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Important Notice

DapperQueryBuilder was fully rewritten into a new library InterpolatedSql which is faster, much more extensible, and does not depend on Dapper (you can use our magic string interpolation with any ORM or Micro-ORM or even bare ADO.NET).
The Dapper-specific features (Dapper extensions and mapping of Dapper types) were moved into InterpolatedSql.Dapper, which is our "batteries-included library", and it still supports all databases supported by Dapper.

The current release of DapperQueryBuilder (2.x.x) is just a copy of InterpolatedSql.Dapper with some minor facades added for backward compatibility (e.g. you can still use the old DapperQueryBuilder namespace). For long-term support (new features and bug fixes) please consider moving to InterpolatedSql.Dapper, which will get more frequent updates.

Please consider starring :star: both repositories.

Dapper Query Builder

Dapper Query Builder using String Interpolation and Fluent API

We all love Dapper and how Dapper is a minimalist library.

This library is a tiny wrapper around Dapper to help manual building of dynamic SQL queries and commands. It's based on 2 fundamentals:

Fundamental 1: Parameters are passed using String Interpolation (but it's safe against SQL injection!)

By using interpolated strings we can pass parameters directly (embedded in the query) without having to use anonymous objects and without worrying about matching the property names with the SQL parameters. We can just build our queries with regular string interpolation and this library will automatically "parameterize" our interpolated objects (sql-injection safe).

With plain Dapper we would write a parameterized query like this:

string productName = "%Computer%";
int subCategoryId = 10;

// Note that the SQL parameter names (@productName and @subCategoryId)...
var products = cn
    .Query<Product>($@"
    SELECT * FROM Product
    WHERE
    Name LIKE @productName
    AND ProductSubcategoryID = @subCategoryId
    ORDER BY ProductId",
    new { productName, subCategoryId }); // ... must match the anonymous object

With Dapper Query Builder we can just embed variables inside the query:

string productName = "%Computer%";
int subCategoryId = 10;

var products = cn
    .QueryBuilder($@"
    SELECT * FROM Product
    WHERE
    Name LIKE {productName}
    AND ProductSubcategoryID = {subCategoryId}
    ORDER BY ProductId"
    ).Query<Product>();

When .Query<T>() is invoked QueryBuilder will basically invoke Dapper equivalent method (Query<T>()) and pass a fully parameterized query (without risk of SQL-injection) even though it looks like you're just building dynamic sql.

Dapper would receive a fully parameterized query, but without the risk of having mismatches in the names or number of parameters. Dapper would get this sql:

SELECT * FROM Product
WHERE
Name LIKE @p0
AND ProductSubcategoryID = @p1
ORDER BY ProductId

and these parameters: new { p0 = productName, p1 = subCategoryId }

Fundamental 2: Query and Parameters walk side-by-side

QueryBuilder basically wraps 2 things that should always stay together: the query which you're building, and the parameters which must go together with our query. This is a simple concept but it allows us to dynamically add new parameterized SQL clauses/conditions in a single statement.

This is how we would build a query with a variable number of conditions using plain Dapper:

var dynamicParams = new DynamicParameters();
string sql = "SELECT * FROM Product WHERE 1=1";
sql += " AND Name LIKE @productName"; 
dynamicParams.Add("productName", productName);
sql += " AND ProductSubcategoryID = @subCategoryId"; 
dynamicParams.Add("subCategoryId", subCategoryId);
var products = cn.Query<Product>(sql, dynamicParams);

With Dapper Query Builder the SQL statement and the associated Parameters are kept together, making it easy to append dynamic conditions:

var query = cn.QueryBuilder($"SELECT * FROM Product WHERE 1=1");
query += $"AND Name LIKE {productName}"; 
query += $"AND ProductSubcategoryID = {subCategoryId}"; 
var products = query.Query<Product>(); 

Our classes (QueryBuilder and CommandBuilder) wrap the SQL statement and the associated Parameters, and when we invoke the Query (or run the Command) the underlying statement and parameters are just passed to Dapper. So we don't have to keep statement and parameters separated and we don't have to manually use DynamicParameters.

