// Copyright (c) 2011 AlphaSierraPapa for the SharpDevelop Team
//
// Permission is hereby granted, free of charge, to any person obtaining a copy of this
// software and associated documentation files (the "Software"), to deal in the Software
// without restriction, including without limitation the rights to use, copy, modify, merge,
// publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons
// to whom the Software is furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in all copies or
// substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED,
// INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR
// PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE
// FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
// DEALINGS IN THE SOFTWARE.
using System;
using System.Diagnostics;
using System.Linq;
using ICSharpCode.NRefactory.CSharp;
namespace ICSharpCode.Decompiler.Ast.Transforms
{
///
/// Decompiles query expressions.
/// Based on C# 4.0 spec, §7.16.2 Query expression translation
///
public class IntroduceQueryExpressions : IAstTransform
{
readonly DecompilerContext context;
public IntroduceQueryExpressions(DecompilerContext context)
{
this.context = context;
}
public void Run(AstNode compilationUnit)
{
if (!context.Settings.QueryExpressions)
return;
DecompileQueries(compilationUnit);
// After all queries were decompiled, detect degenerate queries (queries not property terminated with 'select' or 'group')
// and fix them, either by adding a degenerate select, or by combining them with another query.
foreach (QueryExpression query in compilationUnit.Descendants.OfType()) {
QueryFromClause fromClause = (QueryFromClause)query.Clauses.First();
if (IsDegenerateQuery(query)) {
// introduce select for degenerate query
query.Clauses.Add(new QuerySelectClause { Expression = new IdentifierExpression(fromClause.Identifier) });
}
// See if the data source of this query is a degenerate query,
// and combine the queries if possible.
QueryExpression innerQuery = fromClause.Expression as QueryExpression;
while (IsDegenerateQuery(innerQuery)) {
QueryFromClause innerFromClause = (QueryFromClause)innerQuery.Clauses.First();
if (fromClause.Identifier != innerFromClause.Identifier)
break;
// Replace the fromClause with all clauses from the inner query
fromClause.Remove();
QueryClause insertionPos = null;
foreach (var clause in innerQuery.Clauses) {
query.Clauses.InsertAfter(insertionPos, insertionPos = clause.Detach());
}
fromClause = innerFromClause;
innerQuery = fromClause.Expression as QueryExpression;
}
}
}
bool IsDegenerateQuery(QueryExpression query)
{
if (query == null)
return false;
var lastClause = query.Clauses.LastOrDefault();
return !(lastClause is QuerySelectClause || lastClause is QueryGroupClause);
}
void DecompileQueries(AstNode node)
{
QueryExpression query = DecompileQuery(node as InvocationExpression);
if (query != null)
node.ReplaceWith(query);
for (AstNode child = (query ?? node).FirstChild; child != null; child = child.NextSibling) {
DecompileQueries(child);
}
}
QueryExpression DecompileQuery(InvocationExpression invocation)
{
if (invocation == null)
return null;
MemberReferenceExpression mre = invocation.Target as MemberReferenceExpression;
if (mre == null)
return null;
switch (mre.MemberName) {
case "Select":
{
if (invocation.Arguments.Count != 1)
return null;
string parameterName;
Expression body;
if (MatchSimpleLambda(invocation.Arguments.Single(), out parameterName, out body)) {
QueryExpression query = new QueryExpression();
query.Clauses.Add(new QueryFromClause { Identifier = parameterName, Expression = mre.Target.Detach() });
query.Clauses.Add(new QuerySelectClause { Expression = body.Detach() });
return query;
}
return null;
}
case "GroupBy":
{
if (invocation.Arguments.Count == 2) {
string parameterName1, parameterName2;
Expression keySelector, elementSelector;
if (MatchSimpleLambda(invocation.Arguments.ElementAt(0), out parameterName1, out keySelector)
&& MatchSimpleLambda(invocation.Arguments.ElementAt(1), out parameterName2, out elementSelector)
&& parameterName1 == parameterName2)
{
QueryExpression query = new QueryExpression();
query.Clauses.Add(new QueryFromClause { Identifier = parameterName1, Expression = mre.Target.Detach() });
query.Clauses.Add(new QueryGroupClause { Projection = elementSelector.Detach(), Key = keySelector.Detach() });
return query;
}
} else if (invocation.Arguments.Count == 1) {
string parameterName;
Expression keySelector;
if (MatchSimpleLambda(invocation.Arguments.Single(), out parameterName, out keySelector)) {
QueryExpression query = new QueryExpression();
query.Clauses.Add(new QueryFromClause { Identifier = parameterName, Expression = mre.Target.Detach() });
query.Clauses.Add(new QueryGroupClause { Projection = new IdentifierExpression(parameterName), Key = keySelector.Detach() });
return query;
}
}
return null;
}
case "SelectMany":
{
if (invocation.Arguments.Count != 2)
return null;
string parameterName;
Expression collectionSelector;
if (!MatchSimpleLambda(invocation.Arguments.ElementAt(0), out parameterName, out collectionSelector))
return null;
LambdaExpression lambda = invocation.Arguments.ElementAt(1) as LambdaExpression;
if (lambda != null && lambda.Parameters.Count == 2 && lambda.Body is Expression) {
