Oracle Fusion Middleware Java API Reference for Oracle ADF Model
11g Release 1 (11.1.1.4.0)

E10653-05

oracle.jbo
Interface RowIterator

All Known Subinterfaces:
NavigatableRowIterator, RowSet, RowSetIterator, ViewObject, ViewObjectDynAttr, WSRowSet
All Known Implementing Classes:
CmrAccessorEntRowSet, CmrAccessorViewImpl, CmrAccessorViewRowSet, DCDataVO, DCGenericRowSetIteratorImpl, DCRowSetIteratorImpl, DSViewObjectImpl, EntityCacheOverRowSet, EntityRowSetImpl, FinderViewImpl, PlaceholderVOImpl, ViewCriteria, ViewCriteriaImpl, ViewObjectImpl, ViewObjectOnRowSets, ViewRowSetImpl, ViewRowSetIteratorImpl, ViewUsageImpl, WSRowSetImpl, WSRowSetIteratorBase, WSRowSetIteratorImpl, WSViewObjectImpl

public interface RowIterator

The interface for Row Iterator. A Row Iterator is an iterator over a collection of View rows or Entity rows.

If the user invokes an Entity Association accessor of an Entity going to the many side of the Association, the accessor returns a Row Iterator over Entities.

In the View Row Iterator case, it enables the user to retrieve rows out of the Row Set and work with them.

RowIterator is the base interface for RowSetIterator.

Within a running BC4J application, one can think of the following containership of application objects:

As mentioned earlier RowSetIterator extends RowIterator. The ViewObject and RowSet interfaces extend RowIterator as well. Put differently, a View Object, Row Set or Row Set Iterator is a Row Iterator.

A RowSet's implementation of RowIterator delegates to the internal "default" Row Set Iterator. Thus, a RowSet "impersonates" a RowIterator by using the default Row Set Iterator. This simplifies programming much simpler. For example, to get the next row from a Row Set, the user writes:

    RowSet myRowSet;
    ...
    Row row = myRowSet.next();
 

If RowSet did not implement RowIterator through the default RowIterator, he would have had to write something like:

    RowSet myRowSet;
    ...
    Row row = myRowSet.findRowSetIterator(<iterator-name>).next();
 

Similarly, a ViewObject's implementation of RowSet delegates to the internal "default" Row Set, through which the View Object implements RowIterator. To retrieve the next row, one writes:

    ViewObject myVO;
    ...
    Row row = myVO.next();
 

instead of:

    ViewObject myVO;
    ...
    Row row = myVO.findRowSet(<rowset-name>).
                   findRowSetIterator(<iterator-name>).next();
 

BC4J allows the user to create other Row Iterators than the default one. See RowSet.createRowSetIterator(String) for details. These additional Row Iterators are referred to as "secondary iterators."

Ranges

For performance and scalability considerations, if a Row Set contains many rows, it is better to work with a smaller number of rows at one time. Take a grid (table) UI control for an example. Even if the Row Set contains 1,000 rows, the grid may show only 10 rows at a time. RowIterator supports this "sliding window" of visible rows through its "range" facility. Row Iterator range allows the user to set this smaller number of rows (called the "range size") to work with at a time. When necessary, Row Iterator scrolls to bring other rows into its range. The default range size is 1.

Row Index

A row can be identified by its index (0-based) in the Row Set. This index is relative to the entire Row Set and is not affected when the range is scrolled. However, it can be affected when a row is deleted before the row. For example, suppose we have a row of index 20. This means the row is the 21-st row in the Row Set. If the user deletes a row at index 10, the row (of index 20) is no longer the 21-st row. Rather it is now the 20-th row. Another aspect that illustrates instability of rowIndex is the same row may appear at a different index, if this ApplicationModule session is passivated and activated. Activation brings in a new collection from the database and that the same row may have moved. For these reasons, this index is not stable and can change. Thus, the user should use care when managing rows through the index.

When a row is within the Row Iterator's range, it can be identified by its index within the range. To differentiate the index (in the Row Set) discussed in the previous paragraph from this index, we refer to the former as the "absolute index" (or the "row index") and the latter as the "range index." The range index is relevant only for those rows that are currently in the range. Note also that as the range scrolls, the range index can change.

In the above example (where the row's absolute index is 20), suppose the range size is 4 and the range is currently positioned at row index 17. Then, the range contains rows of index 17, 18, 19, 20. This makes the row in the example the 4-th row in the range. The row's range index is 3 (range index is 0-based as well). Suppose the user scrolls down this range by 1 row. The range now contains rows of index 18, 19, 20, 21. The row's range index is now 2 as row of index 20 is the 3-rd row in the range.

Currency and Slots

In addition to the range, a Row Iterator supports the concept of the current row (or the concept of "currency"). It is important to realize that the current row may be null in certain situations. More on this below... Also, the current row may or may not fall in the Row Iterator's range. Some methods, e.g., first(), next(), previous(), last() will scroll the range, so that the current row falls within the range. Others, e.g., scroll(), scrollRangeTo() will not affect the currency at all.

