Many resources are needed to download a project. Please understand that we have to compensate our server costs. Thank you in advance. Project price only 1 $
You can buy this project and download/modify it how often you want.
/*
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS HEADER.
*
* // Copyright (c) 1998, 2007, Oracle. All rights reserved.
*
*
* The contents of this file are subject to the terms of either the GNU
* General Public License Version 2 only ("GPL") or the Common Development
* and Distribution License("CDDL") (collectively, the "License"). You
* may not use this file except in compliance with the License. You can obtain
* a copy of the License at https://glassfish.dev.java.net/public/CDDL+GPL.html
* or glassfish/bootstrap/legal/LICENSE.txt. See the License for the specific
* language governing permissions and limitations under the License.
*
* When distributing the software, include this License Header Notice in each
* file and include the License file at glassfish/bootstrap/legal/LICENSE.txt.
* Sun designates this particular file as subject to the "Classpath" exception
* as provided by Sun in the GPL Version 2 section of the License file that
* accompanied this code. If applicable, add the following below the License
* Header, with the fields enclosed by brackets [] replaced by your own
* identifying information: "Portions Copyrighted [year]
* [name of copyright owner]"
*
* Contributor(s):
*
* If you wish your version of this file to be governed by only the CDDL or
* only the GPL Version 2, indicate your decision by adding "[Contributor]
* elects to include this software in this distribution under the [CDDL or GPL
* Version 2] license." If you don't indicate a single choice of license, a
* recipient has the option to distribute your version of this file under
* either the CDDL, the GPL Version 2 or to extend the choice of license to
* its licensees as provided above. However, if you add GPL Version 2 code
* and therefore, elected the GPL Version 2 license, then the option applies
* only if the new code is made subject to such option by the copyright
* holder.
*/
package oracle.toplink.essentials.internal.databaseaccess;
import java.util.*;
import java.sql.*;
import java.io.*;
import oracle.toplink.essentials.internal.helper.*;
import oracle.toplink.essentials.sessions.DatabaseRecord;
import oracle.toplink.essentials.queryframework.*;
import oracle.toplink.essentials.exceptions.*;
import oracle.toplink.essentials.internal.queryframework.*;
import oracle.toplink.essentials.internal.expressions.ParameterExpression;
import oracle.toplink.essentials.internal.sessions.AbstractRecord;
import oracle.toplink.essentials.internal.sessions.AbstractSession;
/**
* INTERNAL:
* Purpose: Used as an abstraction of a database invocation.
* A call is an SQL string or procedure call with parameters.
*/
public abstract class DatabaseCall extends DatasourceCall {
// The result and statement are cached for cursor selects.
transient protected Statement statement;
transient protected ResultSet result;
// The call may specify that its parameters should be bound.
protected int usesBinding;
// Bound calls can use prepared statement caching.
protected int shouldCacheStatement;
// The returned fields.
transient protected Vector fields;
// Field matching is required for custom SQL when the fields order is not known.
protected boolean isFieldMatchingRequired;
// optimistic locking determination is required for batch writing
protected boolean hasOptimisticLock;
protected boolean isResultSetScrollable;
// JDK 1.2 supports various types of results set
protected int resultSetType;
// JDK 1.2 supports various types of concurrency on results set
protected int resultSetConcurrency;
//query timeout limit in seconds
protected int queryTimeout;
//max rows returned in the result set by the call
protected int maxRows;
//firstResult set into the result set by the call
protected int firstResult;
//contain field - value pairs for LOB fields used to the
//steaming operation during the writing (to the table)
private transient AbstractRecord contexts = null;
protected boolean isCursorOutputProcedure;
// This parameter is here to determine if TopLink should expect a ResultSet back from the call
// TopLink needs to know this information in order to call teh correct JDBC API
protected int returnsResultSet;
// Whether the call has to build output row
protected boolean shouldBuildOutputRow;
// Callable statement is required if there is an output parameter
protected boolean isCallableStatementRequired;
protected String sqlString;
public DatabaseCall() {
this.usesBinding = FalseUndefinedTrue.Undefined;
this.shouldCacheStatement = FalseUndefinedTrue.Undefined;
this.isFieldMatchingRequired = false;
this.returnType = RETURN_MANY_ROWS;
this.queryTimeout = 0;
this.maxRows = 0;
this.isCursorOutputProcedure = false;
this.shouldBuildOutputRow = false;
this.returnsResultSet = FalseUndefinedTrue.Undefined;
}
/**
* INTERNAL:
*/
public void appendIn(Object inObject) {
getParameters().add(inObject);
getParameterTypes().add(IN);
}
/**
* INTERNAL:
*/
public void appendInOut(DatabaseField inoutField) {
Object[] inOut = { inoutField, inoutField };
getParameters().add(inOut);
getParameterTypes().add(INOUT);
}
/**
* INTERNAL:
*/
public void appendInOut(Object inValueOrField, DatabaseField outField) {
Object[] inOut = { inValueOrField, outField };
getParameters().add(inOut);
getParameterTypes().add(INOUT);
}
/**
* INTERNAL:
*/
public void appendOut(DatabaseField outField) {
getParameters().add(outField);
getParameterTypes().add(OUT);
}
/**
* INTERNAL:
*/
public void appendOutCursor(DatabaseField outField) {
getParameters().add(outField);
getParameterTypes().add(OUT_CURSOR);
}
/**
* Add the parameter.
