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I need to build a very dynamic Linq query over a varying number of tables. For example, I have the related tables:
Table_A
- ID
- Name
- Desc

Table_B
- ID
- Table_A_ID
- Name
- Desc

Table_C
- ID
- Table_B_ID
- Name
- Desc

I have a dictionary with information about the table dependencies containing:
  tableName, parentTableName, foreignKey, parentPK
Example:
  "Table_B", "Table_A", "Table_A_ID", "ID"
  "Table_C", "Table_B", "Table_B_ID", "ID"

-> tableInfo["Table_B"].ForeignKey will return "Table_A_ID" etc.

Now the user can select which columns he wants to see.
Examples:

  • Table_B.Name, Table_C.Desc
     or
  • Table_A.Name, Table_B.Name
     or
  • Table_A.Name, Table_B.Name, Table_B.Desc, Table_C.Name

    This selection will is available in another list:
    E.g for selection 3:
    viewInfo["Table_A"] contains "Name"
    viewInfo["Table_B"] contains "Name", "Desc"
    viewInfo["Table_C"] contains "Name"

    How do I dynamic create a query just using the needed tables and fields to get the desired result?

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    3 Answers

    There is a project called Dynamic LINQ that can help you construct queries dynamically. I think you should take a look at this project.

    Other than that, it is also possible to create queries in parts by querying a LINQ query. You can put conditional statements in your code and if some branch is followed then you can create a new query from an existing query by querying it again. The query is not executed until you request the results so performance-wise it doesn't matter much if you build up the query in small pieces or make one huge query from the beginning. Using this technique you can (based on the values of the inputs) build up structurally different queries that share some common parts whilst having the benefits of static typing and intellisense.

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    My problem is that i have a set of about 200 tables with some dependencies to other tables within that set. If I understood your idea with the re-queries, I think it's not possible to create a query with a non-fixed datasource ("query = ... in XXX), right?. But XXX is not fix at designtime. All i have is the knowledge about the hierarchy of the user selected tables (and fields) to create the query at runtime. –  cew3 Aug 18 '10 at 9:19
        
    @cew: It's not entirely clear what you are trying to do from your question, but if your table is a variable and you have 200 tables you might want to consider if your database would benefit from a bit of normalization. For example if you have table_foo1, table_foo2, table_foo3 with identical columns then its better to just have a single table_foo with an extra column containing the type (1,2 or 3). But you will have to give more details if you want more specific ideas on how to normalize. –  Mark Byers Aug 18 '10 at 10:36
        
    I have a lot of different, not normalizable tables with no hard coded relationship. The knowledge about the dependencies is retrieved from another data source. I have to join data from fields of different tables, the user has selected in UI. –  cew3 Aug 18 '10 at 14:15
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    I have done the same thing for a project I'm working on where the query is completely created at runtime based on selections made in the UI by a user.

    I construct the LINQ queries using expression trees by using the classes in the System.Linq.Expressions namespace. It's very powerful but has a steep learning curve.

    You can use LINQPad to write queries and then dump the expressions to see what the tree looks like underneath so that you know how to construct the queries yourself.

    For example, running the following code in LINQPad will generate a dump of the expression tree.

    var query = from p in Puzzles
    select p;
    
    query.Expression.Dump(20);
    

    LINQPad Screenshot

    So how does one actually write code that dynamically creates a simple LINQ query?

    Consider the following example which is simplest of queries:

    var query = from person in data
       select person;
    

    The following code will generate an equivalent query on the fly.

    using System;
    using System.Linq;
    using System.Linq.Expressions;
    using System.Reflection;
    
    namespace TestLinqGenerator
    {
        class Program
        {
            static void Main(string[] args)
            {
                // Set up dummy data
                var data = new[]
                               {
                                   new {Name = "Fred"},
                                   new {Name = "Simon"}
                               }.AsQueryable();
                var dataType = data.ElementType;
    
                // IQueryable: data
                var source = Expression.Constant(data);
    
                // Parameter: person
                var parameter = Expression.Parameter(dataType, "person");
    
                // person => person
                var lambda = Expression.Lambda(parameter, parameter);
    
                // Expression: data.Select(person => person)
                var callSelect = Expression.Call(GetSelect().MakeGenericMethod(dataType, dataType), source, Expression.Quote(lambda));
    
                // IQueryable: data.Select(person => person)
                var query = data.Provider.CreateQuery(callSelect);
    
                // Execute query
                var results = query.Cast<object>().ToList();
    
            }
    
            private static MethodInfo GetSelect()
            {
                // Get MethodInfo of the following method from System.Linq.Queryable:
                // public static IQueryable<TSource> Select<TSource>(this IQueryable<TSource> source, Expression<Func<TSource, bool>> predicate)
                return typeof(System.Linq.Queryable).GetMethods().Where(
                    method => method.Name == "Select" && method.GetParameters().Length == 2 &&
                              method.GetParameters()[1].ParameterType.GetGenericArguments()[0].Name == typeof(Func<,>).Name).Single();
            }
    
        }
    }
    

    You should be able to run this code by pasting it into a console application. Step through with the debugger to understand what each step does.

