TopMarksDevelopment.ExpressionBuilder.Operations.NotEqual
0.3.0-beta
See the version list below for details.
dotnet add package TopMarksDevelopment.ExpressionBuilder.Operations.NotEqual --version 0.3.0-beta
NuGet\Install-Package TopMarksDevelopment.ExpressionBuilder.Operations.NotEqual -Version 0.3.0-beta
<PackageReference Include="TopMarksDevelopment.ExpressionBuilder.Operations.NotEqual" Version="0.3.0-beta" />
paket add TopMarksDevelopment.ExpressionBuilder.Operations.NotEqual --version 0.3.0-beta
#r "nuget: TopMarksDevelopment.ExpressionBuilder.Operations.NotEqual, 0.3.0-beta"
// Install TopMarksDevelopment.ExpressionBuilder.Operations.NotEqual as a Cake Addin #addin nuget:?package=TopMarksDevelopment.ExpressionBuilder.Operations.NotEqual&version=0.3.0-beta&prerelease // Install TopMarksDevelopment.ExpressionBuilder.Operations.NotEqual as a Cake Tool #tool nuget:?package=TopMarksDevelopment.ExpressionBuilder.Operations.NotEqual&version=0.3.0-beta&prerelease
Expression Builder
If you're looking for a library to help you easily build lambda expressions, look no further than the Expression Builder package. With this library you can quickly create a filter that can be applied to lists and database queries; even dynamically. Plus, it's packed with some great features too!
Contents
- Features
- Installation
- Suggestions & Issues
- Conventions (ref by string)
- Examples
- Built-in operations
- You can check these too:
Features
The Expression Builder offers a wide range of features, including:
- Chain fluently from your
IQueryable
/IEnumerable
collections. (See examples here) - The ability to save queries for later re-execution by serializing them to JSON strings or a
byte[]
(for compact storage). - Method support, referred to as "manipulators". So, you can do
x => x.Name.Replace(" ", "")
! - Built-in null checks
- The ability to handle complex expressions, including
IEnumerable<>
properties and groups (i.e.(x || y) && z
). - The ability to reference properties in two ways: by property expression (
x => x.Name
) or by string, such as "Name" (when following these conventions). - The ability to build queries in two ways: by using the
Add
method or by using the extension methods for each operation (i.e..Equal(...)
), which can both be chained together or added statement by statement. - A variety of built-in operations, including the powerful
SmartSearch
method- plus, build your own using the API!
(All operations use the API. So any one of these can start you off on building your own)
- plus, build your own using the API!
- The ability to match lists of values, such as finding "John" and "Jess" (See example here)
Installation
To install the Expression Builder, you can use the .NET CLI, Package Manager console, or another method of your choice. You can find these installation methods and more information about the package on the NuGet package. For example, to install the package using the .NET CLI, run the following command:
dotnet add package TopMarksDevelopment.ExpressionBuilder
Suggestions & Issues
If you find any errors or realise there's a missing feature, feel free to leave comments or open issues.
Conventions (reference by strings)
If you opt to add filters using string
references you must follow these conventions to reference properties, child properties or properties of item arrays.
- A property can be referenced by its name alone (so
Id
,Name
,Gender
, etc.) - One-to-one relationships need only a dot to separate them. This means a persons' "Birth Country" is referenced simply by
Birth.Country
- again, with correctly referenced names - A collection can also be referenced by placing
[]
after the name. So, a person (with multiple contact points) can have their "Contacts Type" referenced byContacts[].Type
- Manipulators must be applied to the
options
property
Examples
All examples are based on the below set of classes
<details> <summary>Example classes</summary>
public class Person
{
public int Id { get; set; }
public string Name { get; set; }
public PersonGender Gender { get; set; }
public BirthData Birth { get; set; }
public List<Contact> Contacts { get; private set; }
public Company Employer { get; set; }
}
public enum PersonGender
{
Male,
Female,
Other,
PreferNotToSay
}
public class BirthData
{
public DateTime Date { get; set; }
public string Country { get; set; }
}
public class Contact
{
public ContactType Type { get; set; }
public string Value { get; set; }
public string Comments { get; set; }
}
public enum ContactType
{
Telephone,
Email
}
public class Company {
public string Name { get; set; }
public string Industry { get; set; }
}
</details>
Using Filter<TClass>
We can use the main class of this package directly, the Filter<TClass>
class.
