/* * Copyright 2013 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. */ /* * Modifications: * -Imported from AOSP frameworks/base/core/java/com/android/internal/content * -Changed package name */ package com.example.android.common.db; import android.content.ContentValues; import android.database.Cursor; import android.database.sqlite.SQLiteDatabase; import android.text.TextUtils; import android.util.Log; import java.util.ArrayList; import java.util.Arrays; import java.util.Collections; import java.util.HashMap; import java.util.Map; /** * Helper for building selection clauses for {@link SQLiteDatabase}. * *

This class provides a convenient frontend for working with SQL. Instead of composing statements * manually using string concatenation, method calls are used to construct the statement one * clause at a time. These methods can be chained together. * *

If multiple where() statements are provided, they're combined using {@code AND}. * *

Example: * * 

 *     SelectionBuilder builder = new SelectionBuilder();
 *     Cursor c = builder.table(FeedContract.Entry.TABLE_NAME)       // String TABLE_NAME = "entry"
 *                       .where(FeedContract.Entry._ID + "=?", id);  // String _ID = "_ID"
 *                       .query(db, projection, sortOrder)
 *
 *
* *

In this example, the table name and filters ({@code WHERE} clauses) are both explicitly * specified via method call. SelectionBuilder takes care of issuing a "query" command to the * database, and returns the resulting {@link Cursor} object. * *

Inner {@code JOIN}s can be accomplished using the mapToTable() function. The map() function * can be used to create new columns based on arbitrary (SQL-based) criteria. In advanced usage, * entire subqueries can be passed into the map() function. * *

Advanced example: * * 

 *     // String SESSIONS_JOIN_BLOCKS_ROOMS = "sessions "
 *     //        + "LEFT OUTER JOIN blocks ON sessions.block_id=blocks.block_id "
 *     //        + "LEFT OUTER JOIN rooms ON sessions.room_id=rooms.room_id";
 *
 *     // String Subquery.BLOCK_NUM_STARRED_SESSIONS =
 *     //       "(SELECT COUNT(1) FROM "
 *     //        + Tables.SESSIONS + " WHERE " + Qualified.SESSIONS_BLOCK_ID + "="
 *     //        + Qualified.BLOCKS_BLOCK_ID + " AND " + Qualified.SESSIONS_STARRED + "=1)";
 *
 *     String Subqery.BLOCK_SESSIONS_COUNT =
 *     Cursor c = builder.table(Tables.SESSIONS_JOIN_BLOCKS_ROOMS)
 *               .map(Blocks.NUM_STARRED_SESSIONS, Subquery.BLOCK_NUM_STARRED_SESSIONS)
 *               .mapToTable(Sessions._ID, Tables.SESSIONS)
 *               .mapToTable(Sessions.SESSION_ID, Tables.SESSIONS)
 *               .mapToTable(Sessions.BLOCK_ID, Tables.SESSIONS)
 *               .mapToTable(Sessions.ROOM_ID, Tables.SESSIONS)
 *               .where(Qualified.SESSIONS_BLOCK_ID + "=?", blockId);
 *
* *

In this example, we have two different types of {@code JOIN}s: a left outer join using a * modified table name (since this class doesn't directly support these), and an inner join using * the mapToTable() function. The map() function is used to insert a count based on specific * criteria, executed as a sub-query. * * This class is not thread safe. */ public class SelectionBuilder { private static final String TAG = "basicsyncadapter"; private String mTable = null; private Map mProjectionMap = new HashMap(); private StringBuilder mSelection = new StringBuilder(); private ArrayList mSelectionArgs = new ArrayList(); /** * Reset any internal state, allowing this builder to be recycled. * *

Calling this method is more efficient than creating a new SelectionBuilder object. * * @return Fluent interface */ public SelectionBuilder reset() { mTable = null; mSelection.setLength(0); mSelectionArgs.clear(); return this; } /** * Append the given selection clause to the internal state. Each clause is * surrounded with parenthesis and combined using {@code AND}. * *

In the most basic usage, simply provide a selection in SQL {@code WHERE} statement format. * *

Example: * * 

     *     .where("blog_posts.category = 'PROGRAMMING');
     *
* *

User input should never be directly supplied as as part of the selection statement. * Instead, use positional parameters in your selection statement, then pass the user input * in via the selectionArgs parameter. This prevents SQL escape characters in user input from * causing unwanted side effects. (Failure to follow this convention may have security * implications.) * *

Positional parameters are specified using the '?' character. * *

Example: * 

     *     .where("blog_posts.title contains ?, userSearchString);
     *
* * @param selection SQL where statement * @param selectionArgs Values to substitute for positional parameters ('?' characters in * {@code selection} statement. Will be automatically escaped. * @return Fluent interface */ public SelectionBuilder where(String selection, String... selectionArgs) { if (TextUtils.isEmpty(selection)) { if (selectionArgs != null && selectionArgs.length > 0) { throw new IllegalArgumentException( "Valid selection required when including arguments="); } // Shortcut when clause is empty return this; } if (mSelection.length() > 0) { mSelection.append(" AND "); } mSelection.append("(").append(selection).append(")"); if (selectionArgs != null) { Collections.addAll(mSelectionArgs, selectionArgs); } return this; } /** * Table name to use for SQL {@code FROM} statement. * *

