I want to have a unique constraint on a column which I am going to populate with GUIDs. However, my data contains null values for this columns. How do I create the constraint that allows multiple null values?
Here's an example scenario. Consider this schema:
CREATE TABLE People (
Id INT CONSTRAINT PK_MyTable PRIMARY KEY IDENTITY,
Name NVARCHAR(250) NOT NULL,
LibraryCardId UNIQUEIDENTIFIER NULL,
CONSTRAINT UQ_People_LibraryCardId UNIQUE (LibraryCardId)
)
Then see this code for what I'm trying to achieve:
-- This works fine:
INSERT INTO People (Name, LibraryCardId)
VALUES ('John Doe', 'AAAAAAAA-AAAA-AAAA-AAAA-AAAAAAAAAAAA');
-- This also works fine, obviously:
INSERT INTO People (Name, LibraryCardId)
VALUES ('Marie Doe', 'BBBBBBBB-BBBB-BBBB-BBBB-BBBBBBBBBBBB');
-- This would *correctly* fail:
--INSERT INTO People (Name, LibraryCardId)
--VALUES ('John Doe the Second', 'AAAAAAAA-AAAA-AAAA-AAAA-AAAAAAAAAAAA');
-- This works fine this one first time:
INSERT INTO People (Name, LibraryCardId)
VALUES ('Richard Roe', NULL);
-- THE PROBLEM: This fails even though I'd like to be able to do this:
INSERT INTO People (Name, LibraryCardId)
VALUES ('Marcus Roe', NULL);
The final statement fails with a message:
Violation of UNIQUE KEY constraint 'UQ_People_LibraryCardId'. Cannot insert duplicate key in object 'dbo.People'.
How can I change my schema and/or uniqueness constraint so that it allows multiple NULL values, while still checking for uniqueness on actual data?
What you're looking for is indeed part of the ANSI standards SQL:92, SQL:1999 and SQL:2003, ie a UNIQUE constraint must disallow duplicate non-NULL values but accept multiple NULL values.
In the Microsoft world of SQL Server however, a single NULL is allowed but multiple NULLs are not...
In SQL Server 2008, you can define a unique filtered index based on a predicate that excludes NULLs:
CREATE UNIQUE NONCLUSTERED INDEX idx_yourcolumn_notnull
ON YourTable(yourcolumn)
WHERE yourcolumn IS NOT NULL;
In earlier versions, you can resort to VIEWS with a NOT NULL predicate to enforce the constraint.
SQL Server 2008 +
You can create a unique index that accept multiple NULLs with a WHERE clause. See the answer below.
Prior to SQL Server 2008
You cannot create a UNIQUE constraint and allow NULLs. You need set a default value of NEWID().
Update the existing values to NEWID() where NULL before creating the UNIQUE constraint.
SQL Server 2008 And Up
Just filter a unique index:
CREATE UNIQUE NONCLUSTERED INDEX UQ_Party_SamAccountName
ON dbo.Party(SamAccountName)
WHERE SamAccountName IS NOT NULL;
In Lower Versions, A Materialized View Is Still Not Required
For SQL Server 2005 and earlier, you can do it without a view. I just added a unique constraint like you're asking for to one of my tables. Given that I want uniqueness in column SamAccountName, but I want to allow multiple NULLs, I used a materialized column rather than a materialized view:
ALTER TABLE dbo.Party ADD SamAccountNameUnique
AS (Coalesce(SamAccountName, Convert(varchar(11), PartyID)))
ALTER TABLE dbo.Party ADD CONSTRAINT UQ_Party_SamAccountName
UNIQUE (SamAccountNameUnique)
You simply have to put something in the computed column that will be guaranteed unique across the whole table when the actual desired unique column is NULL. In this case, PartyID is an identity column and being numeric will never match any SamAccountName, so it worked for me. You can try your own method—be sure you understand the domain of your data so that there is no possibility of intersection with real data. That could be as simple as prepending a differentiator character like this:
Coalesce('n' + SamAccountName, 'p' + Convert(varchar(11), PartyID))
Even if PartyID became non-numeric someday and could coincide with a SamAccountName, now it won't matter.
Note that the presence of an index including the computed column implicitly causes each expression result to be saved to disk with the other data in the table, which DOES take additional disk space.
Note that if you don't want an index, you can still save CPU by making the expression be precalculated to disk by adding the keyword PERSISTED to the end of the column expression definition.
