/**
* Bind this CreateTableNode. This means doing any static error checking that can be done before
* actually creating the base table or declaring the global temporary table. For eg, verifying
* that the TableElementList does not contain any duplicate column names.
*
* @exception StandardException Thrown on error
*/
public void bindStatement() throws StandardException {
DataDictionary dataDictionary = getDataDictionary();
int numPrimaryKeys = 0;
int numCheckConstraints = 0;
int numReferenceConstraints = 0;
int numUniqueConstraints = 0;
int numGenerationClauses = 0;
SchemaDescriptor sd =
getSchemaDescriptor(tableType != TableDescriptor.GLOBAL_TEMPORARY_TABLE_TYPE, true);
if (queryExpression != null) {
FromList fromList =
(FromList)
getNodeFactory()
.getNode(
C_NodeTypes.FROM_LIST,
getNodeFactory().doJoinOrderOptimization(),
getContextManager());
CompilerContext cc = getCompilerContext();
ProviderList prevAPL = cc.getCurrentAuxiliaryProviderList();
ProviderList apl = new ProviderList();
try {
cc.setCurrentAuxiliaryProviderList(apl);
cc.pushCurrentPrivType(Authorizer.SELECT_PRIV);
/* Bind the tables in the queryExpression */
queryExpression = queryExpression.bindNonVTITables(dataDictionary, fromList);
queryExpression = queryExpression.bindVTITables(fromList);
/* Bind the expressions under the resultSet */
queryExpression.bindExpressions(fromList);
/* Bind the query expression */
queryExpression.bindResultColumns(fromList);
/* Reject any untyped nulls in the RCL */
/* e.g. CREATE TABLE t1 (x) AS VALUES NULL WITH NO DATA */
queryExpression.bindUntypedNullsToResultColumns(null);
} finally {
cc.popCurrentPrivType();
cc.setCurrentAuxiliaryProviderList(prevAPL);
}
/* If there is an RCL for the table definition then copy the
* names to the queryExpression's RCL after verifying that
* they both have the same size.
*/
ResultColumnList qeRCL = queryExpression.getResultColumns();
if (resultColumns != null) {
if (resultColumns.size() != qeRCL.visibleSize()) {
throw StandardException.newException(
SQLState.LANG_TABLE_DEFINITION_R_C_L_MISMATCH, getFullName());
}
qeRCL.copyResultColumnNames(resultColumns);
}
int schemaCollationType = sd.getCollationType();
/* Create table element list from columns in query expression */
tableElementList = new TableElementList();
for (int index = 0; index < qeRCL.size(); index++) {
ResultColumn rc = (ResultColumn) qeRCL.elementAt(index);
if (rc.isGenerated()) {
continue;
}
/* Raise error if column name is system generated. */
if (rc.isNameGenerated()) {
throw StandardException.newException(SQLState.LANG_TABLE_REQUIRES_COLUMN_NAMES);
}
DataTypeDescriptor dtd = rc.getExpression().getTypeServices();
if ((dtd != null) && !dtd.isUserCreatableType()) {
throw StandardException.newException(
SQLState.LANG_INVALID_COLUMN_TYPE_CREATE_TABLE,
dtd.getFullSQLTypeName(),
rc.getName());
}
// DERBY-2879 CREATE TABLE AS <subquery> does not maintain the
// collation for character types.
// eg for a territory based collation database
// create table t as select tablename from sys.systables with no data;
// Derby at this point does not support for a table's character
// columns to have a collation different from it's schema's
// collation. Which means that in a territory based database,
// the query above will cause table t's character columns to
// have collation of UCS_BASIC but the containing schema of t
// has collation of territory based. This is not supported and
// hence we will throw an exception below for the query above in
// a territory based database.
if (dtd.getTypeId().isStringTypeId() && dtd.getCollationType() != schemaCollationType) {
throw StandardException.newException(
SQLState.LANG_CAN_NOT_CREATE_TABLE,
dtd.getCollationName(),
DataTypeDescriptor.getCollationName(schemaCollationType));
}
ColumnDefinitionNode column =
(ColumnDefinitionNode)
getNodeFactory()
.getNode(
C_NodeTypes.COLUMN_DEFINITION_NODE,
rc.getName(),
null,
rc.getType(),
null,
getContextManager());
tableElementList.addTableElement(column);
}
} else {
// Set the collation type and collation derivation of all the
// character type columns. Their collation type will be same as the
// collation of the schema they belong to. Their collation
// derivation will be "implicit".