Quickstart / NuGet Package

  1. Install the NuGet package Dapper-QueryBuilder (don't forget the dash to get the right package!) or NuGet package DapperQueryBuilder.StrongName
  2. Start using like this:
using DapperQueryBuilder;
// ...

cn = new SqlConnection(connectionString);

// Build your query with interpolated parameters
// which are automagically converted into safe SqlParameters
var products = cn.QueryBuilder($@"
    SELECT ProductId, Name, ListPrice, Weight
    FROM Product
    WHERE ListPrice <= {maxPrice}
    AND Weight <= {maxWeight}
    AND Name LIKE {search}
    ORDER BY ProductId").Query<Product>();

Or building dynamic conditions like this:

using DapperQueryBuilder;
// ...

cn = new SqlConnection(connectionString);

// Build initial query
var q = cn.QueryBuilder($@"
    SELECT ProductId, Name, ListPrice, Weight
    FROM Product
    WHERE 1=1");

// and dynamically append extra filters
q += $"AND ListPrice <= {maxPrice}";
q += $"AND Weight <= {maxWeight}";
q += $"AND Name LIKE {search}";
q += $"ORDER BY ProductId";

var products = q.Query<Product>();

Full Documentation and Features

Static Query

// Create a QueryBuilder with a static query.
// QueryBuilder will automatically convert interpolated parameters to Dapper parameters (injection-safe)
var q = cn.QueryBuilder($@"
    SELECT ProductId, Name, ListPrice, Weight FROM Product 
    WHERE ListPrice <= {maxPrice}
    ORDER BY ProductId");

// Query<T>() will automatically pass our query and injection-safe SqlParameters to Dapper
var products = q.Query<Product>();
// all other Dapper extensions are also available: QueryAsync, QueryMultiple, ExecuteScalar, etc..

So, basically you pass parameters as interpolated strings, but they are converted to safe SqlParameters.

This is our mojo :-)

Dynamic Query

One of the top reasons for dynamically building SQL statements is to dynamically append new filters (where statements).

// create a QueryBuilder with initial query
var q = cn.QueryBuilder($"SELECT ProductId, Name, ListPrice, Weight FROM Product WHERE 1=1");

// Dynamically append whatever statements you need, and QueryBuilder will automatically 
// convert interpolated parameters to Dapper parameters (injection-safe)
q += $"AND ListPrice <= {maxPrice}";
q += $"AND Weight <= {maxWeight}";
q += $"AND Name LIKE {search}";
q += $"ORDER BY ProductId";

var products = q.Query<Product>(); 

Static Command

var cmd = cn.CommandBuilder($"DELETE FROM Orders WHERE OrderId = {orderId};");
int deletedRows = cmd.Execute();
cn.CommandBuilder($@"
   INSERT INTO Product (ProductName, ProductSubCategoryId)
   VALUES ({productName}, {ProductSubcategoryID})
").Execute();

Command with Multiple statements

In a single roundtrip we can run multiple SQL commands:

var cmd = cn.CommandBuilder();
cmd += $"DELETE FROM Orders WHERE OrderId = {orderId}; ";
cmd += $"INSERT INTO Logs (Action, UserId, Description) VALUES ({action}, {orderId}, {description}); ";
cmd.Execute();

Dynamic Query with /**where**/ keyword

If you don't like the idea of using WHERE 1=1 (even though it doesn't hurt performance), you can use the special keyword /**where**/ that act as a placeholder to render dynamically-defined filters.

QueryBuilder maintains an internal list of filters (property called Filters) which keeps track of all filters you've added using .Where() method. Then, when QueryBuilder invokes Dapper and sends the underlying query it will search for the keyword /**where**/ in our query and if it exists it will replace it with the filters added (if any), combined using AND statements.

Example:

// We can write the query structure and use QueryBuilder to render the "where" filters (if any)
var q = cn.QueryBuilder($@"
    SELECT ProductId, Name, ListPrice, Weight
    FROM Product
    /**where**/
    ORDER BY ProductId
    ");
    
// You just pass the parameters as if it was an interpolated string, 
// and QueryBuilder will automatically convert them to Dapper parameters (injection-safe)
q.Where($"ListPrice <= {maxPrice}");
q.Where($"Weight <= {maxWeight}");
q.Where($"Name LIKE {search}");

// Query() will automatically render your query and replace /**where**/ keyword (if any filter was added)
var products = q.Query<Product>();

// In this case Dapper would get "WHERE ListPrice <= @p0 AND Weight <= @p1 AND Name LIKE @p2" and the associated values

When Dapper is invoked we replace the /**where**/ by WHERE <filter1> AND <filter2> AND <filter3...> (if any filter was added).

