Plainquire.Page.Newtonsoft
5.3.0-beta2
See the version list below for details.
dotnet add package Plainquire.Page.Newtonsoft --version 5.3.0-beta2
NuGet\Install-Package Plainquire.Page.Newtonsoft -Version 5.3.0-beta2
<PackageReference Include="Plainquire.Page.Newtonsoft" Version="5.3.0-beta2" />
paket add Plainquire.Page.Newtonsoft --version 5.3.0-beta2
#r "nuget: Plainquire.Page.Newtonsoft, 5.3.0-beta2"
// Install Plainquire.Page.Newtonsoft as a Cake Addin #addin nuget:?package=Plainquire.Page.Newtonsoft&version=5.3.0-beta2&prerelease // Install Plainquire.Page.Newtonsoft as a Cake Tool #tool nuget:?package=Plainquire.Page.Newtonsoft&version=5.3.0-beta2&prerelease
Plainquire
Unlock seamless filtering, sorting, and paging in .NET Standard 2.1 with Plainquire. Fully customizable, model binding support and Swagger UI integration.
Demo
Application: https://www.plainquire.com/demo
Swagger UI: https://www.plainquire.com/api
Usage for ASP.NET Core
1. Install NuGet packages
dotnet add package Plainquire.Filter
dotnet add package Plainquire.Filter.Mvc
dotnet add package Plainquire.Filter.Swashbuckle
2. Register services
using Plainquire.Filter.Mvc;
using Plainquire.Filter.Swashbuckle;
var builder = WebApplication.CreateBuilder(args);
builder.Services.AddControllers().AddFilterSupport();
builder.Services.AddSwaggerGen(options => options.AddFilterSupport());
3. Setup entity
using Plainquire.Filter;
[EntityFilter(Prefix = "")]
public class Freelancer
{
public Guid Id { get; set; }
public string FirstName { get; set; }
public string LastName { get; set; }
}
4. Create HTTP endpoint
using Plainquire.Filter;
[HttpGet]
public IEnumerable<Freelancer> GetFreelancers([FromQuery] EntityFilter<Freelancer> filter
{
var freelancers = GetFreelancersFromDatabase();
var filteredFreelancers = freelancers.Where(filter);
return filteredFreelancers;
}
5. Send HTTP request
BASE_URL=https://www.plainquire.com/api/Freelancer
curl -O "$BASE_URL/GetFreelancers?firstName=Joe"
6. Results in SQL statement
SELECT *
FROM "Freelancer"
WHERE instr(upper("FirstName"), 'JOE') > 0
Usage for non-web applications
1. Install NuGet package
dotnet add package Plainquire.Filter
2. Setup entity
See setup entity from above.
3. Create repository
public IEnumerable<Freelancer> GetFreelancers()
{
var filter = new EntityFilter<Freelancer>().Add(x => x.FirstName, "~Joe");
var freelancers = GetFreelancersFromDatabase();
var filteredFreelancers = freelancers.Where(filter);
return filteredFreelancers;
}
Table of contents
- Features
- Syntax overview
- Filter entities
- Sort entities
- Page Entities
- Upgrade from FilterExpressionCreator
Features
- Filtering, sorting and pagination for ASP.NET Core
- Customizable syntax
- Support for Swagger / OpenUI and code generators via Swashbuckle.AspNetCore
- Support for Entity Framework an other ORM mapper using
IQueryable<T>
- Support for In-memory lists / arrays via
IEnumerable<T>
- Binding for HTTP query parameters
- Natural language date/time interpretation (e.g. yesterday, last week Tuesday, ...)
- Filters, sorts and pages are serializable, e.g. to persist user defined filters
- Customizable expressions via interceptors
Syntax overview
Filter syntax
Samples (HTTP query parameter)
Query parameter | Description |
---|---|
gender=male,female |
Gender equals male OR female |
gender=~male |
Gender contains male (fetches female too) |
size=<100 |
Size is lower than 100 |
size=>100&size<200 |
Size is between 100 and 200 |
created=>two-days-ago |
Created within the last 2 days |
created=yesterday |
Created yesterday |
created=>2020-03 |
Created after Sunday, March 1, 2020 |
created=2020 |
Crated in the year 2020 |
name= |
Name equals "" |
Escape filter value
The backslash (\
) is used as escape character within values. To filter for a backslash itself, double it (\\
).
Characters used by filter operators as well as characters used to separate values (see below) must be escaped to search for them themselves.
Sample: Use =\=A\;B
to do a case insensitive search (=
) for value =A;B
.
Syntax reference
The filter micro syntax consists of a list of operator/value pairs separated by comma (,
), semicolon (;
) or a pipe (|
).
Comma separated values are combined with logical OR
. To combine values with logical AND
, specify the filter multiple times.
