1

Say I have a generic type that takes a parameter:

type AnimalProps<T> = T extends any ? /* do something specific based on T */ : never

Then say I want to alter a type with AnimalProps based on a specific property of said type:

type AnimalLookup<S> = AnimalProps<S> extends any ? Record<"kind", S> & AnimalProps<S> : never

type AnimalStructure = Partial<
  Record<"name",string> & 
  AnimalLookup<string>
>

I want to then be able to do:

const obj:AnimalStructure = {
  name: "Fred The Snake",
  kind: "snake", // <--"snake" is passed to AnimalProps<"snake"> and alters the type of `obj`
  slither: "fast", // <-- property added via AnimalProps<"snake">
}

I was able to achieve this, by doing something like:

type AnimalKind = "snake" | "deer" | ...
type AnimalLookup<S extends AnimalKind> = AnimalProps<S> extends any ? Record<"kind", S> & AnimalProps<S> : never
type AnimalStructure = Partial<
  Record<"name",string> & 
  AnimalLookup<AnimalKind>
>

However the part I cannot seem to figure out is extending this to be an array of kinds:

const obj:AnimalStructure = {
  name: "Albert The Snake who is also a Duck",
  kind: ["snake", "duck"], // <-- passed to AnimalProps<"snake | duck"> and alters the type of `obj`
  slither: "slow", // <-- property added via AnimalProps<"snake | duck">
  fly: "fast", // <-- property added via AnimalProps<"snake | duck">
}

If I try defining my animal structure like so:

type Walk<K extends AnimalKind[], Cache = {}> =
    K extends [infer Single]
      ? Single extends AnimalKind
        ? AnimalProps<Single> & Cache
        : K extends [infer Next, ...infer Rest]
          ? Rest extends AnimalKind[]
            ? Next extends AnimalKind
              ? Walk<Rest, AnimalProps<Next> & Cache> 
              : never
            : never
          : never
      : never

type AnimalLookup<S extends AnimalKind[]> = Walk<S> extends any ? Record<"kind", S> & Walk<S> : never

type AnimalStructure = Partial<
  Record<"name",string> & 
  AnimalLookup<AnimalKind[]>

I have tried several things and I am only able to get all or nothing meaning, I add an array of animal kinds to my object and either NO animal props are allowed or ALL props for ALL animals are allowed (not just the ones I specified).

const obj:AnimalStructure = {
  name: "Albert The Snake who is also a Duck",
  kind: ["snake", "duck"],
  slither: "slow",
  fly: "fast",
  climb: "trees", <-- this ends up being allowed, because it is an animal prop but not for snake or duck.
}

This is a contrived example, of a more complex problem that is likely out of scope but here is playground link to a more concrete example. The bottom shows a series of structures that I expect to be valid types or invalid types. All of them are passing except the final one.

14
  • It is a bit unclear for me. Could you please provide your final solution and comment what you expect and what you have. This is a good question, I will try to help you Aug 10, 2021 at 13:18
  • @captain-yossarian please see my added comment with link to playground. It has all my attempts. There are a series of structures on the bottom to test the solution. Some should be invalid and others should be valid (comments explain). All are as expected except for the last one.
    – JD Isaacks
    Aug 10, 2021 at 13:30
  • 1
    @captain-yossarian I updated my link to a new playground with all other stuff removed and only showcasing a single attempt. The only errors should be on the bottom when I am showing examples that SHOULD error. But the last example should also error, but does not. I explain why.
    – JD Isaacks
    Aug 10, 2021 at 13:54
  • 1
    @captain-yossarian I updated the playground link, it now has many more comments explaining the goals and how each part is expected to work. If that is not enough detail we may need to move to chat or something. Also this bounty expires in 3 days, if that matters to you.
    – JD Isaacks
    Aug 16, 2021 at 12:22
  • 1
    yes it might have both, but has to have at least one.
    – JD Isaacks
    Aug 16, 2021 at 13:31

1 Answer 1

2
+500

First of all, it is impossible to do something like this in this case without extra generic parameter:

const f:Test = { 
  $transform: 'a',
  $font: 'a',
  $inherit: ['f.w', 'one.more'],
  $never: 'a',
  $time: 'a',
  $cant: 'a', // compilation error
}

In order to infer required props for $inherit: ['f.w', 'one.more'] you should either use a function or extra generic parameter for Test.

