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package org.hsqldb.jdbc;

import java.sql.Array;
import java.sql.ResultSet;
import java.sql.SQLException;

import org.hsqldb.ColumnBase;
import org.hsqldb.navigator.RowSetNavigatorClient;
import org.hsqldb.result.Result;
import org.hsqldb.result.ResultMetaData;
import org.hsqldb.types.Type;

/**
 * The mapping in the Java programming language for the SQL type
 * ARRAY.
 * By default, an Array value is a transaction-duration
 * reference to an SQL ARRAY value.  By default, an Array
 * object is implemented using an SQL LOCATOR(array) internally, which
 * means that an Array object contains a logical pointer
 * to the data in the SQL ARRAY value rather
 * than containing the ARRAY value's data.
 * 

* The Array interface provides methods for bringing an SQL * ARRAY value's data to the client as either an array or a * ResultSet object. * If the elements of the SQL ARRAY * are a UDT, they may be custom mapped. To create a custom mapping, * a programmer must do two things: *

    *
  • create a class that implements the {@link java.sql.SQLData} * interface for the UDT to be custom mapped. *
  • make an entry in a type map that contains *
      *
    • the fully-qualified SQL type name of the UDT *
    • the Class object for the class implementing * SQLData *
    *
*

* When a type map with an entry for * the base type is supplied to the methods getArray * and getResultSet, the mapping * it contains will be used to map the elements of the ARRAY value. * If no type map is supplied, which would typically be the case, * the connection's type map is used by default. * If the connection's type map or a type map supplied to a method has no entry * for the base type, the elements are mapped according to the standard mapping. *

* All methods on the Array interface must be fully implemented if the * JDBC driver supports the data type. * * @author Fred Toussi (fredt@users dot sourceforge.net) * @version 2.5.0 * @since JDK 1.2, HSQLDB 2.0.1 */ public class JDBCArrayBasic implements Array { /** * Retrieves the SQL type name of the elements in * the array designated by this Array object. * If the elements are a built-in type, it returns * the database-specific type name of the elements. * If the elements are a user-defined type (UDT), * this method returns the fully-qualified SQL type name. * * @return a String that is the database-specific * name for a built-in base type; or the fully-qualified SQL type * name for a base type that is a UDT * @exception SQLException if an error occurs while attempting * to access the type name * @since JDK 1.2 */ public String getBaseTypeName() throws SQLException { checkClosed(); return elementType.getNameString(); } /** * Retrieves the JDBC type of the elements in the array designated * by this Array object. * * @return a constant from the class {@link java.sql.Types} that is * the type code for the elements in the array designated by this * Array object * @exception SQLException if an error occurs while attempting * to access the base type * @since JDK 1.2 */ public int getBaseType() throws SQLException { checkClosed(); return elementType.getJDBCTypeCode(); } /** * * Retrieves the contents of the SQL ARRAY value designated * by this * Array object in the form of an array in the Java * programming language. This version of the method getArray * uses the type map associated with the connection for customizations of * the type mappings. *

* Note: When getArray is used to materialize * a base type that maps to a primitive data type, then it is * implementation-defined whether the array returned is an array of * that primitive data type or an array of Object. * * * *

*

HSQLDB-Specific Information:

* * HSQLDB always returns an array of Object. * *

* * * @return an array in the Java programming language that contains * the ordered elements of the SQL ARRAY value * designated by this Array object * @since JDK 1.2 */ public Object getArray() { return data; } /** * * Retrieves the contents of the SQL ARRAY value designated by this * Array object. * This method uses * the specified map for type map customizations * unless the base type of the array does not match a user-defined * type in map, in which case it * uses the standard mapping. This version of the method * getArray uses either the given type map or the standard mapping; * it never uses the type map associated with the connection. *

* Note: When getArray is used to materialize * a base type that maps to a primitive data type, then it is * implementation-defined whether the array returned is an array of * that primitive data type or an array of Object. * * * *

*

HSQLDB-Specific Information:

