Example 6 with OrderBy
use of io.trino.sql.tree.OrderBy in project trino by trinodb.
the class TestSqlParser method testAggregationWithOrderBy.
@Test
public void testAggregationWithOrderBy() {
assertExpression("array_agg(x ORDER BY x DESC)", new FunctionCall(Optional.empty(), QualifiedName.of("array_agg"), Optional.empty(), Optional.empty(), Optional.of(new OrderBy(ImmutableList.of(new SortItem(identifier("x"), DESCENDING, UNDEFINED)))), false, Optional.empty(), Optional.empty(), ImmutableList.of(identifier("x"))));
assertStatement("SELECT array_agg(x ORDER BY t.y) FROM t", simpleQuery(selectList(new FunctionCall(Optional.empty(), QualifiedName.of("array_agg"), Optional.empty(), Optional.empty(), Optional.of(new OrderBy(ImmutableList.of(new SortItem(new DereferenceExpression(new Identifier("t"), identifier("y")), ASCENDING, UNDEFINED)))), false, Optional.empty(), Optional.empty(), ImmutableList.of(new Identifier("x")))), table(QualifiedName.of("t"))));
}
Also used :
OrderBy(io.trino.sql.tree.OrderBy)
SortItem(io.trino.sql.tree.SortItem)
DereferenceExpression(io.trino.sql.tree.DereferenceExpression)
QueryUtil.quotedIdentifier(io.trino.sql.QueryUtil.quotedIdentifier)
Identifier(io.trino.sql.tree.Identifier)
FunctionCall(io.trino.sql.tree.FunctionCall)
Test(org.junit.jupiter.api.Test)
Example 7 with OrderBy
use of io.trino.sql.tree.OrderBy in project trino by trinodb.
the class AstBuilder method visitPatternRecognition.
@Override
public Node visitPatternRecognition(SqlBaseParser.PatternRecognitionContext context) {
Relation child = (Relation) visit(context.aliasedRelation());
if (context.MATCH_RECOGNIZE() == null) {
return child;
}
Optional<OrderBy> orderBy = Optional.empty();
if (context.ORDER() != null) {
orderBy = Optional.of(new OrderBy(getLocation(context.ORDER()), visit(context.sortItem(), SortItem.class)));
}
Optional<PatternSearchMode> searchMode = Optional.empty();
if (context.INITIAL() != null) {
searchMode = Optional.of(new PatternSearchMode(getLocation(context.INITIAL()), INITIAL));
} else if (context.SEEK() != null) {
searchMode = Optional.of(new PatternSearchMode(getLocation(context.SEEK()), SEEK));
}
PatternRecognitionRelation relation = new PatternRecognitionRelation(getLocation(context), child, visit(context.partition, Expression.class), orderBy, visit(context.measureDefinition(), MeasureDefinition.class), getRowsPerMatch(context.rowsPerMatch()), visitIfPresent(context.skipTo(), SkipTo.class), searchMode, (RowPattern) visit(context.rowPattern()), visit(context.subsetDefinition(), SubsetDefinition.class), visit(context.variableDefinition(), VariableDefinition.class));
if (context.identifier() == null) {
return relation;
}
List<Identifier> aliases = null;
if (context.columnAliases() != null) {
aliases = visit(context.columnAliases().identifier(), Identifier.class);
}
return new AliasedRelation(getLocation(context), relation, (Identifier) visit(context.identifier()), aliases);
}
Also used :
OrderBy(io.trino.sql.tree.OrderBy)
VariableDefinition(io.trino.sql.tree.VariableDefinition)
MeasureDefinition(io.trino.sql.tree.MeasureDefinition)
SkipTo(io.trino.sql.tree.SkipTo)
PatternRecognitionRelation(io.trino.sql.tree.PatternRecognitionRelation)
AliasedRelation(io.trino.sql.tree.AliasedRelation)
SampledRelation(io.trino.sql.tree.SampledRelation)
Relation(io.trino.sql.tree.Relation)
PatternRecognitionRelation(io.trino.sql.tree.PatternRecognitionRelation)
SortItem(io.trino.sql.tree.SortItem)
SubsetDefinition(io.trino.sql.tree.SubsetDefinition)
Identifier(io.trino.sql.tree.Identifier)
DereferenceExpression(io.trino.sql.tree.DereferenceExpression)