Something like this:

const f:Test<['f.w', 'one.more']> = { 
  $transform: 'a',
  $font: 'a',
  $inherit: ['f.w', 'one.more'],
  $never: 'a',
  $time: 'a',
  $cant: 'a',
}

OR

declare var data: Data;

type Obj = Data

function infer<
  Path extends KeysUnion<Obj>,
  Inheritance extends KeysUnion<Obj> | KeysUnion<Obj>[]
>(data: Obj, path: Path, extra: Inheritance): FinalPropsInherited<Obj, Path, Inheritance>
function infer<
  Path extends KeysUnion<Obj>,
  Inheritance extends KeysUnion<Obj> | KeysUnion<Obj>[]
>(data: Obj, path: Path): FinalProps<Obj, Path>
function infer<
  Path extends KeysUnion<Obj>,
  Inheritance extends KeysUnion<Obj> | KeysUnion<Obj>[]
>(data: Data, path: Path, extra?: Inheritance) {
  return null as any
}

const result = infer(data, 'l.m', ['f.w', 'one.more'])

Without extra parameter you should compute all permutations of possible $inherit properties and object itself. It will hit recursion limit.

Here you have a solution with extra generic:

type DigInto<T extends { inherit: string, css: string }> =
  T extends { inherit?: infer Inherit, css?: infer CSS }
  ? Inherit extends KeysUnion<Data>
  ? Reducer<Inherit, Data> & CSS
  : Inherit extends Array<KeysUnion<Data>> ? Reducer<Inherit[number], Data> & CSS : CSS
  : T

type Predicate<Accumulator extends Record<string, any>, El extends string> =
  El extends keyof Accumulator ? DigInto<Accumulator[El]> : Accumulator

type Reducer<
  Keys extends string,
  Accumulator extends Record<string, any> = {}
  > =
  Keys extends `${infer Prop}.${infer Rest}`
  ? Reducer<Rest, Predicate<Accumulator, Prop>>
  : Keys extends `${infer Last}`
  ? Predicate<Accumulator, Last>
  : never

type BuiltIns = 'inherit' | 'css';

type KeysUnion<T, Cache extends string = ''> =
  T extends PropertyKey ? Cache : {
    [P in keyof T]:
    P extends BuiltIns ? Cache :
    P extends string
    ? Cache extends ''
    ? KeysUnion<T[P], `${P}`>
    : Cache | KeysUnion<T[P], `${Cache}.${P}`>
    : never
  }[keyof T]


type Data = {
  foo: {
    bar: {
      css: Record<"$color", string> & Record<"$margin", string>
    }
    biz: {
      // inherits the props from foo.bar
      inherit: 'foo.bar'
      css: Record<"$what", string>
    }
  },
  two: {
    three: {
      // inherits the props from foo.biz
      inherit: 'foo.biz',
      css: Record<"$padding", string>
    }
  }
  c: {
    bar: {
      // inherits the props from two.three
      inherit: 'two.three'
    }
  },
  d: {
    foo: {
      css: Record<"$never", string>
    }
  },
  e: {
    q: {
      // inherits the props from d.foo
      inherit: "d.foo"
    }
  },
  f: {
    w: {
      // inherits the props from both e.q and c.bar
      inherit: ["e.q", "c.bar"]
    }
  }
  h: {
    i: {
      // Inherits the props from c.bar
      inherit: 'c.bar',
      css: Record<"$font", string>
    }
  },
  l: {
    m: {
      // Inherits the props from h.i
      inherit: 'h.i',
      css: Record<"$transform", string> & Record<"$temp", string>
    }
  }
  x: {
    x: {
      // inherits the props f.w
      inherit: 'f.w'
    }
  }
  one: {
    more: {
      css: Record<"$time", string>
    }
  }
  another: {
    branch: {
      css: Record<"$cant", string>
    }
  }
}
type UnionKeys<T> = T extends T ? keyof T : never;

//https://stackoverflow.com/questions/65805600/type-union-not-checking-for-excess-properties#answer-65805753
type StrictUnionHelper<T, TAll> =
  T extends any
  ? T & Partial<Record<Exclude<UnionKeys<TAll>, keyof T>, never>> : never;

type StrictUnion<T> = StrictUnionHelper<T, T>


type ExtraProperties = Record<'$transform', string> & Record<'$temp', string>

type MakePartial<T> = StrictUnion<Partial<T>>

type InheritedProps<Obj, Props extends KeysUnion<Obj>> = MakePartial<Reducer<Props, Obj>>


type FinalProps<
  Obj,
  Props extends KeysUnion<Obj>,
  > = InheritedProps<Obj, Props> & MakePartial<ExtraProperties>