Operator | Micro syntax | Description |
---|---|---|
Default | Selects the operator according to the filtered type. When filtering string the default is Contains ; otherwise EqualCaseInsensitive |
|
Contains | ~ | Hits when the filtered property contains the filter value |
EqualCaseInsensitive | = | Hits when the filtered property equals the filter value (case-insensitive) |
EqualCaseSensitive | == | Hits when the filtered property equals the filter value (case-sensitive) |
NotEqual | ! | Negates the Default operator. Operators other than Default cannot be negated (currently) |
LessThan | < | Hits when the filtered property is less than the filter value |
LessThanOrEqual | ⇐ | Hits when the filtered property is less than or equal to the filter value |
GreaterThan | > | Hits when the filtered property is greater than the filter value |
GreaterThanOrEqual | >= | Hits when the filtered property is greater than or equals the filter value |
IsNull | ISNULL | Hits when the filtered property is null |
NotNull | NOTNULL | Hits when the filtered property is not null |
Sort syntax
Samples (HTTP query parameter)
Query parameter | Description |
---|---|
orderBy=lastName |
Sort by lastName ascending |
orderBy=lastName- |
Sort by lastName descending |
orderBy=lastName,-firstName |
Sort by lastName ascending, than by firstName descending |
orderBy=lastName.length |
Sort by length of lastName ascending |
Syntax reference
The sort micro syntax consists of a property name to sort with an optional sort direction marker before or after (e.g. customer-asc
). For the HTTP query parameter, a comma separated list of properties is allowed (orderBy=customer,number-desc
).
Position | Direction | Values |
---|---|---|
prefix | ascending | + , asc- , asc |
postfix | ascending | + , -asc , asc |
prefix | descending | - , ~ , desc- , dsc- , desc , dsc |
postfix | descending | - , ~ , -desc , -dsc , desc , dsc |
Filter entities
Basic usage
Install NuGet packages
Package Manager : Install-Package Plainquire.Filter
CLI : dotnet add package Plainquire.Filter
Bind filter from query-parameters
using Plainquire.Filter;
[HttpGet]
public Task<List<Order>> GetOrders([FromQuery] EntityFilter<Order> order)
{
return dbContext.Orders.Where(filter).ToList();
}
Create filter from code
using Plainquire.Filter;
var orders = new[] {
new Order { Customer = "Joe Miller", Number = 100 },
new Order { Customer = "Joe Smith", Number = 200 },
new Order { Customer = "Joe Smith", Number = 300 },
};
// Create filter
var filter = new EntityFilter<Order>()
.Add(x => x.Customer, "Joe")
.Add(x => x.Number, FilterOperator.GreaterThan, 250);
// Print filter
Console.WriteLine(filter);
// Output: x => (((x.Customer != null) AndAlso x.Customer.ToUpper().Contains("JOE")) AndAlso (x.Number > 250))
// Filter using queryables (e.g. Entity Framework)
var filteredOrders = dbContext.Orders.Where(filter).ToList();
// Filter using LINQ
var filteredOrders = orders.Where(filter).ToList();
Configure filters
Generated filter expressions can be configured via FilterConfiguration
.
Create configuration
using Plainquire.Filter;
// Parse filter values using german locale (e.g. "5,5" => 5.5f).
var configuration = new FilterConfiguration { CultureInfo = new CultureInfo("de-DE") };
Provide configuration
// For MVC model binding via dependency injection
services.Configure<FilterConfiguration>(c => c.IgnoreParseExceptions = true);
// Via constructor
new EntityFilter<Order>(configuration);
// Via static default
FilterConfiguration.Default
Configuration reference
Configuration | Description |
---|---|
CultureName |
Culture used for paring in the format languagecode2-country/regioncode2 (e.g. 'en-US'). |
UseConditionalAccess |
Controls the use of conditional access to navigation properties. |
IgnoreParseExceptions |
Return x => true in case of any exception while parsing the value. |
FilterOperatorMap |
Map between micro syntax and filter operator. Micro syntax is case-sensitive. |
Filter by special values
Filter by == null
/ != null
// For 'Customer is null'
filter.Add(x => x.Customer, FilterOperator.IsNull);
// Output: x => (x.Customer == null)
// For 'Customer is not null'
filter.Add(x => x.Customer, FilterOperator.NotNull);
// Output: x => (x.Customer != null)
// via query parameter
var getOrdersUrl = "/GetOrders?customer=ISNULL"
var getOrdersUrl = "/GetOrders?customer=NOTNULL"
While filtered for == null
/ != null
, (accidently) given values are ignored:
filter.Add(x => x.Customer, FilterOperator.NotNull, "values", "are", "ignored");
Filter by ""
/ string.Empty
// For 'Customer == ""'
filter.Add(x => x.Customer, string.Empty);
// Output: x => (x.Customer == "")
// For 'Customer is not null'
filter.Add(x => x.Customer, FilterOperator.NotEqual, string.Empty);
// Output: x => (x.Customer != "")
// via query parameter
var getOrdersUrl = "/GetOrders?customer="
Filter by Date/Time
Date/Time values can be given in the form of a fault-tolerant round-trip date/time pattern
// Date
filter.Add(x => x.Created, ">2020/01/01");
// Output: x => (x.Created > 01.01.2020 00:00:00)
// Date/Time
filter.Add(x => x.Created, ">2020-01-01-12-30");
// Output: x => (x.Created > 01.01.2020 12:30:00)
// Partial values are supported too
filter.Add(x => x.Created, "2020-01");
// Output: x => ((x.Created >= 01.01.2020 00:00:00) AndAlso (x.Created < 01.02.2020 00:00:00))
Filter by Date/Time with natural language
Thanks to nChronic.Core natural language for date/time is supported.
