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SQLServerPlatform.java
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SQLServerPlatform.java
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/*
* Copyright (c) 1998, 2024 Oracle and/or its affiliates. All rights reserved.
* Copyright (c) 1998, 2024 IBM Corporation. All rights reserved.
*
* This program and the accompanying materials are made available under the
* terms of the Eclipse Public License v. 2.0 which is available at
* http://www.eclipse.org/legal/epl-2.0,
* or the Eclipse Distribution License v. 1.0 which is available at
* http://www.eclipse.org/org/documents/edl-v10.php.
*
* SPDX-License-Identifier: EPL-2.0 OR BSD-3-Clause
*/
// Contributors:
// Oracle - initial API and implementation from Oracle TopLink
// 09/14/2011-2.3.1 Guy Pelletier
// - 357533: Allow DDL queries to execute even when Multitenant entities are part of the PU
// 02/19/2015 - Rick Curtis
// - 458877 : Add national character support
// 02/23/2015-2.6 Dalia Abo Sheasha
// - 460607: Change DatabasePlatform StoredProcedureTerminationToken to be configurable
package org.eclipse.persistence.platform.database;
import org.eclipse.persistence.exceptions.ValidationException;
import org.eclipse.persistence.expressions.Expression;
import org.eclipse.persistence.expressions.ExpressionOperator;
import org.eclipse.persistence.internal.databaseaccess.DatabaseCall;
import org.eclipse.persistence.internal.databaseaccess.FieldTypeDefinition;
import org.eclipse.persistence.internal.expressions.ExpressionJavaPrinter;
import org.eclipse.persistence.internal.expressions.ExpressionSQLPrinter;
import org.eclipse.persistence.internal.expressions.ExtractOperator;
import org.eclipse.persistence.internal.expressions.RelationExpression;
import org.eclipse.persistence.internal.expressions.SQLSelectStatement;
import org.eclipse.persistence.internal.helper.ClassConstants;
import org.eclipse.persistence.internal.helper.DatabaseField;
import org.eclipse.persistence.internal.helper.DatabaseTable;
import org.eclipse.persistence.internal.helper.Helper;
import org.eclipse.persistence.internal.sessions.AbstractSession;
import org.eclipse.persistence.queries.ReadQuery;
import org.eclipse.persistence.queries.SQLCall;
import org.eclipse.persistence.queries.ValueReadQuery;
import java.io.IOException;
import java.io.StringWriter;
import java.io.Writer;
import java.sql.CallableStatement;
import java.sql.Connection;
import java.sql.DatabaseMetaData;
import java.sql.PreparedStatement;
import java.sql.ResultSet;
import java.sql.SQLException;
import java.time.LocalDate;
import java.time.LocalDateTime;
import java.time.LocalTime;
import java.time.OffsetDateTime;
import java.time.OffsetTime;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Calendar;
import java.util.Collection;
import java.util.Hashtable;
import java.util.List;
import java.util.Map;
import java.util.Vector;
/**
* <p><b>Purpose</b>: Provides SQL Server specific behavior.
* <p><b>Responsibilities</b>:<ul>
* <li> Native SQL for byte[], Date, Time, {@literal &} Timestamp.
* <li> Native sequencing using @@IDENTITY.
* </ul>
*
* @since TOPLink/Java 1.0
*/
public class SQLServerPlatform extends org.eclipse.persistence.platform.database.DatabasePlatform {
/** MSSQL-specific JDBC type constants */
private static final int DATETIMEOFFSET_TYPE = -155;
/** Support for sequence objects and OFFSET FETCH NEXT added in SQL Server 2012 */
private boolean isVersion11OrHigher;
/** The official MS JDBC driver fully supports ODT since version 7.1.4 */
private Boolean driverSupportsOffsetDateTime;
private boolean isConnectionDataInitialized;
public SQLServerPlatform(){
super();
this.pingSQL = "SELECT 1";
this.storedProcedureTerminationToken = " go";
this.supportsReturnGeneratedKeys = true;
}
@Override
public Map<Object, Object> connectionProperties() {
// All MS SQL Server properties must be of String type.
