feat: Add generic operation square
and numeric unequal
#4
@ -30,6 +30,19 @@ export interface ComplexReturn<Params> {
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: Params extends BBinary<infer B> ? Complex<B> // binary case
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: never
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// alternatively if it seems better; each definition is simpler, but at
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// the cost of having two keys here:
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// complex_unary: Params extends [infer R] ? Complex<R> : never
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// complex_binary: Params extends BBinary<infer R> ? Complex<R> : never
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// There is actually a subtlety here that complex_unary really only works
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// on real types that include their own zero value, so it should really be
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// complex_unary: Params extends [infer R]
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// ? ImpReturns<'zero', [R]> extends R ? Complex<R> : never
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// : never
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// and that might actually simplify some of the typings of other operations,
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// but we'll leave such fine tuning til later, if we adopt this scheme
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zero: Params extends [infer Z] // unary
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? Z extends Complex<infer T> // of a Complex parameter
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? ImpReturns<'zero', T> extends T ? Z : never // that has its real 0
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@ -1,2 +1,3 @@
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export * from './numbers/all.js'
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export * from './Complex/all.js'
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export * from './generic/all.js'
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10
src/generic/all.ts
Normal file
10
src/generic/all.ts
Normal file
@ -0,0 +1,10 @@
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import { ForType } from '../core/Dispatcher.js'
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import { GenericReturn } from './type.js'
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import * as generic from './arithmetic.js'
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export { generic }
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declare module "../core/Dispatcher" {
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interface ReturnTypes<Params>
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extends ForType<'generic', GenericReturn<Params>> { }
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}
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39
src/generic/arithmetic.ts
Normal file
39
src/generic/arithmetic.ts
Normal file
@ -0,0 +1,39 @@
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import {Dependency, ImpType, ImpReturns} from "../core/Dispatcher";
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declare module "./type" {
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interface GenericReturn<Params> {
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// Jos: not sure how to define this or why it is needed
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// square: Signature<Params, [T], T>
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// square: ConservativeUnary<Params, T>
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// square: Params extends [infer R]
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// ? R extends number ? UnderlyingReal<R> : never
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// : never
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// The type of `square` in this interface, instantiated with the type
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// Params of a parameter list, needs to be the return type of the
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// operation `square` on those parameters. In other words, `square` gives
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// a type transformer from the tuple type of its parameters to its return
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// type.
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// That's how Dispatcher knows what the return type will be in
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// `Dependency<'square', [bigint]>`, for example: it instantiates
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// GenericReturn with Params equal to [bigint] and then grabs the
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// type of the `square` property. Hence we write:
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square: Params extends [infer T] // square only takes 1 arbitrary parameter
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? ImpReturns<'multiply', [T, T]> // and returns whatever multiply does
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: never; // otherwise if not a single argument, this implementation
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// doesn't handle it
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// If square had more than one implementation in this collection, we could
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// either add more conditional clauses to the above type transformer
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// as I did in Complex/type.ts for `complex`, or we could have two
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// different keys that both start with `square_` and Dispatcher will
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// check both (as I have now done in comments in Complex/type.ts and
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// verified that also works).
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}
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}
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export const square =
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<T>(dep: Dependency<'multiply', [T, T]>):
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ImpType<'square', [T]> =>
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z => dep.multiply(z, z)
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3
src/generic/type.ts
Normal file
3
src/generic/type.ts
Normal file
@ -0,0 +1,3 @@
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export interface GenericReturn<Params> {
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}
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@ -1,27 +1,34 @@
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import {configDependency} from '../core/Config.js'
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import {Signature, ImpType} from '../core/Dispatcher.js'
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import {Signature, ImpType, Dependency} from '../core/Dispatcher.js'
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const DBL_EPSILON = Number.EPSILON || 2.2204460492503130808472633361816E-16
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declare module "./type" {
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interface NumbersReturn<Params> {
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equal: Signature<Params, [number, number], boolean>
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unequal: Signature<Params, [number, number], boolean>
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}
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}
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export const equal =
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(dep: configDependency): ImpType<'equal', [number, number]> =>
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(x, y) => {
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const eps = dep.config.epsilon
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if (eps === null || eps === undefined) return x === y
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if (x === y) return true
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if (isNaN(x) || isNaN(y)) return false
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(x, y) => {
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const eps = dep.config.epsilon
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if (eps === null || eps === undefined) return x === y
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if (x === y) return true
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if (isNaN(x) || isNaN(y)) return false
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if (isFinite(x) && isFinite(y)) {
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const diff = Math.abs(x - y)
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if (diff < DBL_EPSILON) return true
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return diff <= Math.max(Math.abs(x), Math.abs(y)) * eps
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if (isFinite(x) && isFinite(y)) {
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const diff = Math.abs(x - y)
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if (diff < DBL_EPSILON) return true
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return diff <= Math.max(Math.abs(x), Math.abs(y)) * eps
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}
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return false
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}
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return false
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export const unequal = (dep: Dependency<'equal', [number, number]>):
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ImpType<'unequal', [number, number]> =>
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(x, y) => {
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return !dep.equal(x, y)
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}
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