* If using binding bind the parameter otherwise let the platform print it.
* The platform may also decide to bind the value.
*/
public void appendParameter(Writer writer, Object parameter, AbstractSession session) {
if (usesBinding == FalseUndefinedTrue.True) {
bindParameter(writer, parameter);
} else {
session.getPlatform().appendParameter(this, writer, parameter);
}
}
/**
* Bind the parameter. Binding is determined by the call and second the platform.
*/
public void bindParameter(Writer writer, Object parameter) {
if (parameter instanceof Vector) {
throw QueryException.inCannotBeParameterized(getQuery());
}
try {
writer.write("?");
} catch (IOException exception) {
throw ValidationException.fileError(exception);
}
getParameters().addElement(parameter);
}
/**
* Return the appropriate mechanism,
* with the call added as necessary.
*/
public DatabaseQueryMechanism buildNewQueryMechanism(DatabaseQuery query) {
return new CallQueryMechanism(query, this);
}
/**
* INTERNAL:
* Return DatabaseRow containing output fields and values.
* Called only if shouldBuildOutputRow method returns true.
*/
public AbstractRecord buildOutputRow(CallableStatement statement) throws SQLException {
AbstractRecord row = new DatabaseRecord();
for (int index = 0; index < parameters.size(); index++) {
Object parameter = parameters.elementAt(index);
if (parameter instanceof OutputParameterForCallableStatement) {
OutputParameterForCallableStatement outParameter = (OutputParameterForCallableStatement)parameter;
if (!outParameter.isCursor()) {
Object value = statement.getObject(index + 1);
DatabaseField field = outParameter.getOutputField();
row.put(field, value);
}
}
}
return row;
}
/**
* Return the appropriate mechanism,
* with the call added as necessary.
*/
public DatabaseQueryMechanism buildQueryMechanism(DatabaseQuery query, DatabaseQueryMechanism mechanism) {
if (mechanism.isCallQueryMechanism() && (mechanism instanceof CallQueryMechanism)) {
// Must also add the call singleton...
CallQueryMechanism callMechanism = ((CallQueryMechanism)mechanism);
if (!callMechanism.hasMultipleCalls()) {
callMechanism.addCall(callMechanism.getCall());
callMechanism.setCall(null);
}
callMechanism.addCall(this);
return mechanism;
} else {
return buildNewQueryMechanism(query);
}
}
/**
* INTERNAL:
* Returns INOUT parameter. The first parameter is value to pass in, the second DatabaseField for out.
*/
protected Object createInOutParameter(Object inValue, Object outParameter, AbstractSession session) {
if (outParameter instanceof OutputParameterForCallableStatement) {
return new InOutputParameterForCallableStatement(inValue, (OutputParameterForCallableStatement)outParameter);
}
if (outParameter instanceof DatabaseField) {
return new InOutputParameterForCallableStatement(inValue, (DatabaseField)outParameter, session.getPlatform());
}
//should never happen
return null;
}
/**
* INTERNAL:
* Return the SQL string for the call.
*/
public String getCallString() {
return getSQLString();
}
/**
* The fields expected by the calls result set.
* null means that the fields are unknown and should be built from the result set.
*/
public Vector getFields() {
return fields;
}
/**
* INTERNAL:
* Unfortunately can't avoid referencing query and descriptor:
* the call should be performed after the translateCustomSQL (in SQLCall)
* in the middle of prepare method (no parameter available earlier).