// Send Time values as TIME type.
return Map.of("sendTimeAsDatetime", Boolean.FALSE.toString());
}
@Override
public void initializeConnectionData(Connection connection) throws SQLException {
if (isConnectionDataInitialized) {
return;
}
DatabaseMetaData dmd = connection.getMetaData();
// could be using a non-MS driver (e.g. jTDS)
boolean isMicrosoftDriver = dmd.getDriverName().startsWith("Microsoft JDBC Driver");
int databaseVersion = dmd.getDatabaseMajorVersion();
String driverVersion = dmd.getDriverVersion();
isVersion11OrHigher = databaseVersion >= 11;
if (driverSupportsOffsetDateTime == null) {
driverSupportsOffsetDateTime = isMicrosoftDriver && Helper.compareVersions(driverVersion, "7.1.4") >= 0;
}
driverSupportsNationalCharacterVarying = isMicrosoftDriver && Helper.compareVersions(driverVersion, "4.0.0") >= 0;
isConnectionDataInitialized = true;
}
/**
* Allow user to turn off ODT support, in case they rely on the old behavior.
*/
public void setDriverSupportsOffsetDateTime(boolean driverSupportsOffsetDateTime) {
this.driverSupportsOffsetDateTime = driverSupportsOffsetDateTime;
}
/**
* If using native SQL then print a byte[] as '0xFF...'
*/
@Override
protected void appendByteArray(byte[] bytes, Writer writer) throws IOException {
if (usesNativeSQL() && (!usesByteArrayBinding())) {
writer.write("0x");
Helper.writeHexString(bytes, writer);
} else {
super.appendByteArray(bytes, writer);
}
}
/**
* Answer a platform correct string representation of a Date, suitable for SQL generation.
* Native format: 'yyyy-mm-dd
*/
@Override
protected void appendDate(java.sql.Date date, Writer writer) throws IOException {
if (usesNativeSQL()) {
writer.write("'");
writer.write(Helper.printDate(date));
writer.write("'");
} else {
super.appendDate(date, writer);
}
}
/**
* Write a timestamp in Sybase specific format ( yyyy-mm-dd-hh.mm.ss.fff)
*/
protected void appendSybaseTimestamp(java.sql.Timestamp timestamp, Writer writer) throws IOException {
writer.write("'");
writer.write(Helper.printTimestampWithoutNanos(timestamp));
writer.write(':');
// Must truncate the nanos to three 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(), 3); num > 0; num--) {
writer.write('0');
numberOfZeros++;
}
if ((nanoString.length() + numberOfZeros) > 3) {
nanoString = nanoString.substring(0, (3 - numberOfZeros));
}
writer.write(nanoString);
writer.write("'");
}
/**
* Write a timestamp in Sybase specific format ( yyyy-mm-dd-hh.mm.ss.fff)
*/
protected void appendSybaseCalendar(Calendar calendar, Writer writer) throws IOException {
writer.write("'");
writer.write(Helper.printCalendar(calendar));
writer.write("'");
}
/**
* Answer a platform correct string representation of a Time, suitable for SQL generation.
* The time is printed in the ODBC platform independent format {t'hh:mm:ss'}.
*/
@Override
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);
}
}
/**
* Answer a platform correct string representation of a Timestamp, suitable for SQL generation.
* The date is printed in the ODBC platform independent format {d'YYYY-MM-DD'}.
*/
@Override
protected void appendTimestamp(java.sql.Timestamp timestamp, Writer writer) throws IOException {
if (usesNativeSQL()) {
appendSybaseTimestamp(timestamp, writer);
} else {
super.appendTimestamp(timestamp, writer);
}
}
/**
* Answer a platform correct string representation of a Calendar, suitable for SQL generation.
* The date is printed in the ODBC platform independent format {d'YYYY-MM-DD'}.