// This
filter.Add(x => x.Created, ">yesterday");
// works as well as
filter.Add(x => x.Created, ">3-months-ago-saturday-at-5-pm");
Details can be found here: https://github.com/mojombo/chronic
Filter by enum
Enum
values can be filtered by its name as well as by it's numeric representation.
// Equals by name
filter.Add(x => x.Gender, "=divers");
// Output: x => (x.Gender == Divers)
// Equals by numeric value
filter.Add(x => x.Gender, "=1");
// Output: x => (Convert(x.Gender, Int64) == 1)
// Contains, value is expanded
filter.Add(x => x.Gender, "~male");
// Output: x => ((x.Gender == Male) OrElse (x.Gender == Female))
enum Gender { Divers, Male, Female }
Filter by numbers
Filter for numbers support contains
operator but may be less performant.
// Equals
filter.Add(x => x.Number, "1");
// Output: x => (x.Number == 1)
// Contains
filter.Add(x => x.Number, "~1");
// Output: x => x.Number.ToString().ToUpper().Contains("1")
Syntax examples
Syntax | Description |
---|---|
Joe | For string filtered value contains 'Joe', for Enum filtered value is 'Joe' |
~Joe | Filtered value contains 'Joe', even for Enum |
~1,~2 | Filtered value contains 1 or 2 |
=1\,2 | Filtered value equals 1,2 |
~Joe,=Doe | Filtered value contains Joe or equals Doe |
<4,>10 | Filtered value is less than 4 or greater than 10 |
ISNULL | Filtered value is null |
>one-week-ago | For DateTime filtered value is greater than one week ago |
2020 | For DateTime filtered value is between 01/01/2020 and 12/31/2020 |
2020-01 | For DateTime filtered value is between 01/01/2020 and 1/31/2020 |
Logical Operators
Add/Replace filter using logical OR
Multiple values given to one call are combined using conditional OR
.
// Customer contains `Joe` || `Doe`
var filter = new EntityFilter<Order>();
// via operator
filter.Add(x => x.Customer, FilterOperator.Contains, "Joe", "Doe");
filter.Replace(x => x.Customer, FilterOperator.Contains, "Joe", "Doe");
// via syntax
filter.Add(x => x.Customer, "~Joe,~Doe");
filter.Replace(x => x.Customer, "~Joe,~Doe");
// via query parameter
var getOrdersUrl = "/GetOrders?customer=~Joe,~Doe"
Add/Replace filter using logical AND
Multiple calls are combined using conditional AND
.
// Customer contains `Joe` && `Doe`
var filter = new EntityFilter<Order>();
// via operator
filter
.Add(x => x.Customer, FilterOperator.Contains, "Joe")
.Add(x => x.Customer, FilterOperator.Contains, "Doe");
// via syntax
filter
.Add(x => x.Customer, "~Joe")
.Add(x => x.Customer, "~Doe");
// via query parameter
var getOrdersUrl = "/GetOrders?customer=~Joe&customer=~Doe"
Nested filters
Nested objects are filtered directly (x => x.Address.City == "Berlin"
)
Nested lists are filtered using .Any()
(x => x.Items.Any(item => (item.Article == "Laptop"))
)
// Create filters
var addressFilter = new EntityFilter<Address>()
.Add(x => x.City, "==Berlin");
var itemFilter = new EntityFilter<OrderItem>()
.Add(x => x.Article, "==Laptop");
var orderFilter = new EntityFilter<Order>()
.AddNested(x => x.Address, addressFilter)
.AddNested(x => x.Items, itemFilter);
// Print filter
Console.WriteLine(orderFilter);
// Output:
// x => ((x.Address != null) AndAlso (x.Address.City == "Berlin"))
// x => ((x.Items != null) AndAlso x.Items.Any(x => (x.Article == "Laptop")))
public class Order
{
public int Number { get; set; }
public string Customer { get; set; }
public Address Address { get; set; }
public List<OrderItem> Items { get; set; }
}
public record Address(string Street, string City);
public record OrderItem(int Position, string Article);
Retrieve syntax and filter values
var filter = new EntityFilter<Order>()
.Add(x => x.Customer, FilterOperator.Contains, "Joe", "Doe");
// Retrive filter syntax
string filterSytax = filter.GetPropertyFilterSyntax(x => x.Customer);
// Output: ~Joe,~Doe
// Retrive filter values
ValueFilter[] filterValues = filter.GetPropertyFilterValues(x => x.Customer);
// Output:
// [{
// "Operator": "Contains",
// "Value": "Joe",
// "IsEmpty": false
// }, {
// "Operator": "Contains",
// "Value": "Doe",
// "IsEmpty": false
// }]
REST / MVC
To filter an entity via model binding, the entity must be marked with EntityFilterAttribute
Register model binders
Package Manager : Install-Package Plainquire.Filter.Mvc
CLI : dotnet add package Plainquire.Filter.Mvc
using Plainquire.Filter.Mvc;
// Register required stuff by calling 'AddFilterSupport()' on IMvcBuilder instance
services.AddControllers().AddFilterSupport();
Map HTTP query parameters to EntityFilter
With model binding enabled, REST requests can be filtered using query parameters:
using Plainquire.Filter;
var getOrdersUrl = "/GetOrders?customer==Joe&number=>4711"
[HttpGet]
public Task<List<Order>> GetOrders([FromQuery] EntityFilter<Order> filter)
{
Console.WriteLine(filter);
// Output:
// x => (
// ((x.Customer != null) AndAlso (x.Customer.ToUpper() == "JOE"))
// AndAlso (x.Number > 4711)
// )
var queryParams = filter.ToQueryParams();
// Output: customer==Joe&number=>4711
}
Configure model binding
By default, parameters for properties of filtered entity are named {Entity}{Property}
.
