我在SQL中有一个过程,我试图转化为Linq:

SELECT O.Id, O.Name as Organization
FROM Organizations O
JOIN OrganizationsHierarchy OH ON O.Id=OH.OrganizationsId
where OH.Hierarchy like '%/12/%'

我最关心的一行是:

where OH.Hierarchy like '%/12/%'

我有一个存储层次结构的列,例如/1/3/12/,所以我只使用%/12/%来搜索它。

我的问题是,Linq或。net中使用百分号的等价是什么?


当前回答

晚了,但是我把它放在一起,以便能够使用SQL Like样式通配符进行字符串比较:

public static class StringLikeExtensions
{
    /// <summary>
    /// Tests a string to be Like another string containing SQL Like style wildcards
    /// </summary>
    /// <param name="value">string to be searched</param>
    /// <param name="searchString">the search string containing wildcards</param>
    /// <returns>value.Like(searchString)</returns>
    /// <example>value.Like("a")</example>
    /// <example>value.Like("a%")</example>
    /// <example>value.Like("%b")</example>
    /// <example>value.Like("a%b")</example>
    /// <example>value.Like("a%b%c")</example>
    /// <remarks>base author -- Ruard van Elburg from StackOverflow, modifications by dvn</remarks>
    /// <remarks>converted to a String extension by sja</remarks>
    /// <seealso cref="https://stackoverflow.com/questions/1040380/wildcard-search-for-linq"/>
    public static bool Like(this String value, string searchString)
    {
        bool result = false;

        var likeParts = searchString.Split(new char[] { '%' });

        for (int i = 0; i < likeParts.Length; i++)
        {
            if (likeParts[i] == String.Empty)
            {
                continue;   // "a%"
            }

            if (i == 0)
            {
                if (likeParts.Length == 1) // "a"
                {
                    result = value.Equals(likeParts[i], StringComparison.OrdinalIgnoreCase);
                }
                else // "a%" or "a%b"
                {
                    result = value.StartsWith(likeParts[i], StringComparison.OrdinalIgnoreCase);
                }
            }
            else if (i == likeParts.Length - 1) // "a%b" or "%b"
            {
                result &= value.EndsWith(likeParts[i], StringComparison.OrdinalIgnoreCase);
            }
            else // "a%b%c"
            {
                int current = value.IndexOf(likeParts[i], StringComparison.OrdinalIgnoreCase);
                int previous = value.IndexOf(likeParts[i - 1], StringComparison.OrdinalIgnoreCase);
                result &= previous < current;
            }
        }

        return result;
    }

    /// <summary>
    /// Tests a string containing SQL Like style wildcards to be ReverseLike another string 
    /// </summary>
    /// <param name="value">search string containing wildcards</param>
    /// <param name="compareString">string to be compared</param>
    /// <returns>value.ReverseLike(compareString)</returns>
    /// <example>value.ReverseLike("a")</example>
    /// <example>value.ReverseLike("abc")</example>
    /// <example>value.ReverseLike("ab")</example>
    /// <example>value.ReverseLike("axb")</example>
    /// <example>value.ReverseLike("axbyc")</example>
    /// <remarks>reversed logic of Like String extension</remarks>
    public static bool ReverseLike(this String value, string compareString)
    {
        bool result = false;

        var likeParts = value.Split(new char[] {'%'});

        for (int i = 0; i < likeParts.Length; i++)
        {
            if (likeParts[i] == String.Empty)
            {
                continue;   // "a%"
            }

            if (i == 0)
            {
                if (likeParts.Length == 1) // "a"
                {
                    result = compareString.Equals(likeParts[i], StringComparison.OrdinalIgnoreCase);
                }
                else // "a%" or "a%b"
                {
                    result = compareString.StartsWith(likeParts[i], StringComparison.OrdinalIgnoreCase);
                }
            }
            else if (i == likeParts.Length - 1) // "a%b" or "%b"
            {
                result &= compareString.EndsWith(likeParts[i], StringComparison.OrdinalIgnoreCase);
            }
            else // "a%b%c"
            {
                int current = compareString.IndexOf(likeParts[i], StringComparison.OrdinalIgnoreCase);
                int previous = compareString.IndexOf(likeParts[i - 1], StringComparison.OrdinalIgnoreCase);
                result &= previous < current;
            }
        }

        return result;
    }
}

其他回答

我假设您正在使用Linq-to-SQL*(参见下面的注释)。如果是,使用字符串。包含字符串。StartsWith和字符串。EndsWith生成使用SQL LIKE操作符的SQL。

from o in dc.Organization
join oh in dc.OrganizationsHierarchy on o.Id equals oh.OrganizationsId
where oh.Hierarchy.Contains(@"/12/")
select new { o.Id, o.Name }

or

from o in dc.Organization
where o.OrganizationsHierarchy.Hierarchy.Contains(@"/12/")
select new { o.Id, o.Name }