In SQL Server 2008 and up, definitely use the filtered solution instead if you possibly can!
Controversy
Please note that some database professionals will see this as a case of "surrogate NULLs", which definitely have problems (mostly due to issues around trying to determine when something is a real value or a surrogate value for missing data; there can also be issues with the number of non-NULL surrogate values multiplying like crazy).
However, I believe this case is different. The computed column I'm adding will never be used to determine anything. It has no meaning of itself, and encodes no information that isn't already found separately in other, properly defined columns. It should never be selected or used.
So, my story is that this is not a surrogate NULL, and I'm sticking to it! Since we don't actually want the non-NULL value for any purpose other than to trick the UNIQUE index to ignore NULLs, our use case has none of the problems that arise with normal surrogate NULL creation.
All that said, I have no problem with using an indexed view instead—but it brings some issues with it such as the requirement of using SCHEMABINDING. Have fun adding a new column to your base table (you'll at minimum have to drop the index, and then drop the view or alter the view to not be schema bound). See the full (long) list of requirements for creating an indexed view in SQL Server (2005) (also later versions), (2000).
Update
If your column is numeric, there may be the challenge of ensuring that the unique constraint using Coalesce does not result in collisions. In that case, there are some options. One might be to use a negative number, to put the "surrogate NULLs" only in the negative range, and the "real values" only in the positive range. Alternately, the following pattern could be used. In table Issue (where IssueID is the PRIMARY KEY), there may or may not be a TicketID, but if there is one, it must be unique.
ALTER TABLE dbo.Issue ADD TicketUnique
AS (CASE WHEN TicketID IS NULL THEN IssueID END);
ALTER TABLE dbo.Issue ADD CONSTRAINT UQ_Issue_Ticket_AllowNull
UNIQUE (TicketID, TicketUnique);
If IssueID 1 has ticket 123, the UNIQUE constraint will be on values (123, NULL). If IssueID 2 has no ticket, it will be on (NULL, 2). Some thought will show that this constraint cannot be duplicated for any row in the table, and still allows multiple NULLs.
For people who are using Microsoft SQL Server Manager and want to create a Unique but Nullable index you can create your unique index as you normally would then in your Index Properties for your new index, select "Filter" from the left hand panel, then enter your filter (which is your where clause). It should read something like this:
([YourColumnName] IS NOT NULL)
This works with MSSQL 2012
When I applied the unique index below:
CREATE UNIQUE NONCLUSTERED INDEX idx_badgeid_notnull
ON employee(badgeid)
WHERE badgeid IS NOT NULL;
every non null update and insert failed with the error below:
UPDATE failed because the following SET options have incorrect settings: 'ARITHABORT'.
I found this on MSDN
SET ARITHABORT must be ON when you are creating or changing indexes on computed columns or indexed views. If SET ARITHABORT is OFF, CREATE, UPDATE, INSERT, and DELETE statements on tables with indexes on computed columns or indexed views will fail.
So to get this to work correctly I did this
Right click [Database]-->Properties-->Options-->Other
Options-->Misscellaneous-->Arithmetic Abort Enabled -->true
I believe it is possible to set this option in code using
ALTER DATABASE "DBNAME" SET ARITHABORT ON
but i have not tested this
It can be done in the designer as well
Right click on the Index > Properties to get this window
Create a view that selects only non-NULL columns and create the UNIQUE INDEX on the view:
CREATE VIEW myview
AS
SELECT *
FROM mytable
WHERE mycolumn IS NOT NULL
CREATE UNIQUE INDEX ux_myview_mycolumn ON myview (mycolumn)
Note that you'll need to perform INSERT's and UPDATE's on the view instead of table.
You may do it with an INSTEAD OF trigger:
CREATE TRIGGER trg_mytable_insert ON mytable
INSTEAD OF INSERT
AS
BEGIN
INSERT
INTO myview
SELECT *
FROM inserted
END
It is possible to create a unique constraint on a Clustered Indexed View
You can create the View like this:
CREATE VIEW dbo.VIEW_OfYourTable WITH SCHEMABINDING AS
SELECT YourUniqueColumnWithNullValues FROM dbo.YourTable
WHERE YourUniqueColumnWithNullValues IS NOT NULL;
and the unique constraint like this:
CREATE UNIQUE CLUSTERED INDEX UIX_VIEW_OFYOURTABLE
ON dbo.VIEW_OfYourTable(YourUniqueColumnWithNullValues)
In my experience - if you're thinking a column needs to allow NULLs but also needs to be UNIQUE for values where they exist, you may be modelling the data incorrectly. This often suggests you're creating a separate sub-entity within the same table as a different entity. It probably makes more sense to have this entity in a second table.
