From dotnet-clean-architecture-skills
Generates optimized read queries using Dapper with multi-mapping, pagination, dynamic filtering, and CTEs for high-performance data access.
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/dotnet-clean-architecture-skills:19-dotnet-dapper-query-builderThe summary Claude sees in its skill listing — used to decide when to auto-load this skill
Dapper provides lightweight, high-performance data access:
Dapper provides lightweight, high-performance data access:
| Method | Purpose | Use Case |
|---|---|---|
QueryAsync<T> | Multiple rows | Lists, reports |
QueryFirstOrDefaultAsync<T> | Single row | Get by ID |
QueryMultipleAsync | Multiple result sets | Complex data |
ExecuteAsync | No results | Insert/Update/Delete |
ExecuteScalarAsync<T> | Single value | Count, exists |
// src/{name}.application/{Feature}/Get{Entity}ById/Get{Entity}ByIdQueryHandler.cs
using System.Data;
using Dapper;
using {name}.application.abstractions.data;
using {name}.application.abstractions.messaging;
using {name}.domain.abstractions;
namespace {name}.application.{feature}.Get{Entity}ById;
internal sealed class Get{Entity}ByIdQueryHandler
: IQueryHandler<Get{Entity}ByIdQuery, {Entity}Response>
{
private readonly ISqlConnectionFactory _sqlConnectionFactory;
public Get{Entity}ByIdQueryHandler(ISqlConnectionFactory sqlConnectionFactory)
{
_sqlConnectionFactory = sqlConnectionFactory;
}
public async Task<Result<{Entity}Response>> Handle(
Get{Entity}ByIdQuery request,
CancellationToken cancellationToken)
{
using IDbConnection connection = _sqlConnectionFactory.CreateConnection();
const string sql = """
SELECT
e.id AS Id,
e.name AS Name,
e.description AS Description,
e.is_active AS IsActive,
e.created_at AS CreatedAt,
o.id AS OrganizationId,
o.name AS OrganizationName
FROM entity e
INNER JOIN organization o ON e.organization_id = o.id
WHERE e.id = @Id
""";
var entity = await connection.QueryFirstOrDefaultAsync<{Entity}Response>(
sql,
new { request.Id });
return entity is null
? Result.Failure<{Entity}Response>({Entity}Errors.NotFound)
: entity;
}
}
internal sealed class Get{Entity}WithDetailsQueryHandler
: IQueryHandler<Get{Entity}WithDetailsQuery, {Entity}DetailResponse>
{
private readonly ISqlConnectionFactory _sqlConnectionFactory;
public async Task<Result<{Entity}DetailResponse>> Handle(
Get{Entity}WithDetailsQuery request,
CancellationToken cancellationToken)
{
using IDbConnection connection = _sqlConnectionFactory.CreateConnection();
const string sql = """
SELECT
e.id AS Id,
e.name AS Name,
c.id AS ChildId,
c.name AS ChildName,
c.sort_order AS SortOrder
FROM entity e
LEFT JOIN child c ON c.entity_id = e.id
WHERE e.id = @Id
ORDER BY c.sort_order
""";
var entityDict = new Dictionary<Guid, {Entity}DetailResponse>();
await connection.QueryAsync<{Entity}DetailResponse, ChildResponse, {Entity}DetailResponse>(
sql,
(entity, child) =>
{
if (!entityDict.TryGetValue(entity.Id, out var existingEntity))
{
existingEntity = entity;
existingEntity.Children = new List<ChildResponse>();
entityDict.Add(entity.Id, existingEntity);
}
if (child is not null)
{
existingEntity.Children.Add(child);
}
return existingEntity;
},
new { request.Id },
splitOn: "ChildId");
var result = entityDict.Values.FirstOrDefault();
return result is null
? Result.Failure<{Entity}DetailResponse>({Entity}Errors.NotFound)
: result;
}
}
internal sealed class Search{Entities}QueryHandler
: IQueryHandler<Search{Entities}Query, PagedList<{Entity}Response>>
{
private readonly ISqlConnectionFactory _sqlConnectionFactory;
public async Task<Result<PagedList<{Entity}Response>>> Handle(
Search{Entities}Query request,
CancellationToken cancellationToken)
{