LogicalExpression(io.trino.sql.tree.LogicalExpression)
SearchedCaseExpression(io.trino.sql.tree.SearchedCaseExpression)
BindExpression(io.trino.sql.tree.BindExpression)
CoalesceExpression(io.trino.sql.tree.CoalesceExpression)
QuantifiedComparisonExpression(io.trino.sql.tree.QuantifiedComparisonExpression)
SimpleCaseExpression(io.trino.sql.tree.SimpleCaseExpression)
SubqueryExpression(io.trino.sql.tree.SubqueryExpression)
LambdaExpression(io.trino.sql.tree.LambdaExpression)
SubscriptExpression(io.trino.sql.tree.SubscriptExpression)
NullIfExpression(io.trino.sql.tree.NullIfExpression)
ArithmeticUnaryExpression(io.trino.sql.tree.ArithmeticUnaryExpression)
InListExpression(io.trino.sql.tree.InListExpression)
NotExpression(io.trino.sql.tree.NotExpression)
ArithmeticBinaryExpression(io.trino.sql.tree.ArithmeticBinaryExpression)
TryExpression(io.trino.sql.tree.TryExpression)
ComparisonExpression(io.trino.sql.tree.ComparisonExpression)
IfExpression(io.trino.sql.tree.IfExpression)
Expression(io.trino.sql.tree.Expression)
PatternSearchMode(io.trino.sql.tree.PatternSearchMode)
AliasedRelation(io.trino.sql.tree.AliasedRelation)
Example 8 with OrderBy
use of io.trino.sql.tree.OrderBy in project trino by trinodb.
the class AstBuilder method visitListagg.
/**
* Returns the corresponding {@link FunctionCall} for the `LISTAGG` primary expression.
* <p>
* Although the syntax tree should represent the structure of the original parsed query
* as closely as possible and any semantic interpretation should be part of the
* analysis/planning phase, in case of `LISTAGG` aggregation function it is more pragmatic
* now to create a synthetic {@link FunctionCall} expression during the parsing of the syntax tree.
*
* @param context `LISTAGG` expression context
*/
@Override
public Node visitListagg(SqlBaseParser.ListaggContext context) {
Optional<Window> window = Optional.empty();
OrderBy orderBy = new OrderBy(visit(context.sortItem(), SortItem.class));
boolean distinct = isDistinct(context.setQuantifier());
Expression expression = (Expression) visit(context.expression());
StringLiteral separator = context.string() == null ? new StringLiteral(getLocation(context), "") : (StringLiteral) (visit(context.string()));
BooleanLiteral overflowError = new BooleanLiteral(getLocation(context), "true");
StringLiteral overflowFiller = new StringLiteral(getLocation(context), "...");
BooleanLiteral showOverflowEntryCount = new BooleanLiteral(getLocation(context), "false");
SqlBaseParser.ListAggOverflowBehaviorContext overflowBehavior = context.listAggOverflowBehavior();
if (overflowBehavior != null) {
if (overflowBehavior.ERROR() != null) {
overflowError = new BooleanLiteral(getLocation(context), "true");
} else if (overflowBehavior.TRUNCATE() != null) {
overflowError = new BooleanLiteral(getLocation(context), "false");
if (overflowBehavior.string() != null) {
overflowFiller = (StringLiteral) (visit(overflowBehavior.string()));
}
SqlBaseParser.ListaggCountIndicationContext listaggCountIndicationContext = overflowBehavior.listaggCountIndication();
if (listaggCountIndicationContext.WITH() != null) {
showOverflowEntryCount = new BooleanLiteral(getLocation(context), "true");
} else if (listaggCountIndicationContext.WITHOUT() != null) {
showOverflowEntryCount = new BooleanLiteral(getLocation(context), "false");
}
}
}
List<Expression> arguments = ImmutableList.of(expression, separator, overflowError, overflowFiller, showOverflowEntryCount);
// TODO model this as a ListAgg node in the AST
return new FunctionCall(Optional.of(getLocation(context)), QualifiedName.of("LISTAGG"), window, Optional.empty(), Optional.of(orderBy), distinct, Optional.empty(), Optional.empty(), arguments);