* * HSQLDB always returns an array of Object. * *

* * * @param map a java.util.Map object that contains mappings * of SQL type names to classes in the Java programming language * @return an array in the Java programming language that contains the ordered * elements of the SQL array designated by this object * @exception SQLException if an error occurs while attempting to * access the array * @since JDK 1.2 */ public Object getArray(java.util.Map> map) throws SQLException { return getArray(); } /** * * Retrieves a slice of the SQL ARRAY * value designated by this Array object, beginning with the * specified index and containing up to count * successive elements of the SQL array. This method uses the type map * associated with the connection for customizations of the type mappings. *

* Note: When getArray is used to materialize * a base type that maps to a primitive data type, then it is * implementation-defined whether the array returned is an array of * that primitive data type or an array of Object. * * * *

*

HSQLDB-Specific Information:

* * HSQLDB always returns an array of Object. * *

* * * @param index the array index of the first element to retrieve; * the first element is at index 1 * @param count the number of successive SQL array elements to retrieve * @return an array containing up to count consecutive elements * of the SQL array, beginning with element index * @exception SQLException if an error occurs while attempting to * access the array * @since JDK 1.2 */ public Object getArray(long index, int count) throws SQLException { checkClosed(); if (!JDBCClobClient.isInLimits(data.length, index - 1, count)) { throw JDBCUtil.outOfRangeArgument(); } Object[] slice = new Object[count]; System.arraycopy(data, (int) index - 1, slice, 0, count); return slice; } /** * * Retrieves a slice of the SQL ARRAY value * designated by this Array object, beginning with the specified * index and containing up to count * successive elements of the SQL array. *

* This method uses * the specified map for type map customizations * unless the base type of the array does not match a user-defined * type in map, in which case it * uses the standard mapping. This version of the method * getArray uses either the given type map or the standard mapping; * it never uses the type map associated with the connection. *

* Note: When getArray is used to materialize * a base type that maps to a primitive data type, then it is * implementation-defined whether the array returned is an array of * that primitive data type or an array of Object. * * * *

*

HSQLDB-Specific Information:

* * HSQLDB always returns an array of Object. * *

* * * @param index the array index of the first element to retrieve; * the first element is at index 1 * @param count the number of successive SQL array elements to * retrieve * @param map a java.util.Map object * that contains SQL type names and the classes in * the Java programming language to which they are mapped * @return an array containing up to count * consecutive elements of the SQL ARRAY value designated by this * Array object, beginning with element * index * @exception SQLException if an error occurs while attempting to * access the array * @since JDK 1.2 */ public Object getArray(long index, int count, java.util.Map> map) throws SQLException { return getArray(index, count); } /** * Retrieves a result set that contains the elements of the SQL * ARRAY value * designated by this Array object. If appropriate, * the elements of the array are mapped using the connection's type * map; otherwise, the standard mapping is used. *

* The result set contains one row for each array element, with * two columns in each row. The second column stores the element * value; the first column stores the index into the array for * that element (with the first array element being at index 1). * The rows are in ascending order corresponding to * the order of the indices. * * @return a {@link ResultSet} object containing one row for each * of the elements in the array designated by this Array * object, with the rows in ascending order based on the indices. * @exception SQLException if an error occurs while attempting to * access the array * @since JDK 1.2 */ public ResultSet getResultSet() throws SQLException { checkClosed(); Result result = this.newColumnResult(0, data.length); return JDBCResultSet.newJDBCResultSet(result, result.metaData); } /** * Retrieves a result set that contains the elements of the SQL * ARRAY value designated by this Array object. * This method uses * the specified map for type map customizations * unless the base type of the array does not match a user-defined * type in map, in which case it * uses the standard mapping. This version of the method * getResultSet uses either the given type map or the standard mapping; * it never uses the type map associated with the connection. *

* The result set contains one row for each array element, with * two columns in each row. The second column stores the element * value; the first column stores the index into the array for * that element (with the first array element being at index 1). * The rows are in ascending order corresponding to * the order of the indices. * * @param map contains the mapping of SQL user-defined types to * classes in the Java programming language * @return a ResultSet object containing one row for each * of the elements in the array designated by this Array * object, with the rows in ascending order based on the indices. * @exception SQLException if an error occurs while attempting to * access the array * @since JDK 1.2 */ public ResultSet getResultSet(java.util.Map> map) throws SQLException { return getResultSet(); } /** * Retrieves a result set holding the elements of the subarray that * starts at index index and contains up to * count successive elements. This method uses * the connection's type map to map the elements of the array if * the map contains an entry for the base type. Otherwise, the * standard mapping is used. *