When a Row Iterator is first opened or created, the currency is placed on an imaginary "slot" before the first row. This enables the user to invoke next() on a fresh new Row Iterator and retrieve the first row. For example, the following block of code will print attribute "Ename" for all employees (it does not miss the first row):

    ApplicationModule myAM;
    ...
    ViewObject myVO = myAM.findViewObject("MyEmpVO");
    Row row;

    while ((row = myVO.next()) != null)
    {
       System.out.println("Ename: " + row.getAttribute("Ename"));
    }
 

This imaginary slot also helps in multi-level master-detail View Objects. When the master is first opened or created, the currency is placed on the slot before the first row. This prevents the detail set to be formulated. If the currency were automatically placed on the first row, the detail would have been executed. If this detail was master to another Row Set, that detail would have been executed, etc.

Similar to the slot before the first row, an imaginary slot exists after the last row of the Row Set. This means the user is allowed to call next() even when the currency is on the last row of the Row Set. The currency moves to this slot beyond the last row. Here, the user can call insertRow(Row) to append the row at the end of the Row Set.

If the user deletes the current row of a Row Iterator, the currency "moves" to an imaginary slot where the deleted row used to be. This slot is referred to as the deleted slot. Thus, if the user calls next() after deleting the current row, he gets the row next to the deleted row. Similarly, previous() returns the row before the deleted row.

For example, the following code block deletes all rows in the Row Set:

    ApplicationModule myAM;
    ...
    ViewObject myVO = myAM.findViewObject("MyEmpVO");
    Row row;

    while ((row = myVO.next()) != null)
    {
       myVO.removeCurrentRow();

       // "row.remove()" would have shown the same result
    }
 

When the Row Iterator's currency is on one of these imaginary slots, the current row returned by getCurrentRow() is null. A method getCurrentRowSlot() returns a code indicating whether the currency is on one of these imaginary slots and if so which kind.

Iteration Modes

RowIterator supports an "iteration mode" which controls how the range behaves when it reaches the end of the Row Set.

If the user calls last(), the full last page mode will scroll just enough to keep the last page as full as possible. For example, suppose the Row Set has 25 rows and the range size is set at 4. Under the full last page mode, last() will scroll the range to row of index 20, which means the range will have row 21, 22, 23, 24. The range is fully populated with 4 rows.

Under the partial last page mode, no attempt is made to populate the last page. Instead, the range scrolls as if the user kept scrolling by the range size until the end is reached. The range will show (number_of_total_rows % range_size) rows if that number is not zero. If that number is zero, it shows range_size rows. In the above example, last() will show 1 row of row index 24, since 25 % 4 = 1. As the user pages up and down the Row Set, the first row in the range will always be a row whose index is divisible by the range_size. Thus, this mode works well for Web clients which tend to work with a stable set of pages of rows.

With the full last page mode, one cannot expect the pages to remain stable. When the user reaches the end of Row Set, the page may adjust itself to scroll less than range_size.

Another difference in behavior between these two modes is when a row is deleted in the last page. Under the full last page mode, if the user deletes a row in the range when the range had reached the end, the range pulls a row from the top (if one exists) to keep the range full.

For the partial last page mode, no rows are pulled from the top. If the last row of the page is deleted, the range scrolls up range_size (paging up).

Since:
JDeveloper 3.0
See Also:
RowSetIterator, RowSet, ViewObject, NavigatableRowIterator, ApplicationModule

Field Summary
static int ITER_MODE_LAST_PAGE_FULL
          ITER_MODE_... constants describe the iteration mode for this RowIterator.
static int ITER_MODE_LAST_PAGE_PARTIAL
          ITER_MODE_... constants describe the iteration mode for this RowIterator.
static int SLOT_BEFORE_FIRST
          SLOT_... constants describe the current slot status for this RowIterator.
static int SLOT_BEYOND_LAST
          SLOT_... constants describe the current slot status for this RowIterator.
static int SLOT_DELETED
          SLOT_... constants describe the current slot status for this RowIterator.
static int SLOT_VALID
          SLOT_... constants describe the current slot status for this RowIterator.
 