*
*/
protected DatabaseField getFieldWithTypeFromDescriptor(DatabaseField outField) {
if (getQuery().getDescriptor() != null) {
return getQuery().getDescriptor().getTypedField(outField);
} else {
return null;
}
}
/**
* INTERNAL:
* Return 1-based index of out cursor parameter, or -1.
*/
public int getCursorOutIndex() {
for (int i = 0; i < getParameters().size(); i++) {
Object parameter = getParameters().elementAt(i);
if (parameter instanceof OutputParameterForCallableStatement) {
if (((OutputParameterForCallableStatement)parameter).isCursor()) {
return i + 1;
}
}
}
return -1;
}
/**
* get first result
*/
public int getFirstResult() {
return this.firstResult;
}
/**
* Return the SQL string for logging purposes.
*/
public String getLogString(Accessor accessor) {
if (hasParameters()) {
StringWriter writer = new StringWriter();
writer.write(getSQLString());
writer.write(Helper.cr());
if (hasParameters()) {
AbstractSession session = null;
if (getQuery() != null) {
session = getQuery().getSession();
}
appendLogParameters(getParameters(), accessor, writer, session);
}
return writer.toString();
} else {
return getSQLString();
}
}
/**
* Print the parameters to the write for logging purposes.
*/
public static void appendLogParameters(Collection parameters, Accessor accessor, StringWriter writer, AbstractSession session) {
writer.write("\tbind => [");
for (Iterator paramsEnum = parameters.iterator(); paramsEnum.hasNext();) {
Object parameter = paramsEnum.next();
if (parameter instanceof DatabaseField) {
writer.write("null");
} else {
if (session != null) {
parameter = session.getPlatform().convertToDatabaseType(parameter);
}
writer.write(String.valueOf(parameter));
}
if (paramsEnum.hasNext()) {
writer.write(", ");
} else {
writer.write("]");
}
}
}
/**
* get max rows returned from the call
*/
public int getMaxRows() {
return this.maxRows;
}
/**
* INTERNAL
* Returns the fields to be used in output row.
*/
public Vector getOutputRowFields() {
Vector fields = new Vector();
for (int i = 0; i < getParameters().size(); i++) {
Integer parameterType = (Integer)getParameterTypes().elementAt(i);
Object parameter = getParameters().elementAt(i);
if (parameterType == OUT) {
fields.add(parameter);
} else if (parameterType == INOUT) {
fields.add(((Object[])parameter)[1]);
}
}
return fields;
}
/**
* INTERNAL:
* Return the query string (SQL) of the call.
*/
public String getQueryString() {
return getSQLString();
}
/**
* The result set is stored for the return value of cursor selects.
*/
public ResultSet getResult() {
return result;
}
/**
* ADVANCED:
* This method returns a value that represents if the customer has set whether or not TopLink should expect
* the stored procedure to returning a JDBC ResultSet. The result of the method corresponds
* to false, true.
*/
public boolean getReturnsResultSet() {
if (returnsResultSet == FalseUndefinedTrue.Undefined) {
return !shouldBuildOutputRow();
} else {
return returnsResultSet == FalseUndefinedTrue.True;
}
}
public int getResultSetConcurrency() {
return resultSetConcurrency;
}
public int getResultSetType() {
return resultSetType;
}
/**
* Return the SQL string that will be executed.
*/
public String getSQLString() {
return sqlString;
}
/**
* The statement is stored for the return value of cursor selects.
*/
public Statement getStatement() {
return statement;
}
/**
* This check is needed only when doing batch writing.
*/
public boolean hasOptimisticLock() {
return hasOptimisticLock;
}
/**
* Callable statement is required if there is an output parameter.
*/
protected boolean isCallableStatementRequired() {
return isCallableStatementRequired;
}
/**
* Return if the call is dynamic SQL call.
* This means the call has no parameters, is not using binding,
* is not a stored procedure (CallableStatement), or cursor.
* This means that a Statement, not PrepareStatement will be used for the call.
*/
protected boolean isDynamicCall(AbstractSession session) {
return DatabaseAccessor.shouldUseDynamicStatements && (!usesBinding(session)) && (!isResultSetScrollable()) && (!hasParameters());
}
/**
* Used for Oracle result sets through procedures.
*/
public boolean isCursorOutputProcedure() {
return isCursorOutputProcedure;
}
/**
* The return type is one of, NoReturn, ReturnOneRow or ReturnManyRows.
*/
public boolean isCursorReturned() {
return getReturnType() == RETURN_CURSOR;
}
/**
* Return if field matching is required.
* Field matching is required for custom SQL statements where the result set field order is not known.
