/* * Copyright (C) 2006 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package android.database; import android.content.ContentResolver; import android.net.Uri; import android.os.Bundle; import java.io.Closeable; /** * This interface provides random read-write access to the result set returned * by a database query. *

* Cursor implementations are not required to be synchronized so code using a Cursor from multiple * threads should perform its own synchronization when using the Cursor. *

* Implementations should subclass {@link AbstractCursor}. *

*/ public interface Cursor extends Closeable { /* * Values returned by {@link #getType(int)}. * These should be consistent with the corresponding types defined in CursorWindow.h */ /** Value returned by {@link #getType(int)} if the specified column is null */ static final int FIELD_TYPE_NULL = 0; /** Value returned by {@link #getType(int)} if the specified column type is integer */ static final int FIELD_TYPE_INTEGER = 1; /** Value returned by {@link #getType(int)} if the specified column type is float */ static final int FIELD_TYPE_FLOAT = 2; /** Value returned by {@link #getType(int)} if the specified column type is string */ static final int FIELD_TYPE_STRING = 3; /** Value returned by {@link #getType(int)} if the specified column type is blob */ static final int FIELD_TYPE_BLOB = 4; /** * Returns the numbers of rows in the cursor. * * @return the number of rows in the cursor. */ int getCount(); /** * Returns the current position of the cursor in the row set. * The value is zero-based. When the row set is first returned the cursor * will be at positon -1, which is before the first row. After the * last row is returned another call to next() will leave the cursor past * the last entry, at a position of count(). * * @return the current cursor position. */ int getPosition(); /** * Move the cursor by a relative amount, forward or backward, from the * current position. Positive offsets move forwards, negative offsets move * backwards. If the final position is outside of the bounds of the result * set then the resultant position will be pinned to -1 or count() depending * on whether the value is off the front or end of the set, respectively. * *

This method will return true if the requested destination was * reachable, otherwise, it returns false. For example, if the cursor is at * currently on the second entry in the result set and move(-5) is called, * the position will be pinned at -1, and false will be returned. * * @param offset the offset to be applied from the current position. * @return whether the requested move fully succeeded. */ boolean move(int offset); /** * Move the cursor to an absolute position. The valid * range of values is -1 <= position <= count. * *

This method will return true if the request destination was reachable, * otherwise, it returns false. * * @param position the zero-based position to move to. * @return whether the requested move fully succeeded. */ boolean moveToPosition(int position); /** * Move the cursor to the first row. * *

This method will return false if the cursor is empty. * * @return whether the move succeeded. */ boolean moveToFirst(); /** * Move the cursor to the last row. * *

This method will return false if the cursor is empty. * * @return whether the move succeeded. */ boolean moveToLast(); /** * Move the cursor to the next row. * *

This method will return false if the cursor is already past the * last entry in the result set. * * @return whether the move succeeded. */ boolean moveToNext(); /** * Move the cursor to the previous row. * *

This method will return false if the cursor is already before the * first entry in the result set. * * @return whether the move succeeded. */ boolean moveToPrevious(); /** * Returns whether the cursor is pointing to the first row. * * @return whether the cursor is pointing at the first entry. */ boolean isFirst(); /** * Returns whether the cursor is pointing to the last row. * * @return whether the cursor is pointing at the last entry. */ boolean isLast(); /** * Returns whether the cursor is pointing to the position before the first * row. * * @return whether the cursor is before the first result. */ boolean isBeforeFirst(); /** * Returns whether the cursor is pointing to the position after the last * row. * * @return whether the cursor is after the last result. */ boolean isAfterLast(); /** * Returns the zero-based index for the given column name, or -1 if the column doesn't exist. * If you expect the column to exist use {@link #getColumnIndexOrThrow(String)} instead, which * will make the error more clear. * * @param columnName the name of the target column. * @return the zero-based column index for the given column name, or -1 if * the column name does not exist. * @see #getColumnIndexOrThrow(String) */ int getColumnIndex(String columnName); /** * Returns the zero-based index for the given column name, or throws * {@link IllegalArgumentException} if the column doesn't exist. If you're not sure if * a column will exist or not use {@link #getColumnIndex(String)} and check for -1, which * is more efficient than catching the exceptions. * * @param columnName the name of the target column. * @return the zero-based column index for the given column name * @see #getColumnIndex(String) * @throws IllegalArgumentException if the column does not exist */ int getColumnIndexOrThrow(String columnName) throws IllegalArgumentException; /** * Returns the column name at the given zero-based column index. * * @param columnIndex the zero-based index of the target column. * @return the column name for the given column index. */ String getColumnName(int columnIndex); /** * Returns a string array holding the names of all of the columns in the * result set in the order in which they were listed in the result. * * @return the names of the columns returned in this query. */ String[] getColumnNames(); /** * Return total number of columns * @return number of columns */ int getColumnCount(); /** * Returns the value of the requested column as a byte array. * *