*/
@Override
protected void appendCalendar(Calendar calendar, Writer writer) throws IOException {
if (usesNativeSQL()) {
appendSybaseCalendar(calendar, writer);
} else {
super.appendCalendar(calendar, writer);
}
}
@Override
protected Map<String, Class<?>> buildClassTypes() {
Map<String, Class<?>> classTypeMapping = super.buildClassTypes();
classTypeMapping.put("DATETIME2", java.sql.Timestamp.class);
return classTypeMapping;
}
@Override
protected Hashtable<Class<?>, FieldTypeDefinition> buildFieldTypes() {
Hashtable<Class<?>, FieldTypeDefinition> fieldTypeMapping = new Hashtable<>();
fieldTypeMapping.put(Boolean.class, new FieldTypeDefinition("BIT default 0", false));
fieldTypeMapping.put(Integer.class, new FieldTypeDefinition("INTEGER", false));
fieldTypeMapping.put(Long.class, new FieldTypeDefinition("NUMERIC", 19));
fieldTypeMapping.put(Float.class, new FieldTypeDefinition("FLOAT(16)", false));
fieldTypeMapping.put(Double.class, new FieldTypeDefinition("FLOAT(32)", 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("NUMERIC", 28));
fieldTypeMapping.put(java.math.BigDecimal.class, new FieldTypeDefinition("NUMERIC", 28).setLimits(28, -19, 19));
fieldTypeMapping.put(Number.class, new FieldTypeDefinition("NUMERIC", 28).setLimits(28, -19, 19));
// Create String column to support unicode characters
if(getUseNationalCharacterVaryingTypeForString()){
fieldTypeMapping.put(String.class, new FieldTypeDefinition("NVARCHAR", DEFAULT_VARCHAR_SIZE));
}else {
fieldTypeMapping.put(String.class, new FieldTypeDefinition("VARCHAR", DEFAULT_VARCHAR_SIZE));
}
fieldTypeMapping.put(Character.class, new FieldTypeDefinition("CHAR", 1));
fieldTypeMapping.put(Byte[].class, new FieldTypeDefinition("IMAGE", false));
fieldTypeMapping.put(Character[].class, new FieldTypeDefinition("TEXT", false));
fieldTypeMapping.put(byte[].class, new FieldTypeDefinition("IMAGE", false));
fieldTypeMapping.put(char[].class, new FieldTypeDefinition("TEXT", false));
fieldTypeMapping.put(java.sql.Blob.class, new FieldTypeDefinition("IMAGE", false));
fieldTypeMapping.put(java.sql.Clob.class, new FieldTypeDefinition("TEXT", false));
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("DATETIME2", false));
fieldTypeMapping.put(java.time.LocalDate.class, new FieldTypeDefinition("DATE", false));
fieldTypeMapping.put(java.time.LocalTime.class, new FieldTypeDefinition("TIME", false));
fieldTypeMapping.put(java.time.LocalDateTime.class, new FieldTypeDefinition("DATETIME2", false));
fieldTypeMapping.put(java.time.OffsetTime.class, new FieldTypeDefinition("DATETIME2", false));
fieldTypeMapping.put(java.time.OffsetDateTime.class, new FieldTypeDefinition("DATETIME2", false));
return fieldTypeMapping;
}
/**
* INTERNAL:
* Build the identity query for native sequencing.
*/
@Override
public ValueReadQuery buildSelectQueryForIdentity() {
ValueReadQuery selectQuery = new ValueReadQuery();
StringWriter writer = new StringWriter();
writer.write("SELECT @@IDENTITY");
selectQuery.setSQLString(writer.toString());
return selectQuery;
}
/**
* INTERNAL: Produce a DataReadQuery which updates(!) the sequence number in
* the database and returns it.
*
* @param qualifiedSeqName
* a defined database sequence
*/
@Override
public ValueReadQuery buildSelectQueryForSequenceObject(String qualifiedSeqName, Integer size) {
return new ValueReadQuery("SELECT NEXT VALUE FOR " + qualifiedSeqName);
}
/**
* INTERNAL:
* In SQLServer local temporary table created by one
* PreparedStatement can't be used in another PreparedStatement.
* Workaround is to use Statement instead of PreparedStatement.
*/
@Override
public boolean dontBindUpdateAllQueryUsingTempTables() {
return true;
}
/**
* Used for batch writing and sp defs.
*/
@Override
public String getBatchDelimiterString() {
return "";
}
/**
* This method is used to print the required output parameter token for the
* specific platform. Used when stored procedures are created.
*/
@Override
public String getCreationInOutputProcedureToken() {
return getInOutputProcedureToken();
}
/**
* This method is used to print the required output parameter token for the
* specific platform. Used when stored procedures are created.
*/
@Override
public String getCreationOutputProcedureToken() {
return "OUTPUT";
}
/**
* This method is used to print the output parameter token when stored
* procedures are called
*/
@Override
public String getInOutputProcedureToken() {
return "OUT";
}
/**
* INTERNAL:
* returns the maximum number of characters that can be used in a field
* name on this platform.
