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package oracle.toplink.essentials.platform.database;

import java.io.*;
import java.sql.*;
import java.util.*;

import oracle.toplink.essentials.exceptions.ValidationException;
import oracle.toplink.essentials.expressions.*;
import oracle.toplink.essentials.internal.helper.*;
import oracle.toplink.essentials.queryframework.*;
import oracle.toplink.essentials.internal.databaseaccess.*;
import oracle.toplink.essentials.internal.sessions.AbstractSession;
import oracle.toplink.essentials.internal.expressions.ParameterExpression;
import oracle.toplink.essentials.internal.helper.BasicTypeHelperImpl;

/**
 * 

Purpose: Provides DB2 specific behaviour. *

Responsibilities:

    *
  • Native SQL for byte[], Date, Time, & Timestamp. *
  • Support for table qualified names. *
* * @since TOPLink/Java 1.0 */ public class DB2Platform extends oracle.toplink.essentials.platform.database.DatabasePlatform { /** * INTERNAL: * Append a byte[] in native DB@ format BLOB(hexString) if usesNativeSQL(), * otherwise use ODBC format from DatabasePLatform. */ protected void appendByteArray(byte[] bytes, Writer writer) throws IOException { if (usesNativeSQL()) { writer.write("BLOB(x'"); Helper.writeHexString(bytes, writer); writer.write("')"); } else { super.appendByteArray(bytes, writer); } } /** * INTERNAL: * Appends the Date in native format if usesNativeSQL() otherwise use ODBC format from DatabasePlatform. * Native format: 'mm/dd/yyyy' */ protected void appendDate(java.sql.Date date, Writer writer) throws IOException { if (usesNativeSQL()) { appendDB2Date(date, writer); } else { super.appendDate(date, writer); } } /** * INTERNAL: * Write a timestamp in DB2 specific format (mm/dd/yyyy). */ protected void appendDB2Date(java.sql.Date date, Writer writer) throws IOException { writer.write("'"); // PERF: Avoid deprecated get methods, that are now very inefficient and used from toString. Calendar calendar = Helper.allocateCalendar(); calendar.setTime(date); if ((calendar.get(Calendar.MONTH) + 1) < 10) { writer.write('0'); } writer.write(Integer.toString(calendar.get(Calendar.MONTH) + 1)); writer.write('/'); if (calendar.get(Calendar.DATE) < 10) { writer.write('0'); } writer.write(Integer.toString(calendar.get(Calendar.DATE))); writer.write('/'); writer.write(Integer.toString(calendar.get(Calendar.YEAR))); writer.write("'"); Helper.releaseCalendar(calendar); } /** * INTERNAL: * Write a timestamp in DB2 specific format (yyyy-mm-dd-hh.mm.ss.ffffff). */ protected void appendDB2Timestamp(java.sql.Timestamp timestamp, Writer writer) throws IOException { // PERF: Avoid deprecated get methods, that are now very inefficient and used from toString. Calendar calendar = Helper.allocateCalendar(); calendar.setTime(timestamp); writer.write(Helper.printDate(calendar)); writer.write('-'); if (calendar.get(Calendar.HOUR_OF_DAY) < 10) { writer.write('0'); } writer.write(Integer.toString(calendar.get(Calendar.HOUR_OF_DAY))); writer.write('.'); if (calendar.get(Calendar.MINUTE) < 10) { writer.write('0'); } writer.write(Integer.toString(calendar.get(Calendar.MINUTE))); writer.write('.'); if (calendar.get(Calendar.SECOND) < 10) { writer.write('0'); } writer.write(Integer.toString(calendar.get(Calendar.SECOND))); writer.write('.'); Helper.releaseCalendar(calendar); // Must truncate the nanos to six decimal places, // it is actually a complex algorithm... String nanoString = Integer.toString(timestamp.getNanos()); int numberOfZeros = 0; for (int num = Math.min(9 - nanoString.length(), 6); num > 0; num--) { writer.write('0'); numberOfZeros++; } if ((nanoString.length() + numberOfZeros) > 6) { nanoString = nanoString.substring(0, (6 - numberOfZeros)); } writer.write(nanoString); } /** * INTERNAL: * Write a timestamp in DB2 specific format (yyyy-mm-dd-hh.mm.ss.ffffff). */ protected void appendDB2Calendar(Calendar