66

I have two tables Country and Capital, I set Capital's primary key as foreign key which references Country's primary. But when I use Entity Framework database-first, the model is 1 to 0..1.

How does one create a one-to-one relationship in SQL Server?

enter image description here

2
  • 3
    In practice. Who needs a "real" one-to-one relationship? a relationship of type 1 to 0..1 is Ok and more natural and practical. It's like adding a nullable column to an existing table. Just make a foreign key unique. Apr 7 '19 at 6:57
  • Ask yourself «which table do I want to add records to first?» and then add the FK to the other. Jan 25 at 14:35
78

Set the foreign key as a primary key, and then set the relationship on both primary key fields. That's it! You should see a key sign on both ends of the relationship line. This represents a one to one.

enter image description here

Check this : SQL Server Database Design with a One To One Relationship

10
  • 27
    This will yield a 1 to 0..1 relationship in EF. Apr 24 '12 at 6:05
  • 4
    @ErikPhilips How can we achieve this by writing a query without using diagrams?
    – jason
    Jun 23 '14 at 12:04
  • @jason What do you mean, by writing a query? Do you mean to say, how do I create two tables with the relation ship Pranay described in T-SQL? Jul 29 '14 at 20:13
  • @ErikPhilips yes I meant that.
    – jason
    Jul 29 '14 at 20:29
  • 8
    Actually, there is no real need to use the Primary Key column in a Foreign Key constraint to achieve 1 to 0..1 relationship. The only thing that matters here is a UNIQUE constraint on the column used for Foreign Key in the second table. Btw, PK is always unique.
    – Orchidoris
    May 23 '17 at 8:03
78

I'm pretty sure it is technically impossible in SQL Server to have a True 1 to 1 relationship, as that would mean you would have to insert both records at the same time (otherwise you'd get a constraint error on insert), in both tables, with both tables having a foreign key relationship to each other.

That being said, your database design described with a foreign key is a 1 to 0..1 relationship. There is no constrain possible that would require a record in tableB. You can have a pseudo-relationship with a trigger that creates the record in tableB.

So there are a few pseudo-solutions

First, store all the data in a single table. Then you'll have no issues in EF.

Or Secondly, your entity must be smart enough to not allow an insert unless it has an associated record.

Or thirdly, and most likely, you have a problem you are trying to solve, and you are asking us why your solution doesn't work instead of the actual problem you are trying to solve (an XY Problem).

UPDATE

To explain in REALITY how 1 to 1 relationships don't work, I'll use the analogy of the Chicken or the egg dilemma. I don't intend to solve this dilemma, but if you were to have a constraint that says in order to add a an Egg to the Egg table, the relationship of the Chicken must exist, and the chicken must exist in the table, then you couldn't add an Egg to the Egg table. The opposite is also true. You cannot add a Chicken to the Chicken table without both the relationship to the Egg and the Egg existing in the Egg table. Thus no records can be every made, in a database without breaking one of the rules/constraints.

Database nomenclature of a one-to-one relationship is misleading. All relationships I've seen (there-fore my experience) would be more descriptive as one-to-(zero or one) relationships.

9
  • "...as that would mean you would have to insert both records at the same time" so one to many relationship means that you need to insert all the records at the same time? Apr 24 '12 at 6:28
  • No, because a one to many is actually 1 to 0..(x). There is still no requirement to have any records in the many relationship. :D (this is specifically regarding how EF describes relationships, not me) Apr 24 '12 at 6:30
  • 6
    @Igor: "there is such a thing as one-to-one relationship in the relation database theory" -- if you accept that such relationships exist in reality then we need a way of modelling them (and if our database systems can't handle them well then we should be demanding new systems!) Chris Date wrote a short but thorough paper on the subject of the nature of relationships and justifies a classification of 10 relationship types: All For One, One For All.
    – onedaywhen
    Apr 24 '12 at 7:43
  • 3
    I stated such 1 to 1 can exist using triggers (or any proc, that may even disable a constraint, and then enable it), but if you have to disable a constraint to add a row, you are circumventing the entire intention of the constraint in the first place. And PLEASE stop commenting on database theory, I'm trying to explain how it ACTUALLY works, especially in regards to Entity Framework. Apr 24 '12 at 15:13
  • 1
    @GlaucoCucchiar That is a term called 1-to-1 however, it is technically 1-to-0..1 AND in EF it will generate a 1-to-0..1 relationship. Oct 18 '18 at 16:25
44