*/
@Override
public int getMaxFieldNameSize() {
return 22;
}
/**
* 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) {
// need to filter only tables / views
String query = "SELECT * FROM sysobjects WHERE table_type <> 'SYSTEM_TABLE'";
if (table != null) {
if (table.indexOf('%') != -1) {
query = query + " AND table_name LIKE " + table;
} else {
query = query + " AND table_name = " + table;
}
}
if (creator != null) {
if (creator.indexOf('%') != -1) {
query = query + " AND table_owner LIKE " + creator;
} else {
query = query + " AND table_owner = " + creator;
}
}
return session.executeSelectingCall(new SQLCall(query));
}
/**
* This method is used to print the output parameter token when stored
* procedures are called
*/
@Override
public String getOutputProcedureToken() {
return "";
}
/**
* Used for sp defs.
*/
@Override
public String getProcedureArgumentString() {
return "@";
}
/**
* Used for sp calls.
*/
@Override
public String getProcedureCallHeader() {
return "EXECUTE ";
}
@Override
public String getStoredProcedureParameterPrefix() {
return "@";
}
/**
* PUBLIC:
* This method returns the query to select the timestamp
* from the server for SQLServer.
*/
@Override
public ValueReadQuery getTimestampQuery() {
if (timestampQuery == null) {
timestampQuery = new ValueReadQuery();
timestampQuery.setSQLString("SELECT GETDATE()");
timestampQuery.setAllowNativeSQLQuery(true);
}
return timestampQuery;
}
/**
* INTERNAL:
* Lock.
* UPDLOCK seems like the correct table hint to use:
* HOLDLOCK is too weak - doesn't lock out another read with HOLDLOCK,
* XLOCK is too strong - locks out another read which doesn't use any locks.
* UPDLOCK seems to behave exactly like Oracle's FOR UPDATE:
* locking out updates and other reads with FOR UPDATE but allowing other reads without locks.
* SQLServer seems to decide itself on the granularity of the lock - it could lock more than
* the returned rows (for instance a page). It could be forced to obtain
* to make sure to obtain row level lock:
* WITH (UPDLOCK, ROWLOCK)
* However this approach is strongly discouraged because it can consume too
* much resources: selecting 900 rows from and requiring a "personal"
* lock for each row may not be feasible because of not enough memory available at the moment -
* in that case SQLServer will wait until the resource becomes available.
*
*/
@Override
public String getSelectForUpdateString() {
return " WITH (UPDLOCK)";
}
/**
* INTERNAL:
* This syntax does no wait on the lock.
*/
@Override
public String getSelectForUpdateNoWaitString() {
return " WITH (UPDLOCK, NOWAIT)";
}
/**
* INTERNAL:
* Indicates whether locking clause should be printed after where clause by SQLSelectStatement.
* Example:
* on Oracle platform (method returns true):
* SELECT ADDRESS_ID, ... FROM ADDRESS WHERE (ADDRESS_ID = ?) FOR UPDATE
* on SQLServer platform (method returns false):
* SELECT ADDRESS_ID, ... FROM ADDRESS WITH (UPDLOCK) WHERE (ADDRESS_ID = ?)
*/
@Override
public boolean shouldPrintLockingClauseAfterWhereClause() {
return false;
}
/**
* Initialize any platform-specific operators
*/
@Override
protected void initializePlatformOperators() {
super.initializePlatformOperators();
addOperator(operatorOuterJoin());
addOperator(ExpressionOperator.simpleFunction(ExpressionOperator.Today, "GETDATE"));
// GETDATE returns both date and time. It is not the perfect match for
// ExpressionOperator.currentDate and ExpressionOperator.currentTime
// However, there is no known function on sql server that returns just
// the date or just the time.
