I've created a table called TableTest with two columns ent and dep. ent is the primary key and dep is the foreign key which references ent. I create the table using:
CREATE TABLE TableTest (
ent varchar(2) NOT NULL,
dep varchar(2),
PRIMARY KEY (ent),
FOREIGN KEY (dep) REFERENCES TableTest(ent)
);
I must show that the three values (A1,A2,A3) depend on one another. A3 is dependent of A1 etc. However when I try to insert a row into my table such as:
INSERT INTO TableTest(ent, dep)
VALUES ('A1','A3');
I get the following error and after doing research I'm still stuck on how to get by this. I'm very new to SQL.
ORA-02291: integrity constraint violated - parent key not found
Any help is greatly appreciated!
First, you need to insert the root value.
> insert into TableTest values ('A1', null);
> insert into TableTest values ('A3', 'A1');
There are cases, just like the one you posted, where circular references (which are absolutely fine by the way, no logical issue there) conflict with the normal way relational integrity constraints work. This is because relational integrity has some "directional" features (primary key comes first, then foreign key) even though dependencies can be circular, as you have seen.
There are several work-arounds. The easiest is to make the foreign key constraint deferred. That means that the constraint is checked only when you commit, not after each individual insert.
Another is to insert all values at the same time (in the same INSERT statement); for example:
insert into tabletest(ent, dep)
select 'A1', 'A3' from dual union all
select 'A3', 'A2' from dual union all
select 'A2', 'A1' from dual
;
Pablo's answer is okay but you can do something alse too if you don't want to have nulls; First insert same value for both PK and FK and then insert the relation:
insert into TableTest values ('A1', 'A1');
insert into TableTest values ('A3', 'A1');
Related
English is not my native language, so I might have misused words Enumerator and Enumerable in this context. Please get a feel for what I'm trying to say and correct me if I'm wrong.
I'm looking into not having tables for each enumerator I need in my database.
I "don't want" to add tables for (examples:) service duration type, user type, currency type, etc. and add relations for each of them.
Instead of a table for each of them which values will probably not change a lot, and for which I'd have to create relationships with other tables, I'm looking into having just 2 tables called Enumerator (eg: user type, currency...) and Enumerable (eg: for user type -> manager, ceo, delivery guy... and for currency -> euro, dollar, pound...).
Though here's the kicker. If I implement it like that, I'm loosing the rigidity of the foreign key relationships -> I can't accidentally insert a row in users table that will have a user type of some currency or service duration type, or something else.
Is there another way to resolve the issue of having so many enumerators and enumerables with the benefit of having that rigidity of the foreign key and with the benefit of having all of them in just those 2 tables?
Best I can think of is to create a trigger for BEFORE UPDATE and BEFORE INSERT to check if (for example) the column type of user table is using the id of the enumerable table that belongs to the correct enumerator.
This is a short example in SQL
CREATE TABLE [dbo].[Enumerator]
(
[Id] INT NOT NULL PRIMARY KEY,
[Name] VARCHAR(50)
)
CREATE TABLE [dbo].[Enumerable]
(
[Id] INT NOT NULL PRIMARY KEY,
[EnumeratorId] INT NOT NULL FOREIGN KEY REFERENCES Enumerator(Id),
[Name] VARCHAR(50)
)
INSERT INTO Enumerator (Id, Name)
VALUES (1, 'UserType'),
(2, 'ServiceType');
INSERT INTO Enumerable (Id, EnumeratorId, Name) -- UserType
VALUES (1, 1, 'CEO'),
(2, 1, 'Manager'),
(3, 1, 'DeliveryGuy');
INSERT INTO Enumerable (Id, EnumeratorId, Name) -- ServiceDurationType
VALUES (4, 2, 'Daily'),
(5, 2, 'Weekly'),
(6, 2, 'Monthly');
CREATE TABLE [dbo].[User]
(
[Id] INT NOT NULL PRIMARY KEY IDENTITY (1,1),
[Type] INT NOT NULL FOREIGN KEY REFERENCES Enumerable(Id)
)
CREATE TABLE [dbo].[Service]
(
[Id] INT NOT NULL PRIMARY KEY IDENTITY (1,1),
[Type] INT NOT NULL FOREIGN KEY REFERENCES Enumerable(Id)
)
The questions are:
Is it viable to resolve enumerators and enumerables with 2 tables and with before update and before insert triggers, or is it more trouble than it's worth?
