import * as _ from "lodash"; import type { exportEnv, exportDistribution, } from "../rescript/ProgramEvaluator.gen"; export type { exportEnv, exportDistribution }; import { genericDist, samplingParams, evaluate, expressionValue, errorValue, distributionError, toPointSet, continuousShape, discreteShape, distributionErrorToString, } from "../rescript/TypescriptInterface.gen"; export { makeSampleSetDist, errorValueToString, distributionErrorToString, } from "../rescript/TypescriptInterface.gen"; import { Constructors_mean, Constructors_sample, Constructors_pdf, Constructors_cdf, Constructors_inv, Constructors_normalize, Constructors_isNormalized, Constructors_toPointSet, Constructors_toSampleSet, Constructors_truncate, Constructors_inspect, Constructors_toString, Constructors_toSparkline, Constructors_algebraicAdd, Constructors_algebraicMultiply, Constructors_algebraicDivide, Constructors_algebraicSubtract, Constructors_algebraicLogarithm, Constructors_algebraicPower, Constructors_pointwiseAdd, Constructors_pointwiseMultiply, Constructors_pointwiseDivide, Constructors_pointwiseSubtract, Constructors_pointwiseLogarithm, Constructors_pointwisePower, } from "../rescript/Distributions/DistributionOperation/DistributionOperation.gen"; import { pointSetDistFn } from "../rescript/OldInterpreter/DistPlus.bs"; export type { samplingParams, errorValue }; export let defaultSamplingInputs: samplingParams = { sampleCount: 10000, xyPointLength: 10000, }; export type result = | { tag: "Ok"; value: a; } | { tag: "Error"; value: b; }; export function resultMap( r: result, mapFn: (x: a) => b ): result { if (r.tag === "Ok") { return { tag: "Ok", value: mapFn(r.value) }; } else { return r; } } function Ok(x: a): result { return { tag: "Ok", value: x }; } type tagged = { tag: a; value: b }; function tag(x: a, y: b): tagged { return { tag: x, value: y }; } export type squiggleExpression = | tagged<"symbol", string> | tagged<"string", string> | tagged<"call", string> | tagged<"array", squiggleExpression[]> | tagged<"boolean", boolean> | tagged<"distribution", Distribution> | tagged<"number", number> | tagged<"record", { [key: string]: squiggleExpression }>; export function run( squiggleString: string, samplingInputs?: samplingParams, _environment?: exportEnv ): result { let si: samplingParams = samplingInputs ? samplingInputs : defaultSamplingInputs; let result: result = evaluate(squiggleString); return resultMap(result, (x) => createTsExport(x, si)); } function createTsExport( x: expressionValue, sampEnv: samplingParams ): squiggleExpression { switch (x.tag) { case "EvArray": return tag( "array", x.value.map((x) => createTsExport(x, sampEnv)) ); case "EvBool": return tag("boolean", x.value); case "EvCall": return tag("call", x.value); case "EvDistribution": return tag("distribution", new Distribution(x.value, sampEnv)); case "EvNumber": return tag("number", x.value); case "EvRecord": return tag( "record", _.mapValues(x.value, (x) => createTsExport(x, sampEnv)) ); case "EvString": return tag("string", x.value); case "EvSymbol": return tag("symbol", x.value); } } export function resultExn(r: result): a | c { return r.value; } export type point = { x: number; y: number }; export type shape = { continuous: point[]; discrete: point[]; }; function shapePoints(x: continuousShape | discreteShape): point[] { let xs = x.xyShape.xs; let ys = x.xyShape.ys; return _.zipWith(xs, ys, (x, y) => ({ x, y })); } export class Distribution { t: genericDist; env: samplingParams; constructor(t: genericDist, env: samplingParams) { this.t = t; this.env = env; return this; } mapResultDist( r: result ): result { return resultMap(r, (v: genericDist) => new