Dynamic Query with /**filters**/ keyword

/**filters**/ is exactly like /**where**/, but it's used if we already have other fixed conditions before:

var q = cn.QueryBuilder($@"
    SELECT ProductId, Name, ListPrice, Weight
    FROM Product
    WHERE Price>{minPrice} /**filters**/
    ORDER BY ProductId
    ");

When Dapper is invoked we replace the /**filters**/ by AND <filter1> AND <filter2...> (if any filter was added).

Writing complex filters (combining AND/OR Filters) and using the Filters class

As explained above, QueryBuilder internally contains an instance of Filters class, which basically contains a list of filters and a combining operator (default is AND but can be changed to OR). These filters are defined using .Where() and are rendered through the keywords /**where**/ or /**filters**/.

Each filter (inside a parent list of Filters) can be a simple condition (using interpolated strings) or it can recursively be another list of filters (Filters class), and this can be used to write complex combinations of AND/OR conditions (inner filters filters are grouped by enclosing parentheses):

var q = cn.QueryBuilder($@"
    SELECT ProductId, Name, ListPrice, Weight
    FROM Product
    /**where**/
    ORDER BY ProductId
    ");

var priceFilters = new Filters(Filters.FiltersType.OR)
{
    new Filter($"ListPrice >= {minPrice}"),
    new Filter($"ListPrice <= {maxPrice}")
};
// Or we could add filters one by one like:  priceFilters.Add($"Weight <= {maxWeight}");

q.Where("Status={status}");
// /**where**/ would be replaced by "Status=@p0"

q.Where(priceFilters);
// /**where**/ would be replaced as "Status=@p0 AND (ListPrice >= @p1 OR ListPrice <= @p2)".
// Note that priceFilters is an inner Filter and it's enclosed with parentheses

// It's also possible to change the combining operator of the outer query or of inner filters:
// q.FiltersType = Filters.FiltersType.OR;
// priceFilters.FiltersType = Filters.FiltersType.AND;
// /**where**/ would be replaced as "Status=@p0 OR (ListPrice >= @p1 AND ListPrice >= @p2)".

var products = q.Query<Product>();

To sum, Filters class will render whatever conditions you define, conditions can be combined with AND or OR, and conditions can be defined as inner filters (will use parentheses). This is all vendor-agnostic (AND/OR/parentheses are all SQL ANSI) so it should work with any vendor.

IN lists

Dapper allows us to use IN lists magically. And it also works with our string interpolation:

var q = cn.QueryBuilder($@"
    SELECT c.Name as Category, sc.Name as Subcategory, p.Name, p.ProductNumber
    FROM Product p
    INNER JOIN ProductSubcategory sc ON p.ProductSubcategoryID=sc.ProductSubcategoryID
    INNER JOIN ProductCategory c ON sc.ProductCategoryID=c.ProductCategoryID");

var categories = new string[] { "Components", "Clothing", "Acessories" };
q += $"WHERE c.Name IN {categories}";

ValueTuple

Dapper allows us to map rows to ValueTuples. And it also works with our string interpolation:

// Sometimes we don't want to declare a class for a simple query
var q = cn.QueryBuilder($@"
    SELECT Name, ListPrice, Weight
    FROM Product
    WHERE ProductId={productId}");
var productDetails = q.QuerySingle<(string Name, decimal ListPrice, decimal Weight)>();

Warning: Dapper Tuple mapping is based on positions (it's not possible to map by names)

Raw Modifier: Dynamic Column Names

When we want to use regular string interpolation for building up our queries/commands but the interpolated values are not supposed to be converted into SQL parameters we can use the raw modifier.