In the provided example, I would put LibraryCardId in a separate LibraryCards table with a unique not-null foreign key to the People table:
CREATE TABLE People (
Id INT CONSTRAINT PK_MyTable PRIMARY KEY IDENTITY,
Name NVARCHAR(250) NOT NULL,
)
CREATE TABLE LibraryCards (
LibraryCardId UNIQUEIDENTIFIER CONSTRAINT PK_LibraryCards PRIMARY KEY,
PersonId INT NOT NULL
CONSTRAINT UQ_LibraryCardId_PersonId UNIQUE (PersonId),
FOREIGN KEY (PersonId) REFERENCES People(id)
)
This way you don't need to bother with a column being both unique and nullable. If a person doesn't have a library card, they just won't have a record in the library cards table. Also, if there are additional attributes about the library card (perhaps Expiration Date or something), you now have a logical place to put those fields.
Maybe consider an "INSTEAD OF" trigger and do the check yourself? With a non-clustered (non-unique) index on the column to enable the lookup.
As stated before, SQL Server doesn't implement the ANSI standard when it comes to UNIQUE CONSTRAINT. There is a ticket on Microsoft Connect for this since 2007. As suggested there and here the best options as of today are to use a filtered index as stated in another answer or a computed column, e.g.:
CREATE TABLE [Orders] (
[OrderId] INT IDENTITY(1,1) NOT NULL,
[TrackingId] varchar(11) NULL,
...
[ComputedUniqueTrackingId] AS (
CASE WHEN [TrackingId] IS NULL
THEN '#' + cast([OrderId] as varchar(12))
ELSE [TrackingId_Unique] END
),
CONSTRAINT [UQ_TrackingId] UNIQUE ([ComputedUniqueTrackingId])
)
You can create an INSTEAD OF trigger to check for specific conditions and error if they are met. Creating an index can be costly on larger tables.
Here's an example:
CREATE TRIGGER PONY.trg_pony_unique_name ON PONY.tbl_pony
INSTEAD OF INSERT, UPDATE
AS
BEGIN
IF EXISTS(
SELECT TOP (1) 1
FROM inserted i
GROUP BY i.pony_name
HAVING COUNT(1) > 1
)
OR EXISTS(
SELECT TOP (1) 1
FROM PONY.tbl_pony t
INNER JOIN inserted i
ON i.pony_name = t.pony_name
)
THROW 911911, 'A pony must have a name as unique as s/he is. --PAS', 16;
ELSE
INSERT INTO PONY.tbl_pony (pony_name, stable_id, pet_human_id)
SELECT pony_name, stable_id, pet_human_id
FROM inserted
END
You can't do this with a UNIQUE constraint, but you can do this in a trigger.
CREATE TRIGGER [dbo].[OnInsertMyTableTrigger]
ON [dbo].[MyTable]
INSTEAD OF INSERT
AS
BEGIN
SET NOCOUNT ON;
DECLARE #Column1 INT;
DECLARE #Column2 INT; -- allow nulls on this column
SELECT #Column1=Column1, #Column2=Column2 FROM inserted;
-- Check if an existing record already exists, if not allow the insert.
IF NOT EXISTS(SELECT * FROM dbo.MyTable WHERE Column1=#Column1 AND Column2=#Column2 #Column2 IS NOT NULL)
BEGIN
INSERT INTO dbo.MyTable (Column1, Column2)
SELECT #Column2, #Column2;
END
ELSE
BEGIN
RAISERROR('The unique constraint applies on Column1 %d, AND Column2 %d, unless Column2 is NULL.', 16, 1, #Column1, #Column2);
ROLLBACK TRANSACTION;
END
END
CREATE UNIQUE NONCLUSTERED INDEX [UIX_COLUMN_NAME]
ON [dbo].[Employee]([Username] ASC) WHERE ([Username] IS NOT NULL)
WITH (ALLOW_PAGE_LOCKS = ON, ALLOW_ROW_LOCKS = ON, PAD_INDEX = OFF, SORT_IN_TEMPDB = OFF,
DROP_EXISTING = OFF, IGNORE_DUP_KEY = OFF, STATISTICS_NORECOMPUTE = OFF, ONLINE = OFF,
MAXDOP = 0) ON [PRIMARY];
this code if u make a register form with textBox and use insert and ur textBox is empty and u click on submit button .