addOperator(ExpressionOperator.simpleFunctionNoParentheses(ExpressionOperator.CurrentDate, "CONVERT(DATE, GETDATE())"));
addOperator(ExpressionOperator.simpleFunctionNoParentheses(ExpressionOperator.CurrentTime, "CONVERT(TIME, GETDATE())"));
addOperator(ExpressionOperator.simpleFunctionNoParentheses(ExpressionOperator.LocalDate, "CONVERT(DATE, GETDATE())"));
addOperator(ExpressionOperator.simpleFunctionNoParentheses(ExpressionOperator.LocalTime, "CONVERT(TIME, GETDATE())"));
addOperator(ExpressionOperator.simpleFunction(ExpressionOperator.Length, "CHAR_LENGTH"));
addOperator(ExpressionOperator.simpleThreeArgumentFunction(ExpressionOperator.Substring, "SUBSTRING"));
addOperator(singleArgumentSubstringOperator());
addOperator(ExpressionOperator.addDate());
addOperator(ExpressionOperator.dateName());
addOperator(ExpressionOperator.datePart());
addOperator(ExpressionOperator.dateDifference());
addOperator(ExpressionOperator.difference());
addOperator(ExpressionOperator.charIndex());
addOperator(ExpressionOperator.charLength());
addOperator(ExpressionOperator.reverse());
addOperator(ExpressionOperator.replicate());
addOperator(ExpressionOperator.right());
addOperator(ExpressionOperator.cot());
addOperator(ExpressionOperator.simpleTwoArgumentFunction(ExpressionOperator.Atan2, "ATN2"));
addOperator(ExpressionOperator.simpleFunction(ExpressionOperator.Ln, "LOG"));
addOperator(addMonthsOperator());
addOperator(inStringOperator());
// bug 3061144
addOperator(ExpressionOperator.simpleTwoArgumentFunction(ExpressionOperator.Nvl, "ISNULL"));
// CR### TO_NUMBER, TO_CHAR, TO_DATE is CONVERT(type, ?)
addOperator(toNumberOperator());
addOperator(toDateToStringOperator());
addOperator(toDateOperator());
addOperator(toCharOperator());
addOperator(locateOperator());
addOperator(locate2Operator());
addOperator(ExpressionOperator.simpleFunction(ExpressionOperator.Ceil, "CEILING"));
addOperator(ExpressionOperator.simpleFunction(ExpressionOperator.Length, "LEN"));
addOperator(modOperator());
addOperator(ExpressionOperator.simpleAggregate(ExpressionOperator.StandardDeviation, "STDEV", "standardDeviation"));
addOperator(trimOperator());
addOperator(trim2Operator());
addOperator(mssqlExtractOperator());
}
// SQL Server EXTRACT operator needs emulation of SECOND and WEEK date/time parts.
// EXTRACT SECOND operator need more complex statement to join values of SECOND and NANOSECOND.
private static final class SqlServerExtractOperator extends ExtractOperator {
// SECOND emulation: (CAST(DATEPART(NANOSECOND, date) AS FLOAT)/1000000000 + DATEPART(SECOND, date))
private static final String[] SECOND_STRINGS = new String[] {"(CAST(DATEPART(NANOSECOND, ", ") AS FLOAT)/1000000000 + DATEPART(SECOND, ", "))"};
// WEEK replacement: ISO_WEEK
private static final String[] WEEK_STRINGS = new String[] {"DATEPART(ISO_WEEK,", ")"};
// SQL Server native database Strings to be printed for EXTRACT expression
private static List<String> mssqlDbStrings() {
final List<String> dbStrings = new ArrayList<>(2);
dbStrings.add("DATEPART(");
dbStrings.add(",");
dbStrings.add(")");
return dbStrings;
}
private SqlServerExtractOperator() {
super(mssqlDbStrings());
}
@Override
protected void printSecondSQL(final Expression first, Expression second, final ExpressionSQLPrinter printer) {
printer.printString(SECOND_STRINGS[0]);
first.printSQL(printer);
printer.printString(SECOND_STRINGS[1]);
first.printSQL(printer);
printer.printString(SECOND_STRINGS[2]);
}
@Override
protected void printSecondJava(final Expression first, Expression second, final ExpressionJavaPrinter printer) {
printer.printString(SECOND_STRINGS[0]);
first.printJava(printer);
printer.printString(SECOND_STRINGS[1]);
first.printJava(printer);
printer.printString(SECOND_STRINGS[2]);
}
@Override
protected void printWeekSQL(final Expression first, Expression second, final ExpressionSQLPrinter printer) {
printer.printString(WEEK_STRINGS[0]);
first.printSQL(printer);
printer.printString(WEEK_STRINGS[1]);
}
@Override
protected void printWeekJava(final Expression first, Expression second, final ExpressionJavaPrinter printer) {
printer.printString(WEEK_STRINGS[0]);
first.printJava(printer);
printer.printString(WEEK_STRINGS[1]);
}
}
// Create EXTRACT operator form SQL Server platform
private static ExpressionOperator mssqlExtractOperator() {
return new SqlServerExtractOperator();
}
/**
* INTERNAL:
* Use RTRIM(LTRIM(?)) function for trim.