    Extra Info

    Looking at the implementation of Queryable.Select using Reflector can be helpful in understanding what needs to happen when writing a query dynamically. I've copied it below:

    public static IQueryable<TResult> Select<TSource, TResult>(this IQueryable<TSource> source, Expression<Func<TSource, int, TResult>> selector)
    {
        if (source == null)
        {
            throw Error.ArgumentNull("source");
        }
        if (selector == null)
        {
            throw Error.ArgumentNull("selector");
        }
        return source.Provider.CreateQuery<TResult>(Expression.Call(null, ((MethodInfo) MethodBase.GetCurrentMethod()).MakeGenericMethod(new Type[] { typeof(TSource), typeof(TResult) }), new Expression[] { source.Expression, Expression.Quote(selector) }));
    }
    

    Interestingly, the implementation of Queryable.Select simply creates a LINQ Expression representation of calling itself. The LINQ provider actually translates that expression into something else - TSQL. The Select method itself doesn't actually perform the select.

    Your code should do the same thing - create LINQ expressions.

    Once you are comfortable with how to do a simple select, you can look at adding Queryable.Where to the mix and other features of a LINQ query. I suggest leaving projections (select new {x, y, z} etc) to last because they are quite difficult. You will need to generate types at runtime in much the same way as the compiler generates anonymous types for you. System.Reflection.Emit is your tool for the job.

    One of the nice things about this approach is that you can use it with any LINQ provider, such as LINQ to Entities, LINQ to SQL, Mindscape Lightspeed and the in-memory LINQ provider implementation provided by AsQueryable.

    My code that generates LINQ expressions will accept an IQueryable and at runtime this is currently supplied with the Mindscape Lightspeed IQueryables, but could also be one of the others. Then in my unit tests I create test data using arrays of objects and then turn that into an IQueryable using AsQueryable which is passed into the LINQ expression generator. My unit tests can then generate all ranges of complex queries but can be easily tested without requiring a database. The sample above shows how this can be done.

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    Do you have an example for creating the query manually? If I look at the generated lamda expression, it looks like that if I want to create that "by hand", I would have to handle strong typed stuff. Did you realize your solution like that? –  cew3 Aug 18 '10 at 9:28
        
    I don't have any small snippets of code that I can share that will demonstrate the technique. The approach I'm using specifies queries in a higher level model and then translates the model into a LINQ expression tree that represent a LINQ query such as one you would write in C#. Then you can execute the query and get back the results. You have the full power of LINQ using this technique but it is not trivial. I will update my answer to include more info. –  GiddyUpHorsey Aug 18 '10 at 11:45
        
    Thank you for your detailed informations! But... the "quick run down" is to quick for me :-( Could you please give me more information about how to code that? –  cew3 Aug 18 '10 at 14:41
        
    I've written a small sample program for you and amended the answer. –  GiddyUpHorsey Aug 18 '10 at 23:26
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    up vote 1 down vote accepted

    I solved my problem using the very interesting framework NLinq found on Codeplex. You just have to build a string containing your "normal" Linq query!

    Citation from prject description:

    NLinq is a framework focusing on reimplementing the Linq functionnalities in Visual Studio .Net 2003 and Visual Studio 2005 (C# & VB .Net) by providing a Linq grammar parser and a "Linq To Objects" execution environment. With NLinq you can take advantage of major C# 3.0 features right now, without requiring it.

    Example:

    Data sources used for the samples
            Person[] people = new Person[] { 
                new Person("Bill", 31), 
                new Person("John", 30), 
                new Person("Cindy", 25), 
                new Person("Sue", 29) 
            };
    
            // For testing physical links
            people[0].Friends.Add(people[0]);
            people[0].Friends.Add(people[1]);
            people[1].Friends.Add(people[2]);
            people[2].Friends.Add(people[3]);
            people[3].Friends.Add(people[0]);
    
            // For testing logical links
            Address[] addresses = new Address[] {
                new Address("Bill", "Redmon"),
                new Address("Bill", "Boston"),
                new Address("Cindy", "New York")
            };
    
    Projections query = new NLinqQuery(
                    @"  from c in people 
                        from d in people
                        where c.Age > d.Age
                        select new NLinq.Play.Person ( c.Firstname, d.Age )");
    
            linq = new LinqToMemory(query);
            linq.AddSource("people", people);
    
    
    Result:
    Sue (25)
    John (25)
    John (29)
    Bill (30)
    Bill (25)
    Bill (29)
    
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