calendar, Writer writer) throws IOException { int hour; int minute; int second; if (!Helper.getDefaultTimeZone().equals(calendar.getTimeZone())) { // Must convert the calendar to the local timezone if different, as dates have no timezone (always local). Calendar localCalendar = Helper.allocateCalendar(); JavaPlatform.setTimeInMillis(localCalendar, JavaPlatform.getTimeInMillis(calendar)); hour = calendar.get(Calendar.HOUR_OF_DAY); minute = calendar.get(Calendar.MINUTE); second = calendar.get(Calendar.SECOND); Helper.releaseCalendar(localCalendar); } else { hour = calendar.get(Calendar.HOUR_OF_DAY); minute = calendar.get(Calendar.MINUTE); second = calendar.get(Calendar.SECOND); } writer.write(Helper.printDate(calendar)); writer.write('-'); if (hour < 10) { writer.write('0'); } writer.write(Integer.toString(hour)); writer.write('.'); if (minute < 10) { writer.write('0'); } writer.write(Integer.toString(minute)); writer.write('.'); if (second < 10) { writer.write('0'); } writer.write(Integer.toString(second)); writer.write('.'); // Must truncate the nanos to six decimal places, // it is actually a complex algorithm... String millisString = Integer.toString(calendar.get(Calendar.MILLISECOND)); int numberOfZeros = 0; for (int num = Math.min(3 - millisString.length(), 3); num > 0; num--) { writer.write('0'); numberOfZeros++; } if ((millisString.length() + numberOfZeros) > 3) { millisString = millisString.substring(0, (3 - numberOfZeros)); } writer.write(millisString); } /** * INTERNAL: * Append the Time in Native format if usesNativeSQL() otherwise use ODBC format from DAtabasePlatform. * Native Format: 'hh:mm:ss' */ protected void appendTime(java.sql.Time time, Writer writer) throws IOException { if (usesNativeSQL()) { writer.write("'"); writer.write(Helper.printTime(time)); writer.write("'"); } else { super.appendTime(time, writer); } } /** * INTERNAL: * Append the Timestamp in native format if usesNativeSQL() is true otherwise use ODBC format from DatabasePlatform. * Native format: 'YYYY-MM-DD-hh.mm.ss.SSSSSS' */ protected void appendTimestamp(java.sql.Timestamp timestamp, Writer writer) throws IOException { if (usesNativeSQL()) { writer.write("'"); appendDB2Timestamp(timestamp, writer); writer.write("'"); } else { super.appendTimestamp(timestamp, writer); } } /** * INTERNAL: * Append the Timestamp in native format if usesNativeSQL() is true otherwise use ODBC format from DatabasePlatform. * Native format: 'YYYY-MM-DD-hh.mm.ss.SSSSSS' */ protected void appendCalendar(Calendar calendar, Writer writer) throws IOException { if (usesNativeSQL()) { writer.write("'"); appendDB2Calendar(calendar, writer); writer.write("'"); } else { super.appendCalendar(calendar, writer); } } protected Hashtable buildFieldTypes() { Hashtable fieldTypeMapping = new Hashtable(); fieldTypeMapping.put(Boolean.class, new FieldTypeDefinition("SMALLINT DEFAULT 0", false)); fieldTypeMapping.put(Integer.class, new FieldTypeDefinition("INTEGER", false)); fieldTypeMapping.put(Long.class, new FieldTypeDefinition("INTEGER", false)); fieldTypeMapping.put(Float.class, new FieldTypeDefinition("FLOAT", false)); fieldTypeMapping.put(Double.class, new FieldTypeDefinition("FLOAT", false)); fieldTypeMapping.put(Short.class, new FieldTypeDefinition("SMALLINT", false)); fieldTypeMapping.put(Byte.class, new FieldTypeDefinition("SMALLINT", false)); fieldTypeMapping.put(java.math.BigInteger.class, new FieldTypeDefinition("BIGINT", false)); fieldTypeMapping.put(java.math.BigDecimal.class, new FieldTypeDefinition("DECIMAL", 15)); fieldTypeMapping.put(Number.class, new FieldTypeDefinition("DECIMAL", 15)); fieldTypeMapping.put(String.class, new FieldTypeDefinition("VARCHAR", 255)); fieldTypeMapping.put(Character.class, new FieldTypeDefinition("CHAR", 1)); fieldTypeMapping.put(Byte[].class, new FieldTypeDefinition("BLOB", 64000)); fieldTypeMapping.put(Character[].class, new