}
Also used :
Window(io.trino.sql.tree.Window)
OrderBy(io.trino.sql.tree.OrderBy)
BooleanLiteral(io.trino.sql.tree.BooleanLiteral)
SortItem(io.trino.sql.tree.SortItem)
StringLiteral(io.trino.sql.tree.StringLiteral)
DereferenceExpression(io.trino.sql.tree.DereferenceExpression)
LogicalExpression(io.trino.sql.tree.LogicalExpression)
SearchedCaseExpression(io.trino.sql.tree.SearchedCaseExpression)
BindExpression(io.trino.sql.tree.BindExpression)
CoalesceExpression(io.trino.sql.tree.CoalesceExpression)
QuantifiedComparisonExpression(io.trino.sql.tree.QuantifiedComparisonExpression)
SimpleCaseExpression(io.trino.sql.tree.SimpleCaseExpression)
SubqueryExpression(io.trino.sql.tree.SubqueryExpression)
LambdaExpression(io.trino.sql.tree.LambdaExpression)
SubscriptExpression(io.trino.sql.tree.SubscriptExpression)
NullIfExpression(io.trino.sql.tree.NullIfExpression)
ArithmeticUnaryExpression(io.trino.sql.tree.ArithmeticUnaryExpression)
InListExpression(io.trino.sql.tree.InListExpression)
NotExpression(io.trino.sql.tree.NotExpression)
ArithmeticBinaryExpression(io.trino.sql.tree.ArithmeticBinaryExpression)
TryExpression(io.trino.sql.tree.TryExpression)
ComparisonExpression(io.trino.sql.tree.ComparisonExpression)
IfExpression(io.trino.sql.tree.IfExpression)
Expression(io.trino.sql.tree.Expression)
FunctionCall(io.trino.sql.tree.FunctionCall)
Example 9 with OrderBy
use of io.trino.sql.tree.OrderBy in project trino by trinodb.
the class AstBuilder method visitFunctionCall.
@Override
public Node visitFunctionCall(SqlBaseParser.FunctionCallContext context) {
Optional<Expression> filter = visitIfPresent(context.filter(), Expression.class);
Optional<Window> window = visitIfPresent(context.over(), Window.class);
Optional<OrderBy> orderBy = Optional.empty();
if (context.ORDER() != null) {
orderBy = Optional.of(new OrderBy(visit(context.sortItem(), SortItem.class)));
}
QualifiedName name = getQualifiedName(context.qualifiedName());
boolean distinct = isDistinct(context.setQuantifier());
SqlBaseParser.NullTreatmentContext nullTreatment = context.nullTreatment();
SqlBaseParser.ProcessingModeContext processingMode = context.processingMode();
if (name.toString().equalsIgnoreCase("if")) {
check(context.expression().size() == 2 || context.expression().size() == 3, "Invalid number of arguments for 'if' function", context);
check(!window.isPresent(), "OVER clause not valid for 'if' function", context);
check(!distinct, "DISTINCT not valid for 'if' function", context);
check(nullTreatment == null, "Null treatment clause not valid for 'if' function", context);
check(processingMode == null, "Running or final semantics not valid for 'if' function", context);
check(!filter.isPresent(), "FILTER not valid for 'if' function", context);
Expression elseExpression = null;
if (context.expression().size() == 3) {
elseExpression = (Expression) visit(context.expression(2));
}
return new IfExpression(getLocation(context), (Expression) visit(context.expression(0)), (Expression) visit(context.expression(1)), elseExpression);
}
if (name.toString().equalsIgnoreCase("nullif")) {
check(context.expression().size() == 2, "Invalid number of arguments for 'nullif' function", context);
check(!window.isPresent(), "OVER clause not valid for 'nullif' function", context);
check(!distinct, "DISTINCT not valid for 'nullif' function", context);
check(nullTreatment == null, "Null treatment clause not valid for 'nullif' function", context);
check(processingMode == null, "Running or final semantics not valid for 'nullif' function", context);