Is there a better way to resolve this other than using before update and before insert triggers?
Is there a better way to resolve enumerators and enumerables that is not using 2 tables and triggers, nor creating a table with relations for each of them?
I ask for your wisdom as I don't have one or more big projects behind me and I didn't get a chance to create a DB like this until now.
These are the tables I already have:
CREATE TABLE Gyartok
(
GyID INT IDENTITY(2, 3),
Nev VARCHAR(20),
CONSTRAINT PK_Gyartok PRIMARY KEY (GyID)
)
CREATE TABLE Focicsuka
(
CsID INT IDENTITY(2, 2),
Meret INT,
CONSTRAINT PK_Focicsuka PRIMARY KEY (CsID)
)
CREATE TABLE FcsGyartjaGya
(
GyID INT IDENTITY(3, 2),
CsID INT,
Ar INT,
CONSTRAINT FK_FcsGyartjaGya1
FOREIGN KEY (GyID) REFERENCES Gyartok(GyID),
CONSTRAINT FK_FcsGyartjaGya2
FOREIGN KEY (CsID) REFERENCES Focicsuka(CsID),
CONSTRAINT PK_FcsGyartjaGya
PRIMARY KEY (GyID, CsID)
)
The problem is that every time I try to add new values to the table (like such)
INSERT INTO FcsGyartjaGya (Ar) VALUES (300);
I get an error saying I didn't initialize the CsID INT column:
Cannot insert the value NULL into column 'CsID', table 'Lab3.dbo.FcsGyartjaGya'; column does not allow nulls. INSERT fails.
I know I must initialize it with something, but I have no idea what do to it with, because IDENTITY(x, y) doesn't work (it's occupied by another column already) and adding another parameter to the code (like such)
INSERT INTO FcsGyartjaGya (Ar, CsID) VALUES (300, 7);
creates another error which says
The INSERT statement conflicted with the FOREIGN KEY constraint "FK_FcsGyartjaGya1". The conflict occurred in database "Lab3a", table "dbo.Gyartok", column 'GyID'.
It is important to note that I already filled every column with data, so that couldn't be the problem.
As I mention in the comments, your INSERT will work fine, provided the stars align correctly. For your table Gyartok you have GyID as your PRIMARY KEY, which is defined as a IDENTITY(2,3); so the first value generated is 2 and then each row attempted to be INSERTed will increment by 3.
So, if we run the following, we get the IDs 2, 5, 7 and 17. (11 and 14 are skipped as the INSERT failed).
CREATE TABLE Gyartok (
GyID INT IDENTITY(2, 3),
Nev VARCHAR(20),
CONSTRAINT PK_Gyartok PRIMARY KEY (GyID)
);
GO
INSERT INTO dbo.Gyartok (Nev)
VALUES ('asdfjahsbvd'),
('ashjkgdfakd'),
('kldfbhjo');
GO
INSERT INTO dbo.Gyartok (Nev)
VALUES (REPLICATE('A',25)), --Force a truncation error
('ashjkgdfakd');
GO
INSERT INTO dbo.Gyartok (Nev)
VALUES (REPLICATE('A',15));
Let's now add some data for your other table:
CREATE TABLE Focicsuka (
CsID INT IDENTITY(2, 2),
Meret INT,
CONSTRAINT PK_Focicsuka PRIMARY KEY (CsID)
)
INSERT INTO dbo.Focicsuka (Meret)
VALUES(12),
(25);
Now we want to INSERT into the table FcsGyartjaGya, defined as the following:
CREATE TABLE FcsGyartjaGya (
GyID INT IDENTITY(3, 2),
CsID INT,
Ar INT,
CONSTRAINT FK_FcsGyartjaGya1 FOREIGN KEY (GyID) REFERENCES Gyartok(GyID),
CONSTRAINT FK_FcsGyartjaGya2 FOREIGN KEY (CsID) REFERENCES Focicsuka(CsID),
CONSTRAINT PK_FcsGyartjaGya PRIMARY KEY (GyID, CsID)
)
This has a IDENTITY on GyID, but defined as an IDENTITY(3,2), so the first value is 3 and then incremented by 2.