Method Summary
 Row createAndInitRow(AttributeList nvp)
          Creates and initializes a new Row object, but does not insert it into the Row Set.
 Key createKey(AttributeList nvp)
          Given a list of name-value pairs, creates a Key object that matches the key structure for the ViewObject for this RowItertor.
 Row createRow()
          Creates a new Row object, but does not insert it into the Row Set.
 java.util.Enumeration enumerateRowsInRange()
          Gets an Enumeration of all rows in the Row Set.
 RowIterator findByAltKey(java.lang.String keyName, Key key, int maxNumOfRows, boolean skipWhere)
          Same as findByKey(Key, int) with a few extra functionalities.
 Row[] findByEntity(int eRowHandle, int maxNumOfRows)
          Finds and returns View rows that use the Entity row, identified by the Entity row handle, eRowHandle.
 Row[] findByKey(Key key, int maxNumOfRows)
          Finds and returns View rows that match the specified key.
 RowIterator findByViewCriteria(ViewCriteria criteria, int maxNumOfRows, int queryMode)
          Finds and returns View rows that match the specified View Criteria.
 Row first()
          Gets the first row in the iterator.
 Row[] getAllRowsInRange()
          Extracts the rows in the range.
 Row getCurrentRow()
          Accesses the current row.
 int getCurrentRowIndex()
          Gets the absolute index (not range index) of the current row.
 int getCurrentRowSlot()
          Gets the slot status of the current row.
 int getFetchedRowCount()
          Counts the number of rows fetched from database into the Row Set collection up to this point.
 int getIterMode()
          Gets the current iteration mode.
 int getRangeIndexOf(Row row)
          Get the index of the given row relative to the beginning of the range.
 int getRangeSize()
          Gets the size of the Row Set Iterator range.
 int getRangeStart()
          Gets the absolute row index of the first row in the Row Set Iterator range.
 Row getRow(Key key)
          Locates and returns a row by its unique key.
 Row getRowAtRangeIndex(int index)
          Accesses a row through its range index.
 int getRowCount()
          Counts the total number of rows in the Row Set.
 int getRowCountInRange()
          Gets the size of the Row Set Iterator range.
 boolean hasNext()
          Tests for the existence of a row after the current row.
 boolean hasPrevious()
          Tests for the existence of a row before the current row.
 void insertRow(Row row)
          Inserts a row to the Row Set, before the current row.
 void insertRowAtRangeIndex(int index, Row row)
          Inserts a row to the Row Set at the given range index.
 boolean isRangeAtBottom()
          Tests if the Row Set Iterator range is at the end of the result set.
 boolean isRangeAtTop()
          Tests if the Row Set Iterator range is at the beginning of the result set.
 boolean isRowValidation()
          Gets the validation flag on this iterator.
 Row last()
          Gets the last row in the iterator.
 Row next()
          Gets the next row in the iterator.
 Row previous()
          Gets the previous row in the iterator.
 void removeCurrentRow()
          Removes the current Row object from the Row Set.
 Row removeCurrentRowAndRetain()
          Removes the current Row object from the collection and retain it for insertion into another location.
 void removeCurrentRowFromCollection()
          Removes the current Row object from the collection.
 void reset()
          Moves the currency to the slot before the first row.
 int scrollRange(int amount)
          Moves the Row Set Iterator range up or down a given number of rows.
 int scrollRangeTo(Row row, int index)
          Scrolls the range to place a given row at a given range index.
 boolean setCurrentRow(Row row)
          Designates a given row as the current row.
 boolean setCurrentRowAtRangeIndex(int index)
          Designates a given index as the current row.
 void setIterMode(int mode)
          Sets the iteration mode for this Row Iterator.
 int setRangeSize(int size)
          Modifies the size of the Row Set Iterator range.
 int setRangeStart(int start)
          Moves the Row Set Iterator range.
 void setRowValidation(boolean flag)
          Sets the validation flag on this iterator.
 

Field Detail

SLOT_VALID

static final int SLOT_VALID
SLOT_... constants describe the current slot status for this RowIterator. For a detailed discussion, see the above subsection Currency and Slots.

getCurrentRowSlot() returns one of these constants.

SLOT_VALID means that the RowIterator is currently on a valid row. In this case, getCurrentRow() should return a Row.

See Also:
Constant Field Values

SLOT_DELETED

static final int SLOT_DELETED
SLOT_... constants describe the current slot status for this RowIterator. For a detailed discussion, see the above subsection Currency and Slots.

getCurrentRowSlot() returns one of these constants.

SLOT_DELETED indicates that the user has just delete the current row. The RowIterator does not have a current row and getCurrentRow() should return null.

Calling next() returns the row next to the row that was deleted (if there was the next row). Calling previous() returns the row before the row that was deleted (if there was the previous row).

See Also:
Constant Field Values

SLOT_BEFORE_FIRST

static final int SLOT_BEFORE_FIRST
SLOT_... constants describe the current slot status for this RowIterator. For a detailed discussion, see the above subsection Currency and Slots.

getCurrentRowSlot() returns one of these constants.

SLOT_BEFORE_FIRST indicates that the user has just opened or reset (see reset()) this iterator. The RowIterator does not have a current row and getCurrentRow() should return null.

Calling next() returns the first row in the iterator if a row exists in the iterator. If the iterator has no row in it, next() will return null and the current slot status will change to SLOT_BEYOND_LAST.

See Also:
Constant Field Values

SLOT_BEYOND_LAST

static final int SLOT_BEYOND_LAST
SLOT_... constants describe the current slot status for this RowIterator. For a detailed discussion, see the above subsection Currency and Slots.

getCurrentRowSlot() returns one of these constants.

SLOT_BEYOND_LAST indicates that the user has just gone beyond the last row of the iterator. If the user calls last(), followed immediately by next(), the currency will be positioned to the imaginary slot after the last row and the current slot status set to SLOT_BEYOND_LAST. If the iterator has no row in it (empty Row Set), and the current slot status is SLOT_BEYOND_LAST, calling previous() will put the currency to the imaginary slot before the first row, and the current slot status set to SLOT_BEFORE_FIRST.

See Also:
Constant Field Values

ITER_MODE_LAST_PAGE_PARTIAL

static final int ITER_MODE_LAST_PAGE_PARTIAL
ITER_MODE_... constants describe the iteration mode for this RowIterator. For a detailed discussion, see the above subsection Iteration Modes.

getIterMode() returns one of these constants. setIterMode(int) should pass in one of these constants.

ITER_MODE_LAST_PAGE_PARTIAL indicates that the iterator is in the partial last page mode, i.e., the iterator will not try to keep the range full when it reaches the end of the iterator.