This can be done by creating a simple primary foreign key relationship and setting the foreign key column to unique in the following manner:

CREATE TABLE [Employee] (
    [ID]    INT PRIMARY KEY
,   [Name]  VARCHAR(50)
);

CREATE TABLE [Salary] (
    [EmployeeID]    INT UNIQUE NOT NULL
,   [SalaryAmount]  INT 
);

ALTER TABLE [Salary]
ADD CONSTRAINT FK_Salary_Employee FOREIGN KEY([EmployeeID]) 
    REFERENCES [Employee]([ID]);

Schema

INSERT INTO [Employee] (
    [ID]
,   [Name]
)
VALUES
    (1, 'Ram')
,   (2, 'Rahim')
,   (3, 'Pankaj')
,   (4, 'Mohan');

INSERT INTO [Salary] (
    [EmployeeID]
,   [SalaryAmount]
)
VALUES
    (1, 2000)
,   (2, 3000)
,   (3, 2500)
,   (4, 3000);

Check to see if everything is fine

SELECT * FROM [Employee];
SELECT * FROM [Salary];

Now Generally in Primary Foreign Relationship (One to many), you could enter multiple times EmployeeID, but here an error will be thrown

INSERT INTO [Salary] (
    [EmployeeID]
,   [SalaryAmount]
)
VALUES
    (1, 3000);

The above statement will show error as

Violation of UNIQUE KEY constraint 'UQ__Salary__7AD04FF0C044141D'. Cannot insert duplicate key in object 'dbo.Salary'. The duplicate key value is (1).

6
  • 13
    This will yield a 1 to 0..1 relationship in Entity Framework. You created an Employee without an existing Salary already present. Nov 19 '15 at 14:28
  • I'm a Little curious on this last example. If one just added the Salary object into the Employee class, will I, without further doing, in EF, just be able to say in code: var salary = Employee(Id).Salary??? Jan 19 '16 at 8:46
  • 2
    Regardless of EF - can create an Employee all day without a salary. This is 1 to 0..1
    – timothy
    Apr 24 '19 at 12:23
  • This suppose to be checked as the BEST answer! I have implement exactly what @ashim has said, I have One to One relationship create on my SQL Server MS. Thank you Very much!!!! Aug 13 '19 at 12:53
  • @PatsonLeaner Well no, it is 1 to 0/1 as explained above. Erik's answer provides all the info. There are plenty of 1 to 0/1 answers on SO. Feb 22 at 15:35
5

There is one way I know how to achieve a strictly* one-to-one relationship without using triggers, computed columns, additional tables, or other 'exotic' tricks (only foreign keys and unique constraints), with one small caveat.

I will borrow the chicken-and-the-egg concept from the accepted answer to help me explain the caveat.

It is a fact that either a chicken or an egg must come first (in current DBs anyway). Luckily this solution does not get political and does not prescribe which has to come first - it leaves it up to the implementer.

The caveat is that the table which allows a record to 'come first' technically can have a record created without the corresponding record in the other table; however, in this solution, only one such record is allowed. When only one record is created (only chicken or egg), no more records can be added to any of the two tables until either the 'lonely' record is deleted or a matching record is created in the other table.

Solution:

Add foreign keys to each table, referencing the other, add unique constraints to each foreign key, and make one foreign key nullable, the other not nullable and also a primary key. For this to work, the unique constrain on the nullable column must only allow one null (this is the case in SQL Server, not sure about other databases).

CREATE TABLE dbo.Egg (
    ID int identity(1,1) not null,
    Chicken int null,
    CONSTRAINT [PK_Egg] PRIMARY KEY CLUSTERED ([ID] ASC) ON [PRIMARY]
) ON [PRIMARY]
GO
CREATE TABLE dbo.Chicken (
    Egg int not null,
    CONSTRAINT [PK_Chicken] PRIMARY KEY CLUSTERED ([Egg] ASC) ON [PRIMARY]
) ON [PRIMARY]
GO
ALTER TABLE dbo.Egg  WITH NOCHECK ADD  CONSTRAINT [FK_Egg_Chicken] FOREIGN KEY([Chicken]) REFERENCES [dbo].[Chicken] ([Egg])
GO
ALTER TABLE dbo.Chicken  WITH NOCHECK ADD  CONSTRAINT [FK_Chicken_Egg] FOREIGN KEY([Egg]) REFERENCES [dbo].[Egg] ([ID])
GO
ALTER TABLE dbo.Egg WITH NOCHECK ADD CONSTRAINT [UQ_Egg_Chicken] UNIQUE([Chicken])
GO
ALTER TABLE dbo.Chicken WITH NOCHECK ADD CONSTRAINT [UQ_Chicken_Egg] UNIQUE([Egg])
GO

To insert, first an egg must be inserted (with null for Chicken). Now, only a chicken can be inserted and it must reference the 'unclaimed' egg. Finally, the added egg can be updated and it must reference the 'unclaimed' chicken. At no point can two chickens be made to reference the same egg or vice-versa.