CREATE UNIQUE NONCLUSTERED INDEX [IX_tableName_Column]
ON [dbo].[tableName]([columnName] ASC) WHERE [columnName] !=`''`;
Related
How could I set a constraint on a table so that only one of the records has its isDefault bit field set to 1?
The constraint is not table scope, but one default per set of rows, specified by a FormID.
Use a unique filtered index
On SQL Server 2008 or higher you can simply use a unique filtered index
CREATE UNIQUE INDEX IX_TableName_FormID_isDefault
ON TableName(FormID)
WHERE isDefault = 1
Where the table is
CREATE TABLE TableName(
FormID INT NOT NULL,
isDefault BIT NOT NULL
)
For example if you try to insert many rows with the same FormID and isDefault set to 1 you will have this error:
Cannot insert duplicate key row in object 'dbo.TableName' with unique
index 'IX_TableName_FormID_isDefault'. The duplicate key value is (1).
Source: http://technet.microsoft.com/en-us/library/cc280372.aspx
Here's a modification of Damien_The_Unbeliever's solution that allows one default per FormID.
CREATE VIEW form_defaults
AS
SELECT FormID
FROM whatever
WHERE isDefault = 1
GO
CREATE UNIQUE CLUSTERED INDEX ix_form_defaults on form_defaults (FormID)
GO
But the serious relational folks will tell you this information should just be in another table.
CREATE TABLE form
FormID int NOT NULL PRIMARY KEY
DefaultWhateverID int FOREIGN KEY REFERENCES Whatever(ID)
From a normalization perspective, this would be an inefficient way of storing a single fact.
I would opt to hold this information at a higher level, by storing (in a different table) a foreign key to the identifier of the row which is considered to be the default.
CREATE TABLE [dbo].[Foo](
[Id] [int] NOT NULL,
CONSTRAINT [PK_Foo] PRIMARY KEY CLUSTERED
(
[Id] ASC
) ON [PRIMARY]
) ON [PRIMARY]
GO
CREATE TABLE [dbo].[DefaultSettings](
[DefaultFoo] [int] NULL
) ON [PRIMARY]
GO
ALTER TABLE [dbo].[DefaultSettings] WITH CHECK ADD CONSTRAINT [FK_DefaultSettings_Foo] FOREIGN KEY([DefaultFoo])
REFERENCES [dbo].[Foo] ([Id])
GO
ALTER TABLE [dbo].[DefaultSettings] CHECK CONSTRAINT [FK_DefaultSettings_Foo]
GO
You could use an insert/update trigger.
Within the trigger after an insert or update, if the count of rows with isDefault = 1 is more than 1, then rollback the transaction.
CREATE VIEW vOnlyOneDefault
AS
SELECT 1 as Lock
FROM <underlying table>
WHERE Default = 1
GO
CREATE UNIQUE CLUSTERED INDEX IX_vOnlyOneDefault on vOnlyOneDefault (Lock)
GO
You'll need to have the right ANSI settings turned on for this.
I don't know about SQLServer.But if it supports Function-Based Indexes like in Oracle, I hope this can be translated, if not, sorry.
You can do an index like this on suposed that default value is 1234, the column is DEFAULT_COLUMN and ID_COLUMN is the primary key:
CREATE
UNIQUE
INDEX only_one_default
ON my_table
( DECODE(DEFAULT_COLUMN, 1234, -1, ID_COLUMN) )
This DDL creates an unique index indexing -1 if the value of DEFAULT_COLUMN is 1234 and ID_COLUMN in any other case. Then, if two columns have DEFAULT_COLUMN value, it raises an exception.
The question implies to me that you have a primary table that has some child records and one of those child records will be the default record. Using address and a separate default table here is an example of how to make that happen using third normal form. Of course I don't know if it's valuable to answer something that is so old but it struck my fancy.
