Why can't I just leave those relationships out?
What's the point of them?
I can stil run queries and treat them like it a relationship myself...
Yes, you can always leave the foreign key constraints out but then you will be responsible about the integrity of your data. If you use foreign key constraints, then you won't have to worry about the referential integrity among tables. You can read more about referential integrity from Wikipedia. I will also try to explain it with an example below.
Think of a shopping cart scenario. You have three tables: item, shopping_cart and shopping_cart_item. You can choose not to define any relationship between these tables, that's fine for any SQL solution. When user starts shopping, you create a shopping cart by adding a shopping_cart entry. As user adds items to his shopping cart, you save this information by adding rows to shopping_cart_item table.
One problem may occur at this step: If you have a buggy code that assigns incorrect shopping_cart_id's to shopping_cart_items, then you will definitely end up with incorrect data! Yes, you can have this case even with a foreign key constraint if the assigned id actually exists in the shopping_cart table. But this error will be more detectable when a foreign key exists since it would not insert shopping_cart_item record when the foreign key constraint fails.
Let's continue with the assumption that your code is not buggy and you won't have first type of referential integrity. Then suddenly a user wants to stop shopping and delete the cart and you chose to implement this case by deleting the shopping_cart and shopping_cart_item entries. Then you will have to delete entries in both tables with two separate queries. If something goes wrong after you delete shopping_cart entries, then you will again have a referential integrity problem: You will have shopping_cart_items that are not related to any shopping_cart. You will then have to introduce transaction managing, try to provide meaningful data to your business logic about the error happened in data access layer, etc..
In this type of scenario's, foreign keys can save life. You can define a foreign key constraint that will prevent insertion of any sort of incorrect data and you can define cascade operations that will automatically perform deletion of related data.
If there is anything unclear, just leave a comment and I can improve the answer.
Apart from what the others have said about why you technically want (actually: need) them:
foreign key constraints also document your model.
When looking at a model without FK constraints you have no idea which table relates to which. But with FK constraints in place you immediately see how things belong together.
You create FOREIGN KEYs to instruct the database engine to ensure that you never perform an action on the database that creates invalid records.
So, if you create a FOREIGN KEY relationship between users.id and visits.userid the engine will refuse to perform any actions that result in a userid value in visits that does not exist in users. This might be adding an unknown userid to visits, removing an id from users that already exists in visits, or updating either field to "break" the relationship.
That is why PRIMARY and FOREIGN KEYs are referred to as referential integrity constraints. The tell your database engine how to keep your data correct.
It doesn't allow you to enter an id which does not exist in another table, for example, if you have products and you keep owner Id, by creating a foreign key ton the owner id to id field of the owners table, you do not allow users to create an object record which has an owner id which does not exist in the owner table. such things are called referential intergrity.
The foreign key constraint helps you ensure referential integrity.
If you delete a row in one table, mysql can automatically delete all rows in other tables that the deleted row refers to via the foreign key. You can also make it reject the delete command.
Also when you try to insert a row, mysql can automatically create new rows in other tables, so the foreign key does not refer to nothing.
That is what referential integrity is all about.
Databases can be affected by more than just the application. Not all data changes go through the application even if they are supposed to. People change stuff directly on the database all the time. Rules that need to apply to all data all the time belong on the database. Suppose you can update the prices of your stock. That's great for updating anindividual price. But what happens when the boss decides to raise all prices by 15%. No one is going to go through and change 10,000 prices one at a time through the GUI, they are going to write a quick SQL script to do the update. Or suppose two suppliers join together to have one company and you want to change all of thie items to be the new company. Those kinds of changes happen to databases every day and they too need to follow the rules for data integrity.
New developers may not know about all the places where the foreign key relationships should exist and thus make mistakes which cause the data to be no longer useful.
Databases without foreign key constraints have close to a 100% chance of having bad data in them. Do you really want to have orders where you can't identify who the customers were?
THe FKS will prevent you from deleting a customer who has orders for instance or if you use a natural key of company_name and the name changes, all related records must be changed with the key change.
Or suppose you decide to put a new GUI together and dump the old one, then you might have to figure out all the FK relationships again (because you are using a different datalayer or ORM) and the chances are you might miss some.
