NaryMaps 0.2.0

There is a newer version of this package available.
See the version list below for details.
dotnet add package NaryMaps --version 0.2.0                
NuGet\Install-Package NaryMaps -Version 0.2.0                
This command is intended to be used within the Package Manager Console in Visual Studio, as it uses the NuGet module's version of Install-Package.
<PackageReference Include="NaryMaps" Version="0.2.0" />                
For projects that support PackageReference, copy this XML node into the project file to reference the package.
paket add NaryMaps --version 0.2.0                
#r "nuget: NaryMaps, 0.2.0"                
#r directive can be used in F# Interactive and Polyglot Notebooks. Copy this into the interactive tool or source code of the script to reference the package.
// Install NaryMaps as a Cake Addin
#addin nuget:?package=NaryMaps&version=0.2.0

// Install NaryMaps as a Cake Tool
#tool nuget:?package=NaryMaps&version=0.2.0                

Generalizing dictionaries, multidictionaries, bidictionaries, dictionaries with multiple keys, etc

Dictionaries (also known as maps or associative arrays), along with their related friends, sets, are ubiquitous data structures in programming. They are used to store key-value pairs and allow fast additions, removals and accesses by key. In C#, the Dictionary<TKey, TValue> class is the most common implementation of a dictionary. However, there are many variations of dictionaries that are not directly supported by the Dictionary<TKey, TValue> class. For example, a multidictionary (also known as multimap) is a dictionary that maps a key to a collection of values. A bidictionary is a dictionary that maps keys to values and values to keys. A dictionary with multiple keys is a dictionary that maps multiple types of keys to the same values. This library provides a generalization of dictionaries that can be used to implement all these variations and more.

NaryMap as a set of tuples

A NaryMap always work as a set of tuples. To define one, you need to create a schema that defines the structure of the tuples. The schema is a class that inherits from the Schema<TDataTuple> class, where TDataTuple is the type of the tuple. The schema class must have a constructor that declares the components of the tuple (called Participant) and a property that returns the signature of the schema.

public sealed class MovieSchema : Schema<(string Eidr, int ReleaseYear, FilmGenre Genre, Director Director, Movie Movie)>
{
    public Participant<string> Eidr { get; }
    public Participant<Movie> Movie { get; }
    public Participant<Director> Director { get; }
    public Participant<int> ReleaseYear { get; }
    public Participant<FilmGenre> Genre { get; }

    protected override Signature Sign { get; }
    
    public MovieSchema()
    {
        Eidr = DeclareParticipant<string>();
        Movie = DeclareParticipant<Movie>();
        Director = DeclareParticipant<Director>();
        ReleaseYear = DeclareParticipant<int>();
        Genre = DeclareParticipant<FilmGenre>();
        
        Sign = Conclude(Eidr, ReleaseYear, Genre, Director, Movie);
    }
}

Creating a new instance of NaryMap is done by calling the New method of the NaryMap class, passing the schema as a type parameter. It is empty at creation.

var map = NaryMap.New<MovieSchema>();

You can use method AsSet() to convert the NaryMap to a set of tuples. The set is an instance of the ISet<TDataTuple> interface, where TDataTuple is the type of the tuple.

var movieSet = map.AsSet();
// ISet<(string Eidr, int ReleaseYear, FilmGenre Genre, Director Director, Movie Movie)>

movieSet.UnionWith(new (string Eidr, int ReleaseYear, FilmGenre Genre, Director Director, Movie Movie)[]
{
    ("10.5240/FCC9-10CF-EADA-1AF4-85FD-K", 2002, FilmGenre.Horror, Noé, new Movie("Irréversible")),
    ("10.5240/0FA3-5233-16EB-E2C9-FA15-Q", 2008, FilmGenre.Drama, Koreeda, new Movie("Aruitemo aruitemo")),
    ("10.5240/83C7-4830-5647-6F63-34FE-U", 2009, FilmGenre.Drama, Lanthimos, new Movie("Κυνόδοντας")),
    ("10.5240/D255-6ACB-F7CE-6F98-2F0A-A", 2009, FilmGenre.Fantasy, Noé, new Movie("Enter the void")),
    ("10.5240/1F6C-3084-485A-7DE6-83E2-P", 2009, FilmGenre.SciFi, Koreeda, new Movie("Kūki Ningyō")),
    ("10.5240/C770-FE58-9161-3C59-FE74-8", 2015, FilmGenre.Comedy, Lanthimos, new Movie("The Lobster")),
    ("10.5240/46A3-52CD-9113-A0E8-5763-0", 2015, FilmGenre.Erotic, Noé, new Movie("Love")),
    ("10.5240/96E5-9C79-CB1D-4FD7-5C86-H", 2018, FilmGenre.History, Lanthimos, new Movie("The Favourite")),
    ("10.5240/A9E0-6470-5F75-D926-2622-3", 2018, FilmGenre.Drama, Koreeda, new Movie("Manbiki Kazoku")),
    ("10.5240/7754-3475-E2CE-5EE4-1012-F", 2018, FilmGenre.Horror, Noé, new Movie("Climax")),
    ("10.5240/2A9A-64B2-0DBB-25D0-F53F-X", 2023, FilmGenre.Fantasy, Lanthimos, new Movie("Poor Things")),
});

