appropriate result by the user.

Any parameters passed to the execute methods are used only for this execution, and are not remembered for future execution.

Version:
2.1

Field Summary
static java.lang.String JDOQL
          The string constant used as the first argument to PersistenceManager.newQuery(String,Object) to identify that the created query should obey the JDOQL syntax and semantic rules.
static java.lang.String SQL
          The string constant used as the first argument to PersistenceManager.newQuery(String,Object) to identify that the created query should use SQL semantics.
 
Method Summary
 void addExtension(java.lang.String key, java.lang.Object value)
          Add a vendor-specific extension to this query.
 void addSubquery(Query sub, java.lang.String variableDeclaration, java.lang.String candidateCollectionExpression)
          Add a subquery to this query.
 void addSubquery(Query sub, java.lang.String variableDeclaration, java.lang.String candidateCollectionExpression, java.util.Map parameters)
          Add a subquery to this query.
 void addSubquery(Query sub, java.lang.String variableDeclaration, java.lang.String candidateCollectionExpression, java.lang.String parameter)
          Add a subquery to this query.
 void addSubquery(Query sub, java.lang.String variableDeclaration, java.lang.String candidateCollectionExpression, java.lang.String[] parameters)
          Add a subquery to this query.
 void close(java.lang.Object queryResult)
          Close a query result and release any resources associated with it.
 void closeAll()
          Close all query results associated with this Query instance, and release all resources associated with them.
 void compile()
          Verify the elements of the query and provide a hint to the query to prepare and optimize an execution plan.
 void declareImports(java.lang.String imports)
          Set the import statements to be used to identify the fully qualified name of variables or parameters.
 void declareParameters(java.lang.String parameters)
          Declare the list of parameters query execution.
 void declareVariables(java.lang.String variables)
          Declare the unbound variables to be used in the query.
 long deletePersistentAll()
          Deletes all the instances of the candidate class that pass the filter.
 long deletePersistentAll(java.util.Map parameters)
          Deletes all the instances of the candidate class that pass the filter.
 long deletePersistentAll(java.lang.Object[] parameters)
          Deletes all the instances of the candidate class that pass the filter.
 java.lang.Object execute()
          Execute the query and return the filtered Collection.
 java.lang.Object execute(java.lang.Object p1)
          Execute the query and return the filtered Collection.
 java.lang.Object execute(java.lang.Object p1, java.lang.Object p2)
          Execute the query and return the filtered Collection.
 java.lang.Object execute(java.lang.Object p1, java.lang.Object p2, java.lang.Object p3)
          Execute the query and return the filtered Collection.
 java.lang.Object executeWithArray(java.lang.Object[] parameters)
          Execute the query and return the filtered Collection.
 java.lang.Object executeWithMap(java.util.Map parameters)
          Execute the query and return the filtered Collection.
 FetchPlan getFetchPlan()
          Returns the FetchPlan used by this Query.
 boolean getIgnoreCache()
          Get the ignoreCache option setting.
 PersistenceManager getPersistenceManager()
          Get the PersistenceManager associated with this Query.
 boolean isUnmodifiable()
          The unmodifiable flag, when set, disallows further modification of the query, except for specifying the range, result class, and ignoreCache option.
 void setCandidates(java.util.Collection pcs)
          Set the candidate Collection to query.
 void setCandidates(Extent pcs)
          Set the candidate Extent to query.
 void setClass(java.lang.Class cls)
          Set the class of the candidate instances of the query.
 void setExtensions(java.util.Map extensions)
          Set multiple extensions, or use null to clear all extensions.
 void setFilter(java.lang.String filter)
          Set the filter for the query.
 void setGrouping(java.lang.String group)
          Set the grouping expressions, optionally including a "having" clause.
 void setIgnoreCache(boolean ignoreCache)
          Set the ignoreCache option.
 void setOrdering(java.lang.String ordering)
          Set the ordering specification for the result Collection.
 void setRange(long fromIncl, long toExcl)
          Set the range of results to return.
 void setRange(java.lang.String fromInclToExcl)
          Set the range of results to return.
 void setResult(java.lang.String data)
          Specifies what type of data this query should return.
 void setResultClass(java.lang.Class cls)
          Specify the type of object in which to return each element of the result of invoking execute() or one of its siblings.
 void setUnique(boolean unique)
          Specify that only the first result of the query should be returned, rather than a collection.
 void setUnmodifiable()
          The unmodifiable flag, when set, disallows further modification of the query, except for specifying the range, result class, and ignoreCache option.
 