It is irresponsible in the extreme to not put in FK relationships. You are risking the lifeblood of your company's business because you think it is a pain to do. I'd fire you if you suggested not using FKs because I would know I couldn't trust my company's data to you.
Related
For instance there are 20 tables which have foreign key of a table let's call it Child. Now when i delete a record from Child it will check whether the record is referenced from somewhere or not, is it so or some other scenario.
My question is how this foreign key relation impacting performance of deletion operation.
Actually i'm using hibernate and i have an entity which has got only 3 columns and is used in many other Entities(one-to-one) mapping.
I'm thinking to make this entity embeddable for performance tuning because if i keep it entity then mapping between tables is done using foreign key. Although when i delete an entity there are only two query are running :- delete parent , then delete child. But as child's foreign key is referenced from many other tables with lot of records so it will check whether reference of record in child exists in some tables or not if not then delete while deleting child record. So i want to target this issue by making child embeddable which will result columns of child will be included in parent tables. Whether this will help?
Performance depends very much on which DBMS you're using, how your tables are designed, indexed and stored, and how much data you have.
In general, foreign key constraints save time and effort and prevent mistakes. Without a foreign key constraint, you would have to enforce integrity yourself.
For example, manually cascading a delete or update would be done in multiple round-trips to the database which would normally be wrapped in a transaction. Manually checking for related records to restrict changes would also require additional queries and data transferred between server and client.
If you missed anything or another user modified related data between your queries, you might end up with invalid data, which can be very costly - both in terms of DBA time as well as customer satisfaction.
I'm using MySQL and have been planning out the database structure for a system I'm building out. As I've been going along, I started to wonder if it was acceptable to have a particular foreign key constraint in many different tables. From what I understand, it would be fine, as it makes sense. But I'd like to double check.
For example, I have a users table, and I use the user_id as a foreign key for many tables, sometimes multiple times in one table. For example, I have a one-to-one relationship with a user_settings table, which of course stores the user_id. And then I have a companies table, which alone has a few references to the user_id key. In this case, I have a column that keeps track of the user that created the company in the system (created_by), a column for the main contact (main_contact, who is also a user of the system), and there might be another reference. So that alone, already has the user_id key being used as a foreign key constraint 3-4 times.
Just to add another bit of info, I have a tasks table and that of course needs to reference the user_id to keep track of who it's assigned to, and I also have another column that keeps track of the user that created the task. That would be assigned_to and created_by, respectively.
There are more tables though that reference back to that key. I might be up to 8 references already. I do believe I've designed it properly so far, but based on what I've mentioned, does this sound fine?
Your foreign key usage seems fine to me - after all, you are simply representing logical relationships between your tables.
A user within your system interacts with the data in many ways, and to define these relationships your approach is the correct one.
The key point I think is that under a lot circumstances, you won't always want (or need) to make all the joins that represent your relationships - simply the ones that you need in that context.
As per my undestanding the way you are defining is fine i.e to use a user id to many tables as foreign key.
If your line:: I have a companies table, which alone has a few references to the user_id key doesn't mean that you are using multipe user_id in same table and I know you are not.
Quick question about DB design! In this example there are users and schedules. Each user can have many schedules and each schedule can belong to many users.
I have two tables, 'user' and 'schedule', that each have a unique identifier/primary key (user_id and schedule_id): these tables have a many-to-many relationship.
This is where I am unsure/inexperienced: In order to connect them together and adhere to good db design, I want to create a link table that has two columns, user_id and schedule_id. I plan to make these both primary keys (therefore a composite key). However, do I also add two foreign keys, one on user_id linked to the 'user' table and one on schedule_id linked to the 'schedule' table?
TLDR: I plan to use a composite key in 2-column 'link' table that connects two tables. Should/Do I also need to make those into foreign keys?
PKs and FKs serve different purposes. In a link table, you need the PK to preserve uniqueness of the data. However, if you do not also create the FKs then you may end up with data integrity problems because the ID could be deleted from the original table and not the link table.