These examples use the string notation on both the fluent API and Add
notion, though you can always use the built-in named
method calls
// Chain calls to build your query
var filter = new Filter<Person>();
filter.Add("Id", Operation.Between, 2, 4)
.And().Add("Birth.Country", Operation.IsNotNull)
.And().Add("Contacts[].Value", Operation.EndsWith, "@email.com")
.Or().Add("Name", Operation.SmartSearch, "\"John\"");
// Add each statement line by line
var filter = new Filter<Person>();
filter.Add("Id", Operation.Between, 2, 4, Connector.And);
filter.Add("Contacts[].Value", Operation.EndsWith, "@email.com", Connector.And);
filter.Add("Birth.Country", Operation.IsNotNull, Connector.Or);
filter.Add("Name", Operation.SmartSearch, "\"John\"");
var people = People.Where(filter);
// Now apply either of these filters
var people = People.Where(filter);
Matching lists
If you find yourself needing the same operation but with different terms you can save repeating lines thanks to list matching. Just pass an array of the type and it will query all those terms - on one line!
Let's say we want to find a "Bright Blue Bicycle"! Simple, split the term and filter by it.
var filter = new Filter<Products>();
var termArr = "Bright Blue Bicycle".Split(' ');
var options = new FilterStatementOptions() { Match = Matches.All };
// Connector and Matches are defaulted.
// So, giving an array works in the same way. No extra code required!
// Note: the default for "Contains" is any
filter.Contains(x => x.Name, termArr);
// or
// Declare `options`, so we're matching all!
filter.Contains("Name", termArr, options);
// or
// Declare `options` and `connector` too if you want/need to
filter.Contains("Name", termArr, options, Connector.And);
Complex expressions
Complex expressions are handled by grouping filter statements, like in the example below.
Here we are using the fluent API with property expressions on a filter class:
var filter = new Filter<People>();
filter
.OpenGroup()
.OpenGroup()
.DoesNotContain(p => p.Name, "doe")
.Or()
.OpenGroup()
.EndsWith(p => p.Name, "Doe")
.Or()
.StartsWith(p => p.Name, "Jo")
.CloseGroup()
.CloseGroup()
.And()
.IsNull(p => p.Employer)
.CloseGroup()
.Or()
.Equal(p => p.Birth.Country, "USA");
// Now let's apply the filter to our DB Context
var people = myDbContext.People.Where(filter);
This would produce an expression like this: (Excluding all the NotNull
checks and .Trim().ToLower()
functions)
myDbContext.People
.Where(p => ( ( !p.Name.Contains("doe") || ( p.Name.EndsWith("Doe") || p.Name.StartsWith("Jo") ) ) && p.Employer == null ) && p.Birth.Country == "USA" );
Every time you start a group that means all further statements will be at the same "parenthesis" until CloseGroup is called. You can even add groups to groups! (For those super complex expressions)
Extending IQueryable<TClass>
or IEnumerable<TClass>
You can also filter directly from your enumerable to simplify and improve the readability of your code.
- Call
.ToFilterable()
on yourIEnumerable
- Or query the DB context fluently after calling
.AsFilterable()
on yourIQueryable
After this, you will have access to a bunch of new methods!
This example uses the fluent API and (mostly) property expressions
var filteredPeople =
myDbContext.People
.AsFilterable()
.Equal(x => x.Id, 1)
.Or()
.OpenCollection(x => x.Contacts)
// We're now bound to the Contact type
.EndsWith(x => x.Value, "@email.com")
.Or()
.StartsWith(x => x.Comment, "Test")
// We add this type to correct the reference
.CloseCollection<Person>()
// or use an the expression `x => x.Person` (if that property exists)
.Or()
// We can use the string notion too
.EndsWith("Contacts[].Value", "@email.com");
SmartSearch
This package also includes a handy method called SmartSearch
. This allows you to pass a single term (or a string[]
of terms) to be subject to some "smart" checks:
- A term inside quotes (i.e.
"Blue"
) will search for this exact term; meaning it's not buried inside a word (so,Steelblue
will not be included) - A term with a leading hyphen (i.e.
-bright
) will exclude anything containing this term. You can also enclose the term in quotes to exclude an exact word/set of words (i.e.-"bright"
) - Otherwise, it will search if it contains that term
⚠ A single value will be treated as a single term (regardless of spaces) - it must be parsed. Use
SmartSearch.SplitTerm(string input)
to parse a string (see the example)
This example uses property expressions on a filterable IQueryable
var term = "Term1 Term2 -IgnoreTerm3 \"Exact term\" -\"Ignore exact term\"";
var smartTerms = SmartSearch.SplitTerm(term);
// smartTerms is now an array as shown below
// [ Term1, Term2, -IgnoreTerm3, "Exact term", -"Ignore exact term"];
var filteredPeople =
myDbContext.People
.AsFilterable()
.SmartsSearch(x => x.Name, smartTerms);
Serialization
You can serialize an expression, getting two different outputs:
- a JSON string (for a human-friendly version)
- a
byte[]
(for more compact storage on disk or a DB)
JSON serialisation
using System.Text.Json;
// Create the filter
var filter = new Filter<Category>();
// Build the filter
filter
.OpenCollection(x => x.Products)
.Equal(x => x.Name, "Product 2").Or
.Equal(x => x.Id, 2).Or
.OpenCollection(x => x.Categories)
.Equal(x => x.Id, 1).Or
.Equal(x => x.Id, 2)
.CloseCollection<Category>()
.CloseCollection<Category>().And
.Equal(x => x.Id, 2);
// To serialise the filter
var jsonString =
JsonSerializer.Serialize(_filter);
// To deserialise the filter
var filterFromJson =
JsonSerializer.Deserialize<Filter<Category>>(jsonString);
Byte[]
serialisation (ProtoBuf)
⚠ Important: For now serialization is under development. I'm looking at ways to improve/simplify further customisation.