*/
public boolean isFieldMatchingRequired() {
return isFieldMatchingRequired;
}
/**
* Return whether all the results of the call have been returned.
*/
public boolean isFinished() {
return !isCursorReturned();
}
/**
* Return true for procedures with any output (or in/out) parameters and no cursors
*/
public boolean isNonCursorOutputProcedure() {
return !isCursorOutputProcedure() && shouldBuildOutputRow();
}
public boolean isResultSetScrollable() {
return isResultSetScrollable;
}
/**
* Allow for the field order to be matched if required.
* This is required for custom SQL.
*/
public void matchFieldOrder(ResultSet resultSet, DatabaseAccessor accessor, AbstractSession session) {
if ((getFields() != null) && (!isFieldMatchingRequired())) {
return;
}
setFields(accessor.buildSortedFields(getFields(), resultSet, session));
}
/**
* INTERNAL:
* Allow pre-printing of the SQL string for fully bound calls, to save from reprinting.
* Should be called before translation.
*/
public void prepare(AbstractSession session) {
if (isPrepared()) {
return;
}
prepareInternal(session);
setIsPrepared(true);
}
/**
* INTERNAL:
* Called by prepare method only. May be overridden.
*/
protected void prepareInternal(AbstractSession session) {
if (isCursorOutputProcedure()) {
// 1. If there are no OUT_CURSOR parameters - change the first OUT to OUT_CURSOR;
// 2. If there are multiple OUT_CURSOR parameters - throw Validation exception
int nFirstOutParameterIndex = -1;
boolean hasFoundOutCursor = false;
for (int index = 0; index < parameters.size(); index++) {
Integer parameterType = (Integer)parameterTypes.elementAt(index);
if (parameterType == DatasourceCall.OUT_CURSOR) {
if (hasFoundOutCursor) {
// one cursor has been already found
throw ValidationException.multipleCursorsNotSupported(toString());
} else {
hasFoundOutCursor = true;
}
} else if (parameterType == DatasourceCall.OUT) {
if (nFirstOutParameterIndex == -1) {
nFirstOutParameterIndex = index;
}
} else if (parameterType == null) {
// setCustomSQLArgumentType method was called when custom SQL is not used
throw ValidationException.wrongUsageOfSetCustomArgumentTypeMethod(toString());
}
}
if (!hasFoundOutCursor && (nFirstOutParameterIndex >= 0)) {
parameterTypes.setElementAt(DatasourceCall.OUT_CURSOR, nFirstOutParameterIndex);
}
}
for (int i = 0; i < getParameters().size(); i++) {
Object parameter = getParameters().elementAt(i);
Integer parameterType = (Integer)getParameterTypes().elementAt(i);
if (parameterType == MODIFY) {
// in case the field's type is not set, the parameter type is set to CUSTOM_MODIFY.
DatabaseField field = (DatabaseField)parameter;
if ((field.getType() == null) || session.getPlatform().shouldUseCustomModifyForCall(field)) {
getParameterTypes().setElementAt(CUSTOM_MODIFY, i);
}
} else if (parameterType == INOUT) {
// In case there is a type in outField, outParameter is created.
// During translate call, either outParameter or outField is used for
// creating inOut parameter.
setShouldBuildOutputRow(true);
setIsCallableStatementRequired(true);
DatabaseField outField = (DatabaseField)((Object[])parameter)[1];
if (outField.getType() == null) {
DatabaseField typeOutField = getFieldWithTypeFromDescriptor(outField);
if (typeOutField != null) {
outField = (DatabaseField)typeOutField.clone();
}
}
if (outField.getType() != null) {
// outParameter contains all the info for registerOutputParameter call.
OutputParameterForCallableStatement outParameter = new OutputParameterForCallableStatement(outField, session.getPlatform());
((Object[])parameter)[1] = outParameter;
}
} else if ((parameterType == OUT) || (parameterType == OUT_CURSOR)) {
boolean isCursor = parameterType == OUT_CURSOR;
if (!isCursor) {
setShouldBuildOutputRow(true);
}
setIsCallableStatementRequired(true);
DatabaseField outField = (DatabaseField)parameter;
if (outField.getType() == null) {
DatabaseField typeOutField = getFieldWithTypeFromDescriptor(outField);
if (typeOutField != null) {
outField = (DatabaseField)typeOutField.clone();
}
}
// outParameter contains all the info for registerOutputParameter call.