Distribution(v, this.env)); } mean(): result { return Constructors_mean({ env: this.env }, this.t); } sample(): result { return Constructors_sample({ env: this.env }, this.t); } pdf(n: number): result { return Constructors_pdf({ env: this.env }, this.t, n); } cdf(n: number): result { return Constructors_cdf({ env: this.env }, this.t, n); } inv(n: number): result { return Constructors_inv({ env: this.env }, this.t, n); } isNormalized(): result { return Constructors_isNormalized({ env: this.env }, this.t); } normalize(): result { return this.mapResultDist( Constructors_normalize({ env: this.env }, this.t) ); } type() { return this.t.tag; } pointSet(): result { let pointSet = toPointSet( this.t, { xyPointLength: this.env.xyPointLength, sampleCount: this.env.sampleCount, }, undefined ); if (pointSet.tag === "Ok") { let distribution = pointSet.value; if (distribution.tag === "Continuous") { return Ok({ continuous: shapePoints(distribution.value), discrete: [], }); } else if (distribution.tag === "Discrete") { return Ok({ discrete: shapePoints(distribution.value), continuous: [], }); } else { return Ok({ discrete: shapePoints(distribution.value.discrete), continuous: shapePoints(distribution.value.continuous), }); } } else { return pointSet; } } toPointSet(): result { return this.mapResultDist( Constructors_toPointSet({ env: this.env }, this.t) ); } toSampleSet(n: number): result { return this.mapResultDist( Constructors_toSampleSet({ env: this.env }, this.t, n) ); } truncate( left: number, right: number ): result { return this.mapResultDist( Constructors_truncate({ env: this.env }, this.t, left, right) ); } inspect(): result { return this.mapResultDist(Constructors_inspect({ env: this.env }, this.t)); } toString(): string { let result = Constructors_toString({ env: this.env }, this.t); if (result.tag === "Ok") { return result.value; } else { return distributionErrorToString(result.value); } } toSparkline(n: number): result { return Constructors_toSparkline({ env: this.env }, this.t, n); } algebraicAdd(d2: Distribution): result { return this.mapResultDist( Constructors_algebraicAdd({ env: this.env }, this.t, d2.t) ); } algebraicMultiply(d2: Distribution): result { return this.mapResultDist( Constructors_algebraicMultiply({ env: this.env }, this.t, d2.t) ); } algebraicDivide(d2: Distribution): result { return this.mapResultDist( Constructors_algebraicDivide({ env: this.env }, this.t, d2.t) ); } algebraicSubtract(d2: Distribution): result { return this.mapResultDist( Constructors_algebraicSubtract({ env: this.env }, this.t, d2.t) ); } algebraicLogarithm( d2: Distribution ): result { return this.mapResultDist( Constructors_algebraicLogarithm({ env: this.env }, this.t, d2.t) ); } algebraicPower(d2: Distribution): result { return this.mapResultDist( Constructors_algebraicPower({ env: this.env }, this.t, d2.t) ); } pointwiseAdd(d2: Distribution): result { return this.mapResultDist( Constructors_pointwiseAdd({ env: this.env }, this.t, d2.t) ); } pointwiseMultiply(d2: Distribution): result { return this.mapResultDist( Constructors_pointwiseMultiply({ env: this.env }, this.t, d2.t) ); } pointwiseDivide(d2: Distribution): result { return this.mapResultDist( Constructors_pointwiseDivide({ env: this.env }, this.t, d2.t) ); } pointwiseSubtract(d2: Distribution): result { return this.mapResultDist( Constructors_pointwiseSubtract({ env: this.env }, this.t, d2.t) ); } pointwiseLogarithm( d2: Distribution ): result { return this.mapResultDist( Constructors_pointwiseLogarithm({ env: this.env }, this.t, d2.t) ); } pointwisePower(d2: Distribution): result { return this.mapResultDist( Constructors_pointwisePower({ env: this.env }, this.t, d2.t) ); } }