注意:* =如果您正在使用ADO。Net实体框架(EF / L2E),注意它不会像Linq-to-SQL那样进行相同的转换。尽管L2S进行了适当的转换,但L2E v1(3.5)将转换为一个t-sql表达式,该表达式将强制对您正在查询的表进行全表扫描,除非在where子句或连接筛选器中有其他更好的鉴别器。 更新:在EF/L2E v4 (.net 4.0)中修正了这个问题,所以它会像L2S一样生成一个SQL LIKE。

System.Data.Linq.SqlClient.SqlMethods.Like("mystring", "%string")

如果你使用VB。NET,那么答案将是“*”。这是你的where从句的样子…

Where OH.Hierarchy Like '*/12/*'

备注:“*”匹配零个或多个字符。下面是关于Like操作符的msdn文章。

对于那些像我一样在LINQ中寻找“类似SQL”方法的人来说,我有一些工作得非常好的东西。

我在一个情况下,我不能改变数据库以任何方式改变列排序规则。 所以我必须在LINQ中找到一种方法来做到这一点。

我使用的是辅助方法SqlFunctions。PatIndex的行为类似于真正的SQL LIKE操作符。

首先,我需要枚举搜索值中所有可能的变音符(我刚刚学会的一个词),以获得类似于:

déjà     => d[éèêëeÉÈÊËE]j[aàâäAÀÂÄ]
montreal => montr[éèêëeÉÈÊËE][aàâäAÀÂÄ]l
montréal => montr[éèêëeÉÈÊËE][aàâäAÀÂÄ]l

然后在LINQ中例如:

var city = "montr[éèêëeÉÈÊËE][aàâäAÀÂÄ]l"; Var data = (from loc in _context.)位置 SqlFunctions的地方。PatIndex(city, loc.City) > 0 选择loc.City) .ToList ();

因此,为了满足我的需求,我写了一个Helper/Extension方法

   public static class SqlServerHelper
    {

        private static readonly List<KeyValuePair<string, string>> Diacritics = new List<KeyValuePair<string, string>>()
        {
            new KeyValuePair<string, string>("A", "aàâäAÀÂÄ"),
            new KeyValuePair<string, string>("E", "éèêëeÉÈÊËE"),
            new KeyValuePair<string, string>("U", "uûüùUÛÜÙ"),
            new KeyValuePair<string, string>("C", "cçCÇ"),
            new KeyValuePair<string, string>("I", "iîïIÎÏ"),
            new KeyValuePair<string, string>("O", "ôöÔÖ"),
            new KeyValuePair<string, string>("Y", "YŸÝýyÿ")
        };

        public static string EnumarateDiacritics(this string stringToDiatritics)
        {
            if (string.IsNullOrEmpty(stringToDiatritics.Trim()))
                return stringToDiatritics;

            var diacriticChecked = string.Empty;

            foreach (var c in stringToDiatritics.ToCharArray())
            {
                var diac = Diacritics.FirstOrDefault(o => o.Value.ToCharArray().Contains(c));
                if (string.IsNullOrEmpty(diac.Key))
                    continue;

                //Prevent from doing same letter/Diacritic more than one time
                if (diacriticChecked.Contains(diac.Key))
                    continue;

                diacriticChecked += diac.Key;

                stringToDiatritics = stringToDiatritics.Replace(c.ToString(), "[" + diac.Value + "]");
            }

            stringToDiatritics = "%" + stringToDiatritics + "%";
            return stringToDiatritics;
        }
    }

如果你们有任何建议来改进这个方法,我很乐意倾听。

使用这样的代码

try
{
    using (DatosDataContext dtc = new DatosDataContext())
    {
        var query = from pe in dtc.Personal_Hgo
                    where SqlMethods.Like(pe.nombre, "%" + txtNombre.Text + "%")
                    select new
                    {
                        pe.numero
                        ,
                        pe.nombre
                    };
        dgvDatos.DataSource = query.ToList();
    }
}
catch (Exception ex)
{
    string mensaje = ex.Message;
}