See Also:
Constant Field Values

ITER_MODE_LAST_PAGE_FULL

static final int ITER_MODE_LAST_PAGE_FULL
ITER_MODE_... constants describe the iteration mode for this RowIterator. For a detailed discussion, see the above subsection Iteration Modes.

getIterMode() returns one of these constants. setIterMode(int) should pass in one of these constants.

ITER_MODE_LAST_PAGE_FULL indicates that the iterator is in the full last page mode, i.e., the iterator will try to keep the range as full as possible when it reaches the end of the iterator.

See Also:
Constant Field Values
Method Detail

next

Row next()
Gets the next row in the iterator. If next() is called on an iterator whose Row Set has not yet been RowSet.executeQuery()'ed, the Row Set's query is executed. Thus, the user does not need to call executeQuery() himself before calling next(). We refer to this as implicit query execution or implicit Row Set execution.

Before moving to the next row, next() validates the current row (if the iterator has a current row) through a call to Row.validate().

If the currency is on the last row of the range and next() is called, the range is scolled down by one row to bring the next row into the visible range. In particular, if the range size is 1, next() scrolls the range down by 1 row.

When this method is called, the current row of the iterator may be outside the range. (Note that the current row does not have to be within the range.) If so, next() will scroll the range, so that the row that will be the current row at the conclusion of this method will be positioned in the middle of the range.

If the iterator is just opened or reset (see reset()), next() will return the first row if one exists. In this situation, next() is functionally equivalent to first().

If the iterator is at the last row of the Row Set, next() push the currency into the imaginary slot after the last row. This will set the current slot status to SLOT_BEYOND_LAST.

When the next row is required, a check is made to see if the row has already been brought into the collection. If not, the row is fetched from database. Note that the View Object's fetch mode affects how rows are fetched from database into the collection. See ViewObjectImpl.getFetchMode() for details.

If successful, this method designates the next row as the current row (the currency finally moves).

This method generates events to notify the changes to the iterator. If scrolling occurs because of conditions described above, a ScrollEvent will be sent to RowSetListener.rangeScrolled(oracle.jbo.ScrollEvent). To pick up such an event, the listener object must implement the RowSetListener interface. Further, this listener must be registered through a call to NavigatableRowIterator.addListener(Object) (the listener object passed in as the parameter to addListener).

If the currency is changed, it generates a NavigationEvent and sends it to RowSetListener.navigated(oracle.jbo.NavigationEvent).

Returns:
the next Row object, or null if there is no next row.
Throws:
ValidationException - if row validation fails.

previous

Row previous()
Gets the previous row in the iterator. If previous() is called on an iterator whose Row Set has not yet been RowSet.executeQuery()'ed, the Row Set's query is executed. Thus, the user does not need to call executeQuery() himself before calling previous(). We refer to this as implicit query execution or implicit Row Set execution.

Before moving to the previous row, previous() validates the current row (if the iterator has a current row) through a call to Row.validate().

If the currency is on the first row of the range and previous() is called, the range is scolled up by one row to bring the previous row into the visible range. In particular, if the range size is 1, previous() scrolls the range up by 1 row.

When this method is called, the current row of the iterator may be outside the range. (Note that the current row does not have to be within the range.) If so, previous() will scroll the range, so that the row that will be the current row at the conclusion of this method will be positioned in the middle of the range.

If the iterator is just opened or reset (see reset()), previous() will null as the currency is already on the imaginary slot before the first row.

If the iterator is at the first row of the Row Set, previous() push the currency into the imaginary slot before the first row. This will set the current slot status to SLOT_BEFORE_FIRST.

If successful, this method designates the previous row as the current row (the currency finally moves).

This method generates events to notify the changes to the iterator. If scrolling occurs because of conditions described above, a ScrollEvent will be sent to RowSetListener.rangeScrolled(oracle.jbo.ScrollEvent). To pick up such an event, the listener object must implement the RowSetListener interface. Further, this listener must be registered through a call to NavigatableRowIterator.addListener(Object) (the listener object passed in as the parameter to addListener).

If the currency is changed, it generates a NavigationEvent and sends it to RowSetListener.navigated(oracle.jbo.NavigationEvent).

Returns:
the previous Row object, or null if there is no previous row.
Throws:
InvalidOperException - if the Row Set is marked as forward-only, as a foward-only Row Set cannot traverse rows backwards. See RowSet.setForwardOnly(boolean) for more info.
ValidationException - if row validation fails.

first

Row first()
Gets the first row in the iterator. If first() is called on an iterator whose Row Set has not yet been RowSet.executeQuery()'ed, the Row Set's query is executed. Thus, the user does not need to call executeQuery() himself before calling first(). We refer to this as implicit query execution or implicit Row Set execution.

This method checks to see if the currency is not on the first row. If not, it resets the currency to the imaginary slot before the first row and then calls next(). Note that the act of resetting the currency may cause the range to scroll upward.

If the currency is on the slot before the first row, it simply calls next(). In this case, first() is equivalent to next().

If the currency is already on the first row, nothing happens.

If first() is called on an empty Row Set (a Row Set that has no row), the currency is set to the slot after the last row, and null is returned.

This method generates events to notify the changes to the iterator, e.g., ScrollEvent and/or NavigationEvent. See next() for details.