By default, all public non-complex properties (string
, int
, DateTime
, ...) are recognized.
Parameters can be renamed or removed using FilterAttribute
and EntityFilterAttribute
.
For the code below Number
is not mapped anymore and Customer
becomes CustomerName
:
using Plainquire.Filter.Abstractions;
// Remove prefix, e.g. property 'Number' is mapped from 'number', not 'orderNumber'
[EntityFilter(Prefix = "")]
public class Order
{
// 'Number' is removed from filter and will be ignored
[Filter(Filterable = false)]
public int Number { get; set; }
// 'Customer' is mapped from query-parameter 'customerName'
[Filter(Name = "CustomerName")]
public string Customer { get; set; }
}
Filter sets
Multiple entity filters can be combined to a set of filters using the EntityFilterSetAttribute
.
using Plainquire.Filter;
using Plainquire.Filter.Abstractions;
// Use
[HttpGet]
public Task<List<Order>> GetOrders([FromQuery] OrderFilterSet filterSet)
{
var order = filterSet.Order;
var orderItem = filterSet.OrderItem;
}
// Instead of
public Task<List<Order>> GetOrders([FromQuery] EntityFilter<Order> order, EntityFilter<OrderItem> orderItem) { ... }
[EntityFilterSet]
public class OrderFilterSet
{
public EntityFilter<Order> Order { get; set; }
public EntityFilter<OrderItem> OrderItem { get; set; }
}
Swagger / OpenAPI
Register OpenAPI support
Swagger / OpenAPI is supported when using Swashbuckle.AspNetCore.
Package Manager : Install-Package Plainquire.Filter.Swashbuckle
CLI : dotnet add package Plainquire.Filter.Swashbuckle
using Plainquire.Filter.Swashbuckle;
services.AddSwaggerGen(options =>
{
// Register filters used to modify swagger.json
options.AddFilterSupport();
});
Register XML documentation
To get descriptions for generated parameters from XML documentation, paths to documentation files can be provided.
services.AddSwaggerGen(options =>
{
var filterDoc = Path.Combine(AppContext.BaseDirectory, "Plainquire.Filter.xml");
options.AddFilterSupport(filterDoc);
options.IncludeXmlComments(filterDoc);
});
Support for Newtonsoft.Json
By default System.Text.Json
is used to serialize/convert Plainquire specific stuff. If you like to use Newtonsoft.Json you must register it:
Package Manager : Install-Package Plainquire.Filter.Mvc.Newtonsoft
CLI : dotnet add package Plainquire.Filter.Mvc.Newtonsoft
using Plainquire.Filter.Mvc.Newtonsoft;
// Register support for Newtonsoft by calling
// 'AddFilterNewtonsoftSupport()' on IMvcBuilder instance
services.AddControllers().AddFilterNewtonsoftSupport();
Interception
Creation of filter expression can be intercepted via IFilterInterceptor
. While implicit conversions to Func<TEntity, bool>
and Expression<Func<TEntity, bool>>
exists, explicit filter conversion is required to apply an interceptor.
var filter = new EntityFilter<Order>();
var interceptor = new FilterStringsCaseInsensitiveInterceptor();
var filterExpression = filter.CreateFilter(interceptor) ?? (x => true);
var filteredList = orders.Where(filterExpression.Compile());
var filteredDb = _dbContext.Orders.Where(filterExpression);
Default interceptor
A default interceptor can be provided via static IFilterInterceptor.Default
.