Field Detail

JDOQL

static final java.lang.String JDOQL
The string constant used as the first argument to PersistenceManager.newQuery(String,Object) to identify that the created query should obey the JDOQL syntax and semantic rules.

This is the default query language used when creating a query with any of the other PersistenceManager.newQuery() methods, except PersistenceManager.newQuery(Object), which uses the query language of the compiled query template object passed to that method.

Since:
2.0
See Also:
Constant Field Values

SQL

static final java.lang.String SQL
The string constant used as the first argument to PersistenceManager.newQuery(String,Object) to identify that the created query should use SQL semantics. This is only meaningful for relational JDO implementations.

If this is used, the Object argument to the PersistenceManager.newQuery(String,Object) method should be a String containing a SQL SELECT statement.

Since:
2.0
See Also:
Constant Field Values
Method Detail

setClass

void setClass(java.lang.Class cls)
Set the class of the candidate instances of the query.

The class specifies the class of the candidates of the query. Elements of the candidate collection that are of the specified class are filtered before being put into the result Collection.

Parameters:
cls - the Class of the candidate instances.

setCandidates

void setCandidates(Extent pcs)
Set the candidate Extent to query.

Parameters:
pcs - the candidate Extent.

setCandidates

void setCandidates(java.util.Collection pcs)
Set the candidate Collection to query.

Parameters:
pcs - the candidate Collection.

setFilter

void setFilter(java.lang.String filter)
Set the filter for the query.

The filter specification is a String containing a Boolean expression that is to be evaluated for each of the instances in the candidate collection. If the filter is not specified, then it defaults to "true", which has the effect of filtering the input Collection only for class type.

An element of the candidate collection is returned in the result if:

The user may denote uniqueness in the filter expression by explicitly declaring an expression (for example, e1 != e2).

Rules for constructing valid expressions follow the Java language, except for these differences:

Identifiers in the expression are considered to be in the name space of the specified class, with the addition of declared imports, parameters and variables. As in the Java language, this is a reserved word which means the element of the collection being evaluated.

Navigation through single-valued fields is specified by the Java language syntax of field_name.field_name....field_name.

A JDO implementation is allowed to reorder the filter expression for optimization purposes.

Parameters:
filter - the query filter.

declareImports

void declareImports(java.lang.String imports)
Set the import statements to be used to identify the fully qualified name of variables or parameters. Parameters and unbound variables might come from a different class from the candidate class, and the names need to be declared in an import statement to eliminate ambiguity. Import statements are specified as a String with semicolon-separated statements.

The String parameter to this method follows the syntax of the import statement of the Java language.

Parameters:
imports - import statements separated by semicolons.

declareParameters

void declareParameters(java.lang.String parameters)
Declare the list of parameters query execution. The parameter declaration is a String containing one or more query parameter declarations separated with commas. Each parameter named in the parameter declaration must be bound to a value when the query is executed.

The String parameter to this method follows the syntax for formal parameters in the Java language.

Parameters:
parameters - the list of parameters separated by commas.

declareVariables

void declareVariables(java.lang.String variables)
Declare the unbound variables to be used in the query. Variables might be used in the filter, and these variables must be declared with their type. The unbound variable declaration is a String containing one or more unbound variable declarations separated with semicolons. It follows the syntax for local variables in the Java language.

Parameters:
variables - the variables separated by semicolons.

setOrdering

void setOrdering(java.lang.String ordering)
Set the ordering specification for the result Collection. The ordering specification is a String containing one or more ordering declarations separated by commas.

Each ordering declaration is the name of the field on which to order the results followed by one of the following words: "ascending" or "descending".

The field must be declared in the candidate class or must be a navigation expression starting with a field in the candidate class.

Valid field types are primitive types except boolean; wrapper types except Boolean; BigDecimal; BigInteger; String; and Date.

Parameters:
ordering - the ordering specification.

setIgnoreCache

void setIgnoreCache(boolean ignoreCache)
Set the ignoreCache option. The default value for this option was set by the PersistenceManagerFactory or the PersistenceManager used to create this Query. The ignoreCache option setting specifies whether the query should execute entirely in the back end, instead of in the cache. If this flag is set to true, an implementation might be able to optimize the query execution by ignoring changed values in the cache. For optimistic transactions, this can dramatically improve query response times.

Parameters:
ignoreCache - the setting of the ignoreCache option.

getIgnoreCache

boolean getIgnoreCache()
Get the ignoreCache option setting.