ParameterDeclaration p1 = lambda.Parameters.ElementAt(0);
ParameterDeclaration p2 = lambda.Parameters.ElementAt(1);
if (p1.Name == parameterName) {
QueryExpression query = new QueryExpression();
query.Clauses.Add(new QueryFromClause { Identifier = p1.Name, Expression = mre.Target.Detach() });
query.Clauses.Add(new QueryFromClause { Identifier = p2.Name, Expression = collectionSelector.Detach() });
query.Clauses.Add(new QuerySelectClause { Expression = ((Expression)lambda.Body).Detach() });
return query;
}
}
return null;
}
case "Where":
{
if (invocation.Arguments.Count != 1)
return null;
string parameterName;
Expression body;
if (MatchSimpleLambda(invocation.Arguments.Single(), out parameterName, out body)) {
QueryExpression query = new QueryExpression();
query.Clauses.Add(new QueryFromClause { Identifier = parameterName, Expression = mre.Target.Detach() });
query.Clauses.Add(new QueryWhereClause { Condition = body.Detach() });
return query;
}
return null;
}
case "OrderBy":
case "OrderByDescending":
case "ThenBy":
case "ThenByDescending":
{
if (invocation.Arguments.Count != 1)
return null;
string parameterName;
Expression orderExpression;
if (MatchSimpleLambda(invocation.Arguments.Single(), out parameterName, out orderExpression)) {
if (ValidateThenByChain(invocation, parameterName)) {
QueryOrderClause orderClause = new QueryOrderClause();
InvocationExpression tmp = invocation;
while (mre.MemberName == "ThenBy" || mre.MemberName == "ThenByDescending") {
// insert new ordering at beginning
orderClause.Orderings.InsertAfter(
null, new QueryOrdering {
Expression = orderExpression.Detach(),
Direction = (mre.MemberName == "ThenBy" ? QueryOrderingDirection.None : QueryOrderingDirection.Descending)
});
tmp = (InvocationExpression)mre.Target;
mre = (MemberReferenceExpression)tmp.Target;
MatchSimpleLambda(tmp.Arguments.Single(), out parameterName, out orderExpression);
}
// insert new ordering at beginning
orderClause.Orderings.InsertAfter(
null, new QueryOrdering {
Expression = orderExpression.Detach(),
Direction = (mre.MemberName == "OrderBy" ? QueryOrderingDirection.None : QueryOrderingDirection.Descending)
});
QueryExpression query = new QueryExpression();
query.Clauses.Add(new QueryFromClause { Identifier = parameterName, Expression = mre.Target.Detach() });
query.Clauses.Add(orderClause);
return query;
}
}
return null;
}
case "Join":
case "GroupJoin":
{
if (invocation.Arguments.Count != 4)
return null;
Expression source1 = mre.Target;
Expression source2 = invocation.Arguments.ElementAt(0);
string elementName1, elementName2;
Expression key1, key2;
if (!MatchSimpleLambda(invocation.Arguments.ElementAt(1), out elementName1, out key1))
return null;
if (!MatchSimpleLambda(invocation.Arguments.ElementAt(2), out elementName2, out key2))
return null;
LambdaExpression lambda = invocation.Arguments.ElementAt(3) as LambdaExpression;
if (lambda != null && lambda.Parameters.Count == 2 && lambda.Body is Expression) {
ParameterDeclaration p1 = lambda.Parameters.ElementAt(0);
ParameterDeclaration p2 = lambda.Parameters.ElementAt(1);
if (p1.Name == elementName1 && (p2.Name == elementName2 || mre.MemberName == "GroupJoin")) {
QueryExpression query = new QueryExpression();
query.Clauses.Add(new QueryFromClause { Identifier = elementName1, Expression = source1.Detach() });
QueryJoinClause joinClause = new QueryJoinClause();
joinClause.JoinIdentifier = elementName2; // join elementName2
joinClause.InExpression = source2.Detach(); // in source2
joinClause.OnExpression = key1.Detach(); // on key1
joinClause.EqualsExpression = key2.Detach(); // equals key2
if (mre.MemberName == "GroupJoin") {
joinClause.IntoIdentifier = p2.Name; // into p2.Name
}
query.Clauses.Add(joinClause);
query.Clauses.Add(new QuerySelectClause { Expression = ((Expression)lambda.Body).Detach() });
return query;
}
}
return null;
}
default:
return null;
}
}
///
/// Ensure that all ThenBy's are correct, and that the list of ThenBy's is terminated by an 'OrderBy' invocation.
///
bool ValidateThenByChain(InvocationExpression invocation, string expectedParameterName)
{
if (invocation == null || invocation.Arguments.Count != 1)
return false;
MemberReferenceExpression mre = invocation.Target as MemberReferenceExpression;
if (mre == null)
return false;
string parameterName;
Expression body;
if (!MatchSimpleLambda(invocation.Arguments.Single(), out parameterName, out body))
return false;
if (parameterName != expectedParameterName)
return false;
if (mre.MemberName == "OrderBy" || mre.MemberName == "OrderByDescending")
return true;
else if (mre.MemberName == "ThenBy" || mre.MemberName == "ThenByDescending")
return ValidateThenByChain(mre.Target as InvocationExpression, expectedParameterName);
else
return false;
}
/// Matches simple lambdas of the form "a => b"
bool MatchSimpleLambda(Expression expr, out string parameterName, out Expression body)
{
LambdaExpression lambda = expr as LambdaExpression;
if (lambda != null && lambda.Parameters.Count == 1 && lambda.Body is Expression) {
ParameterDeclaration p = lambda.Parameters.Single();
if (p.ParameterModifier == ParameterModifier.None) {
parameterName = p.Name;
body = (Expression)lambda.Body;
return true;
}
}
parameterName = null;
body = null;
return false;
}
}
}