Returns:
the first Row object, or null if there is no first row. In that case (null return), the current slot status will be SLOT_BEYOND_LAST.
Throws:
InvalidOperException - if the Row Set is marked as forward-only and the currency is neither on the slot before the first row nor on the first row. This is because a foward-only Row Set will not permit the range to scroll upward. See RowSet.setForwardOnly(boolean) for more info.
ValidationException - if row validation fails.

last

Row last()
Gets the last row in the iterator. If last() is called on an iterator whose Row Set has not yet been RowSet.executeQuery()'ed, the Row Set's query is executed. Thus, the user does not need to call executeQuery() himself before calling last(). We refer to this as implicit query execution or implicit Row Set execution.

Before moving to the last row, last() validates the current row (if the iterator has a current row) through a call to Row.validate().

This method retrieves all rows from the Row Set and scrolls (if necessary) to the last row. If some of these rows have not yet been fetched from database, it fetches them. The View Object's fetch mode affects how rows are fetched from database into the collection. See ViewObjectImpl.getFetchMode() for details.

If successful, this method designates the last row as the current row.

If last() is called on an empty Row Set, the currency moves to the slot beyond the last row. The current slot status is set to SLOT_BEYOND_LAST.

The caller of this method should be aware that it may take a long time to complete as all rows from the Row Set are fetched.

The number of rows in the range at the completion of this method is affected by the "iteration mode". See Iteration Modes above for details.

This method generates events to notify the changes to the iterator. If scrolling occurs because of conditions described above, a ScrollEvent will be sent to RowSetListener.rangeScrolled(oracle.jbo.ScrollEvent). To pick up such an event, the listener object must implement the RowSetListener interface. Further, this listener must be registered through a call to NavigatableRowIterator.addListener(Object) (the listener object passed in as the parameter to addListener).

If the currency is changed, it generates a NavigationEvent and sends it to RowSetListener.navigated(oracle.jbo.NavigationEvent).

Returns:
the last Row object, or null if there is no last row.
Throws:
ValidationException - if row validation fails.

reset

void reset()
Moves the currency to the slot before the first row.

After this method, the current slot status will be SLOT_BEFORE_FIRST except in cases where this iterator is associated to an iterator binding in an ADF application which sets the currency to the first row in the iterator if available. A subsequent invocation of next() will cause the first row to become the current row.

It sends a ScrollEvent to RowSetListener.rangeScrolled(oracle.jbo.ScrollEvent) if the currency was not on the first row or on the slot before the first row. To pick up such an event, the listener object must implement the RowSetListener interface. Further, this listener must be registered through a call to NavigatableRowIterator.addListener(Object) (the listener object passed in as the parameter to addListener).


hasNext

boolean hasNext()
Tests for the existence of a row after the current row.

Returns:
true if there is a next row. Specifically, if the Row Set is empty or if the currency is on the last row or the slot after the last row (current slot status == SLOT_BEYOND_LAST), it returns false. Otherwise, true.

hasPrevious

boolean hasPrevious()
Tests for the existence of a row before the current row.

If the Row Set is forward-only, it returns false.

Returns:
true if there is a previous row. Specifically, if the Row Set is empty or forward-only or if the currency is on the first row or the slot before the first row (current slot status == SLOT_BEFORE_FIRST), it returns false. Otherwise, true.

getFetchedRowCount

int getFetchedRowCount()
Counts the number of rows fetched from database into the Row Set collection up to this point.

Returns:
the number of rows fetched.

getRowCount

int getRowCount()
Counts the total number of rows in the Row Set.

Note that this method retrieves all rows from the database then returns the number of rows in the Row Set collection.

Returns:
the number of rows.

getRow

Row getRow(Key key)
Locates and returns a row by its unique key.

If the key being passed in has the row handle, it uses the row handle to locate the row. This is a quick operation. (A key returned from a call to Row.getKey() contains the row handle.)

If the key does not have a row handle, or if the handle look up did not find the row in the View row cache, it performs a linear search through the Row Set collection looking for a match. Hence, this method could take quite a long time to complete.

This method is similar to findByKey(Key, int) in that both methods return Row(s) that match the given key. However, the user should understand the differences. First, findByKey() performs random search. getKey() only performs random search if the key has the row handle portion and if the row with that handle is currently in the Row Set collection. Otherwise, getKey() does a linear search. Hence, findByKey() is generally faster.

However, findByKey() may find the matching Row(s) out of sequence. When a row is not found in the View row cache, findByKey() issues a database query. Matching rows are retrieved and appended to the Row Set collection. For example, suppose the Row Set collection has 200 rows that qualify in the database. Suppose the user retrieved only 10 rows (190 not yet retrieved). Suppose, at this time, the user issues findByKey() that locates the 200-th row (the last row in database result set). That row is appended to the Row Set collection at the 11-th spot. Thus, when you use findByKey(), you may see rows out of sequence. In contrast, getRow() always retrieves rows in sequence.

If the Row Set collection is of any non-trivial size (say over 50), we would recommend findByKey().

findByKey() allows for partial key (only for View Objects that have multiple Entity bases). When a partial key is specified, multiple rows may return. getKey() returns one and only one row (exact match).

Parameters:
key - the key.
Returns:
the Row object matching the key.

getRowAtRangeIndex

Row getRowAtRangeIndex(int index)
Accesses a row through its range index.