Returns:
the ignoreCache option setting.
See Also:
setIgnoreCache(boolean)

compile

void compile()
Verify the elements of the query and provide a hint to the query to prepare and optimize an execution plan.


execute

java.lang.Object execute()
Execute the query and return the filtered Collection.

Returns:
the filtered Collection.
See Also:
executeWithArray(Object[] parameters)

execute

java.lang.Object execute(java.lang.Object p1)
Execute the query and return the filtered Collection.

Parameters:
p1 - the value of the first parameter declared.
Returns:
the filtered Collection.
See Also:
executeWithArray(Object[] parameters)

execute

java.lang.Object execute(java.lang.Object p1,
                         java.lang.Object p2)
Execute the query and return the filtered Collection.

Parameters:
p1 - the value of the first parameter declared.
p2 - the value of the second parameter declared.
Returns:
the filtered Collection.
See Also:
executeWithArray(Object[] parameters)

execute

java.lang.Object execute(java.lang.Object p1,
                         java.lang.Object p2,
                         java.lang.Object p3)
Execute the query and return the filtered Collection.

Parameters:
p1 - the value of the first parameter declared.
p2 - the value of the second parameter declared.
p3 - the value of the third parameter declared.
Returns:
the filtered Collection.
See Also:
executeWithArray(Object[] parameters)

executeWithMap

java.lang.Object executeWithMap(java.util.Map parameters)
Execute the query and return the filtered Collection. The query is executed with the parameters set by the Map values. Each Map entry consists of a key which is the name of the parameter in the declareParameters method, and a value which is the value used in the execute method. The keys in the Map and the declared parameters must exactly match or a JDOUserException is thrown.

Parameters:
parameters - the Map containing all of the parameters.
Returns:
the filtered Collection.
See Also:
executeWithArray(Object[] parameters)

executeWithArray

java.lang.Object executeWithArray(java.lang.Object[] parameters)
Execute the query and return the filtered Collection.

The execution of the query obtains the values of the parameters and matches them against the declared parameters in order. The names of the declared parameters are ignored. The type of the declared parameters must match the type of the passed parameters, except that the passed parameters might need to be unwrapped to get their primitive values.

The filter, import, declared parameters, declared variables, and ordering statements are verified for consistency.

Each element in the candidate Collection is examined to see that it is assignment compatible to the Class of the query. It is then evaluated by the Boolean expression of the filter. The element passes the filter if there exist unique values for all variables for which the filter expression evaluates to true.

Parameters:
parameters - the Object array with all of the parameters.
Returns:
the filtered Collection.

getPersistenceManager

PersistenceManager getPersistenceManager()
Get the PersistenceManager associated with this Query.

If this Query was restored from a serialized form, it has no PersistenceManager, and this method returns null.

Returns:
the PersistenceManager associated with this Query.

close

void close(java.lang.Object queryResult)
Close a query result and release any resources associated with it. The parameter is the return from execute(...) and might have iterators open on it. Iterators associated with the query result are invalidated: they return false to hasNext() and throw NoSuchElementException to next().

Parameters:
queryResult - the result of execute(...) on this Query instance.

closeAll

void closeAll()
Close all query results associated with this Query instance, and release all resources associated with them. The query results might have iterators open on them. Iterators associated with the query results are invalidated: they return false to hasNext() and throw NoSuchElementException to next().


setGrouping

void setGrouping(java.lang.String group)
Set the grouping expressions, optionally including a "having" clause. When grouping is specified, each result expression must either be an expression contained in the grouping, or an aggregate evaluated once per group.

Parameters:
group - a comma-delimited list of expressions, optionally followed by the "having" keyword and a boolean expression
Since:
2.0

setUnique

void setUnique(boolean unique)
Specify that only the first result of the query should be returned, rather than a collection. The execute method will return null if the query result size is 0.

Parameters:
unique - if true, only one element is returned
Since:
2.0

setResult

void setResult(java.lang.String data)
Specifies what type of data this query should return. If this is unset or set to null, this query returns instances of the query's candidate class. If set, this query will return expressions, including field values (projections) and aggregate function results.