One popular example of the raw modifier is when we want to use dynamic columns:

var query = connection.QueryBuilder($"SELECT * FROM Employee WHERE 1=1");
foreach(var filter in filters)
    query += $" AND {filter.ColumnName:raw} = {filter.Value}";

Or:

var query = connection.QueryBuilder($"SELECT * FROM Employee /**where**/");
foreach(var filter in filters)
    query.Where($"{filter.ColumnName:raw} = {filter.Value}");

Whatever we pass as :raw should be either "trusted" or if it's untrusted (user-input) it should be sanitized correctly to avoid SQL-injection issues. (e.g. if filter.ColumnName comes from the UI we should validate it or sanitize it against SQL injection).

Raw Modifier: Dynamic Table Names

Another common use for raw modifier is when we're creating a global temporary table and want a unique (random) name:

string uniqueId = Guid.NewGuid().ToString().Substring(0, 8);
string name = "Rick";

cn.QueryBuilder($@"
    CREATE TABLE ##tmpTable{uniqueId:raw}
    (
        Name nvarchar(200)
    );
    INSERT INTO ##tmpTable{uniqueId:raw} (Name) VALUES ({name});
").Execute();

Let's emphasize again: strings that you interpolate using :raw modifier are not passed as parameters and therefore you should ensure validade it or sanitize it against SQL injection.

Raw Modifier: nameof

Another example of using the raw modifier is when we want to use nameof expression (which allows to "find references" for a column, "rename", etc):

var q = cn.QueryBuilder($@"
    SELECT
        c.{nameof(Category.Name):raw} as Category, 
        sc.{nameof(Subcategory.Name):raw} as Subcategory, 
        p.{nameof(Product.Name):raw}, p.ProductNumber"
    FROM Product p
    INNER JOIN ProductSubcategory sc ON p.ProductSubcategoryID=sc.ProductSubcategoryID
    INNER JOIN ProductCategory c ON sc.ProductCategoryID=c.ProductCategoryID");

Explicitly describing varchar/char data types (to avoid varchar performance issues)

For Dapper (and consequently for us) strings are always are assumed to be unicode strings (nvarchar) by default.

This causes a known Dapper issue: If the column datatype is varchar the query may not give the best performance and may even ignore existing indexed columns and do a full table scan.
So for achieving best performance we may want to explicitly describe if our strings are unicode (nvarchar) or ansi (varchar), and also describe their exact sizes.

Dapper's solution is to use the DbString class as a wrapper to describe the data type more explicitly, and QueryBuilder can also take this DbString in the interpolated values:

string productName = "Mountain%";

// This is how we declare a varchar(50) in plain Dapper
var productVarcharParm = new DbString { 
    Value = productName, 
    IsFixedLength = true, 
    Length = 50, 
    IsAnsi = true 
};

// DapperQueryBuilder understands Dapper DbString:
var query = cn.QueryBuilder($@"
    SELECT * FROM Production.Product p 
    WHERE Name LIKE {productVarcharParm}");

But we can also specify the datatype (using the well-established SQL syntax) after the value ({value:datatype}):

string productName = "Mountain%";

var query = cn.QueryBuilder($@"
    SELECT * FROM Production.Product p 
    WHERE Name LIKE {productName:varchar(50)}");

The library will parse the datatype specified after the colon, and it understands sql types like varchar(size), nvarchar(size), char(size), nchar(size), varchar(MAX), nvarchar(MAX).

nvarchar and nchar are unicode strings, while varchar and char are ansi strings.
nvarchar and varchar are variable-length strings, while nchar and char are fixed-length strings.

Don't worry if your database does not use those exact types - we basically convert from those formats back into Dapper DbString class (with the appropriate hints IsAnsi and IsFixedLength), and Dapper will convert that to your database.

Inner Queries

It's possible to add sql-safe queries inside other queries (e.g. to use as subqueries) as long as you declare them as FormattableString. This makes it easier to break very complex queries into smaller methods/blocks, or reuse queries as subqueries. The parameters are fully preserved and safe:

int orgId = 123;
FormattableString innerQuery = $"SELECT Id, Name FROM SomeTable where OrganizationId={orgId}";
var q = cn.QueryBuilder($@"
    SELECT FROM ({innerQuery}) a 
    JOIN AnotherTable b ON a.Id=b.Id 
    WHERE b.OrganizationId={321}");

// q.Sql is like:
// SELECT FROM (SELECT Id, Name FROM SomeTable where OrganizationId=@p0) a 
// JOIN AnotherTable b ON a.Id=b.Id 
// WHERE b.OrganizationId=@p1"

Fluent API (Chained-methods)

For those who like method-chaining guidance (or for those who allow end-users to build their own queries), there's a Fluent API which allows you to build queries step-by-step mimicking dynamic SQL concatenation.