As this has 2 foreign keys, on GyID and CsID when we INSERT the row the values must appear in the respective tables. As GyID is defined as anIDENTITY(3,2) however, this is where we need to rely on the Stars luck for the INSERT to work. Why? Well 2 + (3*n) and 3+(2*n) can give very different numbers. The first are as you saw at the start of this answer. For the latter, we have numbers like 3, 5, 7, 9, 11. As you can see, only 1 in 3 of these numbers match a number in our original sequence, so luck is what we are going to be relying on.
Let's, therefore, try a single INSERT.
INSERT INTO dbo.FcsGyartjaGya (CsID,Ar)
VALUES(2,1);
The INSERT statement conflicted with the FOREIGN KEY constraint "FK_FcsGyartjaGya1". The conflict occurred in database "Sandbox", table "dbo.Gyartok", column 'GyID'.
Well, that didn't work, but it was expected. 3 isn't a value in the table Gyartok. Let's try again!
INSERT INTO dbo.FcsGyartjaGya (CsID,Ar)
VALUES(2,2);
It worked! The stars Luck was our side, and the IDENTITY value was a value in the table Gyartok. Let's try a couple of rows this time!
INSERT INTO dbo.FcsGyartjaGya (CsID,Ar)
VALUES(4,3),
(4,4);
The INSERT statement conflicted with the FOREIGN KEY constraint "FK_FcsGyartjaGya1". The conflict occurred in database "Sandbox", table "dbo.Gyartok", column 'GyID'.
No!! Not again. :( That's because the stars didn't align; 7 and 9 aren't in the other table. But wait, 11 was in the sequence, so let's try that:
INSERT INTO dbo.FcsGyartjaGya (CsID,Ar)
VALUES(4,5);
Error, again?! No, it cannot be!!! :( Oh wait, I forgot, the stars were against us before, because that INSERT failed against Gyartok for the value of 11. I need to wait for 17!
--13 fails
INSERT INTO dbo.FcsGyartjaGya (CsID,Ar)
VALUES(4,6);
GO
--15 fails
INSERT INTO dbo.FcsGyartjaGya (CsID,Ar)
VALUES(4,6);
GO
--17 works!
INSERT INTO dbo.FcsGyartjaGya (CsID,Ar)
VALUES(4,6);
And now we have another row in our table.
So what is the problem? Your design. GyID is defined as an IDENTITY and a FOREIGN KEY; meaning you are at the "whims" of SQL Server generating a value valid. This is not what you want. Just don't define the column as an IDENTITY and then INSERT the data with all 3 of your columns defined:
CREATE TABLE FcsGyartjaGya (
GyID int,-- IDENTITY(3, 2),
CsID INT,
Ar INT,
CONSTRAINT FK_FcsGyartjaGya1 FOREIGN KEY (GyID) REFERENCES Gyartok(GyID),
CONSTRAINT FK_FcsGyartjaGya2 FOREIGN KEY (CsID) REFERENCES Focicsuka(CsID),
CONSTRAINT PK_FcsGyartjaGya PRIMARY KEY (GyID, CsID)
)
GO
INSERT INTO dbo.FcsGyartjaGya (GyID, CsID, Ar)
VALUES(2,2,1),
(2,4,2),
(5,4,3),
(8,2,4),
(8,4,5);
And all these rows insert fine.
I think there is a bit confusion, if I understand correctly what You're trying to do, then you have two tables each with their own id, which is based on an identity column, so you get new values in those for free.
Then you are trying to make a relation table with extra data.
Issue 1: You cannot have FcsGyartjaGya.GyID be identity if it refers to Gyartok.GyID because you will want to insert into it and not rely on an auto increment. If it doesn't refer to the same it should have another name or my head will possibly explode :))
Issue 2: When populating a relation table you need to insert it with what pairs you want, there is no way SQL server can know how it should match these identity pairs in the relation table
I think this is what people are aiming at in the comments, for example
to insert a relationship between row with Focicsuka.CsID = 1 to Gyartok.GyID 7 and adding Ar = 300 have to look like
INSERT INTO FCSGYARTJAGYA(GYID, CSID, AR)
VALUES(7, 1, 300)
Unless You've forgotten to mention that you want to put some value for each of some value or based on something which can be scripted, in other words unless You have logics to define the pairs and their values, relationship tables cannot have defaults on their foreign key fields.