FieldTypeDefinition("CLOB", 64000)); fieldTypeMapping.put(byte[].class, new FieldTypeDefinition("BLOB", 64000)); fieldTypeMapping.put(char[].class, new FieldTypeDefinition("CLOB", 64000)); fieldTypeMapping.put(java.sql.Blob.class, new FieldTypeDefinition("BLOB", 64000)); fieldTypeMapping.put(java.sql.Clob.class, new FieldTypeDefinition("CLOB", 64000)); fieldTypeMapping.put(java.sql.Date.class, new FieldTypeDefinition("DATE", false)); fieldTypeMapping.put(java.sql.Time.class, new FieldTypeDefinition("TIME", false)); fieldTypeMapping.put(java.sql.Timestamp.class, new FieldTypeDefinition("TIMESTAMP", false)); return fieldTypeMapping; } /** * INTERNAL: * returns the maximum number of characters that can be used in a field * name on this platform. */ public int getMaxFieldNameSize() { return 128; } /** * INTERNAL: * returns the maximum number of characters that can be used in a foreign key * name on this platform. */ public int getMaxForeignKeyNameSize() { return 18; } /** * INTERNAL: * Return the catalog information through using the native SQL catalog selects. * This is required because many JDBC driver do not support meta-data. * Willcards can be passed as arguments. */ public Vector getNativeTableInfo(String table, String creator, AbstractSession session) { String query = "SELECT * FROM SYSIBM.SYSTABLES WHERE TBCREATOR NOT IN ('SYS', 'SYSTEM')"; if (table != null) { if (table.indexOf('%') != -1) { query = query + " AND TBNAME LIKE " + table; } else { query = query + " AND TBNAME = " + table; } } if (creator != null) { if (creator.indexOf('%') != -1) { query = query + " AND TBCREATOR LIKE " + creator; } else { query = query + " AND TBCREATOR = " + creator; } } return session.executeSelectingCall(new oracle.toplink.essentials.queryframework.SQLCall(query)); } /** * INTERNAL: * Used for sp calls. */ public String getProcedureCallHeader() { return "CALL "; } /** * INTERNAL: */ public String getSelectForUpdateString() { return " FOR UPDATE"; } /** * INTERNAL: * Used for stored procedure defs. */ public String getProcedureEndString() { return "END"; } /** * INTERNAL: * Used for stored procedure defs. */ public String getProcedureBeginString() { return "BEGIN"; } /** * INTERNAL: * Used for stored procedure defs. */ public String getProcedureAsString() { return ""; } /** * INTERNAL: * This is required in the construction of the stored procedures with * output parameters */ public boolean shouldPrintOutputTokenAtStart() { return true; } /** * INTERNAL: * This method returns the query to select the timestamp * from the server for DB2. */ public ValueReadQuery getTimestampQuery() { if (timestampQuery == null) { timestampQuery = new ValueReadQuery(); timestampQuery.setSQLString("SELECT DISTINCT CURRENT TIMESTAMP FROM SYSIBM.SYSTABLES"); } return timestampQuery; } /** * INTERNAL: * Initialize any platform-specific operators */ protected void initializePlatformOperators() { super.initializePlatformOperators(); addOperator(ExpressionOperator.simpleFunction(ExpressionOperator.ToUpperCase, "UCASE")); addOperator(ExpressionOperator.simpleFunction(ExpressionOperator.ToLowerCase, "LCASE")); addOperator(concatOperator()); addOperator(ExpressionOperator.simpleTwoArgumentFunction(ExpressionOperator.Instring, "Locate")); //CR#2811076 some missing DB2 functions added. addOperator(ExpressionOperator.simpleFunction(ExpressionOperator.ToNumber, "DECIMAL")); addOperator(ExpressionOperator.simpleFunction(ExpressionOperator.ToChar, "CHAR")); addOperator(ExpressionOperator.simpleFunction(ExpressionOperator.DateToString, "CHAR")); addOperator(ExpressionOperator.simpleFunction(ExpressionOperator.ToDate, "DATE")); } public boolean isDB2() { return true; } /** * INTERNAL: * Builds a table of maximum numeric values keyed on java class. This is used for type testing but * might also be useful to end users attempting to sanitize values. *