So, basically, instead of starting with a full query and just appending new filters (.Where()), the FluentQueryBuilder will build the whole query for you:

var q = cn.FluentQueryBuilder()
    .Select($"ProductId")
    .Select($"Name")
    .Select($"ListPrice")
    .Select($"Weight")
    .From($"Product")
    .Where($"ListPrice <= {maxPrice}")
    .Where($"Weight <= {maxWeight}")
    .Where($"Name LIKE {search}")
    .OrderBy($"ProductId");
    
var products = q.Query<Product>();

You would get this query:

SELECT ProductId, Name, ListPrice, Weight
FROM Product
WHERE ListPrice <= @p0 AND Weight <= @p1 AND Name LIKE @p2
ORDER BY ProductId

Or more elaborated:

var q = cn.FluentQueryBuilder()
    .SelectDistinct($"ProductId, Name, ListPrice, Weight")
    .From("Product")
    .Where($"ListPrice <= {maxPrice}")
    .Where($"Weight <= {maxWeight}")
    .Where($"Name LIKE {search}")
    .OrderBy("ProductId");

Building joins dynamically using Fluent API:

var categories = new string[] { "Components", "Clothing", "Acessories" };

var q = cn.FluentQueryBuilder()
    .SelectDistinct($"c.Name as Category, sc.Name as Subcategory, p.Name, p.ProductNumber")
    .From($"Product p")
    .From($"INNER JOIN ProductSubcategory sc ON p.ProductSubcategoryID=sc.ProductSubcategoryID")
    .From($"INNER JOIN ProductCategory c ON sc.ProductCategoryID=c.ProductCategoryID")
    .Where($"c.Name IN {categories}");

There are also chained-methods for adding GROUP BY, HAVING, ORDER BY, and paging (OFFSET x ROWS / FETCH NEXT x ROWS ONLY).

Using Type-Safe Filters without QueryBuilder

If you want to use our type-safe dynamic filters but for some reason you don't want to use our QueryBuilder:

Dapper.DynamicParameters parms = new Dapper.DynamicParameters();

var filters = new Filters(Filters.FiltersType.AND);
filters.Add(new Filters()
{
    new Filter($"ListPrice >= {minPrice}"),
    new Filter($"ListPrice <= {maxPrice}")
});
filters.Add(new Filters(Filters.FiltersType.OR)
{
    new Filter($"Weight <= {maxWeight}"),
    new Filter($"Name LIKE {search}")
});

string where = filters.BuildFilters(parms);
// "WHERE (ListPrice >= @p0 AND ListPrice <= @p1) AND (Weight <= @p2 OR Name LIKE @p3)"
// parms contains @p0 as minPrice, @p1 as maxPrice, etc..

Invoking Stored Procedures

// This is basically Dapper, but with a FluentAPI where you can append parameters dynamically.
var q = cn.CommandBuilder($"HumanResources.uspUpdateEmployeePersonalInfo")
    .AddParameter("ReturnValue", dbType: DbType.Int32, direction: ParameterDirection.ReturnValue)
    .AddParameter("ErrorLogID", dbType: DbType.Int32, direction: ParameterDirection.Output)
    .AddParameter("BusinessEntityID", businessEntityID)
    .AddParameter("NationalIDNumber", nationalIDNumber)
    .AddParameter("BirthDate", birthDate)
    .AddParameter("MaritalStatus", maritalStatus)
    .AddParameter("Gender", gender);
    
int affected = q.Execute(commandType: CommandType.StoredProcedure);
int returnValue = q.Parameters.Get<int>("ReturnValue");

Database Support

QueryBuilder is database agnostic (like Dapper) - it should work with all ADO.NET providers (including Microsoft SQL Server, PostgreSQL, MySQL, SQLite, Firebird, SQL CE and Oracle), since it's basically a wrapper around the way parameters are passed to the database provider.