OutputParameterForCallableStatement outParameter = new OutputParameterForCallableStatement(outField, session.getPlatform(), isCursor);
getParameters().setElementAt(outParameter, i);
// nothing to do during translate method
getParameterTypes().setElementAt(LITERAL, i);
}
}
if (this.returnsResultSet == FalseUndefinedTrue.Undefined) {
setReturnsResultSet(!isCallableStatementRequired());
}
}
/**
* INTERNAL:
* Prepare the JDBC statement, this may be parameterize or a call statement.
* If caching statements this must check for the pre-prepared statement and re-bind to it.
*/
public Statement prepareStatement(DatabaseAccessor accessor, AbstractRecord translationRow, AbstractSession session) throws SQLException {
Statement statement = accessor.prepareStatement(this, session);
if (getMaxRows() > 0) {
statement.setMaxRows(getMaxRows());
}
if (!hasParameters()) {
return statement;
}
for (int index = 0; index < getParameters().size(); index++) {
session.getPlatform().setParameterValueInDatabaseCall(this.getParameters(), (PreparedStatement)statement, index, session);
}
return statement;
}
/**
* The fields expected by the calls result set.
*/
public void setFields(Vector fields) {
this.fields = fields;
}
/**
* The firstResult set on the result set
*/
public void setFirstResult(int firstResult) {
this.firstResult = firstResult;
}
/**
* This check is needed only when doing batch writing and we hit on optimistic locking.
*/
public void setHasOptimisticLock(boolean hasOptimisticLock) {
this.hasOptimisticLock = hasOptimisticLock;
}
/**
* Callable statement is required if there is an output parameter.
*/
protected void setIsCallableStatementRequired(boolean isCallableStatementRequired) {
this.isCallableStatementRequired = isCallableStatementRequired;
}
/**
* Used for Oracle result sets through procedures.
*/
public void setIsCursorOutputProcedure(boolean isCursorOutputProcedure) {
this.isCursorOutputProcedure = isCursorOutputProcedure;
}
/**
* Field matching is required for custom SQL statements where the result set field order is not known.
*/
public void setIsFieldMatchingRequired(boolean isFieldMatchingRequired) {
this.isFieldMatchingRequired = isFieldMatchingRequired;
}
public void setIsResultSetScrollable(boolean isResultSetScrollable) {
this.isResultSetScrollable = isResultSetScrollable;
}
/**
* set query max returned row size to the JDBC Statement
*/
public void setMaxRows(int maxRows) {
this.maxRows = maxRows;
}
/**
* INTERNAL:
* Set the query string (SQL) of the call.
*/
public void setQueryString(String queryString) {
setSQLStringInternal(queryString);
}
/**
* The result set is stored for the return value of cursor selects.
*/
public void setResult(ResultSet result) {
this.result = result;
}
public void setResultSetConcurrency(int resultSetConcurrency) {
this.resultSetConcurrency = resultSetConcurrency;
}
/**
* INTERNAL:
* Set the SQL string.
*/
protected void setSQLStringInternal(String sqlString) {
this.sqlString = sqlString;
}
public void setResultSetType(int resultSetType) {
this.resultSetType = resultSetType;
}
/**
* PUBLIC:
* Use this method to tell TopLink that the stored procedure will be returning a JDBC ResultSet
*/
public void setReturnsResultSet(boolean returnsResultSet) {
if (returnsResultSet) {
this.returnsResultSet = FalseUndefinedTrue.True;
} else {
this.returnsResultSet = FalseUndefinedTrue.False;
}
}
/**
* INTERNAL:
* Set whether the call has to build output row
*/
protected void setShouldBuildOutputRow(boolean shouldBuildOutputRow) {
this.shouldBuildOutputRow = shouldBuildOutputRow;
}
/**
* Bound calls can use prepared statement caching.
*/
public void setShouldCacheStatement(boolean shouldCacheStatement) {
if (shouldCacheStatement) {
this.shouldCacheStatement = FalseUndefinedTrue.True;
} else {
this.shouldCacheStatement = FalseUndefinedTrue.False;
}
}
/**
* The statement is stored for the return value of cursor selects.
*/
public void setStatement(Statement statement) {
this.statement = statement;
}
/**
* The call may specify that its parameters should be bound.
*/
public void setUsesBinding(boolean usesBinding) {
if (usesBinding) {
this.usesBinding = FalseUndefinedTrue.True;
} else {
this.usesBinding = FalseUndefinedTrue.False;
}
}
/**
* Set whether the call has to build output row
*/
public boolean shouldBuildOutputRow() {
return this.shouldBuildOutputRow;
}
/**
* Bound calls can use prepared statement caching.