So let's say I have these two tables...
IF NOT EXISTS (SELECT * FROM sysobjects WHERE name='UnitsDef' AND xtype='U')
CREATE TABLE UnitsDef
(
UnitsID INTEGER PRIMARY KEY,
UnitsName NVARCHAR(32) NOT NULL,
UnitsDisplay NVARCHAR(8) NOT NULL
);
IF NOT EXISTS (SELECT * FROM sysobjects WHERE name='Dimensions' AND xtype='U')
CREATE TABLE Dimensions
(
DimID INTEGER PRIMARY KEY IDENTITY(0,1),
DimX FLOAT,
DimXUnitsID INTEGER DEFAULT 0,
DimY FLOAT,
DimYUnitsID INTEGER DEFAULT 0,
DimZ FLOAT,
DimZUnitsID INTEGER DEFAULT 0,
FOREIGN KEY (DimXUnitsID) REFERENCES UnitsDef(UnitsID),
FOREIGN KEY (DimYUnitsID) REFERENCES UnitsDef(UnitsID),
FOREIGN KEY (DimZUnitsID) REFERENCES UnitsDef(UnitsID)
);
I'll insert data into the first table similar to this...
INSERT INTO UnitsDef (UnitsID, UnitsName, UnitsDisplay) VALUES (0, 'inch', 'in.');
INSERT INTO UnitsDef (UnitsID, UnitsName, UnitsDisplay) VALUES (1, 'millimeter', 'mm');
INSERT INTO UnitsDef (UnitsID, UnitsName, UnitsDisplay) VALUES (2, 'degree', '°');
Am I going about this the right way? This is a simplified version of the problem, but I need to know which unit each measurement is given in. Is there a better design practice for this type of situation?
How would I handle the ON DELETE and ON UPDATE for these foreign keys? If I try to cascade deletes and updates, SQL Server would not be so happy about that.
Your method is pretty good. I would make the suggestion right off that UnitsId be an identity column, so it gets incremented. Your inserts would then be:
INSERT INTO UnitsDef (UnitsName, UnitsDisplay) VALUES ('inch', 'in.');
INSERT INTO UnitsDef (UnitsName, UnitsDisplay) VALUES ('millimeter', 'mm');
INSERT INTO UnitsDef (UnitsName, UnitsDisplay) VALUES ('degree', '°');
You should also make the string columns unique in UnitsDef and give them case-sensitive collations. After all, Ml and ml are two different things ("M" is mega and "m" is milli).
You might also want to combine the units and values into a single type. This has positives and negatives. For me it adds overhead, but it can help if you want to support a fuller algebra of types.
Overview: I am trying to represent several types of entities in a database, which have a number of basic fields in common, and then each has some additional fields that are not shared with the other types of entities. Workflow would frequently involve listing the entities together, so I have decided to have a table with their common fields, and then each entity will have its own table with its additional fields.
To implement: There is a common field, “status”, which all entities have; however, some entities will only support a subset of all possible statuses. I also want each type of entity to enforce the use of its subset of statuses. Finally, I will also want to include this field when listing the entities together, so excluding it from the set of common fields seems incorrect, as this would require a union of the specific type tables and the lack of “implements interface” in SQL means that inclusion of that field would be by-convention.
Why I’m here: Below is an solution that is functional, but I am interested if there is a better or more common way to solve the problem. In particular, the fact that this solution requires me to make a redundant unique constraint and a redundant status field feels inelegant.
create schema test;
create table test.statuses(
id integer primary key
);
create table test.entities(
id integer primary key,
status integer,
unique(id, status),
foreign key (status) references test.statuses(id)
);
create table test.statuses_subset1(
id integer primary key,
foreign key (id) references test.statuses(id)
);
create table test.entites_subtype(
id integer primary key,
status integer,
foreign key (id) references test.entities(id),
foreign key (status) references test.statuses_subset1(id),
foreign key (id, status) references test.entities(id, status) initially deferred
);
Some data:
insert into test.statuses(id) values
(1),
(2),
(3);
insert into test.entities(id, status) values
(11, 1),
(13, 3);
insert into test.statuses_subset1(id) values
(1), (2);
insert into test.entites_subtype(id, status) values
(11, 1);
-- Test updating subtype first
update test.entites_subtype
set status = 2
where id = 11;
update test.entities
set status = 2
where id = 11;
-- Test updating base type first
update test.entities
set status = 1
where id = 11;
update test.entites_subtype
set status = 1
where id = 11;
/* -- This will fail
insert into test.entites_subtype(id, status) values
(12, 3);
*/
Simplify building on MATCH SIMPLE behavior of fk constraints
If at least one column of multicolumn foreign constraint with default MATCH SIMPLE behaviour is NULL, the constraint is not enforced. You can build on that to largely simplify your design.
