5

I have a bunch of entities which have an active period defined like 'StartDate' and 'EndDate' fields. Most of the time i need to query them checking their active period against some custom values. The code pretty much looks like this:

public static Expression<Func<T, bool>> IsPeriodActive<T>(DateTime checkPeriodStart, DateTime checkPeriodEnd, Func<T, DateTime> entityPeriodStart, Func<T, DateTime> entityPeriodEnd) =>
    entity =>
        (checkPeriodEnd >= entityPeriodStart(entity) && checkPeriodEnd <= entityPeriodEnd(entity))
        || (checkPeriodStart >= entityPeriodStart(entity) && checkPeriodEnd <= entityPeriodEnd(entity))
        || (entityPeriodStart(entity) >= checkPeriodStart && entityPeriodStart(entity) <= checkPeriodEnd)
        || (entityPeriodEnd(entity) >= checkPeriodStart && entityPeriodEnd(entity) <= checkPeriodEnd)
        || (entityPeriodStart(entity) >= checkPeriodStart && entityPeriodStart(entity) <= checkPeriodEnd);

The problem is that Func.Invoke() can't be translated to SQL, which is obvious. How do i extend EF Core to add this kind of 'where' condition for any entity type? I can't use Filters, since sometimes i need to query raw data or with just one period check (not both) and also some entities have these fields named differently.

4

You need to change the Func<T, DateTime> arguments to Expression<Func<T, DateTime>> and incorporate them in the desired expression.

Unfortunately neither C# compiler nor BCL helps with the later task (expression composition from other expressions). There are some 3rd party packages like LinqKit, NeinLinq etc. which address the issue, so if you are planning to use expression composition intensively, you might consider using one of these libraries.

But the principle is one and the same. At some point a custom ExpressionVisitor is used to replace parts of the original expression with another expressions. For instance, what I'm using for such simple scenarios is to create compile time lambda expression with additional parameters used as placeholders, which then are replaced with the actual expressions pretty much the same way as string.Replace.

In order to do that, I use the following helper method for replacing lambda expression parameter with another expression:

public static partial class ExpressionUtils
{
    public static Expression ReplaceParameter(this Expression expression, ParameterExpression source, Expression target)
    {
        return new ParameterReplacer { Source = source, Target = target }.Visit(expression);
    }

    class ParameterReplacer : ExpressionVisitor
    {
        public ParameterExpression Source;
        public Expression Target;
        protected override Expression VisitParameter(ParameterExpression node)
            => node == Source ? Target : base.VisitParameter(node);
    }
}

and the method in question could be like this:

public static Expression<Func<T, bool>> IsPeriodActive<T>(
    DateTime checkPeriodStart,
    DateTime checkPeriodEnd,
    Expression<Func<T, DateTime>> entityPeriodStart,
    Expression<Func<T, DateTime>> entityPeriodEnd)
{
    var entityParam = Expression.Parameter(typeof(T), "entity");
    var periodStartValue = entityPeriodStart.Body
        .ReplaceParameter(entityPeriodStart.Parameters[0], entityParam);
    var periodEndValue = entityPeriodEnd.Body
        .ReplaceParameter(entityPeriodEnd.Parameters[0], entityParam);

    Expression<Func<DateTime, DateTime, bool>> baseExpr = (periodStart, periodEnd) =>
        (checkPeriodEnd >= periodStart && checkPeriodEnd <= periodEnd)
        || (checkPeriodStart >= periodStart && checkPeriodEnd <= periodEnd)
        || (periodStart >= checkPeriodStart && periodStart <= checkPeriodEnd)
        || (periodEnd >= checkPeriodStart && periodEnd <= checkPeriodEnd)
        || (periodStart >= checkPeriodStart && periodStart <= checkPeriodEnd);

    var periodStartParam = baseExpr.Parameters[0];
    var periodEndParam = baseExpr.Parameters[1];

    var expr = baseExpr.Body
        .ReplaceParameter(periodStartParam, periodStartValue)
        .ReplaceParameter(periodEndParam, periodEndValue);

    return Expression.Lambda<Func<T, bool>>(expr, entityParam);
}

Note that you need to rebind (using the same ReplaceParameter helper method) the bodies of the passed Expression<Func<T, DateTime>> expressions to a common parameter to be used in the result expression.