check(!filter.isPresent(), "FILTER not valid for 'nullif' function", context);
return new NullIfExpression(getLocation(context), (Expression) visit(context.expression(0)), (Expression) visit(context.expression(1)));
}
if (name.toString().equalsIgnoreCase("coalesce")) {
check(context.expression().size() >= 2, "The 'coalesce' function must have at least two arguments", context);
check(!window.isPresent(), "OVER clause not valid for 'coalesce' function", context);
check(!distinct, "DISTINCT not valid for 'coalesce' function", context);
check(nullTreatment == null, "Null treatment clause not valid for 'coalesce' function", context);
check(processingMode == null, "Running or final semantics not valid for 'coalesce' function", context);
check(!filter.isPresent(), "FILTER not valid for 'coalesce' function", context);
return new CoalesceExpression(getLocation(context), visit(context.expression(), Expression.class));
}
if (name.toString().equalsIgnoreCase("try")) {
check(context.expression().size() == 1, "The 'try' function must have exactly one argument", context);
check(!window.isPresent(), "OVER clause not valid for 'try' function", context);
check(!distinct, "DISTINCT not valid for 'try' function", context);
check(nullTreatment == null, "Null treatment clause not valid for 'try' function", context);
check(processingMode == null, "Running or final semantics not valid for 'try' function", context);
check(!filter.isPresent(), "FILTER not valid for 'try' function", context);
return new TryExpression(getLocation(context), (Expression) visit(getOnlyElement(context.expression())));
}
if (name.toString().equalsIgnoreCase("format")) {
check(context.expression().size() >= 2, "The 'format' function must have at least two arguments", context);
check(!window.isPresent(), "OVER clause not valid for 'format' function", context);
check(!distinct, "DISTINCT not valid for 'format' function", context);
check(nullTreatment == null, "Null treatment clause not valid for 'format' function", context);
check(processingMode == null, "Running or final semantics not valid for 'format' function", context);
check(!filter.isPresent(), "FILTER not valid for 'format' function", context);
return new Format(getLocation(context), visit(context.expression(), Expression.class));
}
if (name.toString().equalsIgnoreCase("$internal$bind")) {
check(context.expression().size() >= 1, "The '$internal$bind' function must have at least one arguments", context);
check(!window.isPresent(), "OVER clause not valid for '$internal$bind' function", context);
check(!distinct, "DISTINCT not valid for '$internal$bind' function", context);
check(nullTreatment == null, "Null treatment clause not valid for '$internal$bind' function", context);
check(processingMode == null, "Running or final semantics not valid for '$internal$bind' function", context);
check(!filter.isPresent(), "FILTER not valid for '$internal$bind' function", context);
int numValues = context.expression().size() - 1;
List<Expression> arguments = context.expression().stream().map(this::visit).map(Expression.class::cast).collect(toImmutableList());
return new BindExpression(getLocation(context), arguments.subList(0, numValues), arguments.get(numValues));
}
Optional<NullTreatment> nulls = Optional.empty();
if (nullTreatment != null) {
if (nullTreatment.IGNORE() != null) {
nulls = Optional.of(NullTreatment.IGNORE);
} else if (nullTreatment.RESPECT() != null) {
nulls = Optional.of(NullTreatment.RESPECT);
}
}
Optional<ProcessingMode> mode = Optional.empty();
if (processingMode != null) {
if (processingMode.RUNNING() != null) {
mode = Optional.of(new ProcessingMode(getLocation(processingMode), RUNNING));