Parameters:
index - an index in the range: 0 to getRangeSize() - 1.
Returns:
a Row object, or null if the index is out of range.

getCurrentRow

Row getCurrentRow()
Accesses the current row.

Returns:
the Row object designated as the current row.

getCurrentRowIndex

int getCurrentRowIndex()
Gets the absolute index (not range index) of the current row.

Returns:
a row index.

getCurrentRowSlot

int getCurrentRowSlot()
Gets the slot status of the current row.

Returns:
one of the class constants prefixed by SLOT_.

setCurrentRow

boolean setCurrentRow(Row row)
Designates a given row as the current row.

Parameters:
row - the new current row.
Returns:
true if the operation succeeded.

createAndInitRow

Row createAndInitRow(AttributeList nvp)
Creates and initializes a new Row object, but does not insert it into the Row Set. This method differs from createRow() mainly in that this method allows the user to pass in a list of name-value pairs with which row attributes are initialized.

nvp is a named value pair. When building an nvp from scratch, use NameValuePairs to build a new nvp. Here is an example:

    NameValuePairs nvp = new NameValuePairs();
    nvp.setAttribute("EmpTyp", "C");

    Row row = voEmp.createAndInitRow(nvp);
 
This method is particularly useful when creating a subclass View Row or Entity Row. You can include polymorphic discriminator attribute values in nvp and correct subclass row object will be created.

When this method is called, underlying entities are created. After the new entities are created, a new view row is created. After that ViewRowImpl.create(oracle.jbo.AttributeList) is called with this nvp. ViewRowImpl.create(AttributeList) walks thru the list of entities and calls EntityImpl.create(AttributeList) with the same nvp for each entity in the view row.

Parameters:
nvp - a list of name-value pairs.
Returns:
a new Row object.

createRow

Row createRow()
Creates a new Row object, but does not insert it into the Row Set.

Returns:
a new Row object.

insertRow

void insertRow(Row row)
Inserts a row to the Row Set, before the current row. This method sets the current row to the row just inserted. With respect to eventing, this method call will generate two events (of oracle.jbo.RowSetListener): rowInserted, followed by navigated.

Parameters:
row - the Row object to be added.

removeCurrentRow

void removeCurrentRow()
Removes the current Row object from the Row Set.


removeCurrentRowFromCollection

void removeCurrentRowFromCollection()
Removes the current Row object from the collection.

It does not cause the row to be deleted from the database table. It just removes the row from the row collection. However, once the row is removed, it cannot be used any more. If you want to remove the current row from collection and insert it elsewhere, call removeCurrentRowAndRetain(), change currency to the desired location, and then call insertRow(oracle.jbo.Row) with that row.


removeCurrentRowAndRetain

Row removeCurrentRowAndRetain()
Removes the current Row object from the collection and retain it for insertion into another location.

It does not cause the row to be deleted from the database table. It just removes the row from the row collection.

This method differs from removeCurrentRowFromCollection() in that after the current row is removed from the collection, it can be inserted back into the collection at another location.

To do so, call removeCurrentRowAndRetain(), and get the returning row. Then, change currency to the desired location, and call insertRow(oracle.jbo.Row) with that row.

Returns:
the current row which was just removed from collection.

setRangeSize

int setRangeSize(int size)
Modifies the size of the Row Set Iterator range.

This method takes effect when the next set of data is fetched. For an example usage of setRangeSize, see setRangeStart.

Parameters:
size - the new number of rows in the iterator range. Size of 0 is treated same as 1. Size < -1 is treated same as -1.
Returns:
the new size of the range.
See Also:
setRangeStart(int)

getRangeSize

int getRangeSize()
Gets the size of the Row Set Iterator range.

Returns:
the number of rows in the range.

getRangeStart

int getRangeStart()
Gets the absolute row index of the first row in the Row Set Iterator range.

The absolute index is 0-based, and is the row's index relative to the entire result set.

Returns:
an index.

setRangeStart

int setRangeStart(int start)
Moves the Row Set Iterator range.

Note that the index is 0-based. When you call setRangeStart(1), the range start will be positioned at the second table row.

Another behavior of setRangeStart (and also setRangeSize) is that it tries to position the range, so as to fill up the range as much as possible. For example, assume you have View Object vo focused on a table with four rows (A, B, C, D), and you execute the following code:

     vo.setRangeStart(4);
     vo.setRangeSize(3);
     Row[] rows = vo.getAllRowsInRange();
 

In this case, rows contains the last 3 rows (B, C, D). When you call setRangeStart(4), it will try to position you at row 4. Since the index is 0-based, it finds that there is no row. Since the default range size is 1, it will position you to the last row (row index 3).

Then, when you call getRangeSize(3), it tries to fill up the range from the bottom. This is why you get (B, C, D).

Parameters:
start - the absolute index of the new first row in the Row Set Iterator range.

scrollRange

int scrollRange(int amount)
Moves the Row Set Iterator range up or down a given number of rows.

Parameters:
amount - the number of rows to scroll. A negative value scrolls upward.
Returns:
the number of rows actually scrolled.

scrollRangeTo

int scrollRangeTo(Row row,
                  int index)
Scrolls the range to place a given row at a given range index.