To delete, the same logic can be followed: update egg's Chicken to null, delete the newly 'unclaimed' chicken, delete the egg.

This solution also allows swapping easily. Interestingly, swapping might be the strongest argument for using such a solution, because it has a potential practical use. Normally, in most cases, a one-to-one relationship of two tables is better implemented by simply refactoring the two tables into one; however, in a potential scenario, the two tables may represent truly distinct entities, which require a strict one-to-one relationship, but need to frequently swap 'partners' or be re-arranged in general, while still maintaining the one-to-one relationship after re-arrangement. If the more common solution were used, all data columns of one of the entities would have to be updated/overwritten for all pairs being re-arranged, as opposed to this solution, where only one column of foreign keys need to be re-arranged (the nullable foreign key column).

Well, this is the best I could do using standard constraints (don't judge :) Maybe someone will find it useful.

4
  • 2
    This will yield a 1 to 0..1 relationship in Entity Framework. Oct 20 '16 at 19:22
  • 3
    Of course in other SQL database Servers like Oracle or PostgreSQL, this can by correctly done with deferrable constraints that are checked when the transaction is committed, not when the row is inserted, thus avoiding the chicken-and-egg problem. Surprisingly, MS has ignored this part of the SQL-92 standard, which is now 25 years old. May 8 '17 at 10:26
  • 2
    Another more long-term way to get true 1:1 relationships in MS SQL Server is by voting up this connect item: connect.microsoft.com/SQLServer/feedback/details/124728/… May 8 '17 at 10:26
  • 1
    Anyways - thank you for this answer - it seems like the best work-around for my database. Appreciated May 8 '17 at 10:33
2

1 To 1 Relationships in SQL are made by merging the field of both table in one !

I know you can split a Table in two entity with a 1 to 1 relation. Most of time you use this because you want to use lazy loading on "heavy field of binary data in a table".

Exemple: You have a table containing pictures with a name column (string), maybe some metadata column, a thumbnail column and the picture itself varbinary(max). In your application, you will certainly display first only the name and the thumbnail in a collection control and then load the "full picture data" only if needed.

If it is what your are looking for. It is something called "table splitting" or "horizontal splitting".

https://visualstudiomagazine.com/articles/2014/09/01/splitting-tables.aspx

1
  • 3
    This will yield a 1 to 0..1 relationship in Entity Framework. Jan 20 '17 at 15:47
0

The easiest way to achieve this is to create only 1 table with both Table A and B fields NOT NULL. This way it is impossible to have one without the other.

3
  • 2
    This will yield a 1 to 0..1 relationship in Entity Framework. Mar 5 '19 at 21:55
  • 1
    @ErikPhilips, it's OK. Who told you that EF is 100% correct? Apr 7 '19 at 6:51
  • 1
    @ShadiNamrouti When did I say EF was correct? I only stated what the result will be, not an opinion of that result. Nov 17 '20 at 10:36
0

What about this ?

create table dbo.[Address]
(
Id int identity not null,
City nvarchar(255) not null,
Street nvarchar(255) not null,
CONSTRAINT PK_Address PRIMARY KEY (Id)
)

