The downside of strict tables is that some data types are not available, such as Date.
Strict should really be the default. If a database is shared by multiple applications then you should be able to rely on the declared data type. If one application stores a string into a numeric column that breaks everyone else.
On the other hand, the main use case for SQLite is embedded databases. And that means only one application is using the database. In that scenario being able to evolve the schema (as opposed to creating a new database and copying the data over) can be seen as an advantage. The application's code knows what to expect in each column--including mixed data types.
I think I can see how dynamic data types make sense (eg flat key/value store), but my question would be:
What is least surprising? That INTEGER implicity accepts 'hello world' without error, or that you can't insert such a value unless you use a keyword like NONSTRICT or a type like ANY?
I would wager the vast majority of SQLite users if asked would probably not expect it to work.
SQLite very rarely changes defaults because of their commitment to backwards compatibility. They don't want software written against SQLite 3.53 to suddenly start throwing errors when upgraded to 3.54 because suddenly `CREATE TABLE` is creating strict tables and the rest of the software breaks as a result.
Yeah it's a really weird design decision. Why would I want the database to let me accidentally insert the wrong type? SQLite is mostly great but its philosophy towards type safety leaves something to be desired. I once had to clean up in a project where someone had accidentally stored the strings '1' and '0' in a Boolean column in code deployed to thousands of devices; not fun.
Another thing I dislike is the lack of timestamp types. Instead, you're expected to just use a text column and store a textual timestamp. Even worse, instead of using ISO, the standard date time functions produce strings on the form "yyyy-mm-dd HH:MM:SS" which you're just supposed to assume are in UTC. Why not at least give us "yyyy-mm-ddTHH:MM:SSZ"? Or, you know, a proper space efficient timestamp data type.
A truly great project, with some truly baffling design decisions.
I’m kind of curious why the decision to have implicit casting like this was made in the first place. I can’t think of a single upside other than not having to type out cast(foo as bar)
SQLite was originally started as a local database library for use during development for times when the main networked database was not available. It used dbm as the underlying storage mechanism, with the dbm API roughly being string keys with string values. ie all underlying values were actually stored as strings. The SQLite code would automatically do conversions - eg the plus operator would convert the strings to int or float, add them, and generate a stringified number as a result. The vast majority of implementation code did not have to care about types, and very local decisions could be made such as in the addition example.
TCL was used as a dev wrapper language at the time, and it functioned the same way. Python does too.
It was only in mid-2004 that SQLite 3 was released which used its own storage backend, and that allowed for the 5 supported storage types (int64, string, bytes, float, null). It was API compatible (with minor adjustments) with the earlier SQLite 2, so the lack of static typing continued, otherwise everyone would have to rewrite their code. You do get dynamic typing, which hasn't been a problem for the vast majority of SQLite users.
Do remember that SQLite is competition for fopen, not Oracle / Postgres etc. It is trying to make things as effective as possible in that scenario. If you don't want numbers in your string column, then don't do that!
Using Entity Framework, this doesn't come up as a particular issue, but I still wish it were strict by default because I expect there could be some performance optimizations made for de/serialization.
Strict should really be the default. If a database is shared by multiple applications then you should be able to rely on the declared data type. If one application stores a string into a numeric column that breaks everyone else.
On the other hand, the main use case for SQLite is embedded databases. And that means only one application is using the database. In that scenario being able to evolve the schema (as opposed to creating a new database and copying the data over) can be seen as an advantage. The application's code knows what to expect in each column--including mixed data types.
What is least surprising? That INTEGER implicity accepts 'hello world' without error, or that you can't insert such a value unless you use a keyword like NONSTRICT or a type like ANY?
I would wager the vast majority of SQLite users if asked would probably not expect it to work.
That's pretty much the only disagreement with the SQLite developer, who is an amazing guy that wrote an amazing tool!
Another thing I dislike is the lack of timestamp types. Instead, you're expected to just use a text column and store a textual timestamp. Even worse, instead of using ISO, the standard date time functions produce strings on the form "yyyy-mm-dd HH:MM:SS" which you're just supposed to assume are in UTC. Why not at least give us "yyyy-mm-ddTHH:MM:SSZ"? Or, you know, a proper space efficient timestamp data type.
A truly great project, with some truly baffling design decisions.
> SQLite strives to be flexible regarding the datatype of the content that it stores.
[0]: https://sqlite.org/stricttables.html
TCL was used as a dev wrapper language at the time, and it functioned the same way. Python does too.
It was only in mid-2004 that SQLite 3 was released which used its own storage backend, and that allowed for the 5 supported storage types (int64, string, bytes, float, null). It was API compatible (with minor adjustments) with the earlier SQLite 2, so the lack of static typing continued, otherwise everyone would have to rewrite their code. You do get dynamic typing, which hasn't been a problem for the vast majority of SQLite users.
Do remember that SQLite is competition for fopen, not Oracle / Postgres etc. It is trying to make things as effective as possible in that scenario. If you don't want numbers in your string column, then don't do that!