--drop table dev.defaultAddress;
--drop table dev.addresses;
--drop table dev.people;
CREATE TABLE [dev].[people](
[Id] [int] identity primary key,
name char(20)
)
GO
CREATE TABLE [dev].[Addresses](
id int identity primary key,
peopleId int foreign key references dev.people(id),
address varchar(100)
) ON [PRIMARY]
GO
CREATE TABLE [dev].[defaultAddress](
id int identity primary key,
peopleId int foreign key references dev.people(id),
addressesId int foreign key references dev.addresses(id))
go
create unique index defaultAddress on dev.defaultAddress (peopleId)
go
create unique index idx_addr_id_person on dev.addresses(peopleid,id);
go
ALTER TABLE dev.defaultAddress
ADD CONSTRAINT FK_Def_People_Address
FOREIGN KEY(peopleID, addressesID)
REFERENCES dev.Addresses(peopleId, id)
go
insert into dev.people (name)
select 'Bill' union
select 'John' union
select 'Harry'
insert into dev.Addresses (peopleid, address)
select 1, '123 someplace' union
select 1,'work place' union
select 2,'home address' union
select 3,'some address'
insert into dev.defaultaddress (peopleId, addressesid)
select 1,1 union
select 2,3
-- so two home addresses are default now
-- try adding another default address to Bill and you get an error
select * from dev.people
join dev.addresses on people.id = addresses.peopleid
left join dev.defaultAddress on defaultAddress.peopleid = people.id and defaultaddress.addressesid = addresses.id
insert into dev.defaultaddress (peopleId, addressesId)
select 1,2
GO
You could do it through an instead of trigger, or if you want it as a constraint create a constraint that references a function that checks for a row that has the default set to 1
EDIT oops, needs to be <=
Create table mytable(id1 int, defaultX bit not null default(0))
go
create Function dbo.fx_DefaultExists()
returns int as
Begin
Declare #Ret int
Set #ret = 0
Select #ret = count(1) from mytable
Where defaultX = 1
Return #ret
End
GO
Alter table mytable add
CONSTRAINT [CHK_DEFAULT_SET] CHECK
(([dbo].fx_DefaultExists()<=(1)))
GO
Insert into mytable (id1, defaultX) values (1,1)
Insert into mytable (id1, defaultX) values (2,1)
This is a fairly complex process that cannot be handled through a simple constraint.
We do this through a trigger. However before you write the trigger you need to be able to answer several things:
do we want to fail the insert if a default exists, change it to 0 instead of 1 or change the existing default to 0 and leave this one as 1?
what do we want to do if the default record is deleted and other non default records are still there? Do we make one the default, if so how do we determine which one?
You will also need to be very, very careful to make the trigger handle multiple row processing. For instance a client might decide that all of the records of a particular type should be the default. You wouldn't change a million records one at a time, so this trigger needs to be able to handle that. It also needs to handle that without looping or the use of a cursor (you really don't want the type of transaction discussed above to take hours locking up the table the whole time).
You also need a very extensive tesing scenario for this trigger before it goes live. You need to test:
adding a record with no default and it is the first record for that customer
adding a record with a default and it is the first record for that customer
adding a record with no default and it is the not the first record for that customer
adding a record with a default and it is the not the first record for that customer
Updating a record to have the default when no other record has it (assuming you don't require one record to always be set as the deafault)
Updating a record to remove the default
Deleting the record with the deafult
Deleting a record without the default
Performing a mass insert with multiple situations in the data including two records which both have isdefault set to 1 and all of the situations tested when running individual record inserts
Performing a mass update with multiple situations in the data including two records which both have isdefault set to 1 and all of the situations tested when running individual record updates
Performing a mass delete with multiple situations in the data including two records which both have isdefault set to 1 and all of the situations tested when running individual record deletes
#Andy Jones gave an answer above closest to mine, but bearing in mind the Rule of Three, I placed the logic directly in the stored proc that updates this table. This was my simple solution. If I need to update the table from elsewhere, I will move the logic to a trigger. The one default rule applies to each set of records specified by a FormID and a ConfigID:
ALTER proc [dbo].[cpForm_UpdateLinkedReport]
#reportLinkId int,
#defaultYN bit,
#linkName nvarchar(150)
as
if #defaultYN = 1
begin
declare #formId int, #configId int
select #formId = FormID, #configId = ConfigID from csReportLink where ReportLinkID = #reportLinkId
update csReportLink set DefaultYN = 0 where isnull(ConfigID, #configId) = #configId and FormID = #formId
end
update
csReportLink
set
DefaultYN = #defaultYN,
LinkName = #linkName
where
ReportLinkID = #reportLinkId
I have to change the auto increment on ID to explicitly define ID. For this I Go to
datatabse-> tables -> mytable -> design. There I set is dentity (under identity specification) to No. But when I click save it throws an error saying.