Parameters:
data - a comma-delimited list of expressions (fields, functions on fields, or aggregate functions) to return from this query
Since:
2.0

setResultClass

void setResultClass(java.lang.Class cls)
Specify the type of object in which to return each element of the result of invoking execute() or one of its siblings. If the result is not set or set to null, the result class defaults to the candidate class of the query. If the result consists of one expression, the result class defaults to the type of that expression. If the result consists of more than one expression, the result class defaults to Object[]. The result class may be specified to be one of the java.lang classes Character, Boolean, Byte, Short, Integer, Long, Float, Double, String, or Object[]; or one of the java.math classes BigInteger or BigDecimal; or the java.util class Date; or one of the java.sql classes Date, Time, or Timestamp; or a user-defined class.

If there are multiple result expressions, the result class must be able to hold all elements of the result specification or a JDOUserException is thrown.

If there is only one result expression, the result class must be assignable from the type of the result expression or must be able to hold all elements of the result specification. A single value must be able to be coerced into the specified result class (treating wrapper classes as equivalent to their unwrapped primitive types) or by matching. If the result class does not satisfy these conditions, a JDOUserException is thrown.

A constructor of a result class specified in the setResult method will be used if the results specification matches the parameters of the constructor by position and type. If more than one constructor satisfies the requirements, the JDO implementation chooses one of them. If no constructor satisfies the results requirements, or if the result class is specified via the setResultClass method, the following requirements apply:

Portable result classes do not invoke any persistence behavior during their no-args constructor or set
Parameters:
cls - the result class
Since:
2.0

setRange

void setRange(long fromIncl,
              long toExcl)
Set the range of results to return. The execution of the query is modified to return only a subset of results. If the filter would normally return 100 instances, and fromIncl is set to 50, and toExcl is set to 70, then the first 50 results that would have been returned are skipped, the next 20 results are returned and the remaining 30 results are ignored. An implementation should execute the query such that the range algorithm is done at the data store.

Parameters:
fromIncl - 0-based inclusive start index
toExcl - 0-based exclusive end index, or Long.MAX_VALUE for no limit.
Since:
2.0

setRange

void setRange(java.lang.String fromInclToExcl)
Set the range of results to return. The parameter is a String containing a comma-separated fromIncl and toExcl. The fromIncl and toExcl can be either String representations of long values, or can be parameters identified with a leading ":". For example, setRange("50, 70"); or setRange(":from, :to"); or setRange("50, :to");. The execution of the query is modified to return only a subset of results. If the filter would normally return 100 instances, and fromIncl is set to 50, and toExcl is set to 70, then the first 50 results that would have been returned are skipped, the next 20 results are returned and the remaining 30 results are ignored. An implementation should execute the query such that the range algorithm is done at the data store.

Parameters:
fromInclToExcl - comma-separated fromIncl and toExcl values
Since:
2.0
See Also:
setRange(long, long)

addExtension

void addExtension(java.lang.String key,
                  java.lang.Object value)
Add a vendor-specific extension to this query. The key and value are not standard. An implementation must ignore keys that are not recognized.

Parameters:
key - the key of the extension
value - the value of the extension
Since:
2.0

setExtensions

void setExtensions(java.util.Map extensions)
Set multiple extensions, or use null to clear all extensions. Map keys and values are not standard. An implementation must ignore entries that are not recognized.

Parameters:
extensions - the map of extensions
Since:
2.0
See Also:
addExtension(java.lang.String, java.lang.Object)

getFetchPlan

FetchPlan getFetchPlan()
Returns the FetchPlan used by this Query. Modifications of the returned fetch plan will not cause this query's owning PersistenceManager's FetchPlan to be modified.

Returns:
the fetch plan used by this query
Since:
2.0

deletePersistentAll

long deletePersistentAll(java.lang.Object[] parameters)
Deletes all the instances of the candidate class that pass the filter.

Parameters:
parameters - for the query
Returns:
the number of instances of the candidate class that were deleted
Since:
2.0
See Also:
deletePersistentAll()

deletePersistentAll

long deletePersistentAll(java.util.Map parameters)
Deletes all the instances of the candidate class that pass the filter.

Parameters:
parameters - for the query
Returns:
the number of instances of the candidate class that were deleted
Since:
2.0
See Also:
deletePersistentAll()

deletePersistentAll

long deletePersistentAll()
Deletes all the instances of the candidate class that pass the filter. Returns the number of instances of the candidate class that were deleted, specifically not including the number of dependent and embedded instances.

Dirty instances of affected classes in the cache are first flushed to the datastore. Instances in the cache or brought into the cache as a result of executing one of the deletePersistentAll methods undergo life cycle changes as if deletePersistent were called on them.