create table dbo.[Person]
(
Id int identity not null,
AddressId int not null,
FirstName nvarchar(255) not null,
LastName nvarchar(255) not null,
CONSTRAINT PK_Person PRIMARY KEY (Id),
CONSTRAINT FK_Person_Address FOREIGN KEY (AddressId) REFERENCES dbo.[Address] (Id)
)
10
  • 1
    Is this asking a question or proposing an answer? This is clearly a case described in other answers as 1:0-or-1. In fact it is the same inadequate code as described in the question. Why is that not apparent anyway? You can have an address row with no person row.
    – philipxy
    May 19 '19 at 1:33
  • @philipxy you are right, I did not realize that creating additional address is an issue.
    – Muflix
    May 20 '19 at 9:32
  • 1
    In this code there can be addresses that no person has. You are describing 1:0-or-1. I have no idea what you are trying to say by the "does not matter" sentence starting "Perspective". 1:1 in the question means contrained like SQL PK FKs to each other. Yet again: Read the question, answers & comments. Etc.
    – philipxy
    May 20 '19 at 11:39
  • 1
    If an address has one or no person & a person has one address then address:person is a 1:(0-or-1) relationship. Bye.
    – philipxy
    May 20 '19 at 12:04
  • 1
    Approaches to cardinality can be divided into two approaches: describing an n-ary relation/table vs describing one of those plus single-column tables from which values are drawn. (Also diagram line labels come in 2 camps, look-here & look-away.) This is similar to the 2 approaches to function cardinality--describing a set of key-value pairs vs describing one of those plus sets from which keys & values are drawn & with respect to which a function can be total or partial. (Terms "domain", "range" & "co-domain" don't even have standard meanings & every presentation has to clarify its usage.)
    – philipxy
    May 20 '19 at 23:37
0

How does one create a one-to-one relationship in SQL Server?

I understand there are two main approaches for "implementing" 1:1 relationships when deferrable constraints are supported by a DBMS. Both approaches require a foreign-key to the other-half table in both main tables.

  1. Using a third table to forward-declare the PK values.
    • Three tables:
      1. Forward-declaration table with only the PK value.
      2. One or more dependent tables with FKs to the forward-declaration table.
      3. The final principal table, which has FKs to both the forward-declaration table and all dependent tables.
    • This is the simplest to implement and probably has the best overall performance, but does slightly complicate INSERT operations.
    • The disadvantage is that the existence of a row in the second table does not imply the existence of a principal table row.
    • This is compatible with IDENTITY, but the IDENTITY must be in the forward-declaration table, not the principal table.
  2. Allowing the foreign-key column in one of the half-tables to be NULL, but only allowing access to data via a VIEW which only exposes rows with valid (non-NULL).
    • You can support INSERT directly into the VIEW (which means it will play-nice with most ORMs, including Entity Framework).
    • You can also boost performance by making it an INDEXED VIEW.

Option 1: Using a third-table for forward-declarations:

By looking at the system as an immutable data scenario, I point out similarities to how one builds an object-graph (and have arbitrary relationships between nodes in the graph, even 1:1).

By adding a (optionally hidden) third table and a view which provide for the "forward declaration" of a value, then that can be referenced by dependent tables, while the "real" principal table has constraints on (optionally hidden) columns.

Using the OP's example, here's a 1:1 :

CREATE TABLE dbo.CountryDecl (
    CountryName nvarchar(255) NOT NULL,
    CONSTRAINT PK_CountryDecl PRIMARY KEY ( CountryName )
);

CREATE TABLE dbo.Countries (
    CountryName nvarchar(255) NOT NULL,
    CapitalName nvarchar(255) NOT NULL,
    Inhabitants bigint        NOT NULL,
    AreaKM2     bigint        NOT NULL,

    CONSTRAINT PK_Countries PRIMARY KEY ( CountryName ),

    CONSTRAINT FK_CountriesDecl FOREIGN KEY ( CountryName ) REFERENCES dbo.CountryDecl ( CountryName ),
    CONSTRAINT FK_Countries_Capitals FOREIGN KEY ( CountryName ) REFERENCES dbo.Capitals ( CountryName )
);

CREATE TABLE dbo.Capitals (
    CountryName nvarchar(255) NOT NULL,
    CapitalName nvarchar(255) NOT NULL,
    Inhabitants bigint        NOT NULL,
    AreaKM2     int           NOT NULL,

    CONSTRAINT PK_Capitals PRIMARY KEY ( CountryName ),

    CONSTRAINT FK_CountriesDecl FOREIGN KEY ( CountryName ) REFERENCES dbo.CountryDecl ( CountryName )
)

An INSERT operation would look like this:

INSERT INTO dbo.CountryDecl ( CountryName ) VALUES ( 'Kazakhstan' );

INSERT INTO dbo.Capitals ( CountryName, CapitalName, Inhabitants, Area ) VALUES ( 'Kazakhstan', 'Nur-Sultan', 1136008, 810 );

INSERT INTO dbo.Countries ( CountryName, CapitalName, Inhabitants, Area ) VALUES ( 'Kazakhstan', 'Nur-Sultan', 18711560, 2724900 );

All queries for dbo.Countries are guaranteed to always return valid rows (i.e. if there's a row in dbo.Countries then there is also, always, a valid row in dbo.Capitals), but this is not transitive: a row in dbo.Capitals does not guarantee that a row in dbo.Countries exists.