The code can be simplified by adding more helper methods like here Entity Framework + DayOfWeek, but again, if you are planning to use this a lot, a better choice would be to use some ready library because at the end you would start reinventing what these libraries do.

| improve this answer | |
  • Thank you for detailed explanation. Played around with LinqKit and NeinLinq and picked the latter since it had less issues with subentities and a bit more clear usage. – Kasbolat Kumakhov Dec 19 '18 at 10:19
-2

When I have complex searching and sorting to perform I use SQL server in this way

  • Create Tables to store the data and link them using Foriegn Keys
  • Create views from one or more tables rather than use EF and C# to link them. I find this natural and quicker

  • Finally, Create Stored procedures that return a SQL Server View based on any filtering and sorting as required.

MVC Core EF does not yet support SPs so I create a partial class with the same name as the model. Here is an example of one I use to search some IIS log data in SQL Server using a stored procedure in MVC Core 2.2. It allows searching and paging and other filters such as date ranges.

The model uses a Data Table as a common currency and I have a partial view that can render a data table using

@await Html.PartialAsync("_DataTableView", Model.Data)

Context helper

public async Task<ViewDataResult> IIS_File_Log_DataView_Get(int siteId, DateTime? dateTimeFrom, DateTime? dateTimeTo,
    string searchText,
    int httpStatus,
    string csHost,
    string csUserName,
    string sortColumn, Helpers.TableSortDirection sortDirection,
    int rowsPerPage, int pageNumber)
{
    // get site SP name
    var site = await this.FtpSites.FindAsync(siteId);

    // set an empty return list at a minimum
    var t = new DataTable();
    var result = new ViewDataResult();

    // set the skip value from the current page number and rows per page
    int skip = ((pageNumber - 1) * rowsPerPage) - 1;

    //  if -ve, set to zero
    if (skip < 0)
    {
        skip = 0;
    }

    var sp = this.StoredProcedure_Get(site.LogDataViewStoredProcedure)
        .WithSqlParam("@DateTimeFrom", dateTimeFrom)
        .WithSqlParam("@DateTimeTo", dateTimeTo)
        .WithSqlParam("@SearchText", searchText ?? "")
        .WithSqlParam("@HttpStatus", httpStatus)
        .WithSqlParam("@CsHost", csHost)
        .WithSqlParam("@CsUserName", csUserName)
        .WithSqlParam("@SortColumn", sortColumn ?? "")
        .WithSqlParam("@SortDirection", sortDirection.ToString())
        .WithSqlParam("@Skip", skip)
        .WithSqlParam("@Take", rowsPerPage)
        // output param
        .WithSqlParam("@RowCount", 0, true);

    // open connection if not already open
    if (sp.Connection.State != ConnectionState.Open)
    {
        sp.Connection.Open();
    }

    // seconds
    sp.CommandTimeout = 120;

    // execute the SP
    using (var r = await sp.ExecuteReaderAsync())
    {
        if (r.HasRows)
        {
            // add columns
            for (int index = 0; index < r.FieldCount; index += 1)
            {
                t.Columns.Add(r.GetName(index), r.GetFieldType(index));
            }

            while (await r.ReadAsync())
            {
                var row = t.NewRow();

                for (int index = 0; index < r.FieldCount; index += 1)
                {
                    row[index] = r[index];
                }

                t.Rows.Add(row);
            }
        }
    }

    // get row count. By design, Microsoft implementation means this can't be read until reader is finished with
    if (sp.Parameters["@RowCount"].Value != null)
    {
        // set row count
        result.RowCount = (int)sp.Parameters["@RowCount"].Value;
    }

    // set data
    result.Data = t;

    result.CurrentPage = pageNumber;
    result.PageCount = pageNumber;
    result.PageCount = (result.RowCount / rowsPerPage) + (result.RowCount % rowsPerPage == 0 ? 0 : 1);
    result.RowsPerPage = rowsPerPage;

    // return
    return result;
}
| improve this answer | |
  • Thanks, but unfortunately that's not what i'm after. – Kasbolat Kumakhov Dec 18 '18 at 16:00

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