Specifically, if the class of deleted instances implements the delete callback interface, the corresponding callback methods are called on the deleted instances. Similarly, if there are lifecycle listeners registered for delete events on affected classes, the listener is called for each appropriate deleted instance.

Before returning control to the application, instances of affected classes in the cache are refreshed to reflect whether they were deleted from the datastore.

Returns:
the number of instances of the candidate class that were deleted
Since:
2.0

setUnmodifiable

void setUnmodifiable()
The unmodifiable flag, when set, disallows further modification of the query, except for specifying the range, result class, and ignoreCache option. The unmodifiable flag can also be set in metadata.

Since:
2.0

isUnmodifiable

boolean isUnmodifiable()
The unmodifiable flag, when set, disallows further modification of the query, except for specifying the range, result class, and ignoreCache option.

Returns:
the current setting of the flag
Since:
2.0

addSubquery

void addSubquery(Query sub,
                 java.lang.String variableDeclaration,
                 java.lang.String candidateCollectionExpression)
Add a subquery to this query.

Parameters:
sub - the subquery to add to this Query
variableDeclaration - the name of the variable in the outer query to bind the results of the subquery
candidateCollectionExpression - the candidate collection of the subquery as an expression using terms of the outer query
Since:
2.1
See Also:
addSubquery(Query sub, String variableDeclaration, String candidateCollectionExpression, String[] parameters)

addSubquery

void addSubquery(Query sub,
                 java.lang.String variableDeclaration,
                 java.lang.String candidateCollectionExpression,
                 java.lang.String parameter)
Add a subquery to this query. The String version of the method binds the named expression to the parameter implictly or explicitly declared in the subquery.

Parameters:
sub - the subquery to add to this Query
variableDeclaration - the name of the variable to be used in this Query
candidateCollectionExpression - the candidate collection to apply to the subquery
parameter - the expression from the outer query to bind the parameter in the subquery
Since:
2.1
See Also:
addSubquery(Query sub, String variableDeclaration, String candidateCollectionExpression, String[] parameters)

addSubquery

void addSubquery(Query sub,
                 java.lang.String variableDeclaration,
                 java.lang.String candidateCollectionExpression,
                 java.lang.String[] parameters)
Add a subquery to this query. A subquery is composed as a Query and subsequently attached to a different query (the outer query) by calling this method. The query parameter instance is unmodified as a result of the addSubquery or subsequent execution of the outer query. Only some of the query parts are copied for use as the subquery. The parts copied include the candidate class, filter, parameter declarations, variable declarations, imports, ordering specification, uniqueness, result specification, and grouping specification. The association with a PersistenceManager, the candidate collection or extent, result class, and range limits are not used. The String parameters are trimmed of white space. The variableDeclaration parameter is the name of the variable containing the results of the subquery execution. If the same value of variableDeclaration is used to add multiple subqueries, the subquery replaces the previous subquery for the same named variable. If the subquery parameter is null, the variable is unset, effectively making the variable named in the variableDeclaration unbound. If the trimmed value is the empty String, or the parameter is null, then JDOUserException is thrown. The candidateCollectionExpression is the expression from the outer query that represents the candidates over which the subquery is evaluated. If the trimmed value is the empty String, or the parameter is null, then the candidate collection is the extent of the candidate class. The String[] version of the method binds the named expressions in turn to parameters in the order in which they are declared in the subquery, or in the order they are found in the filter if not explicitly declared in the subquery.

Parameters:
sub - the subquery to add to this Query
variableDeclaration - the name of the variable in the outer query to bind the results of the subquery
candidateCollectionExpression - the candidate collection of the subquery as an expression using terms of the outer query
parameters - the expressions from the outer query to bind the parameters in the subquery
Since:
2.1

addSubquery

void addSubquery(Query sub,
                 java.lang.String variableDeclaration,
                 java.lang.String candidateCollectionExpression,
                 java.util.Map parameters)
Add a subquery to this query. The Map version of the method treats the key of each map entry as the name of the parameter in the subquery, with or without the leading ":", and the value as the name of the expression in the outer query. If the trimmed expression is the empty String for either the parameter or the value of the String[], or for any map key or value, that expression is ignored.

Parameters:
sub - the subquery to add to this Query
variableDeclaration - the name of the variable to be used in this Query
candidateCollectionExpression - the candidate collection to apply to the subquery
parameters - the expressions from the outer query to bind the parameter in the subquery
Since:
2.1
See Also:
addSubquery(Query sub, String variableDeclaration, String candidateCollectionExpression, String[] parameters)


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