} else if (processingMode.FINAL() != null) {
mode = Optional.of(new ProcessingMode(getLocation(processingMode), FINAL));
}
}
List<Expression> arguments = visit(context.expression(), Expression.class);
if (context.label != null) {
arguments = ImmutableList.of(new DereferenceExpression(getLocation(context.label), (Identifier) visit(context.label)));
}
return new FunctionCall(Optional.of(getLocation(context)), name, window, filter, orderBy, distinct, nulls, mode, arguments);
}
Also used :
ProcessingMode(io.trino.sql.tree.ProcessingMode)
SortItem(io.trino.sql.tree.SortItem)
Format(io.trino.sql.tree.Format)
ExplainFormat(io.trino.sql.tree.ExplainFormat)
FunctionCall(io.trino.sql.tree.FunctionCall)
Window(io.trino.sql.tree.Window)
OrderBy(io.trino.sql.tree.OrderBy)
NullIfExpression(io.trino.sql.tree.NullIfExpression)
IfExpression(io.trino.sql.tree.IfExpression)
DereferenceExpression(io.trino.sql.tree.DereferenceExpression)
QualifiedName(io.trino.sql.tree.QualifiedName)
TryExpression(io.trino.sql.tree.TryExpression)
NullTreatment(io.trino.sql.tree.FunctionCall.NullTreatment)
DereferenceExpression(io.trino.sql.tree.DereferenceExpression)
LogicalExpression(io.trino.sql.tree.LogicalExpression)
SearchedCaseExpression(io.trino.sql.tree.SearchedCaseExpression)
BindExpression(io.trino.sql.tree.BindExpression)
CoalesceExpression(io.trino.sql.tree.CoalesceExpression)
QuantifiedComparisonExpression(io.trino.sql.tree.QuantifiedComparisonExpression)
SimpleCaseExpression(io.trino.sql.tree.SimpleCaseExpression)
SubqueryExpression(io.trino.sql.tree.SubqueryExpression)
LambdaExpression(io.trino.sql.tree.LambdaExpression)
SubscriptExpression(io.trino.sql.tree.SubscriptExpression)
NullIfExpression(io.trino.sql.tree.NullIfExpression)
ArithmeticUnaryExpression(io.trino.sql.tree.ArithmeticUnaryExpression)
InListExpression(io.trino.sql.tree.InListExpression)
NotExpression(io.trino.sql.tree.NotExpression)
ArithmeticBinaryExpression(io.trino.sql.tree.ArithmeticBinaryExpression)
TryExpression(io.trino.sql.tree.TryExpression)
ComparisonExpression(io.trino.sql.tree.ComparisonExpression)
IfExpression(io.trino.sql.tree.IfExpression)
Expression(io.trino.sql.tree.Expression)
BindExpression(io.trino.sql.tree.BindExpression)
NullIfExpression(io.trino.sql.tree.NullIfExpression)
CoalesceExpression(io.trino.sql.tree.CoalesceExpression)
Example 10 with OrderBy
use of io.trino.sql.tree.OrderBy in project trino by trinodb.
the class TreePrinter method print.
public void print(Node root) {
AstVisitor<Void, Integer> printer = new DefaultTraversalVisitor<Integer>() {
@Override
protected Void visitNode(Node node, Integer indentLevel) {
throw new UnsupportedOperationException("not yet implemented: " + node);
}
@Override
protected Void visitQuery(Query node, Integer indentLevel) {
print(indentLevel, "Query ");
indentLevel++;
print(indentLevel, "QueryBody");
process(node.getQueryBody(), indentLevel);
if (node.getOrderBy().isPresent()) {
print(indentLevel, "OrderBy");
process(node.getOrderBy().get(), indentLevel + 1);
}
if (node.getLimit().isPresent()) {
print(indentLevel, "Limit: " + node.getLimit().get());
}
return null;
}
@Override
protected Void visitQuerySpecification(QuerySpecification node, Integer indentLevel) {
print(indentLevel, "QuerySpecification ");
indentLevel++;
process(node.getSelect(), indentLevel);
if (node.getFrom().isPresent()) {
print(indentLevel, "From");
process(node.getFrom().get(), indentLevel + 1);
}
if (node.getWhere().isPresent()) {
print(indentLevel, "Where");
process(node.getWhere().get(), indentLevel + 1);
}
if (node.getGroupBy().isPresent()) {