The result and whether this method throws an exception when the * column value is null or the column type is not a blob type is * implementation-defined. * * @param columnIndex the zero-based index of the target column. * @return the value of that column as a byte array. */ byte[] getBlob(int columnIndex); /** * Returns the value of the requested column as a String. * *

The result and whether this method throws an exception when the * column value is null or the column type is not a string type is * implementation-defined. * * @param columnIndex the zero-based index of the target column. * @return the value of that column as a String. */ String getString(int columnIndex); /** * Retrieves the requested column text and stores it in the buffer provided. * If the buffer size is not sufficient, a new char buffer will be allocated * and assigned to CharArrayBuffer.data * @param columnIndex the zero-based index of the target column. * if the target column is null, return buffer * @param buffer the buffer to copy the text into. */ void copyStringToBuffer(int columnIndex, CharArrayBuffer buffer); /** * Returns the value of the requested column as a short. * *

The result and whether this method throws an exception when the * column value is null, the column type is not an integral type, or the * integer value is outside the range [Short.MIN_VALUE, * Short.MAX_VALUE] is implementation-defined. * * @param columnIndex the zero-based index of the target column. * @return the value of that column as a short. */ short getShort(int columnIndex); /** * Returns the value of the requested column as an int. * *

The result and whether this method throws an exception when the * column value is null, the column type is not an integral type, or the * integer value is outside the range [Integer.MIN_VALUE, * Integer.MAX_VALUE] is implementation-defined. * * @param columnIndex the zero-based index of the target column. * @return the value of that column as an int. */ int getInt(int columnIndex); /** * Returns the value of the requested column as a long. * *

The result and whether this method throws an exception when the * column value is null, the column type is not an integral type, or the * integer value is outside the range [Long.MIN_VALUE, * Long.MAX_VALUE] is implementation-defined. * * @param columnIndex the zero-based index of the target column. * @return the value of that column as a long. */ long getLong(int columnIndex); /** * Returns the value of the requested column as a float. * *

The result and whether this method throws an exception when the * column value is null, the column type is not a floating-point type, or the * floating-point value is not representable as a float value is * implementation-defined. * * @param columnIndex the zero-based index of the target column. * @return the value of that column as a float. */ float getFloat(int columnIndex); /** * Returns the value of the requested column as a double. * *

The result and whether this method throws an exception when the * column value is null, the column type is not a floating-point type, or the * floating-point value is not representable as a double value is * implementation-defined. * * @param columnIndex the zero-based index of the target column. * @return the value of that column as a double. */ double getDouble(int columnIndex); /** * Returns data type of the given column's value. * The preferred type of the column is returned but the data may be converted to other types * as documented in the get-type methods such as {@link #getInt(int)}, {@link #getFloat(int)} * etc. *