Sometimes people think they can get away without the FKs because they will enforce data integrity through the application. Almost always this is because they find it annoying when the constraints won't let them do something they want to do. Of course that is the purpose of the constraint, to prevent users and developers from doing things they should not. Data integrity must be preserved through the database; it is too important to risk letting the application handle it. I have seen a lot of data from hundreds of databases and the ones with the worst data are invariably the ones where the devs thought they could manage stuff like table relationships through the application. There are always holes when you do this and eventually they come back to bite you and then they can be very difficult to fix properly.
I have a Customers table, a Sports table, and Customers_Sports join table. The last table tells me which customers play what sports, ie contains foreign keys to the other two tables.
Foreign key constraints are enforced, and foreign keys cannot be null.
Using LINQ, is there a simple way to delete a customer and at the same time delete all the records in the join table that reference the customer?
I can do it the hard way, ie first delete relevant records from the join table, then delete the customer's record from Customers.
Simple is the real kicker. There's not an automatic way to do it. You're basically stuck deleting everything from the Customer_Sports table that matches the given customer, then deleting the customer yourself. I believe if you delete both before you do a SubmitChanges() you shouldn't run into any foreign key constraint violations.
If you wanted to get really fancy you could use reflection to create a generic function that would do this any time there was a foreign key kind of like Linq to SQL cascading delete with reflection .
Setting up the database to do this for you is probably a lot less error prone. The performance is probably better too, although unless you know you have a performance problem you shouldn't worry about performance.
I have a website which I have been working on creating very rapidly, and now am paying back some technical debt. I have a complicated issue:
My site deals with scheduling hikes. Once you create a hike, it has many things associated with it:
a message board, list of attendees, the group it belongs to, the carpool, route, trailhead, etc.
Here is an example so you can see what I am talking about:
http://www.comehike.com/hikes/scheduled_hike.php?hike_id=172
The technical debt I am talking about is that I never made foreign keys in the DB, and now need to do a cascade delete, and I am not sure how to go about it so that I don't introduce a million bugs :)
Should I make foreign keys for all the tables now? How should I do this?
Thanks,
Alex
Check out the MySQL docs on FOREIGN KEY Constraints. Note that you'll need to be using innoDB tables.
ALTER TABLE <tablename>
ADD CONSTRAINT <fkname> FOREIGN KEY <index name>(<columns>)
REFERENCES <othertable> (<columns>)
ON DELETE CASCADE
I would suggest creating foreign keys for the tables in your DB. This will be a more robust way of dealing with the problem you are facing. You obviously understand what a foreign key imposes on the database, and how to deal with the keys.
If I was faced with this problem, I would use a graphical interface for the database if I had one (e.g. PhpMyAdmin), otherwise a quick google brings up some tutorials.
EDIT: From the linked tutorial, in a many-to-one relationship, you pace the key on the "many" table, indicating that a certain column in that table can only have values that are present in a certain column in the "one" table. Hi the link for a worked example.
When adding keys to a table that already has data, you may not be able to add the foreign key if some of the data is malformed. For example, if you have a phone number table referencing a person table (many phone numbers to one person) and you have any phone numbers with an invalid person_id (maybe person 5 was deleted and there is still a phone number with a person_id of 5) you will be unable to create the foreign key until you remove the offending phone number.
if you have not made formal foreign keys, the have you made the keys some other way that permits linking the tables or are all tables unrelated ?
If there is anyway to relate the tables then you will simply have to write a Cascading Delete code.
Otherwise its probabely a redesign or add in foreignkey fun. =))
If you have not already get yourself a copy of MySQL Workbench and redesign it from there adding in the foreign keys. This will generate the SQL code for you too.
I would go with creating foreign keys as well but if there is any reason that stops you from doing so there is another solution which is creating Triggers. You can tell triggers to basically do anything you want when an update,delete or insertion occurs to a table in the database including changing other tuples in other tables. Here are a couple of tutorials on how to create triggers:
http://www.stanford.edu/dept/itss/docs/oracle/10g/server.101/b10759/statements_7004.htm
http://msdn.microsoft.com/en-us/library/ms189799.aspx
the first one seems more direct and clearer but if none of them helps just search google for DB triggers and you're all set!
I hope this helps :)