String distinct = "";
if (node.getGroupBy().get().isDistinct()) {
distinct = "[DISTINCT]";
}
print(indentLevel, "GroupBy" + distinct);
for (GroupingElement groupingElement : node.getGroupBy().get().getGroupingElements()) {
print(indentLevel, "SimpleGroupBy");
if (groupingElement instanceof SimpleGroupBy) {
for (Expression column : groupingElement.getExpressions()) {
process(column, indentLevel + 1);
}
} else if (groupingElement instanceof GroupingSets) {
print(indentLevel + 1, "GroupingSets");
for (List<Expression> set : ((GroupingSets) groupingElement).getSets()) {
print(indentLevel + 2, "GroupingSet[");
for (Expression expression : set) {
process(expression, indentLevel + 3);
}
print(indentLevel + 2, "]");
}
} else if (groupingElement instanceof Cube) {
print(indentLevel + 1, "Cube");
for (Expression column : groupingElement.getExpressions()) {
process(column, indentLevel + 1);
}
} else if (groupingElement instanceof Rollup) {
print(indentLevel + 1, "Rollup");
for (Expression column : groupingElement.getExpressions()) {
process(column, indentLevel + 1);
}
}
}
}
if (node.getHaving().isPresent()) {
print(indentLevel, "Having");
process(node.getHaving().get(), indentLevel + 1);
}
if (!node.getWindows().isEmpty()) {
print(indentLevel, "Window");
for (WindowDefinition windowDefinition : node.getWindows()) {
process(windowDefinition, indentLevel + 1);
}
}
if (node.getOrderBy().isPresent()) {
print(indentLevel, "OrderBy");
process(node.getOrderBy().get(), indentLevel + 1);
}
if (node.getLimit().isPresent()) {
print(indentLevel, "Limit: " + node.getLimit().get());
}
return null;
}
@Override
protected Void visitOrderBy(OrderBy node, Integer indentLevel) {
for (SortItem sortItem : node.getSortItems()) {
process(sortItem, indentLevel);
}
return null;
}
@Override
protected Void visitWindowDefinition(WindowDefinition node, Integer indentLevel) {
print(indentLevel, "WindowDefinition[" + node.getName() + "]");
process(node.getWindow(), indentLevel + 1);
return null;
}
@Override
protected Void visitWindowReference(WindowReference node, Integer indentLevel) {
print(indentLevel, "WindowReference[" + node.getName() + "]");
return null;
}
@Override
public Void visitWindowSpecification(WindowSpecification node, Integer indentLevel) {
if (node.getExistingWindowName().isPresent()) {
print(indentLevel, "ExistingWindowName " + node.getExistingWindowName().get());
}
if (!node.getPartitionBy().isEmpty()) {
print(indentLevel, "PartitionBy");
for (Expression expression : node.getPartitionBy()) {
process(expression, indentLevel + 1);
}
}
if (node.getOrderBy().isPresent()) {
print(indentLevel, "OrderBy");
process(node.getOrderBy().get(), indentLevel + 1);
}
if (node.getFrame().isPresent()) {
print(indentLevel, "Frame");
process(node.getFrame().get(), indentLevel + 1);
}
return null;
}
@Override
protected Void visitSelect(Select node, Integer indentLevel) {
String distinct = "";
if (node.isDistinct()) {
distinct = "[DISTINCT]";
}
print(indentLevel, "Select" + distinct);
// visit children
super.visitSelect(node, indentLevel + 1);
return null;
}
@Override
protected Void visitAllColumns(AllColumns node, Integer indent) {
StringBuilder aliases = new StringBuilder();
if (!node.getAliases().isEmpty()) {
aliases.append(" [Aliases: ");
Joiner.on(", ").appendTo(aliases, node.getAliases());
aliases.append("]");
}
print(indent, "All columns" + aliases.toString());
if (node.getTarget().isPresent()) {
// visit child
super.visitAllColumns(node, indent + 1);
}
return null;
}
@Override
protected Void visitSingleColumn(SingleColumn node, Integer indent) {
if (node.getAlias().isPresent()) {