Sample interceptor
Interceptor to omit filter values having an empty value. Allows to omit filters added by empty query parameters (&birthday=
) but prevents filtering for empty strings (&name=
).
public class OmitEmptyFilterInterceptor : IFilterInterceptor
{
public Expression<Func<TEntity, bool>>? CreatePropertyFilter<TEntity>(PropertyInfo propertyInfo, IEnumerable<ValueFilter> filters, FilterConfiguration configuration)
{
var nonEmptyFilters = filters.Where(ValueIsNotNullOrEmpty).ToList();
var noFilterRequired = nonEmptyFilters.Count == 0;
return noFilterRequired
? PropertyFilterExpression.EmptyFilter<TEntity>()
: PropertyFilterExpression.CreateFilter<TEntity>(propertyInfo, nonEmptyFilters, configuration, this);
}
private static bool ValueIsNotNullOrEmpty(ValueFilter valueFilter)
=> !string.IsNullOrEmpty(valueFilter.Value);
Func<DateTimeOffset> IFilterInterceptor.Now => () => DateTimeOffset.Now;
}
Advanced scenarios
Deep copy
The EntityFilter<T>
class supports deep cloning by calling the Clone()
method
var copy = filter.Clone();
Casting
Filters can be cast between entities, e.g. to convert them between DTOs and database models.
Properties are matched by type (check if assignable) and name (case-sensitive)
var dtoFilter = new EntityFilter<OrderDto>().Add(...);
var orderFilter = dtoFilter.Cast<Order>();
Serialization
Using System.Text.Json
Objects of type EntityFilter<T>
can be serialized via System.Text.Json.JsonSerializer
without further requirements
var json = JsonSerializer.Serialize(filter);
filter = JsonSerializer.Deserialize<EntityFilter<Order>>(json);
Using Newtonsoft.Json
When using Newtonsoft.Json
additional converters are required
Package Manager : Install-Package Plainquire.Filter.Newtonsoft
CLI : dotnet add package Plainquire.Filter.Newtonsoft
using Plainquire.Filter.Newtonsoft;
var json = JsonConvert.SerializeObject(filter, JsonConverterExtensions.NewtonsoftConverters);
filter = JsonConvert.DeserializeObject<EntityFilter<Order>>(json, JsonConverterExtensions.NewtonsoftConverters);
Combine filter expressions
To add custom checks to a filter either call .Where(...)
again
var filteredOrders = orders
.Where(filter)
.Where(item => item.Items.Count > 2);
or where this isn't possible combine filters with CombineWithConditionalAnd
using Plainquire.Filter.Abstractions;
var extendedFilter = new[]
{
filter.CreateFilter(),
item => item.Items.Count > 2
}
.CombineWithConditionalAnd();
var filteredOrders = orders.Where(extendedFilter.Compile());
Sort entities
Basic usage
Install NuGet packages
Package Manager : Install-Package Plainquire.Sort
CLI : dotnet add package Plainquire.Sort
Create a sort
using Plainquire.Sort;
var orders = new[] {
new Order { Customer = "Joe Miller", Number = 100 },
new Order { Customer = "Joe Smith", Number = 200 },
new Order { Customer = "Joe Smith", Number = 300 },
};
// Create sort
var sort = new EntitySort<Order>()
.Add(x => x.Customer, SortDirection.Ascending)
.Add(x => x.Number, SortDirection.Descending);
// Print sort
Console.WriteLine($"{orders.OrderBy(sort)}");
// Output: orders.OrderBy(x => IIF((x == null), null, x.Customer)).ThenByDescending(x => x.Number)
// Use sort with LINQ
var sortedOrders = orders.OrderBy(sort).ToList();
// Or queryables (e.g. Entity Framework)
var sortedOrders = dbContext.Orders.OrderBy(sort).ToList();
[EntityFilter]
public class Order
{
public int Number { get; set; }
public string Customer { get; set; }
}
Or bind sort from query-parameters
using Plainquire.Sort;
[HttpGet]
public Task<List<Order>> GetOrders([FromQuery] EntitySort<Order> sort)
{
return dbContext.Orders.OrderBy(sort).ToList();
}
Configure sorting
Generated sort expression can be configured via SortConfiguration
.
Create configuration
using Plainquire.Sort.Abstractions;
var configuration = new SortConfiguration();
configuration.AscendingPostfixes.Add("^");
Provide configuration
// For MVC model binding via dependency injection
services.Configure<SortConfiguration>(c => c.IgnoreParseExceptions = true);
// Via constructor
new EntitySort<Order>(configuration);
// Via static default
SortConfiguration.Default
Configuration reference
Configuration | Description |
---|---|
AscendingPrefixes |
Prefixes used to identify an ascending sort order |
AscendingPostfixes |
Postfixes used to identify an ascending sort order |
DescendingPrefixes |
Prefixes used to identify a descending sort order |
DescendingPostfixes |
Postfixes used to identify a descending sort order |
IgnoreParseExceptions |
Return source.OrderBy(x => 0) in case of any exception while parsing the value |
UseConditionalAccess |
Controls the use of conditional access to navigation properties (e.g. person => person?.Name ) |
CaseInsensitivePropertyMatching |
Indicates whether to use case-insensitive property matching |
Sort entities
// Order is sorted by `Address` ascending.
var sort = new EntitySort<Order>();
// via operator
sort.Add(x => x.Address, SortDirection.Ascending);
// via syntax
sort.Add("Address-asc")
// via query parameter
var getOrdersUrl = "/GetOrders?orderBy=customer-asc"
Sort nested entities
Nested objects are sorted directly (x=> x.OrderBy(order => order.Customer)
).