Saving changes is not permitted. The changes you have made require the following tables to
be droped and re created....
Is there any way to do it without dropping the table. I searched this error and got the solution to run a following query
SET IDENTITY_INSERT mytable ON GO
But when I try to insert from code, it throws error that
Cannot insert explicit value for identity column in table 'mytable' when IDENTITY_INSERT is set to OFF
Is there any way to get out of this problem
Once identity, always identity. You cannot change the identity property on a column. Technically, you could use IDENTITY_INSERT to get around it, but this requires setting the option on every single insert you do (this setting doesn't persist over sessions). This is probably not what you want.
Your only alternative, if recreating the table isn't an option, is to create a new column that isn't an identity column, then dropping the old one:
ALTER TABLE MyTable ADD NotAnID INT NULL;
GO
BEGIN TRANSACTION
UPDATE MyTable SET NotAnID = ID;
ALTER TABLE MyTable ALTER COLUMN NotAnID INT NOT NULL;
ALTER TABLE MyTable DROP COLUMN ID;
EXECUTE sp_rename 'MyTable.NotAnID', 'ID';
COMMIT;
This assumes your identity column is NOT NULL (as it usually is), that ID is not the primary key, that it isn't participating in foreign key constraints, and that you want the new column to take place of the old one.
If ID is the primary key, this exercise gets more involved because you need to drop the primary key constraint and recreate it -- which has its own challenges. Doubly so if it's also the clustered index. In this case, you are probably better off recreating the table anyway, because recreating the clustered index means the whole table is rewritten -- this will almost certainly interrupt production work, so you may as well let SSMS do the tough work for you. To allow that, go to Tools -> Options -> Designers and uncheck "Prevent saving changes that require table re-creation".
I'm starting a project where I need to ensure that a large volume of users can obtain a promotional code for multiple promotions.
The codes have a monetary value attached to them so it is vital that only one code goes out to each user and no two users can ever receive the code.
My plan so far is to create a table in SQL Server known as code_pool and do a bulk insert of codes each time.
SQL Server 2005 table would look like this...
[id](int pk), [promo_code] varchar(150), [promotion_id](int fk)
Users would then retreive each code using a stored proc that would get the first record from the table for that promotion and then delete (or update) the record before returning the code as the result of the procedure.
My question is how do I ensure that the record is properly locked so that only one user may ever obtain each record and that no two users accessing the proc concurrently will ever receive the same code?
Do I need to lock the table/records and if so how would this stack up in a busy production environment?
One very handy built in data type for generating unique codes that are not easily guessible is the uniqueidentifier data type. You can use this to generate a unique code by making it have an auto-generated value (using the newid() function). Because GUIDs are in HEX and not generated sequentially unlike identity columns, it isn't possible to predict what codes have or will be generated which will make your process less vulnerable to someone just trying codes in sequence. The number of possible uniqueidentifiers is very large.
I've made the assumption that you will only want one promo code per person for each of your promos. The way you can do this in your database is by having a table, my example calls it PromoTest, which has a primary key on both of these columns which will ensure they remain unique. I didn't add a concept of 'Used' to indicate if the person has used the code but that's quite trivial to do.
To create your table with the primary key constraint and the auto-generated value run the following:
CREATE TABLE [dbo].[PromoTest](
[personid] [bigint] NOT NULL, [promocategory] [int] NOT NULL,
[promocode] [uniqueidentifier] NOT NULL,
CONSTRAINT [PK_PromoTest] PRIMARY KEY CLUSTERED (
[personid] ASC,
[promocategory] ASC )
WITH (PAD_INDEX = OFF, STATISTICS_NORECOMPUTE = OFF, IGNORE_DUP_KEY = OFF, ALLOW_ROW_LOCKS
= ON, ALLOW_PAGE_LOCKS = ON) ON [PRIMARY] ) ON [PRIMARY]
GO
ALTER TABLE [dbo].[PromoTest] ADD CONSTRAINT [DF_PromoTest_promocode] DEFAULT (newid()) FOR [promocode]
To then have a stored procedure that inserts a new promo code or selects the existing one is quite trivial, and due to the primary key constraint you cannot physically insert two codes of the same type for the same person.