*/
protected static ExpressionOperator trimOperator() {
ExpressionOperator exOperator = new ExpressionOperator();
exOperator.setType(ExpressionOperator.FunctionOperator);
exOperator.setSelector(ExpressionOperator.Trim);
List<String> v = new ArrayList<>(2);
v.add("RTRIM(LTRIM(");
v.add("))");
exOperator.printsAs(v);
exOperator.bePrefix();
exOperator.setNodeClass(ClassConstants.FunctionExpression_Class);
return exOperator;
}
/**
* INTERNAL:
* Build Trim operator.
*/
protected static ExpressionOperator trim2Operator() {
ExpressionOperator exOperator = new ExpressionOperator();
exOperator.setType(ExpressionOperator.FunctionOperator);
exOperator.setSelector(ExpressionOperator.Trim2);
List<String> v = new ArrayList<>(5);
v.add("RTRIM(");
v.add(" FROM LTRIM(");
v.add(" FROM ");
v.add("))");
exOperator.printsAs(v);
int[] argumentIndices = new int[3];
argumentIndices[0] = 1;
argumentIndices[1] = 1;
argumentIndices[2] = 0;
exOperator.setArgumentIndices(argumentIndices);
exOperator.setNodeClass(ClassConstants.FunctionExpression_Class);
return exOperator;
}
/**
* 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.
* <p><b>NOTE</b>: BigInteger {@literal &} BigDecimal maximums are dependent upon their precision {@literal &} Scale
*/
@Override
public Hashtable<Class<? extends Number>, ? super Number> maximumNumericValues() {
Hashtable<Class<? extends Number>, ? super Number> values = new Hashtable<>();
values.put(Integer.class, Integer.MAX_VALUE);
values.put(Long.class, Long.MAX_VALUE);
values.put(Double.class, (double) 0);
values.put(Short.class, Short.MAX_VALUE);
values.put(Byte.class, Byte.MAX_VALUE);
values.put(Float.class, (float) 0);
values.put(java.math.BigInteger.class, new java.math.BigInteger("9999999999999999999999999999"));
values.put(java.math.BigDecimal.class, new java.math.BigDecimal("999999999.9999999999999999999"));
return values;
}
/**
* 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.
* <p><b>NOTE</b>: BigInteger {@literal &} BigDecimal minimums are dependent upon their precision {@literal &} Scale
*/
@Override
public Hashtable<Class<? extends Number>, ? super Number> minimumNumericValues() {
Hashtable<Class<? extends Number>, ? super Number> values = new Hashtable<>();
values.put(Integer.class, Integer.MIN_VALUE);
values.put(Long.class, Long.MIN_VALUE);
values.put(Double.class, (double) -9);
values.put(Short.class, Short.MIN_VALUE);
values.put(Byte.class, Byte.MIN_VALUE);
values.put(Float.class, (float) -9);
values.put(java.math.BigInteger.class, new java.math.BigInteger("-9999999999999999999999999999"));
values.put(java.math.BigDecimal.class, new java.math.BigDecimal("-999999999.9999999999999999999"));
return values;
}
/**
* Override the default MOD operator.
*/
protected ExpressionOperator modOperator() {
ExpressionOperator result = new ExpressionOperator();
result.setSelector(ExpressionOperator.Mod);
List<String> v = new ArrayList<>();
v.add(" % ");
result.printsAs(v);
result.bePostfix();
result.setNodeClass(org.eclipse.persistence.internal.expressions.FunctionExpression.class);
return result;
}
/**
* Override the default SubstringSingleArg operator.
