Merge pull request #829 from quantified-uncertainty/scoring-cleanup-three-fixes

Scoring cleanup three fixes
2022-07-13 10:00:06 -07:00 · 2022-07-13 10:00:06 -07:00 · 4853df39bb
commit 4853df39bb
parent e9968288fd 78e9e48626
17 changed files with 244 additions and 172 deletions
--- a/packages/squiggle-lang/tests/Distributions/DistributionOperation_test.res
+++ b/packages/squiggle-lang/tests/Distributions/DistributionOperation_test.res
@ -1,7 +1,7 @@
 open Jest
 open Expect

-let env: DistributionOperation.env = {
+let env: GenericDist.env = {
  sampleCount: 100,
  xyPointLength: 100,
 }
--- a/packages/squiggle-lang/tests/TestHelpers.res
+++ b/packages/squiggle-lang/tests/TestHelpers.res
@ -29,7 +29,7 @@ let {toFloat, toDist, toString, toError, fmap} = module(DistributionOperation.Ou

 let fnImage = (theFn, inps) => Js.Array.map(theFn, inps)

-let env: DistributionOperation.env = {
+let env: GenericDist.env = {
  sampleCount: MagicNumbers.Environment.defaultSampleCount,
  xyPointLength: MagicNumbers.Environment.defaultXYPointLength,
 }
--- a/packages/squiggle-lang/src/rescript/Distributions/DistributionOperation.res
+++ b/packages/squiggle-lang/src/rescript/Distributions/DistributionOperation.res
@ -4,12 +4,9 @@ type error = DistributionTypes.error

 // TODO: It could be great to use a cache for some calculations (basically, do memoization). Also, better analytics/tracking could go a long way.

-type env = {
-  sampleCount: int,
-  xyPointLength: int,
-}
+type env = GenericDist.env

-let defaultEnv = {
+let defaultEnv:env = {
  sampleCount: MagicNumbers.Environment.defaultSampleCount,
  xyPointLength: MagicNumbers.Environment.defaultXYPointLength,
 }
@ -93,7 +90,7 @@ module OutputLocal = {
    }
 }

-let rec run = (~env, functionCallInfo: functionCallInfo): outputType => {
+let rec run = (~env:env, functionCallInfo: functionCallInfo): outputType => {
  let {sampleCount, xyPointLength} = env

  let reCall = (~env=env, ~functionCallInfo=functionCallInfo, ()) => {
@ -146,7 +143,7 @@ let rec run = (~env, functionCallInfo: functionCallInfo): outputType => {
      }
    | #ToDist(Normalize) => dist->GenericDist.normalize->Dist
    | #ToScore(LogScore(answer, prior)) =>
-      GenericDist.Score.logScore(~estimate=Score_Dist(dist), ~answer, ~prior)
+      GenericDist.Score.logScore(~estimate=dist, ~answer, ~prior, ~env)
      ->E.R2.fmap(s => Float(s))
      ->OutputLocal.fromResult
    | #ToBool(IsNormalized) => dist->GenericDist.isNormalized->Bool
--- a/packages/squiggle-lang/src/rescript/Distributions/DistributionOperation.resi
+++ b/packages/squiggle-lang/src/rescript/Distributions/DistributionOperation.resi
@ -1,11 +1,5 @@
@genType
-type env = {
-  sampleCount: int,
-  xyPointLength: int,
-}
-
-@genType
-let defaultEnv: env
+let defaultEnv: GenericDist.env

 open DistributionTypes

@ -19,14 +13,17 @@ type outputType =
  | GenDistError(error)

@genType
-let run: (~env: env, DistributionTypes.DistributionOperation.genericFunctionCallInfo) => outputType
+let run: (
+  ~env: GenericDist.env,
+  DistributionTypes.DistributionOperation.genericFunctionCallInfo,
+) => outputType
 let runFromDist: (
-  ~env: env,
+  ~env: GenericDist.env,
  ~functionCallInfo: DistributionTypes.DistributionOperation.fromDist,
  genericDist,
 ) => outputType
 let runFromFloat: (
-  ~env: env,
+  ~env: GenericDist.env,
  ~functionCallInfo: DistributionTypes.DistributionOperation.fromFloat,
  float,
 ) => outputType
@ -42,90 +39,147 @@ module Output: {
  let toBool: t => option<bool>
  let toBoolR: t => result<bool, error>
  let toError: t => option<error>
-  let fmap: (~env: env, t, DistributionTypes.DistributionOperation.singleParamaterFunction) => t
+  let fmap: (
+    ~env: GenericDist.env,
+    t,
+    DistributionTypes.DistributionOperation.singleParamaterFunction,
+  ) => t
 }

