oracle.toplink.essentials.platform.database.MySQL4Platform Maven / Gradle / Ivy
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package oracle.toplink.essentials.platform.database;
import java.io.*;
import java.util.*;
import oracle.toplink.essentials.exceptions.ValidationException;
import oracle.toplink.essentials.expressions.ExpressionOperator;
import oracle.toplink.essentials.internal.databaseaccess.FieldTypeDefinition;
import oracle.toplink.essentials.internal.expressions.FunctionExpression;
import oracle.toplink.essentials.internal.helper.*;
import oracle.toplink.essentials.queryframework.ValueReadQuery;
/**
* Purpose: Provides MySQL specific behaviour.
*
Responsibilities:
* - Native SQL for Date, Time, & Timestamp.
*
- Native sequencing.
*
- Mapping of class types to database types for the schema framework.
*
- Pessimistic locking.
*
- Platform specific operators.
*
*
* @since OracleAS TopLink 10g (10.1.3)
*/
public class MySQL4Platform extends DatabasePlatform {
/**
* INTERNAL:
* Appends an MySQL specific date if usesNativeSQL is true otherwise use the ODBC format.
* Native FORMAT: 'YYYY-MM-DD'
*/
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);
}
}
/**
* INTERNAL:
* Appends an MySQL specific time if usesNativeSQL is true otherwise use the ODBC format.
* 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:
* Appends an MySQL specific Timestamp, if usesNativeSQL is true otherwise use the ODBC format.
* Native Format: 'YYYY-MM-DD HH:MM:SS'
*/
protected void appendTimestamp(java.sql.Timestamp timestamp, Writer writer) throws IOException {
if (usesNativeSQL()) {
writer.write("'");
writer.write(Helper.printTimestampWithoutNanos(timestamp));
writer.write("'");
} else {
super.appendTimestamp(timestamp, writer);
}
}
/**
* INTERNAL:
* Appends an MySQL specific Timestamp, if usesNativeSQL is true otherwise use the ODBC format.
* Native Format: 'YYYY-MM-DD HH:MM:SS'
*/
protected void appendCalendar(Calendar calendar, Writer writer) throws IOException {
if (usesNativeSQL()) {
writer.write("'");
writer.write(Helper.printCalendarWithoutNanos(calendar));
writer.write("'");
} else {
super.appendCalendar(calendar, writer);
}
}
/**
* INTERNAL:
* Return the mapping of class types to database types for the schema framework.
*/
protected Hashtable buildFieldTypes() {
Hashtable fieldTypeMapping;
fieldTypeMapping = new Hashtable();
fieldTypeMapping.put(Boolean.class, new FieldTypeDefinition("TINYINT(1) default 0", false));
fieldTypeMapping.put(Integer.class, new FieldTypeDefinition("INTEGER", false));
fieldTypeMapping.put(Long.class, new FieldTypeDefinition("BIGINT", false));
fieldTypeMapping.put(Float.class, new FieldTypeDefinition("FLOAT", false));
fieldTypeMapping.put(Double.class, new FieldTypeDefinition("DOUBLE", false));
fieldTypeMapping.put(Short.class, new FieldTypeDefinition("SMALLINT", false));
fieldTypeMapping.put(Byte.class, new FieldTypeDefinition("TINYINT", false));
fieldTypeMapping.put(java.math.BigInteger.class, new FieldTypeDefinition("BIGINT", false));
fieldTypeMapping.put(java.math.BigDecimal.class, new FieldTypeDefinition("DECIMAL",38));
fieldTypeMapping.put(Number.class, new FieldTypeDefinition("DECIMAL",38));
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("TEXT", 64000));
fieldTypeMapping.put(byte[].class, new FieldTypeDefinition("BLOB", 64000));
fieldTypeMapping.put(char[].class, new FieldTypeDefinition("TEXT", 64000));
fieldTypeMapping.put(java.sql.Blob.class, new FieldTypeDefinition("BLOB", 64000));
fieldTypeMapping.put(java.sql.Clob.class, new FieldTypeDefinition("TEXT", 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("DATETIME", false));
return fieldTypeMapping;
}
/**
* INTERNAL:
* Build the identity query for native sequencing.