CREATE SCHEMA test;
CREATE TABLE test.status(
status_id integer PRIMARY KEY
,sub bool NOT NULL DEFAULT FALSE -- TRUE .. *can* be sub-status
,UNIQUE (sub, status_id)
);
CREATE TABLE test.entity(
entity_id integer PRIMARY KEY
,status_id integer REFERENCES test.status -- can reference all statuses
,sub bool -- see examples below
,additional_col1 text -- should be NULL for main entities
,additional_col2 text -- should be NULL for main entities
,FOREIGN KEY (sub, status_id) REFERENCES test.status(sub, status_id)
MATCH SIMPLE ON UPDATE CASCADE -- optionally enforce sub-status
);
It is very cheap to store some additional NULL columns (for main entities):
How much disk-space is needed to store a NULL value using postgresql DB?
BTW, per documentation:
If the refcolumn list is omitted, the primary key of the reftable is used.
Demo-data:
INSERT INTO test.status VALUES
(1, TRUE)
, (2, TRUE)
, (3, FALSE); -- not valid for sub-entities
INSERT INTO test.entity(entity_id, status_id, sub) VALUES
(11, 1, TRUE) -- sub-entity (can be main, UPDATES to status.sub cascaded)
, (13, 3, FALSE) -- entity (cannot be sub, UPDATES to status.sub cascaded)
, (14, 2, NULL) -- entity (can be sub, UPDATES to status.sub NOT cascaded)
, (15, 3, NULL) -- entity (cannot be sub, UPDATES to status.sub NOT cascaded)
SQL Fiddle (including your tests).
Alternative with single FK
Another option would be to enter all combinations of (status_id, sub) into the status table (there can only be 2 per status_id) and only have a single fk constraint:
CREATE TABLE test.status(
status_id integer
,sub bool DEFAULT FALSE
,PRIMARY KEY (status_id, sub)
);
CREATE TABLE test.entity(
entity_id integer PRIMARY KEY
,status_id integer NOT NULL -- cannot be NULL in this case
,sub bool NOT NULL -- cannot be NULL in this case
,additional_col1 text
,additional_col2 text
,FOREIGN KEY (status_id, sub) REFERENCES test.status
MATCH SIMPLE ON UPDATE CASCADE -- optionally enforce sub-status
);
INSERT INTO test.status VALUES
(1, TRUE) -- can be sub ...
(1, FALSE) -- ... and main
, (2, TRUE)
, (2, FALSE)
, (3, FALSE); -- only main
Etc.
Related answers:
MATCH FULL vs MATCH SIMPLE
Two-column foreign key constraint only when third column is NOT NULL
Uniqueness validation in database when validation has a condition on another table
Keep all tables
If you need all four tables for some reason not in the question consider this detailed solution to a very similar question on dba.SE:
Enforcing constraints “two tables away”
Inheritance
... might be another option for what you describe. If you can live with some major limitations. Related answer:
Create a table of two types in PostgreSQL
Query:
INSERT INTO `job_listing_has_employer_details` (`job_listing_id`, `employer_details_id`)
VALUES (6, '5')
Error:
Cannot add or update a child row: a foreign key constraint fails (mydb.job_listing_has_employer_details, CONSTRAINT job_listing_has_employer_details_ibfk_2 FOREIGN KEY (employer_details_id) REFERENCES employer_details (id))
What does this mean? The two ID's I am inserting into the table exist.
It means it can't find '5' in the id column of the employer_details table. If there is a 5 in that column of that table, then maybe the data is numeric, so must be passed without quotes. If so, try:
INSERT INTO `job_listing_has_employer_details` (`job_listing_id`, `employer_details_id`) VALUES (6, 5)