As the FilterStatment<>
expects generic types, we wanted to ensure that the serialization order is maintained for the proper deserialization of data. To this there is a default order of the most generic types (detailed below). If your type isn't listed below then you must access the TypeTracker.FilterStatementTypes
static property and add to it - you can also decide to create your own set by replacing the values once at runtime.
<details> <summary>Default Type Order</summary>
Default numeric order of statement types
FieldNumber | Filter Statement Type |
---|---|
50 | FilterStatement<string> |
51 | FilterStatement<string?> |
52 | FilterStatement<int> |
53 | FilterStatement<int?> |
54 | FilterStatement<short> |
55 | FilterStatement<short?> |
56 | FilterStatement<long> |
57 | FilterStatement<long?> |
58 | FilterStatement<uint> |
59 | FilterStatement<uint?> |
60 | FilterStatement<ushort> |
61 | FilterStatement<ushort?> |
62 | FilterStatement<ulong> |
63 | FilterStatement<ulong?> |
64 | FilterStatement<byte> |
65 | FilterStatement<byte?> |
66 | FilterStatement<bool> |
67 | FilterStatement<bool?> |
68 | FilterStatement<DateTime> |
69 | FilterStatement<DateTime?> |
70 | FilterStatement<DateTimeOffset> |
71 | FilterStatement<DateTimeOffset?> |
72 | FilterStatement<DateOnly> |
73 | FilterStatement<DateOnly?> |
74 | FilterStatement<TimeOnly> |
75 | FilterStatement<TimeOnly?> |
76 | FilterStatement<float> |
77 | FilterStatement<float?> |
78 | FilterStatement<double> |
79 | FilterStatement<double?> |
</details>
// Using the `filter` that was built above
// Serialize to a file
using (var file = File.Create("./MyPath/File.dat"))
filter.SerializeTo(file);
// Deserialize from a file
using var rFile = File.OpenRead("./MyPath/File.dat");
var filterFromFile = Filter<Category>.DeserializeFrom(rFile);
// Serialize to a byte[]
filter.SerializeTo(out var bytes);
// Deserialize from a byte[]
var filterFromBytes = Filter<Category>.DeserializeFrom(bytes);
Built-in operations
These are all the operations included in the main package:
- Between
- NotBetween
- BetweenExclusive (excludes the min and max)
- NotBetweenExclusive (as above)
- Contains
- DoesNotContain
- EndsWith
- DoesNotEndWith
- Equal
- NotEqual
- GreaterThan
- GreaterThanOrEqual
- LessThan
- LessThanOrEqual
- IsEmpty
- IsNotEmpty
- IsNull
- IsNotNull
- IsNullOrWhiteSpace
- IsNotNullNorWhiteSpace
- SmartSearch
- StartsWith
- DoesNotStartWith
Product | Versions Compatible and additional computed target framework versions. |
---|---|
.NET | net8.0 is compatible. 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. |
-
net8.0
- TopMarksDevelopment.ExpressionBuilder.Api (>= 0.3.0-beta)
- TopMarksDevelopment.ExpressionBuilder.Operations.In (>= 0.3.0-beta)
NuGet packages (1)
Showing the top 1 NuGet packages that depend on TopMarksDevelopment.ExpressionBuilder.Operations.NotEqual:
Package | Downloads |
---|---|
TopMarksDevelopment.ExpressionBuilder
Easily build a filter that can be applied to lists and database queries (even dynamically). Packed with features, you can: easily convert API requests into expressions, save and re-run filters, have `NULL` checks done automatically, build complex queries with groups and so much more! |
GitHub repositories
This package is not used by any popular GitHub repositories.
Version | Downloads | Last updated |
---|---|---|
1.0.0-rc.1 | 51 | 9/19/2024 |
0.4.0-beta | 58 | 4/26/2024 |
0.3.0-beta | 57 | 4/25/2024 |
0.2.1-beta | 74 | 3/6/2024 |
0.2.0-beta | 71 | 2/28/2024 |
0.1.0-beta | 63 | 2/28/2024 |