protected override Expression VisitJoin(JoinExpression join)
{
join = (JoinExpression)base.VisitJoin(join);
if (join.Join == JoinType.CrossJoin && currentWhere != null)
{
// try to figure out which parts of the current where expression can be used for a join condition
HashSet <TableAlias> declaredLeft = DeclaredAliasGatherer.Gather(join.Left);
HashSet <TableAlias> declaredRight = DeclaredAliasGatherer.Gather(join.Right);
var declared = new HashSet <TableAlias>(declaredLeft.Union(declaredRight));
Expression[] exprs = currentWhere.Split(ExpressionType.And, ExpressionType.AndAlso);
List <Expression> good = exprs.Where(e => CanBeJoinCondition(e, declaredLeft, declaredRight, declared)).ToList();
if (good.Count > 0)
{
Expression condition = good.Join(ExpressionType.And);
join = UpdateJoin(join, JoinType.InnerJoin, join.Left, join.Right, condition);
Expression newWhere = exprs.Where(e => !good.Contains(e)).Join(ExpressionType.And);
currentWhere = newWhere;
}
}
return(join);
}
protected override Expression VisitJoin(JoinExpression join)
{
join = (JoinExpression)base.VisitJoin(join);
if (join.Join == JoinType.CrossApply || join.Join == JoinType.OuterApply)
{
if (join.Right is TableExpression)
{
return(new JoinExpression(JoinType.CrossJoin, join.Left, join.Right, null));
}
else
{
var select = join.Right as SelectExpression;
// Only consider rewriting cross apply if
// 1) right side is a select
// 2) other than in the where clause in the right-side select, no left-side declared aliases are referenced
// 3) and has no behavior that would change semantics if the where clause is removed (like groups, aggregates, take, skip, etc).
// Note: it is best to attempt this after redundant subqueries have been removed.
if (select != null && select.Take == null && select.Skip == null && !AggregateChecker.HasAggregates(select) && (select.GroupBy == null || select.GroupBy.Count == 0))
{
SelectExpression selectWithoutWhere = select.SetWhere(null);
HashSet <TableAlias> referencedAliases = ReferencedAliasGatherer.Gather(selectWithoutWhere);
HashSet <TableAlias> declaredAliases = DeclaredAliasGatherer.Gather(join.Left);
referencedAliases.IntersectWith(declaredAliases);
if (referencedAliases.Count == 0)
{
Expression where = select.Where;
select = selectWithoutWhere;
ProjectedColumns pc = ColumnProjector.ProjectColumns(language, where, select.Columns, select.Alias, DeclaredAliasGatherer.Gather(select.From));
select = select.SetColumns(pc.Columns);
where = pc.Projector;
JoinType jt = (where == null) ? JoinType.CrossJoin : (join.Join == JoinType.CrossApply ? JoinType.InnerJoin : JoinType.LeftOuter);
return(new JoinExpression(jt, join.Left, select, where));
}
}
}
}
return(join);
}
protected override Expression VisitJoin(JoinExpression join)
{
VisitJoinLeft(join.Left);
WriteLine(Indentation.Same);
switch (join.Join)
{
case JoinType.CrossJoin:
Write("CROSS JOIN ");
break;
case JoinType.InnerJoin:
Write("INNER JOIN ");
break;
case JoinType.CrossApply:
Write("CROSS APPLY ");
break;
case JoinType.OuterApply:
Write("OUTER APPLY ");
break;
case JoinType.LeftOuter:
case JoinType.SingletonLeftOuter:
Write("LEFT OUTER JOIN ");
break;
}
VisitJoinRight(join.Right);
if (join.Condition != null)
{
WriteLine(Indentation.Inner);
Write("ON ");
VisitPredicate(join.Condition);
Indent(Indentation.Outer);
}
return(join);
}
protected override Expression VisitProjection(ProjectionExpression proj)
{
SelectExpression save = currentSelect;
currentSelect = proj.Select;
try {
if (!isTopLevel)
{
if (CanJoinOnClient(currentSelect))
{
// make a query that combines all the constraints from the outer queries into a single select
var newOuterSelect = (SelectExpression)QueryDuplicator.Duplicate(save);
// remap any references to the outer select to the new alias;
var newInnerSelect = (SelectExpression)ColumnMapper.Map(proj.Select, newOuterSelect.Alias, save.Alias);
// add outer-join test
ProjectionExpression newInnerProjection = language.AddOuterJoinTest(new ProjectionExpression(newInnerSelect, proj.Projector));
newInnerSelect = newInnerProjection.Select;
Expression newProjector = newInnerProjection.Projector;
var newAlias = new TableAlias();
ProjectedColumns pc = ColumnProjector.ProjectColumns(language, newProjector, null, newAlias, newOuterSelect.Alias, newInnerSelect.Alias);
var join = new JoinExpression(JoinType.OuterApply, newOuterSelect, newInnerSelect, null);
var joinedSelect = new SelectExpression(newAlias, pc.Columns, join, null, null, null, proj.IsSingleton, null, null, false);
// apply client-join treatment recursively
currentSelect = joinedSelect;
newProjector = Visit(pc.Projector);
// compute keys (this only works if join condition was a single column comparison)
var outerKeys = new List <Expression>();
var innerKeys = new List <Expression>();
if (GetEquiJoinKeyExpressions(newInnerSelect.Where, newOuterSelect.Alias, outerKeys, innerKeys))
{
// outerKey needs to refer to the outer-scope's alias
IEnumerable <Expression> outerKey = outerKeys.Select(k => ColumnMapper.Map(k, save.Alias, newOuterSelect.Alias));
// innerKey needs to refer to the new alias for the select with the new join
IEnumerable <Expression> innerKey = innerKeys.Select(k => ColumnMapper.Map(k, joinedSelect.Alias, ((ColumnExpression)k).Alias));
var newProjection = new ProjectionExpression(joinedSelect, newProjector, proj.Aggregator);
return(new ClientJoinExpression(newProjection, outerKey, innerKey));
}
}
else
{
bool saveJoin = canJoinOnClient;
canJoinOnClient = false;
Expression result = base.VisitProjection(proj);
canJoinOnClient = saveJoin;
return(result);
}
}
else
{
isTopLevel = false;
}
return(base.VisitProjection(proj));
}
finally {
currentSelect = save;
}
}