 module Constructors: {
  @genType
-  let mean: (~env: env, genericDist) => result<float, error>
+  let mean: (~env: GenericDist.env, genericDist) => result<float, error>
  @genType
-  let stdev: (~env: env, genericDist) => result<float, error>
+  let stdev: (~env: GenericDist.env, genericDist) => result<float, error>
  @genType
-  let variance: (~env: env, genericDist) => result<float, error>
+  let variance: (~env: GenericDist.env, genericDist) => result<float, error>
  @genType
-  let sample: (~env: env, genericDist) => result<float, error>
+  let sample: (~env: GenericDist.env, genericDist) => result<float, error>
  @genType
-  let cdf: (~env: env, genericDist, float) => result<float, error>
+  let cdf: (~env: GenericDist.env, genericDist, float) => result<float, error>
  @genType
-  let inv: (~env: env, genericDist, float) => result<float, error>
+  let inv: (~env: GenericDist.env, genericDist, float) => result<float, error>
  @genType
-  let pdf: (~env: env, genericDist, float) => result<float, error>
+  let pdf: (~env: GenericDist.env, genericDist, float) => result<float, error>
  @genType
-  let normalize: (~env: env, genericDist) => result<genericDist, error>
+  let normalize: (~env: GenericDist.env, genericDist) => result<genericDist, error>
  @genType
-  let isNormalized: (~env: env, genericDist) => result<bool, error>
+  let isNormalized: (~env: GenericDist.env, genericDist) => result<bool, error>
  module LogScore: {
    @genType
-    let distEstimateDistAnswer: (~env: env, genericDist, genericDist) => result<float, error>
-    @genType
-    let distEstimateDistAnswerWithPrior: (
-      ~env: env,
+    let distEstimateDistAnswer: (
+      ~env: GenericDist.env,
      genericDist,
      genericDist,
-      DistributionTypes.DistributionOperation.genericDistOrScalar,
    ) => result<float, error>
    @genType
-    let distEstimateScalarAnswer: (~env: env, genericDist, float) => result<float, error>
+    let distEstimateDistAnswerWithPrior: (
+      ~env: GenericDist.env,
+      genericDist,
+      genericDist,
+      genericDist,
+    ) => result<float, error>
    @genType
-    let distEstimateScalarAnswerWithPrior: (
-      ~env: env,
+    let distEstimateScalarAnswer: (
+      ~env: GenericDist.env,
      genericDist,
      float,
-      DistributionTypes.DistributionOperation.genericDistOrScalar,
+    ) => result<float, error>
+    @genType
+    let distEstimateScalarAnswerWithPrior: (
+      ~env: GenericDist.env,
+      genericDist,
+      float,
+      genericDist,
    ) => result<float, error>
  }
  @genType
-  let toPointSet: (~env: env, genericDist) => result<genericDist, error>
+  let toPointSet: (~env: GenericDist.env, genericDist) => result<genericDist, error>
  @genType
-  let toSampleSet: (~env: env, genericDist, int) => result<genericDist, error>
+  let toSampleSet: (~env: GenericDist.env, genericDist, int) => result<genericDist, error>
  @genType
-  let fromSamples: (~env: env, SampleSetDist.t) => result<genericDist, error>
+  let fromSamples: (~env: GenericDist.env, SampleSetDist.t) => result<genericDist, error>
  @genType
-  let truncate: (~env: env, genericDist, option<float>, option<float>) => result<genericDist, error>
+  let truncate: (
+    ~env: GenericDist.env,
+    genericDist,
+    option<float>,
+    option<float>,
+  ) => result<genericDist, error>
  @genType
-  let inspect: (~env: env, genericDist) => result<genericDist, error>
+  let inspect: (~env: GenericDist.env, genericDist) => result<genericDist, error>
  @genType
-  let toString: (~env: env, genericDist) => result<string, error>
+  let toString: (~env: GenericDist.env, genericDist) => result<string, error>
  @genType
-  let toSparkline: (~env: env, genericDist, int) => result<string, error>
+  let toSparkline: (~env: GenericDist.env, genericDist, int) => result<string, error>
  @genType
-  let algebraicAdd: (~env: env, genericDist, genericDist) => result<genericDist, error>
+  let algebraicAdd: (~env: GenericDist.env, genericDist, genericDist) => result<genericDist, error>
  @genType
-  let algebraicMultiply: (~env: env, genericDist, genericDist) => result<genericDist, error>
+  let algebraicMultiply: (
+    ~env: GenericDist.env,
+    genericDist,
+    genericDist,
+  ) => result<genericDist, error>
  @genType
-  let algebraicDivide: (~env: env, genericDist, genericDist) => result<genericDist, error>
+  let algebraicDivide: (
+    ~env: GenericDist.env,
+    genericDist,
+    genericDist,
+  ) => result<genericDist, error>
  @genType
-  let algebraicSubtract: (~env: env, genericDist, genericDist) => result<genericDist, error>
+  let algebraicSubtract: (
+    ~env: GenericDist.env,
+    genericDist,
+    genericDist,
+  ) => result<genericDist, error>
  @genType
-  let algebraicLogarithm: (~env: env, genericDist, genericDist) => result<genericDist, error>
+  let algebraicLogarithm: (
+    ~env: GenericDist.env,
+    genericDist,
+    genericDist,
+  ) => result<genericDist, error>
  @genType
-  let algebraicPower: (~env: env, genericDist, genericDist) => result<genericDist, error>
+  let algebraicPower: (
+    ~env: GenericDist.env,
+    genericDist,
+    genericDist,
+  ) => result<genericDist, error>
  @genType
-  let scaleLogarithm: (~env: env, genericDist, float) => result<genericDist, error>
+  let scaleLogarithm: (~env: GenericDist.env, genericDist, float) => result<genericDist, error>
  @genType
-  let scaleMultiply: (~env: env, genericDist, float) => result<genericDist, error>
+  let scaleMultiply: (~env: GenericDist.env, genericDist, float) => result<genericDist, error>
  @genType
-  let scalePower: (~env: env, genericDist, float) => result<genericDist, error>
+  let scalePower: (~env: GenericDist.env, genericDist, float) => result<genericDist, error>
  @genType
-  let pointwiseAdd: (~env: env, genericDist, genericDist) => result<genericDist, error>
+  let pointwiseAdd: (~env: GenericDist.env, genericDist, genericDist) => result<genericDist, error>
  @genType
-  let pointwiseMultiply: (~env: env, genericDist, genericDist) => result<genericDist, error>
+  let pointwiseMultiply: (
+    ~env: GenericDist.env,
+    genericDist,
+    genericDist,
+  ) => result<genericDist, error>
  @genType
-  let pointwiseDivide: (~env: env, genericDist, genericDist) => result<genericDist, error>
+  let pointwiseDivide: (
+    ~env: GenericDist.env,
+    genericDist,
+    genericDist,
+  ) => result<genericDist, error>
  @genType
-  let pointwiseSubtract: (~env: env, genericDist, genericDist) => result<genericDist, error>
+  let pointwiseSubtract: (
+    ~env: GenericDist.env,
+    genericDist,
+    genericDist,
+  ) => result<genericDist, error>
  @genType
-  let pointwiseLogarithm: (~env: env, genericDist, genericDist) => result<genericDist, error>
+  let pointwiseLogarithm: (
+    ~env: GenericDist.env,
+    genericDist,
+    genericDist,
+  ) => result<genericDist, error>
  @genType
-  let pointwisePower: (~env: env, genericDist, genericDist) => result<genericDist, error>
+  let pointwisePower: (
+    ~env: GenericDist.env,
+    genericDist,
+    genericDist,
+  ) => result<genericDist, error>
 }
--- a/packages/squiggle-lang/src/rescript/Distributions/DistributionTypes.res
+++ b/packages/squiggle-lang/src/rescript/Distributions/DistributionTypes.res
@ -100,7 +100,7 @@ module DistributionOperation = {