Parameters:
row - the row.
index - the range index at which the row is to be found.
Returns:
the actual number of rows scrolled. A negative number indicates that the scroll was scrolled upward.

setCurrentRowAtRangeIndex

boolean setCurrentRowAtRangeIndex(int index)
Designates a given index as the current row.

Parameters:
index - the index of the new current row.
Returns:
true if the operation succeeded.

insertRowAtRangeIndex

void insertRowAtRangeIndex(int index,
                           Row row)
Inserts a row to the Row Set at the given range index. The index is relative to the range, i.e., index of 0 would mean to insert before the first row of the range. Allowed values for index is 0 to range size. If index equals range size, the row is inserted right after the last row in the range. This method call does not alter the current position of the iterator, nor does it affect the range position.

Parameters:
index - the point where row is to be added.
row - the Row object to be added.

getRangeIndexOf

int getRangeIndexOf(Row row)
Get the index of the given row relative to the beginning of the range.

Parameters:
row - a Row object. or -1 if the row is not in range.
Returns:
the index of row,

getRowCountInRange

int getRowCountInRange()
Gets the size of the Row Set Iterator range.

Returns:
the number of rows in the range.

isRangeAtBottom

boolean isRangeAtBottom()
Tests if the Row Set Iterator range is at the end of the result set.

Returns:
true if the last row of the range is the last row of the result set.

isRangeAtTop

boolean isRangeAtTop()
Tests if the Row Set Iterator range is at the beginning of the result set.

Returns:
true if the first row of the range is the first row of the result set.

enumerateRowsInRange

java.util.Enumeration enumerateRowsInRange()
Gets an Enumeration of all rows in the Row Set.

Returns:
an Enumeration interface.

getAllRowsInRange

Row[] getAllRowsInRange()
Extracts the rows in the range.

Returns:
an array of Row objects. The size if the array is setViewSize().

findByKey

Row[] findByKey(Key key,
                int maxNumOfRows)
Finds and returns View rows that match the specified key.

If this View Object has multiple Entity Object bases, the key need not be specified for all. However, if a key is specified for n-th Entity Object, and if this Entity Object's primary key consists of multiple parts, all parts of the key must be specified.

If not all Entity keys are included, multiple rows may match the partial key. The maxNumOfRows parameter is used to specify the maximum number of rows to return.

For example, suppose the View Object has Emp and DeptLocation as its Entity Object bases. Suppose further that Emp has a one part primary key (employee number) and DeptLocation has a two part primary key (dept name and location).

The user can make the following call to look for all employees working in ACCOUNTING's NEW YORK office:

    // The key will consist of 3 parts.  The first part is
    // for the employee number (which is null, meaning not
    // specified).  The second part is the department name.
    // The third is the location.
    Object [] keyValues = new Object[3];

    keyValues[0] = null;  // All employees
    keyValues[1] = "ACCOUNTING";
    keyValues[4] = "NEW YORK"; // third Entity Object, key part 1

    Row[] rows = myAM.findByKey(new Key(keyValues), -1);
 

In this example, if you were to include the key for DeptLocation, you must specify both key parts.

Note that the position of the key must patch the order of the Entity Object bases and their keys. In the above example, keyValues[0] is always the employee number. You cannot specify the employee number in keyValues[1] or keyValues[2].

This method works even on a View Object which has no Entity Object base. For this to work, however, the ViewObject's key attribute list must have been set up through a call to ViewObjectImpl.setKeyAttributeDefs(int[]). For example, suppose we have a View Object with 5 attributes where attribute 0 and 2 are to be its key attributes.

Then, the following code block will retrieve all rows whose attribute 0 is "PERM" and attribute 2 is 30.

    // First set up the key attributes
    myVO.setKeyAttributeDefs(new int[] { 0, 2 });

    // The key will consist of 2 parts.  The first part is
    // for attribtue 0 and the second is for attribute 2.
    Object [] keyValues = new Object[2];

    keyValues[0] = "PERM";
    keyValues[1] = new Integer(30);

    Row[] rows = myAM.findByKey(new Key(keyValues), -1);
 

Internally, findByKey() works as follows for a View Object with Entity Object bases: It takes the first non-null entity key from key. It uses it to find the Entity row in the cache. If it finds it, then it looks at all View rows in the Row Set collection that uses that Entity row and apply the remaining keys to qualify them. It may or may not find as many rows as requested.

If the requested number of rows have been found, the array returns. Otherwise, a check is made to see if the View Object's fetch size is unlimited (which is -1, see ViewObject.setMaxFetchSize(int)) and the Row Set has fetched all the rows out of database into its collection. If this is the case, we return the array even if the requested number of rows have not been found. This is because these conditions imply that all rows have been brought into Row Set collection and no further search is necessary.

Otherwise (the requested number of rows not yet found and the Row Set has not yet fetched all rows or the fetch size is not -1), the search continues. We now use the key build a where-clause for an internal View Object. That where-clause is applied and qualifying rows are retrieved from it to find the requested number of rows.

For a View Object which has no Entity Object base, we simply skip the step of looking in the Entity Object cache. Other than that, the logic is applied.

As new rows are retrieved from database they are added to the Row Set collection. Thus, the user can work with these rows immediately, e.g., call setCurrentRow(Row) with one of them. Care is applied to make sure the same row is not added to the Row Set collection multiple times.