// Earlier we did this in makeConstantAction but that is little too
// late (DERBY-2955)
// eg
// CREATE TABLE STAFF9 (EMPNAME CHAR(20),
// CONSTRAINT STAFF9_EMPNAME CHECK (EMPNAME NOT LIKE 'T%'))
// For the query above, when run in a territory based db, we need
// to have the correct collation set in bind phase of create table
// so that when LIKE is handled in LikeEscapeOperatorNode, we have
// the correct collation set for EMPNAME otherwise it will throw an
// exception for 'T%' having collation of territory based and
// EMPNAME having the default collation of UCS_BASIC
tableElementList.setCollationTypesOnCharacterStringColumns(
getSchemaDescriptor(tableType != TableDescriptor.GLOBAL_TEMPORARY_TABLE_TYPE, true));
}
tableElementList.validate(this, dataDictionary, (TableDescriptor) null);
/* Only 1012 columns allowed per table */
if (tableElementList.countNumberOfColumns() > Limits.DB2_MAX_COLUMNS_IN_TABLE) {
throw StandardException.newException(
SQLState.LANG_TOO_MANY_COLUMNS_IN_TABLE_OR_VIEW,
String.valueOf(tableElementList.countNumberOfColumns()),
getRelativeName(),
String.valueOf(Limits.DB2_MAX_COLUMNS_IN_TABLE));
}
numPrimaryKeys = tableElementList.countConstraints(DataDictionary.PRIMARYKEY_CONSTRAINT);
/* Only 1 primary key allowed per table */
if (numPrimaryKeys > 1) {
throw StandardException.newException(
SQLState.LANG_TOO_MANY_PRIMARY_KEY_CONSTRAINTS, getRelativeName());
}
/* Check the validity of all check constraints */
numCheckConstraints = tableElementList.countConstraints(DataDictionary.CHECK_CONSTRAINT);
numReferenceConstraints =
tableElementList.countConstraints(DataDictionary.FOREIGNKEY_CONSTRAINT);
numUniqueConstraints = tableElementList.countConstraints(DataDictionary.UNIQUE_CONSTRAINT);
numGenerationClauses = tableElementList.countGenerationClauses();
// temp tables can't have primary key or check or foreign key or unique constraints defined on
// them
if ((tableType == TableDescriptor.GLOBAL_TEMPORARY_TABLE_TYPE)
&& (numPrimaryKeys > 0
|| numCheckConstraints > 0
|| numReferenceConstraints > 0
|| numUniqueConstraints > 0))
throw StandardException.newException(
SQLState.LANG_NOT_ALLOWED_FOR_DECLARED_GLOBAL_TEMP_TABLE);
// each of these constraints have a backing index in the back. We need to make sure that a table
// never has more
// more than 32767 indexes on it and that is why this check.
if ((numPrimaryKeys + numReferenceConstraints + numUniqueConstraints)
> Limits.DB2_MAX_INDEXES_ON_TABLE) {
throw StandardException.newException(
SQLState.LANG_TOO_MANY_INDEXES_ON_TABLE,
String.valueOf(numPrimaryKeys + numReferenceConstraints + numUniqueConstraints),
getRelativeName(),
String.valueOf(Limits.DB2_MAX_INDEXES_ON_TABLE));
}
if ((numCheckConstraints > 0) || (numGenerationClauses > 0) || (numReferenceConstraints > 0)) {
/* In order to check the validity of the check constraints and
* generation clauses
* we must goober up a FromList containing a single table,
* the table being created, with an RCL containing the
* new columns and their types. This will allow us to
* bind the constraint definition trees against that
* FromList. When doing this, we verify that there are
* no nodes which can return non-deterministic results.
*/
FromList fromList = makeFromList(null, tableElementList, true);
FormatableBitSet generatedColumns = new FormatableBitSet();
/* Now that we've finally goobered stuff up, bind and validate
* the check constraints and generation clauses.
*/
if (numGenerationClauses > 0) {
tableElementList.bindAndValidateGenerationClauses(sd, fromList, generatedColumns, null);
}
if (numCheckConstraints > 0) {
tableElementList.bindAndValidateCheckConstraints(fromList);
}
if (numReferenceConstraints > 0) {
tableElementList.validateForeignKeysOnGenerationClauses(fromList, generatedColumns);
}
}
if (numPrimaryKeys > 0) {
tableElementList.validatePrimaryKeyNullability();
}
}
/**
* Bind the expressions in this FromSubquery. This means binding the sub-expressions, as well as
* figuring out what the return type is for each expression.
*
* @exception StandardException Thrown on error
*/
public void bindExpressions(FromList fromListParam) throws StandardException {
FromList emptyFromList =
(FromList)
getNodeFactory()
.getNode(
C_NodeTypes.FROM_LIST,
getNodeFactory().doJoinOrderOptimization(),
getContextManager());
ResultColumnList derivedRCL = resultColumns;
ResultColumnList subqueryRCL;
FromList nestedFromList;
/* From subqueries cannot be correlated, so we pass an empty FromList
* to subquery.bindExpressions() and .bindResultColumns()
*/
if (orderByList != null) {
orderByList.pullUpOrderByColumns(subquery);
}
nestedFromList = emptyFromList;
CompilerContext compilerContext = getCompilerContext();
if (origCompilationSchema != null) {
// View expansion needs the definition time schema
compilerContext.pushCompilationSchema(origCompilationSchema);
}
try {
subquery.bindExpressions(nestedFromList);
subquery.bindResultColumns(nestedFromList);
} finally {
if (origCompilationSchema != null) {
compilerContext.popCompilationSchema();
}
}
if (orderByList != null) {
orderByList.bindOrderByColumns(subquery);
}
bindOffsetFetch(offset, fetchFirst);
/* NOTE: If the size of the derived column list is less than
* the size of the subquery's RCL and the derived column list is marked
* for allowing a size mismatch, then we have a select * view
* on top of a table that has had columns added to it via alter table.
* In this case, we trim out the columns that have been added to
* the table since the view was created.
*/
subqueryRCL = subquery.getResultColumns();
if (resultColumns != null
&& resultColumns.getCountMismatchAllowed()
&& resultColumns.size() < subqueryRCL.size()) {
for (int index = subqueryRCL.size() - 1; index >= resultColumns.size(); index--) {
subqueryRCL.removeElementAt(index);
}
}
/*
* Create RCL based on subquery, adding a level of VCNs.
*/
ResultColumnList newRcl = subqueryRCL.copyListAndObjects();
newRcl.genVirtualColumnNodes(subquery, subquery.getResultColumns());
resultColumns = newRcl;
/* Propagate the name info from the derived column list */
if (derivedRCL != null) {
resultColumns.propagateDCLInfo(derivedRCL, correlationName);
}
}