*/
protected static ExpressionOperator singleArgumentSubstringOperator() {
ExpressionOperator result = new ExpressionOperator();
result.setSelector(ExpressionOperator.SubstringSingleArg);
result.setType(ExpressionOperator.FunctionOperator);
List<String> v = new ArrayList<>();
v.add("SUBSTRING(");
v.add(",");
v.add(", LEN(");
v.add("))");
result.printsAs(v);
int[] indices = new int[3];
indices[0] = 0;
indices[1] = 1;
indices[2] = 0;
result.setArgumentIndices(indices);
result.setNodeClass(ClassConstants.FunctionExpression_Class);
result.bePrefix();
return result;
}
/*
* Create the outer join operator for this platform
*/
protected static ExpressionOperator operatorOuterJoin() {
ExpressionOperator result = new ExpressionOperator();
result.setSelector(ExpressionOperator.EqualOuterJoin);
List<String> v = new ArrayList<>();
v.add(" =* ");
result.printsAs(v);
result.bePostfix();
result.setNodeClass(RelationExpression.class);
return result;
}
/**
* INTERNAL:
* create the Locate2 Operator for this platform
*/
protected static ExpressionOperator locate2Operator() {
ExpressionOperator result = ExpressionOperator.simpleThreeArgumentFunction(ExpressionOperator.Locate2, "CHARINDEX");
int[] argumentIndices = new int[3];
argumentIndices[0] = 1;
argumentIndices[1] = 0;
argumentIndices[2] = 2;
result.setArgumentIndices(argumentIndices);
return result;
}
/**
* INTERNAL:
* Function, to add months to a date.
*/
protected static ExpressionOperator addMonthsOperator() {
ExpressionOperator exOperator = new ExpressionOperator();
exOperator.setType(ExpressionOperator.FunctionOperator);
exOperator.setSelector(ExpressionOperator.AddMonths);
List<String> v = new ArrayList<>(3);
v.add("DATEADD(month, ");
v.add(", ");
v.add(")");
exOperator.printsAs(v);
exOperator.bePrefix();
int[] indices = { 1, 0 };
exOperator.setArgumentIndices(indices);
exOperator.setNodeClass(ClassConstants.FunctionExpression_Class);
return exOperator;
}
/**
* INTERNAL:
* Build instring operator
*/
protected static ExpressionOperator inStringOperator() {
ExpressionOperator exOperator = new ExpressionOperator();
exOperator.setType(ExpressionOperator.FunctionOperator);
exOperator.setSelector(ExpressionOperator.Instring);
List<String> v = new ArrayList<>(3);
v.add("CHARINDEX(");
v.add(", ");
v.add(")");
exOperator.printsAs(v);
exOperator.bePrefix();
int[] indices = { 1, 0 };
exOperator.setArgumentIndices(indices);
exOperator.setNodeClass(ClassConstants.FunctionExpression_Class);
return exOperator;
}
/**
* INTERNAL:
* Build Sybase equivalent to TO_NUMBER.
*/
protected static ExpressionOperator toNumberOperator() {
ExpressionOperator exOperator = new ExpressionOperator();
exOperator.setType(ExpressionOperator.FunctionOperator);
exOperator.setSelector(ExpressionOperator.ToNumber);
List<String> v = new ArrayList<>(2);
v.add("CONVERT(NUMERIC, ");
v.add(")");
exOperator.printsAs(v);
exOperator.bePrefix();
exOperator.setNodeClass(ClassConstants.FunctionExpression_Class);
return exOperator;
}
/**
* INTERNAL:
* Build Sybase equivalent to TO_CHAR.
*/
protected static ExpressionOperator toDateToStringOperator() {
ExpressionOperator exOperator = new ExpressionOperator();
exOperator.setType(ExpressionOperator.FunctionOperator);
exOperator.setSelector(ExpressionOperator.DateToString);
List<String> v = new ArrayList<>(2);
v.add("CONVERT(CHAR, ");
v.add(")");
exOperator.printsAs(v);
exOperator.bePrefix();
exOperator.setNodeClass(ClassConstants.FunctionExpression_Class);
return exOperator;
}
/**
* INTERNAL:
* Build Sybase equivalent to TO_DATE.
*/
protected static ExpressionOperator toDateOperator() {
ExpressionOperator exOperator = new ExpressionOperator();
exOperator.setType(ExpressionOperator.FunctionOperator);
exOperator.setSelector(ExpressionOperator.ToDate);
List<String> v = new ArrayList<>(2);
v.add("CONVERT(DATETIME, ");
v.add(")");
exOperator.printsAs(v);
exOperator.bePrefix();
exOperator.setNodeClass(ClassConstants.FunctionExpression_Class);
return exOperator;
}
/**
* INTERNAL:
* Build Sybase equivalent to TO_CHAR.