This method does not fire any navigation event, nor does it move the range or the current row. Also, as rows are added to the Row Set collection, no insertion event fires (as this is analogous to fetching rows).

See getRow(Key) for comparison between this method and getRow(Key).

Parameters:
key - the key to match.
maxNumOfRows - the maximum size of the array to return, or -1 to return all rows.
Returns:
an array of rows matching the key.

findByAltKey

RowIterator findByAltKey(java.lang.String keyName,
                         Key key,
                         int maxNumOfRows,
                         boolean skipWhere)
Same as findByKey(Key, int) with a few extra functionalities. The key is for an alternate key. You can specifcy the alternate key name through the keyName parameter.

A skipWhere parameter controls whether or notthe current view object's where-clause is included in the db query if a db query is issued to get the row(s).

It returns a RowIterator and not a row array. You can enumerate through rows of this row iterator.

Parameters:
keyName - the name of the alternate key. If null the primary key is specified, i.e., this function call becomes equivalent to findByKey with skipWhere = false.
key - the alternate key to match.
maxNumOfRows - the maximum size of the array to return, or -1 to return all rows.
skipWhere - A flag that controls whether, when a db query is issued to get the matching row(s), the view object's current where-clause is to be included in the query or not.
Returns:
an array of rows matching the alternate key.

findByViewCriteria

RowIterator findByViewCriteria(ViewCriteria criteria,
                               int maxNumOfRows,
                               int queryMode)
Finds and returns View rows that match the specified View Criteria. See ViewCriteria for details on how to build and use a View Criteria.

The queryMode parameter controls the manner in which the qualifying View rows are searched. See the QUERY_MODE_... constants in ViewObject for different contants that can be specified (they can be OR'ed together).

If QUERY_MODE_SCAN_VIEW_ROWS is specified, the existing View rows in the current Row Set are scanned for matching rows.

If QUERY_MODE_SCAN_ENTITY_ROWS is specified, the Entity cache is searched for qualifying rows. If qualifying rows are found, they are added to the current Row Set. I.e., they become part of the current row collection. Internally, a finder View Object is created to search the Entity cache and to produce View rows from the Entity cache.

If QUERY_MODE_SCAN_DATABASE_TABLES is specified, a database query is issued to find matching rows. The View Criteria is converted into a where-clause. ViewObject.applyViewCriteria(ViewCriteria) on the finder View Object is invoked and the query executed.

Upon completion of this operation, the finder View Object is closed and removed.

Parameters:
criteria - the View Criteria to be used to qualify View rows.
maxNumOfRows - the maximum size of the array to return, or -1 to return all rows. If a value other than -1 is specified and if the specified number of rows is reached, the method returns without performing any further operation.
queryMode - the mode in which qualify View rows are scanned. See above for further info.
Returns:
a RowSet (parented by the same View Object as this RowIterator) that contains qualifying rows. For convenience, this RowSet's range size is initialized to -1 (all rows).

createKey

Key createKey(AttributeList nvp)
Given a list of name-value pairs, creates a Key object that matches the key structure for the ViewObject for this RowItertor. This Key object could be used as a valid argument to findByKey. This Key will have null values for attributes expected in the key structure for this ViewObject, but not found in the given set of name-value pairs.


findByEntity

Row[] findByEntity(int eRowHandle,
                   int maxNumOfRows)
Finds and returns View rows that use the Entity row, identified by the Entity row handle, eRowHandle.

Parameters:
eRowHandle - the Entity row handle.
maxNumOfRows - the maximum size of the row array to return, or -1 to return all rows.
Returns:
an array of View rows that use the Entity row.

setRowValidation

void setRowValidation(boolean flag)
Sets the validation flag on this iterator. By default a RowIterator validates the current row when navigating to another row. This method can be used to turn this row-validation off by passing 'false' as parameter.

Parameters:
flag - Whether to turn row validation off or not.
Throws:
InvalidOperException - is thrown if this iterator is the default iterator of a ViewObject or a RowSet.

isRowValidation

boolean isRowValidation()
Gets the validation flag on this iterator. By default a RowIterator validates the current row when navigating to another row. This method returns TRUE if this row-validation is turned off.

Throws:
InvalidOperException - is thrown if this iterator is the default iterator of a ViewObject or a RowSet.

getIterMode

int getIterMode()
Gets the current iteration mode. See Iteration Modes above for details on iteration mode which controls how the range behaves when it reaches the end of the Row Set.

Returns:
ITER_MODE_LAST_PAGE_PARTIAL if the iteration mode is "partial-last-page", ITER_MODE_LAST_PAGE_FULL if it is "full-last-page".

setIterMode

void setIterMode(int mode)
Sets the iteration mode for this Row Iterator. See Iteration Modes above for details on iteration mode which controls how the range behaves when it reaches the end of the Row Set.

Parameters:
mode - should be ITER_MODE_LAST_PAGE_PARTIAL if the iteration mode is to be "partial-last-page", ITER_MODE_LAST_PAGE_FULL if it is to be "full-last-page".

Oracle Fusion Middleware Java API Reference for Oracle ADF Model
11g Release 1 (11.1.1.4.0)

E10653-05

Copyright © 1997, 2011, Oracle. All rights reserved.