* Returned column types are *

*

* * @param columnIndex the zero-based index of the target column. * @return column value type */ int getType(int columnIndex); /** * Returns true if the value in the indicated column is null. * * @param columnIndex the zero-based index of the target column. * @return whether the column value is null. */ boolean isNull(int columnIndex); /** * Deactivates the Cursor, making all calls on it fail until {@link #requery} is called. * Inactive Cursors use fewer resources than active Cursors. * Calling {@link #requery} will make the cursor active again. * @deprecated Since {@link #requery()} is deprecated, so too is this. */ @Deprecated void deactivate(); /** * Performs the query that created the cursor again, refreshing its * contents. This may be done at any time, including after a call to {@link * #deactivate}. * * Since this method could execute a query on the database and potentially take * a while, it could cause ANR if it is called on Main (UI) thread. * A warning is printed if this method is being executed on Main thread. * * @return true if the requery succeeded, false if not, in which case the * cursor becomes invalid. * @deprecated Don't use this. Just request a new cursor, so you can do this * asynchronously and update your list view once the new cursor comes back. */ @Deprecated boolean requery(); /** * Closes the Cursor, releasing all of its resources and making it completely invalid. * Unlike {@link #deactivate()} a call to {@link #requery()} will not make the Cursor valid * again. */ void close(); /** * return true if the cursor is closed * @return true if the cursor is closed. */ boolean isClosed(); /** * Register an observer that is called when changes happen to the content backing this cursor. * Typically the data set won't change until {@link #requery()} is called. * * @param observer the object that gets notified when the content backing the cursor changes. * @see #unregisterContentObserver(ContentObserver) */ void registerContentObserver(ContentObserver observer); /** * Unregister an observer that has previously been registered with this * cursor via {@link #registerContentObserver}. * * @param observer the object to unregister. * @see #registerContentObserver(ContentObserver) */ void unregisterContentObserver(ContentObserver observer); /** * Register an observer that is called when changes happen to the contents * of the this cursors data set, for example, when the data set is changed via * {@link #requery()}, {@link #deactivate()}, or {@link #close()}. * * @param observer the object that gets notified when the cursors data set changes. * @see #unregisterDataSetObserver(DataSetObserver) */ void registerDataSetObserver(DataSetObserver observer); /** * Unregister an observer that has previously been registered with this * cursor via {@link #registerContentObserver}. * * @param observer the object to unregister. * @see #registerDataSetObserver(DataSetObserver) */ void unregisterDataSetObserver(DataSetObserver observer); /** * Register to watch a content URI for changes. This can be the URI of a specific data row (for * example, "content://my_provider_type/23"), or a a generic URI for a content type. * * @param cr The content resolver from the caller's context. The listener attached to * this resolver will be notified. * @param uri The content URI to watch. */ void setNotificationUri(ContentResolver cr, Uri uri); /** * Return the URI at which notifications of changes in this Cursor's data * will be delivered, as previously set by {@link #setNotificationUri}. * @return Returns a URI that can be used with * {@link ContentResolver#registerContentObserver(android.net.Uri, boolean, ContentObserver) * ContentResolver.registerContentObserver} to find out about changes to this Cursor's * data. May be null if no notification URI has been set. */ Uri getNotificationUri(); /** * onMove() will only be called across processes if this method returns true. * @return whether all cursor movement should result in a call to onMove(). */ boolean getWantsAllOnMoveCalls(); /** * Sets a {@link Bundle} that will be returned by {@link #getExtras()}. * * @param extras {@link Bundle} to set, or null to set an empty bundle. */ void setExtras(Bundle extras); /** * Returns a bundle of extra values. This is an optional way for cursors to provide out-of-band * metadata to their users. One use of this is for reporting on the progress of network requests * that are required to fetch data for the cursor. * *

These values may only change when requery is called. * @return cursor-defined values, or {@link android.os.Bundle#EMPTY Bundle.EMPTY} if there * are no values. Never null. */ Bundle getExtras(); /** * This is an out-of-band way for the the user of a cursor to communicate with the cursor. The * structure of each bundle is entirely defined by the cursor. * *

One use of this is to tell a cursor that it should retry its network request after it * reported an error. * @param extras extra values, or {@link android.os.Bundle#EMPTY Bundle.EMPTY}. * Never null. * @return extra values, or {@link android.os.Bundle#EMPTY Bundle.EMPTY}. * Never null. */ Bundle respond(Bundle extras); }