// type Result = {
//     $color?: string | undefined;
//     $margin?: string | undefined;
//     $what?: string | undefined;
//     $padding?: string | undefined;
//     $font?: string | undefined;
//     $transform?: string | undefined;
//     $temp?: string | undefined;
// }
type Result = FinalProps<Data, 'l.m'>

type FinalPropsInherited<
  Obj,
  Props extends KeysUnion<Obj>,
  Inheritance extends KeysUnion<Obj> | KeysUnion<Obj>[]
  > =
  Inheritance extends KeysUnion<Obj>
  ? FinalProps<Obj, Props> & Record<'$inherit', Inheritance> & Reducer<Inheritance, Obj>
  : Inheritance extends KeysUnion<Obj>[]
  ? FinalProps<Obj, Props> & Record<'$inherit', Inheritance> & Reducer<Inheritance[number], Obj>
  : never

const base: Result = {   // SHOULD BE OK
  $transform: 'a',
  $font: 'a',
}

const a: Result = {   // $never was not a prop defined or inherited by l.m so this is an error
  $transform: 'a',
  $font: 'a',
  $never: 'a',
}


const b: FinalPropsInherited<Data, 'l.m', 'f.w'> = {  // We now are saying $inherit f.w which eventually adds a $never and makes this now OK
  $transform: 'a',
  $font: 'a',
  $inherit: 'f.w',
  $never: 'a',
}

const c: FinalPropsInherited<Data, 'l.m', 'f.w'> = {  // $time is not ever added yet, so this is an error
  $transform: 'a',
  $font: 'a',
  $inherit: 'f.w',
  $time: 'a'
}

const d: FinalPropsInherited<Data, 'l.m', 'one.more'> = {  // We are now saying $inherit one.more which does add the $time property and this is OK
  $transform: 'a',
  $font: 'a',
  $inherit: 'one.more',
  $time: 'a', // ok
}

const e: FinalPropsInherited<Data, 'l.m', ['f.w', 'one.more']> = { // shoule be OK
  $transform: 'a',
  $font: 'a',
  $inherit: ['f.w', 'one.more'],
  $never: 'a',
  $time: 'a',
}

const f: FinalPropsInherited<Data, 'l.m', ['f.w', 'one.more']> = { // shoule be ERROR no $cant  ---- (but it is allowing $cant even tho `l.m | f.w | one.more` none of which add a $cant prop)
  $transform: 'a',
  $font: 'a',
  $inherit: ['f.w', 'one.more'],
  $never: 'a',
  $time: 'a',
  $cant: 'a',
}

declare var data: Data;

type Obj = Data

function infer<
  Path extends KeysUnion<Obj>,
  Inheritance extends KeysUnion<Obj> | KeysUnion<Obj>[]
>(data: Obj, path: Path, extra: Inheritance): FinalPropsInherited<Obj, Path, Inheritance>
function infer<
  Path extends KeysUnion<Obj>,
  Inheritance extends KeysUnion<Obj> | KeysUnion<Obj>[]
>(data: Obj, path: Path): FinalProps<Obj, Path>
function infer<
  Path extends KeysUnion<Obj>,
  Inheritance extends KeysUnion<Obj> | KeysUnion<Obj>[]
>(data: Data, path: Path, extra?: Inheritance) {
  return null as any
}

const result = infer(data, 'l.m', ['f.w', 'one.more'])

Playground

Please let me know if it works for you. If it does - I will provide some explanation.

Example of usage with React provided by OP - @JD Isaacks

type SC<I extends KeysUnion<Data> | KeysUnion<Data>[]> = StyledComponent<"div", any, FinalPropsInherited<Data, 'l.m', I>>
type MyComp<I extends KeysUnion<Data> | KeysUnion<Data>[]> = ReturnType<SC<I>>
const D = <I extends KeysUnion<Data> | KeysUnion<Data>[],>(props: FinalPropsInherited<Data, 'l.m', I>): MyComp<I> => null as any

const Comp = () => {
  return (
    <D $inherit={['f.w', 'one.more', 'another.branch']} $transform="sd" $never="sd" $time="sd" $cant="sd" />
  )
}
15
  • 1
    Could you please provide a reproducable example of react component? TS is able to infer literal [f.w] without using explicit generic. Aug 17, 2021 at 14:50
  • 1
    Sure, generics for react components are supported since v 3.* Aug 17, 2021 at 14:51
  • 1
    I will try to come up with a working example, but afraid I won't have time before bounty expires. If so, I'll still give you the bounty and maybe ask that as a new question since applying this to react is not in scope of this question anyways.
    – JD Isaacks
    Aug 17, 2021 at 14:52
  • 1
    Take a look on my blog catchts.com/infer-arguments and dev.to/captainyossarian/how-to-type-react-props-as-a-pro-2df2 maybe it will be helpfull. Aug 17, 2021 at 14:55
  • 1
    Not really. I had it working (kinda) but as my structure grew in complexity I kept hitting the "type is excessively deep and possibly infinite" issue over and over. So I just decided to go with a simpler pattern. I learned a lot about TS in the process tho.
    – JD Isaacks
    Aug 27, 2021 at 9:54

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