Ejemplo n.º 1
0
            void ReduceQuery(QueryTranslationState state, DiagnosticBag diagnostics)
            {
                var topClause = state.clauses.Pop();

                if (topClause.Kind == SyntaxKind.WhereClause)
                {
                    // A query expression with a where clause
                    //     from x in e
                    //     where f
                    //     …
                    // is translated into
                    //     from x in ( e ) . Where ( x => f )
                    var where = topClause as WhereClauseSyntax;
                    var lambda     = MakeQueryUnboundLambda(state.QueryVariableMap(), state.queryVariable, where.Condition);
                    var invocation = MakeInvocation(where, state.fromExpression, "Where", lambda, diagnostics);
                    state.fromExpression = new BoundQueryClause(
                        syntax: where,
                        syntaxTree: SyntaxTree,
                        value: invocation,
                        definedSymbol: null,
                        queryMethod: invocation.Method,
                        castMethod: null,
                        type: invocation.Type);
                }
                else if (topClause.Kind == SyntaxKind.JoinClause && state.clauses.IsEmpty() && state.selectOrGroup.Kind == SyntaxKind.SelectClause)
                {
                    var join     = topClause as JoinClauseSyntax;
                    var select   = state.selectOrGroup as SelectClauseSyntax;
                    var joinArgs = ArrayBuilder <BoundExpression> .GetInstance();

                    var          e2         = BindValue(join.InExpression, BindValueKind.RValue, diagnostics);
                    MethodSymbol castMethod = null;
                    if (join.TypeOpt != null)
                    {
                        // A join clause that explicitly specifies a range variable type
                        //     join T x in e on k1 equals k2
                        // is translated into
                        //     join x in ( e ) . Cast < T > ( ) on k1 equals k2
                        var castType   = BindType(join.TypeOpt, diagnostics);
                        var invocation = MakeInvocation(join, e2, "Cast", join.TypeOpt, castType, diagnostics);
                        castMethod = invocation.Method;
                        e2         = invocation;
                    }

                    joinArgs.Add(e2);
                    var lambda1 = MakeQueryUnboundLambda(state.QueryVariableMap(), state.queryVariable, join.LeftExpression);
                    joinArgs.Add(lambda1);
                    var x2      = state.AddQueryVariable(this, join.Identifier);
                    var lambda2 = MakeQueryUnboundLambda(state.QueryVariableMap(x2), x2, join.RightExpression); // TODO: ensure no other query variables in scope but x2.
                    joinArgs.Add(lambda2);
                    BoundExpression result;
                    if (join.IntoOpt == null)
                    {
                        // A query expression with a join clause without an into followed by a select clause
                        //     from x1 in e1
                        //     join x2 in e2 on k1 equals k2
                        //     select v
                        // is translated into
                        //     ( e1 ) . Join( e2 , x1 => k1 , x2 => k2 , ( x1 , x2 ) => v )
                        var lambda3 = MakeQueryUnboundLambda(state.QueryVariableMap(), Args(state.queryVariable, x2), select.Expression);
                        // TODO: lambda3's body should be surrounded by a BoundQueryClause for the select clause.
                        joinArgs.Add(lambda3);
                        var invocation = MakeInvocation(join, state.fromExpression, "Join", joinArgs.ToReadOnlyAndFree(), diagnostics);
                        result = new BoundQueryClause(
                            syntax: join,
                            syntaxTree: SyntaxTree,
                            value: invocation,
                            definedSymbol: x2,
                            queryMethod: invocation.Method,
                            castMethod: castMethod,
                            type: invocation.Type);
                    }
                    else
                    {
                        // A query expression with a join clause with an into followed by a select clause
                        //     from x1 in e1
                        //     join x2 in e2 on k1 equals k2 into g
                        //     select v
                        // is translated into
                        //     ( e1 ) . GroupJoin( e2 , x1 => k1 , x2 => k2 , ( x1 , g ) => v )
                        var g = state.AddQueryVariable(this, join.IntoOpt.Identifier);
                        // binder.queryVariable = g; // TODO: where to record the info symbol?
                        var lambda3 = MakeQueryUnboundLambda(state.QueryVariableMap(), Args(state.queryVariable, g), select.Expression);
                        // TODO: lambda3's body should be surrounded by a BoundQueryClause for the select clause.
                        joinArgs.Add(lambda3);
                        var invocation   = MakeInvocation(join, state.fromExpression, "GroupJoin", joinArgs.ToReadOnlyAndFree(), diagnostics);
                        var newArguments = Args(invocation.Arguments[0], invocation.Arguments[1], invocation.Arguments[2],
                                                new BoundQueryClause( // record the into clause's symbol in the bound tree
                                                    syntax: join.IntoOpt,
                                                    syntaxTree: SyntaxTree,
                                                    value: invocation.Arguments[3],
                                                    definedSymbol: g,
                                                    queryMethod: null,
                                                    castMethod: null,
                                                    type: invocation.Arguments[3].Type));
                        invocation = invocation.Update(
                            receiverOpt: invocation.ReceiverOpt,
                            method: invocation.Method,
                            arguments: newArguments);
                        result = new BoundQueryClause(
                            syntax: join,
                            syntaxTree: SyntaxTree,
                            value: invocation,
                            definedSymbol: x2,
                            queryMethod: invocation.Method,
                            castMethod: castMethod,
                            type: invocation.Type);
                    }