DapperQueryBuilder doesn't generate SQL statements (except for simple clauses which should work in all databases like WHERE/AND/OR - if you're using /**where**/ keyword).

It was tested with Microsoft SQL Server and with PostgreSQL (using Npgsql driver), and works fine in both.

Parameters prefix

By default the parameters are generated using "at-parameters" format (the first parameter is named @p0, the next is @p1, etc), and that should work with most database providers (including PostgreSQL Npgsql).
If your provider doesn't accept at-parameters (like Oracle) you can modify DapperQueryBuilderOptions.DatabaseParameterSymbol:

// Default database-parameter-symbol is "@", which mean the underlying query will use @p0, @p1, etc..
// Some database vendors (like Oracle) expect ":" parameters instead of "@" parameters
DapperQueryBuilderOptions.DatabaseParameterSymbol = ":";

OracleConnection cn = new OracleConnection("DATA SOURCE=server;PASSWORD=password;PERSIST SECURITY INFO=True;USER ID=user");

string search = "%Dinosaur%";
var cmd = cn.QueryBuilder($"SELECT * FROM film WHERE title like {search}");
// Underlying SQL will be: SELECT * FROM film WHERE title like :p0

If for any reason you don't want parameters to be named p0, p1, etc, you can change the auto-naming prefix by setting AutoGeneratedParameterName:

DapperQueryBuilderOptions.AutoGeneratedParameterName = "PARAM_";

// your parameters will be named @PARAM_0, @PARAM_1, etc..

Some extra string magic we do:

Automatic spacing:

var query = cn.QueryBuilder($"SELECT * FROM Product WHERE 1=1");
query += $"AND Name LIKE {productName}"; 
query += $"AND ProductSubcategoryID = {subCategoryId}"; 
var products = query.Query<Product>(); 

No need to worry about adding a space before or after a new clause. We'll handle that for you

Automatic strip of surrounding single-quotes:

If by mistake you add single quotes around interpolated arguments (as if it was dynamic SQL) we'll just strip it for you.

cn.CommandBuilder($@"
   INSERT INTO Product (ProductName, ProductSubCategoryId)
   VALUES ('{productName}', '{ProductSubcategoryID}')
").Execute();
// Dapper will get "... VALUES (@p0, @p1) " (we'll remove the surrounding single quotes)
string productName = "%Computer%";
var products = cnQueryBuilder($"SELECT * FROM Product WHERE Name LIKE '{productName}'");
// Dapper will get "... WHERE Name LIKE @p0 " (we'll remove the surrounding single quotes)

Automatic reuse of duplicated parameters:

If you use the same value twice in the query we'll just pass it once and reuse the existing parameter.

string productName = "Computer";
var products = cnQueryBuilder($"SELECT * FROM Product WHERE Name = {productName} OR Category = {productName}");
// Dapper will get "... WHERE Name = @p0 OR Category = @p0 " (we'll send @p0 only once)

Automatic trimming for multi-line queries:

var products = cn
    .Query<Product>($@"
    SELECT * FROM Product
    WHERE
    Name LIKE {productName}
    AND ProductSubcategoryID = {subCategoryId}
    ORDER BY ProductId");

Since this is a multi-line interpolated string we'll automatically trim the first empty line and "dock to the left" (remove left padding). What Dapper receives does not have whitespace, making it easier for logging or debugging:

SELECT * FROM Product
WHERE
Name LIKE @p0
AND ProductSubcategoryID = @p1
ORDER BY ProductId

FAQ

Why should we always use Parameterized Queries instead of Dynamic SQL?