print(indent, "Alias: " + node.getAlias().get());
}
// visit children
super.visitSingleColumn(node, indent + 1);
return null;
}
@Override
protected Void visitComparisonExpression(ComparisonExpression node, Integer indentLevel) {
print(indentLevel, node.getOperator().toString());
super.visitComparisonExpression(node, indentLevel + 1);
return null;
}
@Override
protected Void visitArithmeticBinary(ArithmeticBinaryExpression node, Integer indentLevel) {
print(indentLevel, node.getOperator().toString());
super.visitArithmeticBinary(node, indentLevel + 1);
return null;
}
@Override
protected Void visitLogicalExpression(LogicalExpression node, Integer indentLevel) {
print(indentLevel, node.getOperator().toString());
super.visitLogicalExpression(node, indentLevel + 1);
return null;
}
@Override
protected Void visitStringLiteral(StringLiteral node, Integer indentLevel) {
print(indentLevel, "String[" + node.getValue() + "]");
return null;
}
@Override
protected Void visitBinaryLiteral(BinaryLiteral node, Integer indentLevel) {
print(indentLevel, "Binary[" + node.toHexString() + "]");
return null;
}
@Override
protected Void visitBooleanLiteral(BooleanLiteral node, Integer indentLevel) {
print(indentLevel, "Boolean[" + node.getValue() + "]");
return null;
}
@Override
protected Void visitLongLiteral(LongLiteral node, Integer indentLevel) {
print(indentLevel, "Long[" + node.getValue() + "]");
return null;
}
@Override
protected Void visitLikePredicate(LikePredicate node, Integer indentLevel) {
print(indentLevel, "LIKE");
super.visitLikePredicate(node, indentLevel + 1);
return null;
}
@Override
protected Void visitIdentifier(Identifier node, Integer indentLevel) {
QualifiedName resolved = resolvedNameReferences.get(node);
String resolvedName = "";
if (resolved != null) {
resolvedName = "=>" + resolved.toString();
}
print(indentLevel, "Identifier[" + node.getValue() + resolvedName + "]");
return null;
}
@Override
protected Void visitDereferenceExpression(DereferenceExpression node, Integer indentLevel) {
QualifiedName resolved = resolvedNameReferences.get(node);
String resolvedName = "";
if (resolved != null) {
resolvedName = "=>" + resolved.toString();
}
print(indentLevel, "DereferenceExpression[" + node + resolvedName + "]");
return null;
}
@Override
protected Void visitFunctionCall(FunctionCall node, Integer indentLevel) {
String name = Joiner.on('.').join(node.getName().getParts());
print(indentLevel, "FunctionCall[" + name + "]");
super.visitFunctionCall(node, indentLevel + 1);
return null;
}
@Override
protected Void visitTable(Table node, Integer indentLevel) {
String name = Joiner.on('.').join(node.getName().getParts());
print(indentLevel, "Table[" + name + "]");
return null;
}
@Override
protected Void visitValues(Values node, Integer indentLevel) {
print(indentLevel, "Values");
super.visitValues(node, indentLevel + 1);
return null;
}
@Override
protected Void visitRow(Row node, Integer indentLevel) {
print(indentLevel, "Row");
super.visitRow(node, indentLevel + 1);
return null;
}
@Override
protected Void visitAliasedRelation(AliasedRelation node, Integer indentLevel) {
print(indentLevel, "Alias[" + node.getAlias() + "]");
super.visitAliasedRelation(node, indentLevel + 1);
return null;
}
@Override
protected Void visitSampledRelation(SampledRelation node, Integer indentLevel) {
print(indentLevel, "TABLESAMPLE[" + node.getType() + " (" + node.getSamplePercentage() + ")]");
super.visitSampledRelation(node, indentLevel + 1);
return null;
}
@Override
protected Void visitTableSubquery(TableSubquery node, Integer indentLevel) {
print(indentLevel, "SubQuery");
super.visitTableSubquery(node, indentLevel + 1);