                    state.Clear(); // this completes the whole query
                    state.fromExpression = result;
                }
                else if (topClause.Kind == SyntaxKind.OrderByClause)
                {
                    // A query expression with an orderby clause
                    //     from x in e
                    //     orderby k1 , k2 , … , kn
                    //     …
                    // is translated into
                    //     from x in ( e ) .
                    //     OrderBy ( x => k1 ) .
                    //     ThenBy ( x => k2 ) .
                    //     … .
                    //     ThenBy ( x => kn )
                    //     …
                    // If an ordering clause specifies a descending direction indicator,
                    // an invocation of OrderByDescending or ThenByDescending is produced instead.
                    var    orderby    = topClause as OrderByClauseSyntax;
                    bool   first      = true;
                    Symbol lastMethod = null;
                    foreach (var ordering in orderby.Orderings)
                    {
                        string methodName = (first ? "OrderBy" : "ThenBy") + (ordering.Kind == SyntaxKind.DescendingOrdering ? "Descending" : "");
                        var    lambda     = MakeQueryUnboundLambda(state.QueryVariableMap(), state.queryVariable, ordering.Expression);
                        var    invocation = MakeInvocation(ordering, state.fromExpression, methodName, lambda, diagnostics);
                        lastMethod           = invocation.Method;
                        state.fromExpression = new BoundQueryClause(
                            syntax: ordering, syntaxTree: SyntaxTree, value: invocation,
                            definedSymbol: null, queryMethod: invocation.Method, castMethod: null, type: invocation.Type);
                        first = false;
                    }

                    state.fromExpression = new BoundQueryClause(
                        syntax: orderby, syntaxTree: SyntaxTree, value: state.fromExpression,
                        definedSymbol: null, queryMethod: lastMethod, castMethod: null, type: state.fromExpression.Type);
                }
                else if (topClause.Kind == SyntaxKind.FromClause && state.clauses.IsEmpty() && state.selectOrGroup.Kind == SyntaxKind.SelectClause)
                {
                    // A query expression with a second from clause followed by a select clause
                    //     from x1 in e1
                    //     from x2 in e2
                    //     select v
                    // is translated into
                    //     ( e1 ) . SelectMany( x1 => e2 , ( x1 , x2 ) => v )
                    var             fromClause = topClause as FromClauseSyntax;
                    var             select     = state.selectOrGroup as SelectClauseSyntax;
                    var             x1         = state.queryVariable;
                    TypeSymbol      castType   = fromClause.TypeOpt == null ? null : BindType(fromClause.TypeOpt, diagnostics);
                    BoundExpression lambda1    = MakeQueryUnboundLambda(state.QueryVariableMap(), x1, fromClause.Expression, fromClause.TypeOpt, castType);
                    // TODO: wrap the bound version of lambda1 in a BoundQueryClause for the from clause defining  x2.
                    var             x2      = state.AddQueryVariable(this, fromClause.Identifier);
                    BoundExpression lambda2 = MakeQueryUnboundLambda(state.QueryVariableMap(), Args(x1, x2), select.Expression);
                    var             result  = MakeInvocation(fromClause, state.fromExpression, "SelectMany", Args(lambda1, lambda2), diagnostics);
                    // TODO: extract the Cast<T>() operation from the bound version of lambda1 (this invocation's first argument) and store it in e2Binder.castMethod
                    state.Clear();
                    state.fromExpression = new BoundQueryClause(
                        syntax: select, syntaxTree: SyntaxTree, value: result,
                        definedSymbol: null, queryMethod: result.Method, castMethod: null, type: result.Type);
                }
                else if (topClause.Kind == SyntaxKind.LetClause)
                {
                    var let = topClause as LetClauseSyntax;
                    var x   = state.queryVariable;

                    // A query expression with a let clause
                    //     from x in e
                    //     let y = f
                    //     …
                    // is translated into
                    //     from * in ( e ) . Select ( x => new { x , y = f } )
                    //     …