The whole purpose of Dapper is to safely map our objects to the database (and to map database records back to our objects).
If you build SQL statements by concatenating parameters as strings it means that:

Building dynamic SQL (which is a TERRIBLE idea) would be like this:

string sql = "SELECT * FROM Product WHERE Name LIKE " 
   + "'" + productName.Replace("'", "''") + "'"; 
// now you pray that you've correctly sanitized inputs against sql-injection
var products = cn.Query<Product>(sql);

With plain Dapper it's safer:

string sql = "SELECT * FROM Product WHERE Name LIKE @productName";
var products = cn.Query<Product>(sql, new { productName });

But with Dapper Query Builder it's even easier:

var query = cn.QueryBuilder($"SELECT * FROM Product WHERE Name LIKE {productName}");
var products = query.Query<Product>(); 

Why this library if we could just use interpolated strings directly with plain Dapper?

Dapper does not take interpolated strings, and therefore it doesn't do any kind of manipulation magic on interpolated strings (which is exactly what we do).
This means that if you pass an interpolated string to Dapper it will be converted as a plain string (so it would run as dynamic SQL, not as parameterized SQL), meaning it has the same issues as dynamic sql (see previous question).

So it WOULD be possible (but ugly) to use Dapper with interpolated strings (as long as you sanitize the inputs):

cn.Execute($@"
   INSERT INTO Product (ProductName, ProductSubCategoryId)
   VALUES ( 
      '{productName.Replace("'", "''")}', 
      {ProductSubcategoryID == null ? "NULL" : int.Parse(ProductSubcategoryID).ToString()}
   )");
// now you pray that you've correctly sanitized inputs against sql-injection

But with our library this is not only safer but also much simpler:

cn.CommandBuilder($@"
   INSERT INTO Product (ProductName, ProductSubCategoryId)
   VALUES ({productName}, {ProductSubcategoryID})
").Execute();

In other words, passing interpolated strings to Dapper is dangerous because you may forget to sanitize the inputs.

Our library makes the use of interpolated strings easier and safer because:

Why do I have to write everything using interpolated strings ($)

The magic is that when you write an interpolated string our methods can identify the embedded parameters (interpolated values) and can correctly extract them and parameterize them.
By enforcing that all methods only take FormattableString we can be confident that our methods will never receive an implicit conversion to string, which would defeat the whole purpose of the library and would make you vulnerable to SQL injection.
The only way you can pass an unsafe string in your interpolation is if you explicitly add the :raw modifier, so it's easy to review all statements for vulnerabilities.
As Alan Kay says, "Simple things should be simple and complex things should be possible" - so interpolating regular sql parameters is very simple, while interpolating plain strings is still possible.

Is building queries with string interpolation really safe?

In our library String Interpolation is just an abstraction used for hiding the complexity of manually creating SqlParameters.
This library is as safe as possible because it never accepts plain strings, so there's no risk of accidentally converting an interpolated string into a vulnerable string. But obviously there are a few possible scenarios where mistakes could happen.

First possible mistake - using raw modifier for things that should be parameters:

using DapperQueryBuilder;

// If you don't understand what raw is for, DON'T USE IT - code below is unsafe!
var products = cn.QueryBuilder($@"
    SELECT * FROM Product WHERE ProductId={productId:raw}"
).Query<Product>();

Second possible mistake - passing interpolated strings to Dapper instead of DapperQueryBuilder:

using Dapper;

// UNSAFE CODE. Dapper will get an unsafe (not parameterized) query.
var products = cn.Query<Product>($@"
    SELECT * FROM Product WHERE ProductId={productId}"
);

// To avoid this type of mistake you can just avoid Dapper namespace
// and just use "using DapperQueryBuilder;"

Third possible mistake - Create a "fake" FormattableString by passing an unsafe plain string to FormattableStringFactory:

using DapperQueryBuilder;
using System.Runtime.CompilerServices; // needs System.Runtime.dll

// Explicitly create an interpolated string in a totally incorrect way
var products = cn.QueryBuilder(FormattableStringFactory.Create($@"
    SELECT * FROM Product WHERE ProductId={productId}")
).Query<Product>();

// FormattableStringFactory.Create above is used totally incorrect.
// Basically the interpolated string will be converted into an unsafe string
// and then it's converted back into a fake interpolated string.

How can I use Dapper async extensions?

This documentation is mostly using sync methods, but we have facades for all Dapper extensions, including ExecuteAsync(), QueryAsync<T>, etc.

How can I use Dapper Multi-Mapping?

