What does TypeState refer to in respect to language design? I saw it mentioned in some discussions regarding a new language by mozilla called Rust.
Note: Typestate was dropped from Rust, only a limited version (tracking uninitialized and moved from variables) is left. See my note at the end.
I don't like link-only answers, so having delve into Rust lately (and really loving the "novel" ideas, at least for mainstream languages).
The motivation behind TypeState is that types are immutable, however some of their properties are dynamic, on a per variable basis.
The idea is therefore to create simple predicates about a type, and use the Control-Flow analysis that the compiler execute for many other reasons to statically decorate the type with those predicates.
Those predicates are not actually checked by the compiler itself, it could be too onerous, instead the compiler will simply reasons in terms of graph.
As a simple example, you create a predicate
Now, you create two functions:
Note that the type
Now, let's build some graphs:
Simple, isn't it ?
Of course it gets a bit more complicated when you have several possible paths:
This shows that you reason in terms of sets of predicates:
This can be augmented by the generic rule of a function:
And thus the building block of TypeState in Rust:
Note that since Rust requires that predicates are pure functions, it can eliminate redundant
What Typestate lack is simple: composability.
If you read the description carefully, you will note this:
This means that predicates for a types are useless in themselves, the utility comes from annotating functions. Therefore, introducing a new predicate in an existing codebase is a bore, as the existing functions need be reviewed and tweaked to cater to explain whether or not they need/preserve the invariant.
And this may lead to duplicating functions at an exponential rate when new predicates pop up: predicates are not, unfortunately, composable. The very design issue they were meant to address (proliferation of types, thus functions), does not seem to be addressed.
It's basically an extension of types, where you don't just check whether some operation is allowed in general, but in this specific context. All that at compile time.
The original paper is actually quite readable.
There's a typestate checker written for Java, and Adam Warski's explanatory page gives some useful information. I'm only just figuring this material out myself, but if you are familiar with QuickCheck for Haskell, the application of QuickCheck to monadic state seems similar: categorise the states and explain how they change when they are mutated through the interface.