The stored procedure can be defined as follows:
CREATE PROCEDURE GetOrCreatePromoCode
-- Add the parameters for the stored procedure here
#PersonId bigint,
#PromoCategory int,
#PromoCode uniqueidentifier OUT
AS
BEGIN
-- SET NOCOUNT ON added to prevent extra result sets from
-- interfering with SELECT statements.
SET NOCOUNT ON;
-- Insert statements for procedure here
IF (NOT EXISTS(SELECT PromoCode FROM PromoTest WHERE personid = #PersonId AND promocategory = #PromoCategory))
BEGIN
INSERT INTO PromoTest (personid, promocategory) VALUES (#PersonId, #PromoCategory)
END
SET #PromoCode = (SELECT PromoCode FROM PromoTest WHERE personid = #PersonId AND promocategory = #PromoCategory)
END
GO
don't you want to add a column e.g. in_use (int)? when you generate new promocode, in_use=0, when your stored proc obtains non-used promo code it selects first code where in_use = 0, and then updates it to 1
Why not use something similar, but like this:
Table UsedCodes
[id] int identity PK,
[userId] whatever,
[PromoId] int FK
Table Promotions
[PromoId] int pk,
[PromoCode] nvarchar
When a user gets a promo code, you would insert a value into used codes, and the promotion code delivered to them would be a concatenation of the promo code and the ID in the used codes table.
You could then also enforce a unique constraint on UserId | PromoId on the used codes table, to ensure only a single code per promo per user.
This has the advantage of retaining a record of the codes used, and reduces the complexity of needing your bulk insert, which could potentially introduce dups by accident. It also has the advantage of requiring no locking...
John P has given you an excellent answer but I find GUIDs are unwieldy for use as a voucher code due to the string length.
Have a look at the question how to generate a voucher code in c#? and of course my answer :) Although you are asking for a SQL solution you can probably adapt the ideas given there.
I would also recommend you do not delete the codes which have been used; how will you be sure the code presented by the customer was created by your system?
I want to store a single row in a configuration table for my application. I would like to enforce that this table can contain only one row.
What is the simplest way to enforce the single row constraint ?
You make sure one of the columns can only contain one value, and then make that the primary key (or apply a uniqueness constraint).
CREATE TABLE T1(
Lock char(1) not null,
/* Other columns */,
constraint PK_T1 PRIMARY KEY (Lock),
constraint CK_T1_Locked CHECK (Lock='X')
)
I have a number of these tables in various databases, mostly for storing config. It's a lot nicer knowing that, if the config item should be an int, you'll only ever read an int from the DB.
I usually use Damien's approach, which has always worked great for me, but I also add one thing:
CREATE TABLE T1(
Lock char(1) not null DEFAULT 'X',
/* Other columns */,
constraint PK_T1 PRIMARY KEY (Lock),
constraint CK_T1_Locked CHECK (Lock='X')
)
Adding the "DEFAULT 'X'", you will never have to deal with the Lock column, and won't have to remember which was the lock value when loading the table for the first time.
You may want to rethink this strategy. In similar situations, I've often found it invaluable to leave the old configuration rows lying around for historical information.
To do that, you actually have an extra column creation_date_time (date/time of insertion or update) and an insert or insert/update trigger which will populate it correctly with the current date/time.
Then, in order to get your current configuration, you use something like:
select * from config_table order by creation_date_time desc fetch first row only
(depending on your DBMS flavour).
That way, you still get to maintain the history for recovery purposes (you can institute cleanup procedures if the table gets too big but this is unlikely) and you still get to work with the latest configuration.
You can implement an INSTEAD OF Trigger to enforce this type of business logic within the database.
The trigger can contain logic to check if a record already exists in the table and if so, ROLLBACK the Insert.
Now, taking a step back to look at the bigger picture, I wonder if perhaps there is an alternative and more suitable way for you to store this information, perhaps in a configuration file or environment variable for example?
I know this is very old but instead of thinking BIG sometimes better think small use an identity integer like this:
Create Table TableWhatever
(
keycol int primary key not null identity(1,1)
check(keycol =1),
Col2 varchar(7)
)
This way each time you try to insert another row the check constraint will raise preventing you from inserting any row since the identity p key won't accept any value but 1
Here's a solution I came up with for a lock-type table which can contain only one row, holding a Y or N (an application lock state, for example).