Option 2a: Using a VIEW as a curtain to hide invalid rows (with NULLable FKs):

CREATE TABLE dbo.CountriesData (
    CountryName nvarchar(255) NOT NULL,
    CapitalName nvarchar(255)     NULL,
    Inhabitants bigint        NOT NULL,
    AreaKM2     bigint        NOT NULL,

    CONSTRAINT PK_Countries PRIMARY KEY ( CountryName ),

    CONSTRAINT FK_Countries_Capitals FOREIGN KEY ( CountryName ) REFERENCES dbo.Capitals ( CountryName )
);

CREATE TABLE dbo.Capitals (
    CountryName nvarchar(255) NOT NULL,
    CapitalName nvarchar(255) NOT NULL,
    Inhabitants bigint            NULL, /* Inhabitants and AreaKM2 need to be NULL as INSERTing into dbo.CountriesData means a dbo.Capitals row will be created, but we don't have any values for these columns at-that-point, but if you have that data then these columns *can* be NOT NULL. So this is not a limitation of this approach, only your domain-model. */
    AreaKM2     int               NULL,

    CONSTRAINT PK_Capitals PRIMARY KEY ( CountryName ),

    CONSTRAINT FK_CountriesDecl FOREIGN KEY ( CountryName ) REFERENCES dbo.CountryDecl ( CountryName )
);

CREATE VIEW dbo.Countries AS
    SELECT
        CountryName,
        CapitalName,
        Inhabitants,
        AreaKM2
    FROM
        dbo.CountriesData
    WHERE
        CapitalName IS NOT NULL;

CREATE TRIGGER TR_Countries_INSERT ON dbo.Countries INSTEAD OF INSERT AS
BEGIN

    SET NOCOUNT ON;

    INSERT INTO dbo.CountriesData ( CountryName, CapitalName, Inhabitants, AreaKM2 )
    SELECT CountryName, NULL, Inhabitants, AreaKM2 FROM [inserted];

    INSERT INTO dbo.Capitals ( CountryName, CapitalName, Inhabitants, AreaKM2 )
    SELECT CountryName, CapitalName, NULL, NULL FROM [inserted];

    UPDATE
        cd
    SET
        cd.CapitalName = ic.CapitalName
    FROM
        dbo.CountriesData AS cd
        INNER JOIN [inserted] AS ic ON ic.CountryName = cd.CountryName
    WHERE
        cd.CapitalName IS NULL;

END

Option 2b: Using a VIEW as a curtain to hide invalid rows (without NULLable columns, but using a JOIN in the VIEW):

CREATE TABLE dbo.CountriesData (
    CountryName nvarchar(255) NOT NULL, /* NOTE: there is no CapitalName column */
    Inhabitants bigint        NOT NULL,
    AreaKM2     bigint        NOT NULL,

    CONSTRAINT PK_Countries PRIMARY KEY ( CountryName ),

    CONSTRAINT FK_Countries_Capitals FOREIGN KEY ( CountryName ) REFERENCES dbo.Capitals ( CountryName )
);

CREATE TABLE dbo.Capitals (
    CountryName nvarchar(255) NOT NULL,
    CapitalName nvarchar(255) NOT NULL,
    Inhabitants bigint            NULL,
    AreaKM2     int               NULL,

    CONSTRAINT PK_Capitals PRIMARY KEY ( CountryName ),

    CONSTRAINT FK_CountriesDecl FOREIGN KEY ( CountryName ) REFERENCES dbo.CountryDecl ( CountryName )
);

CREATE VIEW dbo.Countries AS
    SELECT
        d.CountryName,
        c.CapitalName,
        d.Inhabitants,
        d.AreaKM2
    FROM
        dbo.CountriesData AS d
        INNER JOIN dbo.Capitals AS c ON d.CountryName = c.CountryName;

CREATE TRIGGER TR_Countries_INSERT ON dbo.Countries INSTEAD OF INSERT AS
BEGIN

    SET NOCOUNT ON;

    INSERT INTO dbo.CountriesData ( CountryName, Inhabitants, AreaKM2 )
    SELECT CountryName, Inhabitants, AreaKM2 FROM [inserted];

    INSERT INTO dbo.Capitals ( CountryName, CapitalName, Inhabitants, AreaKM2 )
    SELECT CountryName, CapitalName, NULL, NULL FROM [inserted];

END

Not the answer you're looking for? Browse other questions tagged or ask your own question.