Deep property paths (e.g. order => order.Customer.Length
) are supported.
Methods calls (e.g. order => order.Customer.SubString(1)
) are not supported for security reasons.
Nested lists cannot be sorted directly. You can create an own EntitySort
for it and sort the nested list by.
// Create sort
var addressSort = new EntitySort<Address>()
.Add(x => x.City);
// AddNested() is equivalent to adding the paths directly
var orderSort = new EntitySort<Order>()
.AddNested(x => x.Address, addressSort);
// Is equivalent to AddNested() above
var orderSort = new EntitySort<Order>()
.Add(x => x.Address.City, SortDirection.Ascending);
// Print sort
Console.WriteLine(orders.OrderBy(orderSort).ToString());
// Output:
// orders => orders.OrderBy(x => IIF((IIF((x == null), null, x.Address) == null), null, x.Address.City))
public class Order
{
public int Number { get; set; }
public string Customer { get; set; }
public Address Address { get; set; }
}
public record Address(string Street, string City);
Retrieve syntax and sort direction
var orderSort = new EntitySort<Order>()
.Add(x => x.Customer, SortDirection.Ascending);
// Retrive sort syntax
var syntax = orderSort.GetPropertySortSyntax(x => x.Customer);
// Output: Customer-asc
// Retrive sort direction
var direction = orderSort.GetPropertySortDirection(x => x.Customer);
// Output: Ascending
// Retrive sort expression string:
var orderExpression = orders.OrderBy(orderSort).ToString()
REST / MVC
To sort an entity via model binding, the entity must be marked with EntityFilterAttribute
Register model binders
Package Manager : Install-Package Plainquire.Sort.Mvc
CLI : dotnet add package Plainquire.Sort.Mvc
using Plainquire.Sort.Mvc;
// Register required stuff by calling 'AddSortSupport()' on IMvcBuilder instance
services.AddControllers().AddSortSupport();
Map HTTP query parameter to EntitySort
With model binding enabled, REST requests can be sorted using query parameter orderBy
.
using Plainquire.Sort;
var getOrdersUrl = "/GetOrders?orderBy=customer,number-desc"
[HttpGet]
public Task<List<Order>> GetOrders([FromQuery] EntitySort<Order> sort)
{
var orders = new List<Order>();
var sortedOrders = orders.OrderBy(sort);
Console.WriteLine($"{sortedOrders.OrderBy(sort)}");
// Output: orders.OrderBy(x => IIF((x == null), null, x.Customer)).ThenByDescending(x => x.Number)
var queryParams = sort.ToString();
// Output: Customer-asc, Number-desc
}
Configure model binding
By default, parameters for properties of sorted entity are named {Entity}{Property}
.
By default, all public non-complex properties (string
, int
, DateTime
, ...) are recognized.
Parameters can be renamed or removed using FilterAttribute
and EntityFilterAttribute
.
For the code below Number
is not mapped anymore and Customer
becomes CustomerName
.
using Plainquire.Filter.Abstractions;
// Remove prefix, e.g. property 'Number' is mapped from 'number', not 'orderNumber'
// Use 'sortBy' as query parameter name instead of default 'orderBy'
[EntityFilter(Prefix = "")]
public class Order
{
// 'Number' is removed from sort and will be ignored
[Filter(Sortable = false)]
public int Number { get; set; }
// 'Customer' is mapped from query-parameter 'customerName'
[Filter(Name = "CustomerName")]
public string Customer { get; set; }
}
Order sets
Multiple entity sorts can be combined to a set of filters using the EntitySortSetAttribute
.
using Plainquire.Sort;
using Plainquire.Sort.Abstractions;
// Use
[HttpGet]
public Task<List<Order>> GetOrders([FromQuery] OrderSortSet orderSet)
{
var orderSort = orderSet.Order;
var orderItemSort = orderSet.OrderItem;
}
// Instead of
public Task<List<Order>> GetOrders([FromQuery] EntitySort<Order> orderSort, EntitySort<OrderItem> orderItemSort) { ... }
[EntitySortSet]
public class OrderSortSet
{
public EntitySort<Order> Order { get; set; }
public EntitySort<OrderItem> OrderItem { get; set; }
}
Swagger / OpenAPI
Register OpenAPI support
Swagger / OpenAPI is supported when using Swashbuckle.AspNetCore.