*/
public ValueReadQuery buildSelectQueryForNativeSequence() {
ValueReadQuery selectQuery = new ValueReadQuery();
StringWriter writer = new StringWriter();
writer.write("SELECT LAST_INSERT_ID()");
selectQuery.setSQLString(writer.toString());
return selectQuery;
}
/**
* INTERNAL:
* Used for constraint deletion.
*/
public String getConstraintDeletionString() {
return " DROP FOREIGN KEY ";
}
/**
* INTERNAL:
* Used for pessimistic locking.
*/
public String getSelectForUpdateString() {
return " FOR UPDATE";
}
/**
* INTERNAL:
* This method returns the query to select the timestamp
* from the server for MySQL.
*/
public ValueReadQuery getTimestampQuery() {
if (timestampQuery == null) {
timestampQuery = new ValueReadQuery();
timestampQuery.setSQLString("SELECT NOW()");
}
return timestampQuery;
}
/**
* Answers whether platform is MySQL
*/
public boolean isMySQL() {
return true;
}
/**
* INTERNAL:
* Initialize any platform-specific operators
*/
protected void initializePlatformOperators() {
super.initializePlatformOperators();
addOperator(logOperator());
addOperator(ExpressionOperator.simpleTwoArgumentFunction(ExpressionOperator.Atan2, "ATAN2"));
addOperator(ExpressionOperator.simpleTwoArgumentFunction(ExpressionOperator.Concat, "CONCAT"));
addOperator(toNumberOperator());
addOperator(toCharOperator());
addOperator(toDateOperator());
addOperator(dateToStringOperator());
addOperator(ExpressionOperator.simpleTwoArgumentFunction(ExpressionOperator.Nvl, "IFNULL"));
addOperator(ExpressionOperator.simpleTwoArgumentFunction(ExpressionOperator.Trunc, "TRUNCATE"));
addOperator(leftTrim2());
addOperator(rightTrim2());
}
/**
* INTERNAL:
* Create the 10 based log operator for this platform
*/
protected ExpressionOperator logOperator() {
ExpressionOperator result = new ExpressionOperator();
result.setSelector(ExpressionOperator.Log);
Vector v = new Vector(2);
v.addElement("LOG(");
v.addElement(", 10)");
result.printsAs(v);
result.bePrefix();
result.setNodeClass(FunctionExpression.class);
return result;
}
/**
* INTERNAL:
* Build MySQL equivalent to TO_NUMBER.
*/
protected ExpressionOperator toNumberOperator() {
ExpressionOperator exOperator = new ExpressionOperator();
exOperator.setType(ExpressionOperator.FunctionOperator);
exOperator.setSelector(ExpressionOperator.ToNumber);
Vector v = new Vector(2);
v.addElement("CONVERT(");
v.addElement(", SIGNED)");
exOperator.printsAs(v);
exOperator.bePrefix();
exOperator.setNodeClass(ClassConstants.FunctionExpression_Class);
return exOperator;
}
/**
* INTERNAL:
* Build MySQL equivalent to TO_DATE.
*/
protected ExpressionOperator toDateOperator() {
ExpressionOperator exOperator = new ExpressionOperator();
exOperator.setType(ExpressionOperator.FunctionOperator);
exOperator.setSelector(ExpressionOperator.ToDate);
Vector v = new Vector(2);
v.addElement("CONVERT(");
v.addElement(", DATETIME)");
exOperator.printsAs(v);
exOperator.bePrefix();
exOperator.setNodeClass(ClassConstants.FunctionExpression_Class);
return exOperator;
}
/**
* INTERNAL:
* Build MySQL equivalent to TO_CHAR.
*/
protected ExpressionOperator toCharOperator() {
ExpressionOperator exOperator = new ExpressionOperator();
exOperator.setType(ExpressionOperator.FunctionOperator);
exOperator.setSelector(ExpressionOperator.ToChar);
Vector v = new Vector(2);
v.addElement("CONVERT(");
v.addElement(", CHAR)");
exOperator.printsAs(v);
exOperator.bePrefix();
exOperator.setNodeClass(ClassConstants.FunctionExpression_Class);
return exOperator;
}
/**
* INTERNAL:
* Build MySQL equivalent to TO_CHAR.
*/
protected ExpressionOperator dateToStringOperator() {
ExpressionOperator exOperator = new ExpressionOperator();
exOperator.setType(ExpressionOperator.FunctionOperator);
exOperator.setSelector(ExpressionOperator.DateToString);
Vector v = new Vector(2);
v.addElement("CONVERT(");
v.addElement(", CHAR)");
exOperator.printsAs(v);
exOperator.bePrefix();
exOperator.setNodeClass(ClassConstants.FunctionExpression_Class);
return exOperator;
}
/**
* INTERNAL:
* Build MySQL equivalent to LTRIM(string_exp, character).