using IDbConnection connection = _sqlConnectionFactory.CreateConnection();
var offset = (request.PageNumber - 1) * request.PageSize;
var searchPattern = request.SearchTerm is not null
? $"%{request.SearchTerm}%"
: null;
// Build dynamic WHERE clause
var whereConditions = new List<string> { "1 = 1" };
if (searchPattern is not null)
whereConditions.Add("(e.name ILIKE @SearchPattern OR e.description ILIKE @SearchPattern)");
if (request.OrganizationId.HasValue)
whereConditions.Add("e.organization_id = @OrganizationId");
if (request.IsActive.HasValue)
whereConditions.Add("e.is_active = @IsActive");
var whereClause = string.Join(" AND ", whereConditions);
var countSql = $"""
SELECT COUNT(*)
FROM entity e
WHERE {whereClause}
""";
var dataSql = $"""
SELECT
e.id AS Id,
e.name AS Name,
e.description AS Description,
e.is_active AS IsActive,
e.created_at AS CreatedAt
FROM entity e
WHERE {whereClause}
ORDER BY e.created_at DESC
OFFSET @Offset ROWS
FETCH NEXT @PageSize ROWS ONLY
""";
var parameters = new
{
SearchPattern = searchPattern,
request.OrganizationId,
request.IsActive,
Offset = offset,
request.PageSize
};
var totalCount = await connection.ExecuteScalarAsync<int>(countSql, parameters);
var items = await connection.QueryAsync<{Entity}Response>(dataSql, parameters);
return new PagedList<{Entity}Response>(
items.ToList(),
request.PageNumber,
request.PageSize,
totalCount);
}
}
const string sql = """
WITH RankedItems AS (
SELECT
e.*,
ROW_NUMBER() OVER (PARTITION BY e.category_id ORDER BY e.score DESC) as rank
FROM entity e
WHERE e.organization_id = @OrganizationId
),
TopItems AS (
SELECT * FROM RankedItems WHERE rank <= 3
)
SELECT
ti.id AS Id,
ti.name AS Name,
ti.score AS Score,
ti.rank AS Rank,
c.name AS CategoryName
FROM TopItems ti
INNER JOIN category c ON ti.category_id = c.id
ORDER BY c.name, ti.rank
""";
// src/{name}.application/Abstractions/Data/ISqlConnectionFactory.cs
using System.Data;
namespace {name}.application.abstractions.data;
public interface ISqlConnectionFactory
{
IDbConnection CreateConnection();
}
// src/{name}.infrastructure/Data/SqlConnectionFactory.cs
using System.Data;
using Npgsql;
namespace {name}.infrastructure.data;
internal sealed class SqlConnectionFactory : ISqlConnectionFactory
{
private readonly string _connectionString;
public SqlConnectionFactory(string connectionString)
{
_connectionString = connectionString;
}
public IDbConnection CreateConnection()
{
var connection = new NpgsqlConnection(_connectionString);
connection.Open();
return connection;
}
}
SELECT
e.id AS Id, -- Maps to Id
e.first_name AS FirstName, -- Maps to FirstName
e.created_at AS CreatedAt, -- Maps to CreatedAt
e.organization_id AS OrganizationId -- Maps to OrganizationId
FROM entity e
using for connections - Proper disposalAS PropertyNamedotnet-cqrs-query-generator - Query handler structuredotnet-repository-pattern - EF Core for writesdotnet-clean-architecture - Application layernpx claudepluginhub ronnythedev/dotnet-clean-architecture-skillsGenerates CQRS query handlers, validators, and response DTOs using Dapper and MediatR. Useful for implementing read-optimized .NET applications with explicit separation of commands and queries.
Database access patterns for performance. Separate read/write models, avoid N+1 queries, use AsNoTracking, apply row limits, and never do application-side joins. Works with EF Core and Dapper. Use when designing data access layers, optimizing slow database queries, choosing between EF Core and Dapper, or avoiding common performance pitfalls.
Provides Entity Framework Core patterns for DbContext setup, fluent API configurations, migrations, LINQ queries, relationships, CRUD operations, and performance best practices. Useful for .NET data access.