NOTE: BigInteger & BigDecimal maximums are dependent upon their precision & Scale */ public Hashtable maximumNumericValues() { Hashtable values = new Hashtable(); values.put(Integer.class, new Integer(Integer.MAX_VALUE)); values.put(Long.class, new Long((long)Integer.MAX_VALUE)); values.put(Float.class, new Float(123456789)); values.put(Double.class, new Double((double)Float.MAX_VALUE)); values.put(Short.class, new Short(Short.MAX_VALUE)); values.put(Byte.class, new Byte(Byte.MAX_VALUE)); values.put(java.math.BigInteger.class, new java.math.BigInteger("999999999999999")); values.put(java.math.BigDecimal.class, new java.math.BigDecimal("0.999999999999999")); return values; } /** * INTERNAL: * Builds a table of minimum numeric values keyed on java class. This is used for type testing but * might also be useful to end users attempting to sanitize values. *

NOTE: BigInteger & BigDecimal minimums are dependent upon their precision & Scale */ public Hashtable minimumNumericValues() { Hashtable values = new Hashtable(); values.put(Integer.class, new Integer(Integer.MIN_VALUE)); values.put(Long.class, new Long((long)Integer.MIN_VALUE)); values.put(Float.class, new Float(-123456789)); values.put(Double.class, new Double((double)Float.MIN_VALUE)); values.put(Short.class, new Short(Short.MIN_VALUE)); values.put(Byte.class, new Byte(Byte.MIN_VALUE)); values.put(java.math.BigInteger.class, new java.math.BigInteger("-999999999999999")); values.put(java.math.BigDecimal.class, new java.math.BigDecimal("-0.999999999999999")); return values; } /** * INTERNAL: * Allow for the platform to ignore exceptions. * This is required for DB2 which throws no-data modified as an exception. */ public boolean shouldIgnoreException(SQLException exception) { if (exception.getMessage().equals("No data found") || exception.getMessage().equals("No row was found for FETCH, UPDATE or DELETE; or the result of a query is an empty table") || (exception.getErrorCode() == 100)) { return true; } return super.shouldIgnoreException(exception); } /** * INTERNAL: * JDBC defines and outer join syntax, many drivers do not support this. So we normally avoid it. */ public boolean shouldUseJDBCOuterJoinSyntax() { return false; } /** * The Concat operator is of the form * .... VARCHAR ( || ) */ private ExpressionOperator concatOperator() { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(ExpressionOperator.FunctionOperator); exOperator.setSelector(ExpressionOperator.Concat); Vector v = new Vector(5); v.addElement("VARCHAR("); v.addElement(" || "); v.addElement(")"); exOperator.printsAs(v); exOperator.bePrefix(); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * Build the identity query for native sequencing. */ public ValueReadQuery buildSelectQueryForIdentity() { ValueReadQuery selectQuery = new ValueReadQuery(); StringWriter writer = new StringWriter(); writer.write("SELECT IDENTITY_VAL_LOCAL() FROM SYSIBM.SYSDUMMY1"); selectQuery.setSQLString(writer.toString()); return selectQuery; } /** * INTERNAL: * Append the receiver's field 'identity' constraint clause to a writer */ public void printFieldIdentityClause(Writer writer) throws ValidationException { try { writer.write(" GENERATED ALWAYS AS IDENTITY"); } catch (IOException ioException) { throw ValidationException.fileError(ioException); } } /** * INTERNAL: * Indicates whether the platform supports identity. * DB2 does through AS IDENTITY field types. * This method is to be used *ONLY* by sequencing classes */ public boolean supportsIdentity() { return true; } /** * INTERNAL: */ public boolean supportsGlobalTempTables() { return true; } /** * INTERNAL: */ protected String getCreateTempTableSqlPrefix() { return "DECLARE GLOBAL TEMPORARY TABLE "; } /** * INTERNAL: */ public DatabaseTable getTempTableForTable(DatabaseTable table) { DatabaseTable tempTable = super.getTempTableForTable(table); tempTable.setTableQualifier("session"); return tempTable; } /** * INTERNAL: */ protected String getCreateTempTableSqlSuffix() { return " ON COMMIT DELETE ROWS NOT LOGGED"; } /** * INTERNAL: */ protected String getCreateTempTableSqlBodyForTable(DatabaseTable table) { return " LIKE " + table.getQualifiedName(); } /** * INTERNAL: * Override this if the platform cannot handle NULL in select clause. */ public boolean isNullAllowedInSelectClause() { return false; } public void writeParameterMarker(Writer writer, ParameterExpression parameter) throws IOException { // DB2 requires cast around parameter markers if both operands of certian // operators are parameter markers // This method generates CAST for parameter markers whose type is correctly // identified by the query compiler String paramaterMarker = "?"; Object type = parameter.getType(); if(type != null) { BasicTypeHelperImpl typeHelper = BasicTypeHelperImpl.getInstance(); String castType = null; if (typeHelper.isBooleanType(type) || typeHelper.isByteType(type) || typeHelper.isShortType(type)) { castType = "SMALLINT"; } else if (typeHelper.isIntType(type)) { castType = "INTEGER"; } else if (typeHelper.isLongType(type)) { castType = "BIGINT"; } else if (typeHelper.isFloatType(type)) { castType = "REAL"; } else if (typeHelper.isDoubleType(type)) { castType = "DOUBLE"; } else if (typeHelper.isStringType(type)) { castType = "VARCHAR(32672)"; } if(castType != null){ paramaterMarker = "CAST (? AS " + castType + " )"; } } writer.write(paramaterMarker); } /** * INTERNAL * Allows platform to choose whether to bind literals in DatabaseCalls or not. */ public boolean shouldBindLiterals() { return false; } }





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