* MySQL: TRIM(LEADING character FROM string_exp)
*/
protected ExpressionOperator leftTrim2() {
ExpressionOperator exOperator = new ExpressionOperator();
exOperator.setType(ExpressionOperator.FunctionOperator);
exOperator.setSelector(ExpressionOperator.LeftTrim2);
Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(5);
v.addElement("TRIM(LEADING ");
v.addElement(" FROM ");
v.addElement(")");
exOperator.printsAs(v);
exOperator.bePrefix();
int[] indices = {1, 0};
exOperator.setArgumentIndices(indices);
exOperator.setNodeClass(ClassConstants.FunctionExpression_Class);
return exOperator;
}
/**
* INTERNAL:
* Build MySQL equivalent to RTRIM(string_exp, character).
* MySQL: TRIM(TRAILING character FROM string_exp)
*/
protected ExpressionOperator rightTrim2() {
ExpressionOperator exOperator = new ExpressionOperator();
exOperator.setType(ExpressionOperator.FunctionOperator);
exOperator.setSelector(ExpressionOperator.RightTrim2);
Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(5);
v.addElement("TRIM(TRAILING ");
v.addElement(" FROM ");
v.addElement(")");
exOperator.printsAs(v);
exOperator.bePrefix();
int[] indices = {1, 0};
exOperator.setArgumentIndices(indices);
exOperator.setNodeClass(ClassConstants.FunctionExpression_Class);
return exOperator;
}
/**
* INTERNAL:
* Append the receiver's field 'identity' constraint clause to a writer
*/
public void printFieldIdentityClause(Writer writer) throws ValidationException {
try {
writer.write(" AUTO_INCREMENT");
} catch (IOException ioException) {
throw ValidationException.fileError(ioException);
}
}
/**
* INTERNAL:
* If native sequencing is being used on Sybase then the values must be
* retrieved after the insert.
* This method is to be used *ONLY* by sequencing classes
*/
public boolean shouldNativeSequenceAcquireValueAfterInsert() {
return true;
}
/**
* INTERNAL:
* JDBC defines an outer join syntax which many drivers do not support. So we normally avoid it.
*/
public boolean shouldUseJDBCOuterJoinSyntax() {
return false;
}
/**
* INTERNAL:
* Return true if the receiver uses host sequence numbers, generated on the database.
* MySQL does through AUTO_INCREMENT field types.
*/
public boolean supportsNativeSequenceNumbers() {
return true;
}
/**
* INTERNAL:
*/
public boolean supportsGlobalTempTables() {
return true;
}
/**
* INTERNAL:
*/
protected String getCreateTempTableSqlPrefix() {
return "CREATE TEMPORARY TABLE IF NOT EXISTS ";
}
/**
* INTERNAL:
*/
public boolean shouldAlwaysUseTempStorageForModifyAll() {
return true;
}
/**
* INTERNAL:
*/
public void writeUpdateOriginalFromTempTableSql(Writer writer, DatabaseTable table,
Collection pkFields,
Collection assignedFields) throws IOException
{
writer.write("UPDATE ");
String tableName = table.getQualifiedName();
writer.write(tableName);
writer.write(", ");
String tempTableName = getTempTableForTable(table).getQualifiedName();
writer.write(tempTableName);
writeAutoAssignmentSetClause(writer, tableName, tempTableName, assignedFields);
writeAutoJoinWhereClause(writer, tableName, tempTableName, pkFields);
}
/**
* INTERNAL:
*/
public void writeDeleteFromTargetTableUsingTempTableSql(Writer writer, DatabaseTable table, DatabaseTable targetTable,
Collection pkFields,
Collection targetPkFields) throws IOException
{
writer.write("DELETE FROM ");
String targetTableName = targetTable.getQualifiedName();
writer.write(targetTableName);
writer.write(" USING ");
writer.write(targetTableName);
writer.write(", ");
String tempTableName = getTempTableForTable(table).getQualifiedName();
writer.write(tempTableName);
writeJoinWhereClause(writer, targetTableName, tempTableName, targetPkFields, pkFields);
}
}