                    // We use a slightly different translation strategy.  We produce
                    //     from * in ( e ) . Select ( x => new Pair<X,Y>(x, f) )
                    // Where X is the type of x, and Y is the type of the expression f.
                    // Subsequently, x (or members of x, if it is a transparent identifier)
                    // are accessed as TRID.Item1 (or members of that), and y is accessed
                    // as TRID.Item2, where TRID is the compiler-generated identifier used
                    // to represent the transparent identifier in the result.  We place
                    // this mapping into the state and then, subsequently, into the binder
                    // for any further clauses.
                    LambdaBodyResolver resolver = (LambdaSymbol lambdaSymbol, ExecutableCodeBinder lambdaBodyBinder, DiagnosticBag d) =>
                    {
                        var xExpression  = new BoundParameter(let, lambdaBodyBinder.SyntaxTree, lambdaSymbol.Parameters[0]);
                        var yExpression  = lambdaBodyBinder.BindValue(let.Expression, BindValueKind.RValue, d);
                        var construction = MakePair(let, xExpression, yExpression, d);
                        return(lambdaBodyBinder.WrapExpressionLambdaBody(construction, let, d));
                    };
                    var lambda = MakeQueryUnboundLambda(state.QueryVariableMap(), x, let.Expression, resolver);
                    state.queryVariable = state.TransparentQueryVariable(this);
                    var invocation = MakeInvocation(let, state.fromExpression, "Select", lambda, diagnostics);
                    state.AddTransparentIdentifier("Item1");
                    var y = state.AddQueryVariable(this, let.Identifier);
                    state.allQueryVariables[y].Add("Item2");
                    state.fromExpression = new BoundQueryClause(
                        syntax: let, syntaxTree: SyntaxTree, value: invocation,
                        definedSymbol: y, queryMethod: invocation.Method, castMethod: null, type: invocation.Type);
                }
                else
                {
                    diagnostics.Add(ErrorCode.ERR_NotYetImplementedInRoslyn, Location(topClause), "query expression");
                    var result = state.fromExpression; // short circuit any remaining reductions
                    state.Clear();
                    state.fromExpression = result;
                }
            }
Ejemplo n.º 2
0
            private BoundExpression FinalTranslation(QueryTranslationState state, DiagnosticBag diagnostics)
            {
                Debug.Assert(state.clauses.IsEmpty());
                switch (state.selectOrGroup.Kind)
                {
                case SyntaxKind.SelectClause:
                {
                    // A query expression of the form
                    //     from x in e select v
                    // is translated into
                    //     ( e ) . Select ( x => v )
                    var selectClause = (SelectClauseSyntax)state.selectOrGroup;
                    var x            = state.queryVariable;
                    var e            = state.fromExpression;
                    var v            = selectClause.Expression;
                    var lambda       = MakeQueryUnboundLambda(state.QueryVariableMap(), x, v);
                    var result       = MakeInvocation(state.selectOrGroup, e, "Select", lambda, diagnostics);
                    return(new BoundQueryClause(
                               syntax: selectClause,
                               syntaxTree: SyntaxTree,
                               value: result,
                               definedSymbol: null,
                               queryMethod: null,
                               castMethod: null,
                               type: result.Type));
                }

                case SyntaxKind.GroupClause:
                {
                    // A query expression of the form
                    //     from x in e group v by k
                    // is translated into
                    //     ( e ) . GroupBy ( x => k , x => v )
                    // except when v is the identifier x, the translation is
                    //     ( e ) . GroupBy ( x => k )
                    var       groupClause = (GroupClauseSyntax)state.selectOrGroup;
                    var       x           = state.queryVariable;
                    var       e           = state.fromExpression;
                    var       v           = groupClause.GroupExpression;
                    var       k           = groupClause.ByExpression;
                    var       vId         = v as IdentifierNameSyntax;
                    BoundCall result;
                    if (vId != null && vId.Identifier.ValueText == x.Name)
                    {
                        var lambda = MakeQueryUnboundLambda(state.QueryVariableMap(), x, k);
                        result = MakeInvocation(state.selectOrGroup, e, "GroupBy", lambda, diagnostics);
                    }
                    else
                    {
                        BoundExpression lambdaLeft  = MakeQueryUnboundLambda(state.QueryVariableMap(), x, k);
                        BoundExpression lambdaRight = MakeQueryUnboundLambda(state.QueryVariableMap(), x, v);
                        result = MakeInvocation(state.selectOrGroup, e, "GroupBy", Args(lambdaLeft, lambdaRight), diagnostics);
                    }
                    return(new BoundQueryClause(
                               syntax: groupClause,
                               syntaxTree: syntaxTree,
                               value: result,
                               definedSymbol: null,
                               queryMethod: result.Method,
                               castMethod: null,
                               type: result.Type));
                }

                default:
                {
                    // there should have been a syntax error if we get here.
                    return(new BoundBadExpression(
                               state.selectOrGroup, SyntaxTree, LookupResultKind.OverloadResolutionFailure, ReadOnlyArray <Symbol> .Empty,
                               Args <BoundNode>(state.fromExpression), state.fromExpression.Type));
                }
                }
            }