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Co-authored-by: vegorov-rbx <75688451+vegorov-rbx@users.noreply.github.com>
179 lines
5.5 KiB
Markdown
179 lines
5.5 KiB
Markdown
# Write-only properties
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## Summary
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Allow properties of classes and tables to be inferred as write-only.
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## Motivation
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This RFC is a follow-on to supporting read-only properties.
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Read-only properties have many obvious use-cases, but write-only properties
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are more technical.
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The reason for wanting write-only properties is that it means
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that we can infer a most specific type for functions, which we can't do if
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we only have read-write and read-only properties.
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For example, consider the function
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```lua
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function f(t) t.p = Dog.new() end
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```
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The obvious type for this is
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```lua
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f : ({ p: Dog }) -> ()
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```
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but this is not the most specific type, since read-write properties
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are invariant, We could have inferred `f : ({ p: Animal }) -> ()`.
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These types are incomparable (neither is a subtype of the other)
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and there are uses of `f` that fail to typecheck depending which one choose.
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If `f : ({ p: Dog }) -> ()` then
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```lua
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local x : { p : Animal } = { p = Cat.new() }
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f(x) -- Fails to typecheck
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```
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If `f : ({ p: Animal }) -> ()` then
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```lua
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local x : { p : Dog } = { p = Dog.new() }
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f(x) -- Fails to typecheck
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```
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The reason for these failures is that neither of these is the most
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specific type. It is one which includes that `t.p` is written to, and
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not read from.
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```lua
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f : ({ set p: Dog }) -> ()
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```
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This allows both example uses of `f` to typecheck. To see that it is more specific than `({ p: Animal }) -> ()`:
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* `Dog` is a subtype of `Animal`
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* so (since write-only properties are contravariant) `{ set p: Dog }` is a supertype of `{ set p: Animal }`
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* and (since read-write properties are a subtype of write-only properties) `{ set p: Animal }` is a supertype of `{ p: Animal }`
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* so (by transitivity) `{ set p: Dog }` is a supertype of `{ set p: Animal }` is a supertype of `{ p: Animal }`
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* so (since function arguments are contravariant `({ set p: Dog }) -> ()` is a subtype of `({ p: Animal }) -> ()`
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and similarly `({ set p: Dog }) -> ()` is a subtype of `({ p: Dog }) -> ()`.
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Local type inference depends on the existence of most specific (and most general) types,
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so if we want to use it "off the shelf" we will need write-only properties.
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There are also some security reasons why properties should be
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write-only. If `t` is a shared table, and any security domain can
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write to `t.p`, then it may be possible to use this as a back-channel
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if `t.p` is readable. If there is a dynamic check that a property is
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write-only then we may wish to present a script analysis error if a
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user tries reading it.
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## Design
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### Properties
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Add a modifier to table properties indicating that they are write-only.
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This proposal is not about syntax, but it will be useful for examples to have some. Write:
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* `set p: T` for a write-only property of type `T`.
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For example:
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```lua
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function f(t)
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t.p = 1 + t.q
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end
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```
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has inferred type:
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```
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f: (t: { set p: number, get q: number }) -> ()
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```
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indicating that `p` is used write-only but `q` is used read-only.
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### Adding read-only and write-only properties
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There are various points where type inference adds properties to types, we now have to consider how to treat each of these.
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When reading a property from a free table, we should add a read-only
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property if there is no such property already. If there is already a
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write-only property, we should make it read-write.
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When writing a property to a free table, we should add a write-only
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property if there is no such property already. If there is already a
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read-only property, we should make it read-write.
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When writing a property to an unsealed table, we should add a read-write
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property if there is no such property already.
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When declaring a method in a table or class, we should add a read-only property for the method.
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### Subtyping
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Write-only properties are contravariant:
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* If `T` is a subtype of `U` then `{ set p: U }` is a subtype of `{ set p: T }`.
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Read-write properties are a subtype of write-only properties:
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* If `T` is a subtype of `U` then `{ p: U }` is a subtype of `{ set p: T }`.
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### Indexers
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Indexers can be marked write-only just like properties. In
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particular, this means there are write-only arrays `{set T}`, that are
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contravariant. These are sometimes useful, for example:
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```lua
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function move(src, tgt)
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for i,v in ipairs(src) do
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tgt[i] = src[i]
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src[i] = nil
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end
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end
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```
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we can give this function the type
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```
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move: <a>({a},{set a}) -> ()
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```
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and since write-only arrays are contravariant, we can call this with differently-typed
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arrays:
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```lua
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local dogs : {Dog} = {fido,rover}
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local animals : {Animal} = {tweety,sylvester}
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move (dogs,animals)
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```
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This program does not type-check with read-write arrays.
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### Classes
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Classes can also have write-only properties and indexers.
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Some Roblox APIs which manipulate callbacks are write-only for security reasons.
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### Separate read and write types
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Once we have read-only properties and write-only properties, type intersection
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gives read-write properties with different types.
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```lua
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{ get p: T } & { set p : U }
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```
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If we infer such types, we may wish to present them differently, for
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example TypeScript allows both a getter and a setter.
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## Drawbacks
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This is adding to the complexity budget for users, who will be faced
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with inferred set modifiers on many properties. There is a trade-off
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here about how to spend the user's complexity budget: on understanding
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inferred types with write-only properties, or debugging false positive
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type errors caused by variance issues).
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## Alternatives
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Just stick with read-only and read-write accesses.
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