return null;
}
@Override
protected Void visitInPredicate(InPredicate node, Integer indentLevel) {
print(indentLevel, "IN");
super.visitInPredicate(node, indentLevel + 1);
return null;
}
@Override
protected Void visitSubqueryExpression(SubqueryExpression node, Integer indentLevel) {
print(indentLevel, "SubQuery");
super.visitSubqueryExpression(node, indentLevel + 1);
return null;
}
};
printer.process(root, 0);
}
Also used :
ArithmeticBinaryExpression(io.trino.sql.tree.ArithmeticBinaryExpression)
SimpleGroupBy(io.trino.sql.tree.SimpleGroupBy)
Query(io.trino.sql.tree.Query)
Rollup(io.trino.sql.tree.Rollup)
BooleanLiteral(io.trino.sql.tree.BooleanLiteral)
Node(io.trino.sql.tree.Node)
Values(io.trino.sql.tree.Values)
AllColumns(io.trino.sql.tree.AllColumns)
WindowReference(io.trino.sql.tree.WindowReference)
SubqueryExpression(io.trino.sql.tree.SubqueryExpression)
QuerySpecification(io.trino.sql.tree.QuerySpecification)
LogicalExpression(io.trino.sql.tree.LogicalExpression)
SortItem(io.trino.sql.tree.SortItem)
Identifier(io.trino.sql.tree.Identifier)
List(java.util.List)
FunctionCall(io.trino.sql.tree.FunctionCall)
SampledRelation(io.trino.sql.tree.SampledRelation)
GroupingSets(io.trino.sql.tree.GroupingSets)
OrderBy(io.trino.sql.tree.OrderBy)
DereferenceExpression(io.trino.sql.tree.DereferenceExpression)
Table(io.trino.sql.tree.Table)
LongLiteral(io.trino.sql.tree.LongLiteral)
QualifiedName(io.trino.sql.tree.QualifiedName)
WindowSpecification(io.trino.sql.tree.WindowSpecification)
DefaultTraversalVisitor(io.trino.sql.tree.DefaultTraversalVisitor)
SingleColumn(io.trino.sql.tree.SingleColumn)
LikePredicate(io.trino.sql.tree.LikePredicate)
TableSubquery(io.trino.sql.tree.TableSubquery)
InPredicate(io.trino.sql.tree.InPredicate)
GroupingElement(io.trino.sql.tree.GroupingElement)
ComparisonExpression(io.trino.sql.tree.ComparisonExpression)
BinaryLiteral(io.trino.sql.tree.BinaryLiteral)
StringLiteral(io.trino.sql.tree.StringLiteral)
SubqueryExpression(io.trino.sql.tree.SubqueryExpression)
ArithmeticBinaryExpression(io.trino.sql.tree.ArithmeticBinaryExpression)
ComparisonExpression(io.trino.sql.tree.ComparisonExpression)
DereferenceExpression(io.trino.sql.tree.DereferenceExpression)
LogicalExpression(io.trino.sql.tree.LogicalExpression)
Expression(io.trino.sql.tree.Expression)
Cube(io.trino.sql.tree.Cube)
Select(io.trino.sql.tree.Select)
Row(io.trino.sql.tree.Row)
WindowDefinition(io.trino.sql.tree.WindowDefinition)
AliasedRelation(io.trino.sql.tree.AliasedRelation)
Aggregations
OrderBy (io.trino.sql.tree.OrderBy)11
SortItem (io.trino.sql.tree.SortItem)11
FunctionCall (io.trino.sql.tree.FunctionCall)8
ComparisonExpression (io.trino.sql.tree.ComparisonExpression)7
Expression (io.trino.sql.tree.Expression)7
DereferenceExpression (io.trino.sql.tree.DereferenceExpression)6
Identifier (io.trino.sql.tree.Identifier)6
ArithmeticBinaryExpression (io.trino.sql.tree.ArithmeticBinaryExpression)5
IfExpression (io.trino.sql.tree.IfExpression)5
LambdaExpression (io.trino.sql.tree.LambdaExpression)5
QualifiedName (io.trino.sql.tree.QualifiedName)5
QuantifiedComparisonExpression (io.trino.sql.tree.QuantifiedComparisonExpression)5
QueryUtil.quotedIdentifier (io.trino.sql.QueryUtil.quotedIdentifier)4
ArithmeticUnaryExpression (io.trino.sql.tree.ArithmeticUnaryExpression)4
BindExpression (io.trino.sql.tree.BindExpression)4
CoalesceExpression (io.trino.sql.tree.CoalesceExpression)4
InListExpression (io.trino.sql.tree.InListExpression)4
LogicalExpression (io.trino.sql.tree.LogicalExpression)4
LongLiteral (io.trino.sql.tree.LongLiteral)4
Query (io.trino.sql.tree.Query)4