Create the table with one column. I put a check constraint on the one column so that only a Y or N can be put in it. (Or 1 or 0, or whatever)
Insert one row in the table, with the "normal" state (e.g. N means not locked)
Then create an INSERT trigger on the table that only has a SIGNAL (DB2) or RAISERROR (SQL Server) or RAISE_APPLICATION_ERROR (Oracle). This makes it so application code can update the table, but any INSERT fails.
DB2 example:
create table PRICE_LIST_LOCK
(
LOCKED_YN char(1) not null
constraint PRICE_LIST_LOCK_YN_CK check (LOCKED_YN in ('Y', 'N') )
);
--- do this insert when creating the table
insert into PRICE_LIST_LOCK
values ('N');
--- once there is one row in the table, create this trigger
CREATE TRIGGER ONLY_ONE_ROW_IN_PRICE_LIST_LOCK
NO CASCADE
BEFORE INSERT ON PRICE_LIST_LOCK
FOR EACH ROW
SIGNAL SQLSTATE '81000' -- arbitrary user-defined value
SET MESSAGE_TEXT='Only one row is allowed in this table';
Works for me.
I use a bit field for primary key with name IsActive.
So there can be 2 rows at most and and the sql to get the valid row is:
select * from Settings where IsActive = 1
if the table is named Settings.
The easiest way is to define the ID field as a computed column by value 1 (or any number ,....), then consider a unique index for the ID.
CREATE TABLE [dbo].[SingleRowTable](
[ID] AS ((1)),
[Title] [varchar](50) NOT NULL,
CONSTRAINT [IX_SingleRowTable] UNIQUE NONCLUSTERED
(
[ID] ASC
)
) ON [PRIMARY]
You can write a trigger on the insert action on the table. Whenever someone tries to insert a new row in the table, fire away the logic of removing the latest row in the insert trigger code.
Old question but how about using IDENTITY(MAX,1) of a small column type?
CREATE TABLE [dbo].[Config](
[ID] [tinyint] IDENTITY(255,1) NOT NULL,
[Config1] [nvarchar](max) NOT NULL,
[Config2] [nvarchar](max) NOT NULL
IF NOT EXISTS ( select * from table )
BEGIN
///Your insert statement
END
Here we can also make an invisible value which will be the same after first entry in the database.Example:
Student Table:
Id:int
firstname:char
Here in the entry box,we have to specify the same value for id column which will restrict as after first entry other than writing lock bla bla due to primary key constraint thus having only one row forever.
Hope this helps!
I am using Sql Server with Composite key. In this composite key contains one identity column i.e Auto incrment value. i want to generate in this column with duplicate values. How can i do this. Please give me a solution for this.
Thanks with Regards
Saravanan.M
The identity column cannot(corrected based on feedback from #AlexKuznetsov) should not have duplicates within the column itself - it is generally meant to be a unique column and a provide non-identifying value for each row.
If you are asking how to put values into the identity column that already exist in another column, you have to do the following:
Set IDENTITY_INSERT Schema.TableName ON
Insert Into TableName (PK1, PK2, IdentityCol1, OtherCol1, OtherCol2)
SELECT FirstCol, SecondCol, SecondCol, OtherColumn1, OtherColumn2
FROM SomeOtherTable
Set IDENTITY_INSERT Schema.TableName OFF
note that PK2 and IdentityCol1 both get the same value
It would be good if you could provide more context around what you are wanting to do and why? There are some good reasons to use composite keys, but if you're already using an identity field, why not make that your primary key?
Your auto-incrementing identity column should be left untouched and should continue to uniquely identify your rows. It is generally good practice to always have an abstract identity column as your primary key.
If you have 2 other values in your data model which uniquely identify your row, they should be in 2 other columns. If one of them is an auto-incrementing number then you can generate the value either in a stored proc which is used for all insertions or in an insert trigger.
Although this is not quite an answer, several answerers have made one and the same mistake, claiming that "You cant have an identity column with duplicates". In fact, identities may easily be not unique if you do not enforce their uniqueness by an index or constraint, as follows:
CREATE TABLE identityTest(i INT IDENTITY(1,1));
GO
INSERT identityTest DEFAULT VALUES;
INSERT identityTest DEFAULT VALUES;
SET IDENTITY_INSERT identityTest ON;
INSERT INTO identityTest(i)
SELECT i FROM identityTest;
SET IDENTITY_INSERT identityTest OFF;
SELECT i FROM identityTest;
i
-----------
1
2
1
2
GO
DROP TABLE identityTest;