Enumerating the set displays the following output:

(10.5240/FCC9-10CF-EADA-1AF4-85FD-K, 2002, Horror, «Gaspar Noé», «Irréversible»)
(10.5240/0FA3-5233-16EB-E2C9-FA15-Q, 2008, Drama, «Hirokazu Kore-eda», «Aruitemo aruitemo»)
(10.5240/83C7-4830-5647-6F63-34FE-U, 2009, Drama, «Yorgos Lanthimos», «Κυνόδοντας»)
(10.5240/D255-6ACB-F7CE-6F98-2F0A-A, 2009, Fantasy, «Gaspar Noé», «Enter the void»)
(10.5240/1F6C-3084-485A-7DE6-83E2-P, 2009, SciFi, «Hirokazu Kore-eda», «Kūki Ningyō»)
(10.5240/C770-FE58-9161-3C59-FE74-8, 2015, Comedy, «Yorgos Lanthimos», «The Lobster»)
(10.5240/46A3-52CD-9113-A0E8-5763-0, 2015, Erotic, «Gaspar Noé», «Love»)
(10.5240/96E5-9C79-CB1D-4FD7-5C86-H, 2018, History, «Yorgos Lanthimos», «The Favourite»)
(10.5240/A9E0-6470-5F75-D926-2622-3, 2018, Drama, «Hirokazu Kore-eda», «Manbiki Kazoku»)
(10.5240/7754-3475-E2CE-5EE4-1012-F, 2018, Horror, «Gaspar Noé», «Climax»)
(10.5240/2A9A-64B2-0DBB-25D0-F53F-X, 2023, Fantasy, «Yorgos Lanthimos», «Poor Things»)

and you can use usual set methods:

var m1 = ("10.5240/A9E0-6470-5F75-D926-2622-3", 2018, FilmGenre.Drama, Koreeda, new Movie("Manbiki Kazoku"));
var m2 = ("10.5240/BC46-2751-9A86-763E-5848-7", 2019, FilmGenre.Drama, Noé, new Movie("Lux Æterna"));

Console.WriteLine(movieSet.Contains(m1));
// True

Console.WriteLine(movieSet.Contains(m2));
// False

NaryMap as a dictionary

Using a NaryMap as a set of tuple is convenient, but it does not really bring anything new compared to a HashSet<TDataTuple>. The real power of NaryMap comes from defining schemas where additional constraints are imposed on the tuples. For example, you can define alter the previous schema for movies by declaring the participant string Eidr to be unique. This way you look up a movie tuple by its EIDR component. This is done by declaring the first component as a UniqueSearchableParticipant<Eidr> instead of a Participant<Eidr>. The UniqueSearchableParticipant<T> class is a subclass of Participant<T> that imposes the uniqueness constraint:

public sealed class MovieSchema : Schema<(string Eidr, int ReleaseYear, FilmGenre Genre, Director Director, Movie Movie)>
{
    public UniqueSearchableParticipant<string> Eidr { get; }
    …
    public MovieSchema()
    {
        Eidr = DeclareUniqueSearchableParticipant<string>();
        …
    }
}

It is now possible to convert the NaryMap to a dictionary using the With(participantSelector).AsReadOnlyDictionary() method. The dictionary is an instance of the IReadOnlyDictionary<TKey, TDataTuple> interface.

var movieDataByEidr = map.With(s => s.Eidr).AsReadOnlyDictionary();
// IReadOnlyDictionary<string, (string Eidr, int ReleaseYear, FilmGenre Genre, Director Director, Movie Movie)>

Enumerating this dictionary displays the following output:

10.5240/FCC9-10CF-EADA-1AF4-85FD-K → (10.5240/FCC9-10CF-EADA-1AF4-85FD-K, 2002, Horror, «Gaspar Noé», «Irréversible»)
10.5240/0FA3-5233-16EB-E2C9-FA15-Q → (10.5240/0FA3-5233-16EB-E2C9-FA15-Q, 2008, Drama, «Hirokazu Kore-eda», «Aruitemo aruitemo»)
10.5240/83C7-4830-5647-6F63-34FE-U → (10.5240/83C7-4830-5647-6F63-34FE-U, 2009, Drama, «Yorgos Lanthimos», «Κυνόδοντας»)
10.5240/D255-6ACB-F7CE-6F98-2F0A-A → (10.5240/D255-6ACB-F7CE-6F98-2F0A-A, 2009, Fantasy, «Gaspar Noé», «Enter the void»)
10.5240/1F6C-3084-485A-7DE6-83E2-P → (10.5240/1F6C-3084-485A-7DE6-83E2-P, 2009, SciFi, «Hirokazu Kore-eda», «Kūki Ningyō»)
10.5240/C770-FE58-9161-3C59-FE74-8 → (10.5240/C770-FE58-9161-3C59-FE74-8, 2015, Comedy, «Yorgos Lanthimos», «The Lobster»)
10.5240/46A3-52CD-9113-A0E8-5763-0 → (10.5240/46A3-52CD-9113-A0E8-5763-0, 2015, Erotic, «Gaspar Noé», «Love»)
10.5240/96E5-9C79-CB1D-4FD7-5C86-H → (10.5240/96E5-9C79-CB1D-4FD7-5C86-H, 2018, History, «Yorgos Lanthimos», «The Favourite»)
10.5240/A9E0-6470-5F75-D926-2622-3 → (10.5240/A9E0-6470-5F75-D926-2622-3, 2018, Drama, «Hirokazu Kore-eda», «Manbiki Kazoku»)
10.5240/7754-3475-E2CE-5EE4-1012-F → (10.5240/7754-3475-E2CE-5EE4-1012-F, 2018, Horror, «Gaspar Noé», «Climax»)
10.5240/2A9A-64B2-0DBB-25D0-F53F-X → (10.5240/2A9A-64B2-0DBB-25D0-F53F-X, 2023, Fantasy, «Yorgos Lanthimos», «Poor Things»)

and you can use usual dictionary methods:

Console.WriteLine(movieDataByEidr["10.5240/A9E0-6470-5F75-D926-2622-3"]);
// (10.5240/A9E0-6470-5F75-D926-2622-3, 2018, Drama, «Hirokazu Kore-eda», «Manbiki Kazoku»)
Console.WriteLine(movieDataByEidr.ContainsKey("10.5240/BC46-2751-9A86-763E-5848-7"));
// False

You can also restrict the value type by providing a selector function to the AsReadOnlyDictionary method. For example, you can create a dictionary that maps EIDRs to movies:

var movieByEidr = map.With(s => s.Eidr).AsReadOnlyDictionary(t => t.Movie);
// IReadOnlyDictionary<string, Movie>

Enumerating this dictionary displays the following output:

10.5240/FCC9-10CF-EADA-1AF4-85FD-K → «Irréversible»
10.5240/0FA3-5233-16EB-E2C9-FA15-Q → «Aruitemo aruitemo»
10.5240/83C7-4830-5647-6F63-34FE-U → «Κυνόδοντας»
10.5240/D255-6ACB-F7CE-6F98-2F0A-A → «Enter the void»
10.5240/1F6C-3084-485A-7DE6-83E2-P → «Kūki Ningyō»
10.5240/C770-FE58-9161-3C59-FE74-8 → «The Lobster»
10.5240/46A3-52CD-9113-A0E8-5763-0 → «Love»
10.5240/96E5-9C79-CB1D-4FD7-5C86-H → «The Favourite»
10.5240/A9E0-6470-5F75-D926-2622-3 → «Manbiki Kazoku»
10.5240/7754-3475-E2CE-5EE4-1012-F → «Climax»
10.5240/2A9A-64B2-0DBB-25D0-F53F-X → «Poor Things»

NaryMap as a dictionary of enumerable values

Sometimes you want to look using a key that is not unique. For example, you may want to look up movies by their director. This is done by declaring the Director participant as a SearchableParticipant<Director> instead of a Participant<Director>. The SearchableParticipant<T> class is a subclass of Participant<T> that allows a participant to be used as a search key. However, contrary to UniqueSearchableParticipant<T>, multiple tuples can share the same key:

public sealed class MovieSchema : Schema<(string Eidr, int ReleaseYear, FilmGenre Genre, Director Director, Movie Movie)>
{
    …
    public SearchableParticipant<Director> Director { get; }
    …
    public MovieSchema()
    {
        …
        Director = DeclareSearchableParticipant<Director>();
        …
    }
}