Package Manager : Install-Package Plainquire.Sort.Swashbuckle
CLI : dotnet add package Plainquire.Sort.Swashbuckle
using Plainquire.Sort.Swashbuckle;
services.AddSwaggerGen(options =>
{
// Register filters used to modify swagger.json
options.AddSortSupport();
});
Support for Newtonsoft.Json
By default, System.Text.Json
is used to serialize/convert Plainquire specific stuff. If you like to use Newtonsoft.Json you must register it.
Package Manager : Install-Package Plainquire.Sort.Mvc.Newtonsoft
CLI : dotnet add package Plainquire.Sort.Mvc.Newtonsoft
using Plainquire.Sort.Mvc.Newtonsoft;
// Register support for Newtonsoft by calling
// 'AddSortNewtonsoftSupport()' on IMvcBuilder instance
services.AddControllers().AddSortNewtonsoftSupport();
Interception
Creation of sort expression can be intercepted via ISortInterceptor
.
var sort = new EntitySort<Order>();
var interceptor = new CaseInsensitiveSortInterceptor();
var filtered = orders.OrderBy(sort, interceptor);
A default interceptor can be provided via static ISortInterceptor.Default
.
Advanced scenarios
Deep copy
The EntitySort<T>
class supports deep cloning by calling the Clone()
method
var copy = sort.Clone();
Casting
Sorting can be cast between entities, e.g. to convert them between DTOs and database models.
Properties are matched by type (check if assignable) and name (case-sensitive)
var dtoSort = new EntitySort<OrderDto>().Add(...);
var orderSort = dtoSort.Cast<Order>();
Serialization
Using System.Text.Json
Objects of type EntitySort<T>
can be serialized via System.Text.Json.JsonSerializer
without further requirements
var json = JsonSerializer.Serialize(sort);
sort = JsonSerializer.Deserialize<EntitySort<Order>>(json);
Using Newtonsoft.Json
When using Newtonsoft.Json
additional converters are required
Package Manager : Install-Package Plainquire.Sort.Newtonsoft
CLI : dotnet add package Plainquire.Sort.Newtonsoft
using Plainquire.Sort.Newtonsoft;
var json = JsonConvert.SerializeObject(sort, JsonConverterExtensions.NewtonsoftConverters);
sort = JsonConvert.DeserializeObject<EntitySort<Order>>(json, JsonConverterExtensions.NewtonsoftConverters);
Page Entities
Basic usage
Install NuGet packages
Package Manager : Install-Package Plainquire.Page
CLI : dotnet add package Plainquire.Page
Create a page
using Plainquire.Page;
// Direct pageing is the preferred way
var pagedOrders = orders.Page(pageNumber: 2, pageSize: 3).ToList();
// Alternative, create a EntityPage object
var page = new EntityPage(pageNumber: 2, pageSize: 3);
// Use page with LINQ
var pagedOrders = orders.Page(page).ToList();
// Or queryables (e.g. Entity Framework)
var pagedOrders = dbContext.Orders.Page(page).ToList();
Configure pagination
Create configuration
using Plainquire.Page.Abstractions;
var configuration = new PageConfiguration() { IgnoreParseExceptions = true };
Provide configuration
// For MVC model binding via dependency injection
services.Configure<PageConfiguration>(c => c.IgnoreParseExceptions = true);
// Via constructor
new EntityPage<Order>(configuration);
// Via static default
PageConfiguration.Default
Configuration reference
Configuration | Description |
---|---|
IgnoreParseExceptions |
Omit paging in case of any exception while parsing the value |
REST / MVC
To page an entity via model binding, the entity must be marked with EntityFilterAttribute
Register model binders
Package Manager : Install-Package Plainquire.Page.Mvc
CLI : dotnet add package Plainquire.Page.Mvc
using Plainquire.Page.Mvc;
// Register required stuff by calling 'AddPageSupport()' on IMvcBuilder instance
services.AddControllers().AddPageSupport();
Map HTTP query parameter to EntityPage
With model binding enabled, REST requests can be paged using query parameters page
and pageSize
.
using Plainquire.Page;
var getOrdersUrl = "/GetOrders?page=2&pageSize=3"
[HttpGet]
public Task<List<Order>> GetOrders([FromQuery] EntityPage<Order> page)
{
return dbContext.Orders.Page(page).ToList();
}
Configure model binding
Parameters can be renamed EntityFilterAttribute
.
For the code below page number is taken from query parameter pageNumber
and page size from size
.
using Plainquire.Filter.Abstractions;
[EntityFilter(PageNumberParameter = "pageNumber", PageSizeParameter = "size")]
public class Order
{
public string Customer { get; set; }
}
Swagger / OpenAPI
Register OpenAPI support
Swagger / OpenAPI is supported when using Swashbuckle.AspNetCore.
Package Manager : Install-Package Plainquire.Page.Swashbuckle
CLI : dotnet add package Plainquire.Page.Swashbuckle
using Plainquire.Page.Swashbuckle;
services.AddSwaggerGen(options =>
{
// Register filters used to modify swagger.json
options.AddPageSupport();
});
Support for Newtonsoft.Json
By default, System.Text.Json
is used to serialize/convert Plainquire specific stuff. If you like to use Newtonsoft.Json you must register it.