*/
protected static ExpressionOperator toCharOperator() {
ExpressionOperator exOperator = new ExpressionOperator();
exOperator.setType(ExpressionOperator.FunctionOperator);
exOperator.setSelector(ExpressionOperator.ToChar);
List<String> v = new ArrayList<>(2);
v.add("CONVERT(CHAR, ");
v.add(")");
exOperator.printsAs(v);
exOperator.bePrefix();
exOperator.setNodeClass(ClassConstants.FunctionExpression_Class);
return exOperator;
}
/**
* INTERNAL:
* Build the Sybase equivalent to Locate
*/
protected static ExpressionOperator locateOperator() {
ExpressionOperator result = ExpressionOperator.simpleTwoArgumentFunction(ExpressionOperator.Locate, "CHARINDEX");
int[] argumentIndices = new int[2];
argumentIndices[0] = 1;
argumentIndices[1] = 0;
result.setArgumentIndices(argumentIndices);
return result;
}
/**
* INTERNAL:
* Return true if output parameters can be built with result sets.
*/
@Override
public boolean isOutputAllowWithResultSet() {
return false;
}
public boolean isSQLServer() {
return true;
}
/**
* INTERNAL:
* Append the receiver's field 'identity' constraint clause to a writer.
*/
@Override
public void printFieldIdentityClause(Writer writer) throws ValidationException {
try {
writer.write(" IDENTITY");
} catch (IOException ioException) {
throw ValidationException.fileError(ioException);
}
}
/**
* INTERNAL:
* Append the receiver's field 'NULL' constraint clause to a writer.
*/
@Override
public void printFieldNullClause(Writer writer) throws ValidationException {
try {
writer.write(" NULL");
} catch (IOException ioException) {
throw ValidationException.fileError(ioException);
}
}
/**
* USed for sp calls.
*/
@Override
public boolean requiresProcedureCallBrackets() {
return false;
}
/**
* Used for sp calls. Sybase must print output after output params.
*/
@Override
public boolean requiresProcedureCallOuputToken() {
return true;
}
/**
* This is required in the construction of the stored procedures with
* output parameters
*/
@Override
public boolean shouldPrintInOutputTokenBeforeType() {
return false;
}
/**
* This is required in the construction of the stored procedures with
* output parameters
*/
@Override
public boolean shouldPrintOutputTokenBeforeType() {
return false;
}
/**
* JDBC defines and outer join syntax, many drivers do not support this. So we normally avoid it.
*/
@Override
public boolean shouldUseJDBCOuterJoinSyntax() {
return false;
}
/**
* INTERNAL:
* Indicates whether the platform supports identity.
* SQLServer does through IDENTITY field types.
* This method is to be used *ONLY* by sequencing classes
*/
@Override
public boolean supportsIdentity() {
return true;
}
/**
* INTERNAL:
*/
@Override
public boolean supportsSequenceObjects() {
return isVersion11OrHigher;
}
/**
* INTERNAL:
*/
@Override
public boolean supportsLocalTempTables() {
return true;
}
/**
* INTERNAL:
*/
@Override
protected String getCreateTempTableSqlPrefix() {
return "CREATE TABLE ";
}
/**
* INTERNAL:
*/
@Override
public DatabaseTable getTempTableForTable(DatabaseTable table) {
return new DatabaseTable("#" + table.getName(), table.getTableQualifier(), table.shouldUseDelimiters(), getStartDelimiter(), getEndDelimiter());
}
/**
* INTERNAL:
*/
@Override
public void writeUpdateOriginalFromTempTableSql(Writer writer, DatabaseTable table,
Collection<DatabaseField> pkFields,
Collection<DatabaseField> assignedFields) throws IOException
{
writer.write("UPDATE ");
String tableName = table.getQualifiedNameDelimited(this);
writer.write(tableName);
String tempTableName = getTempTableForTable(table).getQualifiedNameDelimited(this);
writeAutoAssignmentSetClause(writer, null, tempTableName, assignedFields, this);
writer.write(" FROM ");
writer.write(tableName);
writer.write(", ");
writer.write(tempTableName);
writeAutoJoinWhereClause(writer, tableName, tempTableName, pkFields, this);
}