It is now possible to convert the NaryMap to a dictionary of enumerable values using the With(participantSelector).AsReadOnlyDictionaryOfEnumerable() method. The result is an instance of the IReadOnlyDictionary<TKey, IEnumerable<TDataTuple>> type.

var movieDataByDirector = map.With(s => s.Director).AsReadOnlyDictionaryOfEnumerable();
// IReadOnlyDictionary<Director, IEnumerable<(string Eidr, int ReleaseYear, FilmGenre Genre, Director Director, Movie Movie)>>

As with dictionaries, you can restrict the value type by providing a selector function to the AsReadOnlyDictionaryOfEnumerable method. For example, you can create a dictionary that maps directors to release years:

var releaseYearsByDirector = map.With(s => s.Director).AsReadOnlyDictionaryOfEnumerable(t => t.ReleaseYear);
// IReadOnlyDictionary<Director, IEnumerable<int>>

NaryMap as a multidictionary

In NaryMap library, multidictionaries are represented by the interface IReadOnlyMultiDictionary<TKey, TValue>. This interface is similar to the IReadOnlyDictionary<TKey, IEnumerable<TValue>> interface, but it has a slightly different behaviour. For example the Count property returns the total number of pairs in the multidictionary, not the number of keys. A multidictionary is a collection of KeyValuePair<TKey, TValue> where keys can be repeated on enumeration as they may be associated with multiple values. Similarly to previous projection methods, you can use AsReadOnlyMultiDictionary to create a multidictionary. It comes in two flavors~: one with and one without a value selector~:

var movieDataByDirector = map.With(s => s.Director).AsReadOnlyMultiDictionary();
// IReadOnlyMultiDictionary<Director, (string Eidr, int ReleaseYear, FilmGenre Genre, Director Director, Movie Movie)>
var releaseYearsByDirector = map.With(s => s.Director).AsReadOnlyMultiDictionary(t => t.ReleaseYear);
// IReadOnlyMultiDictionary<Director, int>

Composites

Sometimes you do not want to access the data in the NaryMap using more than a single participant. For example, you may want to look up movies by combining their genre and release year. This is done by declaring a composite property YearAndGenre like in the following schema:

public sealed class MovieSchema : Schema<(string Eidr, int ReleaseYear, FilmGenre Genre, Director Director, Movie Movie)>
{
    …
    public Composite<(int, FilmGenre)> YearAndGenre { get; }
    …
    public MovieSchema()
    {
        …
        YearAndGenre = DeclareComposite(ReleaseYear, Genre);
        …
    }
}

Composites are always searchable. This means you can use them to convert the NaryMap to a dictionary of enumerable by calling With(compositeSelector).AsReadOnlyDictionaryOfEnumerable() or to a multidictionary by calling With(compositeSelector).AsReadOnlyMultiDictionary(). Similarly to participants, you can also declare composites to be unique by using the UniqueComposite<T> class and DeclareUniqueComposite<T1, …, Tn>() methods. You then can convert the NaryMap to a dictionary using the With(compositeSelector).AsReadOnlyDictionary() method.

Product Compatible and additional computed target framework versions.
.NET net5.0 was computed.  net5.0-windows was computed.  net6.0 is compatible.  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.  net6.0-windows7.0 is compatible.  net7.0 is compatible.  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.  net7.0-windows7.0 is compatible.  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-windows7.0 is compatible. 
.NET Core netcoreapp3.0 was computed.  netcoreapp3.1 is compatible. 
.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. 
Compatible target framework(s)
Included target framework(s) (in package)
Learn more about Target Frameworks and .NET Standard.
  • .NETCoreApp 3.1

    • No dependencies.
  • .NETStandard 2.1

    • No dependencies.
  • net6.0

    • No dependencies.
  • net6.0-windows7.0

    • No dependencies.
  • net7.0

    • No dependencies.
  • net7.0-windows7.0

    • No dependencies.
  • net8.0

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  • net8.0-windows7.0

    • No dependencies.

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Version Downloads Last updated
1.0.1 91 10/20/2024
1.0.0 80 10/13/2024
0.2.0 116 9/15/2024
0.1.0 107 9/7/2024