Package Manager : Install-Package Plainquire.Page.Mvc.Newtonsoft
CLI : dotnet add package Plainquire.Page.Mvc.Newtonsoft
using Plainquire.Page.Mvc.Newtonsoft;
// Register support for Newtonsoft by calling
// 'AddPageNewtonsoftSupport()' on IMvcBuilder instance
services.AddControllers().AddPageNewtonsoftSupport();
Interception
Creation of page expression can be intercepted via IPageInterceptor
.
var page = new EntityPage();
var interceptor = new PageBackwardInterceptor();
var paged = orders.Page(page, interceptor);
A default interceptor can be provided via static IPageInterceptor.Default
.
Advanced Scenarios
Deep copy
The EntityPage<T>
class supports deep cloning by calling the Clone()
method
var copy = page.Clone();
Serialization
Using System.Text.Json
Objects of type EntityPage<T>
can be serialized via System.Text.Json.JsonSerializer
without further requirements
var json = JsonSerializer.Serialize(page);
page = JsonSerializer.Deserialize<EntityPage<Order>>(json);
Using Newtonsoft.Json
When using Newtonsoft.Json
additional converters are required
Package Manager : Install-Package Plainquire.Page.Newtonsoft
CLI : dotnet add package Plainquire.Page.Newtonsoft
using Plainquire.Page.Newtonsoft;
var json = JsonConvert.SerializeObject(page, JsonConverterExtensions.NewtonsoftConverters);
sort = JsonConvert.DeserializeObject<EntityPage<Order>>(json, JsonConverterExtensions.NewtonsoftConverters);
Upgrade from FilterExpressionCreator
Install
Schick.FilterExpressionCreator*
4.7.x.Fix all warnings. This can largely be done by sear and replacing with regular expressions
- Search for:
FS.FilterExpressionCreator(\.Abstractions|Mvc|Mvc\.Newtonsoft|Newtonsoft)?(\.\w+)?
- Replace with:
Plainquire.Filter$1
- Search for:
\[FilterEntity(\(.*\))]
- Replace with:
[EntityFilter$1]
- Search for:
Fix remaining errors and warnings following description of breaking changes
Uninstall all
Schick.FilterExpressionCreator*
stuffInstall corresponding
Plainquire.*
packages
Product | Versions Compatible and additional computed target framework versions. |
---|---|
.NET | net5.0 was computed. net5.0-windows was computed. net6.0 was computed. net6.0-android was computed. net6.0-ios was computed. net6.0-maccatalyst was computed. net6.0-macos was computed. net6.0-tvos was computed. net6.0-windows was computed. net7.0 was computed. net7.0-android was computed. net7.0-ios was computed. net7.0-maccatalyst was computed. net7.0-macos was computed. net7.0-tvos was computed. net7.0-windows was computed. net8.0 was computed. net8.0-android was computed. net8.0-browser was computed. net8.0-ios was computed. net8.0-maccatalyst was computed. net8.0-macos was computed. net8.0-tvos was computed. net8.0-windows was computed. |
.NET Core | netcoreapp3.0 was computed. netcoreapp3.1 was computed. |
.NET Standard | netstandard2.1 is compatible. |
MonoAndroid | monoandroid was computed. |
MonoMac | monomac was computed. |
MonoTouch | monotouch was computed. |
Tizen | tizen60 was computed. |
Xamarin.iOS | xamarinios was computed. |
Xamarin.Mac | xamarinmac was computed. |
Xamarin.TVOS | xamarintvos was computed. |
Xamarin.WatchOS | xamarinwatchos was computed. |
-
.NETStandard 2.1
- Newtonsoft.Json (>= 13.0.3)
- Plainquire.Page (>= 5.3.0-beta2)
NuGet packages (1)
Showing the top 1 NuGet packages that depend on Plainquire.Page.Newtonsoft:
Package | Downloads |
---|---|
Plainquire.Page.Mvc.Newtonsoft
Easy filtering, sorting and paging for ASP.NET Core. |
GitHub repositories
This package is not used by any popular GitHub repositories.
Version | Downloads | Last updated |
---|---|---|
6.1.0 | 81 | 11/6/2024 |
6.1.0-beta1 | 60 | 11/6/2024 |
6.0.0 | 110 | 10/20/2024 |
6.0.0-beta1 | 89 | 10/20/2024 |
5.3.0-beta2 | 79 | 10/9/2024 |
5.3.0-beta1 | 90 | 10/8/2024 |
5.2.0 | 98 | 9/29/2024 |
5.1.1 | 117 | 9/2/2024 |
5.1.0 | 97 | 7/26/2024 |
5.0.1 | 154 | 5/2/2024 |
5.0.0 | 131 | 4/28/2024 |
5.0.0-alpha4 | 107 | 4/28/2024 |