* The result set has one row for each element of the SQL array * designated by this object, with the first row containing the * element at index index. The result set has * up to count rows in ascending order based on the * indices. Each row has two columns: The second column stores * the element value; the first column stores the index into the * array for that element. * * @param index the array index of the first element to retrieve; * the first element is at index 1 * @param count the number of successive SQL array elements to retrieve * @return a ResultSet object containing up to * count consecutive elements of the SQL array * designated by this Array object, starting at * index index. * @exception SQLException if an error occurs while attempting to * access the array * @since JDK 1.2 */ public ResultSet getResultSet(long index, int count) throws SQLException { checkClosed(); Result result = this.newColumnResult(index - 1, count); return new JDBCResultSet(null, result, result.metaData); } /** * Retrieves a result set holding the elements of the subarray that * starts at index index and contains up to * count successive elements. * This method uses * the specified map for type map customizations * unless the base type of the array does not match a user-defined * type in map, in which case it * uses the standard mapping. This version of the method * getResultSet uses either the given type map or the standard mapping; * it never uses the type map associated with the connection. *

* The result set has one row for each element of the SQL array * designated by this object, with the first row containing the * element at index index. The result set has * up to count rows in ascending order based on the * indices. Each row has two columns: The second column stores * the element value; the first column stores the index into the * array for that element. * * @param index the array index of the first element to retrieve; * the first element is at index 1 * @param count the number of successive SQL array elements to retrieve * @param map the Map object that contains the mapping * of SQL type names to classes in the Java(tm) programming language * @return a ResultSet object containing up to * count consecutive elements of the SQL array * designated by this Array object, starting at * index index. * @exception SQLException if an error occurs while attempting to * access the array * @since JDK 1.2 */ public ResultSet getResultSet(long index, int count, java.util.Map> map) throws SQLException { return getResultSet(index, count); } /** * Returns a string representation in the form ARRAY[..., ...] */ public String toString() { if (arrayType == null) { arrayType = Type.getDefaultArrayType(elementType.typeCode); } return arrayType.convertToString(data); } /** * This method frees the Array object and releases the resources that * it holds. The object is invalid once the free * method is called. *

* After free has been called, any attempt to invoke a * method other than free will result in a SQLException * being thrown. If free is called multiple times, the subsequent * calls to free are treated as a no-op. *

* * @throws SQLException if an error occurs releasing * the Array's resources * @since JDK 1.6 */ public void free() throws SQLException { // } //------------- Type arrayType; Type elementType; Object[] data; /** * Public constructor to create an Array object from an Object[] and an * HSQLDB org.hsqldb.types.Type object. * * @param data the Object[] * @param type the HSQLDB org.hsqldb.types.Type object */ public JDBCArrayBasic(Object[] data, Type type) { this.data = data; this.elementType = type; } Object[] getArrayInternal() { return data; } private Result newColumnResult(long position, int count) throws SQLException { if (!JDBCClobClient.isInLimits(data.length, position, count)) { throw JDBCUtil.outOfRangeArgument(); } Type[] types = new Type[2]; types[0] = Type.SQL_INTEGER; types[1] = elementType; ResultMetaData meta = ResultMetaData.newSimpleResultMetaData(types); meta.columnLabels = new String[] { "C1", "C2" }; meta.colIndexes = new int[] { -1, -1 }; meta.columns = new ColumnBase[2]; for (int i = 0; i < meta.columns.length; i++) { ColumnBase column = new ColumnBase("", "", "", ""); column.setType(types[i]); meta.columns[i] = column; } RowSetNavigatorClient navigator = new RowSetNavigatorClient(); for (int i = (int) position; i < position + count; i++) { Object[] rowData = new Object[2]; rowData[0] = Integer.valueOf(i + 1); rowData[1] = data[i]; navigator.add(rowData); } Result result = Result.newDataResult(meta); result.setNavigator(navigator); return result; } private void checkClosed() throws SQLException { } }





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