This method may only be called once. If multiple tables are required, concatenate them * in SQL-format (typically comma-separated). * *

If you need to do advanced {@code JOIN}s, they can also be specified here. * * See also: mapToTable() * * @param table Table name * @return Fluent interface */ public SelectionBuilder table(String table) { mTable = table; return this; } /** * Verify that a table name has been supplied using table(). * * @throws IllegalStateException if table not set */ private void assertTable() { if (mTable == null) { throw new IllegalStateException("Table not specified"); } } /** * Perform an inner join. * *

Map columns from a secondary table onto the current result set. References to the column * specified in {@code column} will be replaced with {@code table.column} in the SQL {@code * SELECT} clause. * * @param column Column name to join on. Must be the same in both tables. * @param table Secondary table to join. * @return Fluent interface */ public SelectionBuilder mapToTable(String column, String table) { mProjectionMap.put(column, table + "." + column); return this; } /** * Create a new column based on custom criteria (such as aggregate functions). * *

This adds a new column to the result set, based upon custom criteria in SQL format. This * is equivalent to the SQL statement: {@code SELECT toClause AS fromColumn} * *

This method is useful for executing SQL sub-queries. * * @param fromColumn Name of column for mapping * @param toClause SQL string representing data to be mapped * @return Fluent interface */ public SelectionBuilder map(String fromColumn, String toClause) { mProjectionMap.put(fromColumn, toClause + " AS " + fromColumn); return this; } /** * Return selection string based on current internal state. * * @return Current selection as a SQL statement * @see #getSelectionArgs() */ public String getSelection() { return mSelection.toString(); } /** * Return selection arguments based on current internal state. * * @see #getSelection() */ public String[] getSelectionArgs() { return mSelectionArgs.toArray(new String[mSelectionArgs.size()]); } /** * Process user-supplied projection (column list). * *

In cases where a column is mapped to another data source (either another table, or an * SQL sub-query), the column name will be replaced with a more specific, SQL-compatible * representation. * * Assumes that incoming columns are non-null. * *

See also: map(), mapToTable() * * @param columns User supplied projection (column list). */ private void mapColumns(String[] columns) { for (int i = 0; i < columns.length; i++) { final String target = mProjectionMap.get(columns[i]); if (target != null) { columns[i] = target; } } } /** * Return a description of this builder's state. Does NOT output SQL. * * @return Human-readable internal state */ @Override public String toString() { return "SelectionBuilder[table=" + mTable + ", selection=" + getSelection() + ", selectionArgs=" + Arrays.toString(getSelectionArgs()) + "]"; } /** * Execute query (SQL {@code SELECT}) against specified database. * *

Using a null projection (column list) is not supported. * * @param db Database to query. * @param columns Database projection (column list) to return, must be non-NULL. * @param orderBy How to order the rows, formatted as an SQL ORDER BY clause (excluding the * ORDER BY itself). Passing null will use the default sort order, which may be * unordered. * @return A {@link Cursor} object, which is positioned before the first entry. Note that * {@link Cursor}s are not synchronized, see the documentation for more details. */ public Cursor query(SQLiteDatabase db, String[] columns, String orderBy) { return query(db, columns, null, null, orderBy, null); } /** * Execute query ({@code SELECT}) against database. * *

Using a null projection (column list) is not supported. * * @param db Database to query. * @param columns Database projection (column list) to return, must be non-null. * @param groupBy A filter declaring how to group rows, formatted as an SQL GROUP BY clause * (excluding the GROUP BY itself). Passing null will cause the rows to not be * grouped. * @param having A filter declare which row groups to include in the cursor, if row grouping is * being used, formatted as an SQL HAVING clause (excluding the HAVING itself). * Passing null will cause all row groups to be included, and is required when * row grouping is not being used. * @param orderBy How to order the rows, formatted as an SQL ORDER BY clause (excluding the * ORDER BY itself). Passing null will use the default sort order, which may be * unordered. * @param limit Limits the number of rows returned by the query, formatted as LIMIT clause. * Passing null denotes no LIMIT clause. * @return A {@link Cursor} object, which is positioned before the first entry. Note that * {@link Cursor}s are not synchronized, see the documentation for more details. */ public Cursor query(SQLiteDatabase db, String[] columns, String groupBy, String having, String orderBy, String limit) { assertTable(); if (columns != null) mapColumns(columns); Log.v(TAG, "query(columns=" + Arrays.toString(columns) + ") " + this); return db.query(mTable, columns, getSelection(), getSelectionArgs(), groupBy, having, orderBy, limit); } /** * Execute an {@code UPDATE} against database. * * @param db Database to query. * @param values A map from column names to new column values. null is a valid value that will * be translated to NULL * @return The number of rows affected. */ public int update(SQLiteDatabase db, ContentValues values) { assertTable(); Log.v(TAG, "update() " + this); return db.update(mTable, values, getSelection(), getSelectionArgs()); } /** * Execute {@code DELETE} against database. * * @param db Database to query. * @return The number of rows affected. */ public int delete(SQLiteDatabase db) { assertTable(); Log.v(TAG, "delete() " + this); return db.delete(mTable, getSelection(), getSelectionArgs()); } }