We do not have facades for invoking Dapper Multi-mapper extensions directly, but you can combine QueryBuilder with Multi-mapper extensions by explicitly passing CommandBuillder .Sql and .Parameters:

// DapperQueryBuilder CommandBuilder
var orderAndDetailsQuery = cn
    .QueryBuilder($@"
    SELECT * FROM Orders AS A 
    INNER JOIN OrderDetails AS B ON A.OrderID = B.OrderID
    /**where**/
    ORDER BY A.OrderId, B.OrderDetailId");
// Dynamic Filters
orderAndDetailsQuery.Where($"[ListPrice] <= {maxPrice}");
orderAndDetailsQuery.Where($"[Weight] <= {maxWeight}");
orderAndDetailsQuery.Where($"[Name] LIKE {search}");

// Dapper Multi-mapping extensions
var orderAndDetails = cn.Query<Order, OrderDetail, Order>(
        /* orderAndDetailsQuery.Sql contains [ListPrice] <= @p0 AND [Weight] <= @p1 etc... */
        sql: orderAndDetailsQuery.Sql,
        map: (order, orderDetail) =>
        {
            // whatever..
        },
        /* orderAndDetailsQuery.Parameters contains @p0, @p1 etc... */
        param: orderAndDetailsQuery.Parameters,
        splitOn: "OrderDetailID")
    .Distinct()
    .ToList();

To sum, instead of using DapperQueryBuilder .Query<T> extensions (which invoke Dapper IDbConnection.Query<T>) you just invoke Dapper multimapper .Query<T1, T2, T3> directly, and use DapperQueryBuilder only for dynamically building your filters.

How does DapperQueryBuilder compare to plain Dapper?

Building dynamic filters in plain Dapper is a little cumbersome / ugly:

var parms = new DynamicParameters();
List<string> filters = new List<string>();

filters.Add("Name LIKE @productName"); 
parms.Add("productName", productName);
filters.Add("CategoryId = @categoryId"); 
parms.Add("categoryId", categoryId);

string where = (filters.Any() ? " WHERE " + string.Join(" AND ", filters) : "");

var products = cn.Query<Product>($@"
    SELECT * FROM Product
    {where}
    ORDER BY ProductId", parms);

With DapperQueryBuilder it's much easier to write queries with dynamic filters:

var query = cn.QueryBuilder($@"
    SELECT * FROM Product 
    /**where**/ 
    ORDER BY ProductId");

query.Where($"Name LIKE {productName}");
query.Where($"CategoryId = {categoryId}");

// If any filter was added, Query() will automatically replace the /**where**/ keyword
var products = query.Query<Product>();

or without /**where**/:

var query = cn.QueryBuilder($"SELECT * FROM Product WHERE 1=1");
query += $"AND Name LIKE {productName}";
query += $"AND CategoryId = {categoryId}";
query += $"ORDER BY ProductId";
var products = query.Query<Product>();

How does DapperQueryBuilder compare to Dapper.SqlBuilder?

Dapper.SqlBuilder combines the filters using /**where**/ keyword (like we do) but requires some auxiliar classes, and filters have to be defined using Dapper syntax (no string interpolation):

// SqlBuilder and Template are helper classes
var builder = new SqlBuilder();

// We also use this /**where**/ syntax
var template = builder.AddTemplate(@"
    SELECT * FROM Product
    /**where**/
    ORDER BY ProductId");
    
// Define the filters using regular Dapper syntax:
builder.Where("Name LIKE @productName", new { productName });
builder.Where("CategoryId = @categoryId", new { categoryId });

// Use template to explicitly pass the rendered SQL and parameters to Dapper:
var products = cn.Query<Product>(template.RawSql, template.Parameters);

Why don't you have Typed Filters using Lambda Expressions?

We believe that SQL syntax is powerful, comprehensive and vendor-specific. Dapper allows us to use the full SQL syntax (of our database vendor), and so does DapperQueryBuilder. That's why we decided to focus on our magic (converting interpolated strings into SQL parameters), while keeping Dapper simplicity (you write your own filters). In other words, we won't try to reinvent SQL syntax or create a limited abstraction over SQL language.

How to Collaborate?

Please submit a pull-request or if you want to make a sugestion you can create an issue or contact me.

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License

MIT License