*/
public boolean shouldCacheStatement(AbstractSession session) {
return shouldCacheStatement(session.getPlatform());
}
/**
* Bound calls can use prepared statement caching.
*/
public boolean shouldCacheStatement(DatabasePlatform databasePlatform) {
//CR4272 If result set is scrollable, do not cache statement since scrollable cursor can not be used for cached statement
if (isResultSetScrollable()) {
return false;
}
if (shouldCacheStatement == FalseUndefinedTrue.Undefined) {
return databasePlatform.shouldCacheAllStatements();
} else {
return shouldCacheStatement == FalseUndefinedTrue.True;
}
}
/**
* INTERNAL:
* Print the SQL string.
*/
public String toString() {
String str = Helper.getShortClassName(getClass());
if (getSQLString() == null) {
return str;
} else {
return str + "(" + getSQLString() + ")";
}
}
/**
* INTERNAL:
* Allow the call to translate from the translation for predefined calls.
*/
public void translate(AbstractRecord translationRow, AbstractRecord modifyRow, AbstractSession session) {
if (!isPrepared()) {
throw ValidationException.cannotTranslateUnpreparedCall(toString());
}
if (usesBinding(session)) {
Vector parametersValues = new Vector();
for (int index = 0; index < getParameters().size(); index++) {
Object parameter = getParameters().elementAt(index);
Object parameterType = getParameterTypes().elementAt(index);
if (parameterType == MODIFY) {
DatabaseField field = (DatabaseField)parameter;
Object value = modifyRow.get(field);
if (value == null) {
value = modifyRow.getField(field);
}
parametersValues.addElement(value);
} else if (parameterType == CUSTOM_MODIFY) {
DatabaseField field = (DatabaseField)parameter;
Object value = modifyRow.get(field);
value = session.getPlatform().getCustomModifyValueForCall(this, value, field, true);
if (value == null) {
value = modifyRow.getField(field);
}
parametersValues.addElement(value);
} else if (parameterType == TRANSLATION) {
Object value = null;
DatabaseField field = null;
if (parameter instanceof ParameterExpression) {
value = ((ParameterExpression)parameter).getValue(translationRow, session);
} else {
field = (DatabaseField)parameter;
value = translationRow.get(field);
if (value == null) {// Backward compatibility double check.
value = modifyRow.get(field);
}
}
if (value instanceof Vector) {
throw QueryException.inCannotBeParameterized(getQuery());
}
if ((value == null) && (field != null)) {
value = translationRow.getField(field);
}
parametersValues.addElement(value);
} else if (parameterType == LITERAL) {
parametersValues.addElement(parameter);
} else if (parameterType == IN) {
Object value = getValueForInParameter(parameter, translationRow, modifyRow, session, true);
parametersValues.addElement(value);
} else if (parameterType == INOUT) {
Object value = getValueForInOutParameter(parameter, translationRow, modifyRow, session);
parametersValues.addElement(value);
}
}
setParameters(parametersValues);
return;
}
translateQueryString(translationRow, modifyRow, session);
}
/**
* The call may specify that its parameters should be bound.
*/
public boolean usesBinding(AbstractSession session) {
return usesBinding(session.getPlatform());
}
/**
* The call may specify that its parameters should be bound.
*/
public boolean usesBinding(DatabasePlatform databasePlatform) {
if (usesBinding == FalseUndefinedTrue.Undefined) {
return databasePlatform.shouldBindAllParameters();
} else {
return usesBinding == FalseUndefinedTrue.True;
}
}
/**
* INTERNAL:
* Return if the locator is required for the LOB (BLOB and CLOB) writing.
*/
public boolean isLOBLocatorNeeded() {
return contexts != null;
}
/**
* INTERNAL:
* Add a field - value pair for LOB field into the context.
*/
public void addContext(DatabaseField field, Object value) {
if (contexts == null) {
contexts = new DatabaseRecord(2);
}
contexts.add(field, value);
}
/**
* INTERNAL:
* Return the contexts (for LOB)
*/
public AbstractRecord getContexts() {
return contexts;
}
/**
* INTERNAL:
* Set the contexts (for LOB)
*/
public void setContexts(AbstractRecord contexts) {
this.contexts = contexts;
}
/**
* PUBLIC:
* Used for Oracle result sets through procedures.
* The first OUT parameter is set as a cursor output.
*/
public void useUnnamedCursorOutputAsResultSet() {
setIsCursorOutputProcedure(true);
}
}