  type genericDistOrScalar = Score_Dist(genericDist) | Score_Scalar(float)

-  type toScore = LogScore(genericDistOrScalar, option<genericDistOrScalar>)
+  type toScore = LogScore(genericDistOrScalar, option<genericDist>)

  type fromFloat = [
    | #ToFloat(toFloat)
--- a/packages/squiggle-lang/src/rescript/Distributions/GenericDist.res
+++ b/packages/squiggle-lang/src/rescript/Distributions/GenericDist.res
@ -6,6 +6,11 @@ type toSampleSetFn = t => result<SampleSetDist.t, error>
 type scaleMultiplyFn = (t, float) => result<t, error>
 type pointwiseAddFn = (t, t) => result<t, error>

+type env = {
+  sampleCount: int,
+  xyPointLength: int,
+}
+
 let isPointSet = (t: t) =>
  switch t {
  | PointSet(_) => true
@ -133,36 +138,33 @@ let toPointSet = (

 module Score = {
  type genericDistOrScalar = DistributionTypes.DistributionOperation.genericDistOrScalar
-  type pointSet_ScoreDistOrScalar = PSDist(PointSetTypes.pointSetDist) | PSScalar(float)

-  let argsMake = (
-    ~esti: genericDistOrScalar,
-    ~answ: genericDistOrScalar,
-    ~prior: option<genericDistOrScalar>,
-  ): result<PointSetDist_Scoring.scoreArgs, error> => {
+  let argsMake = (~esti: t, ~answ: genericDistOrScalar, ~prior: option<t>, ~env: env): result<
+    PointSetDist_Scoring.scoreArgs,
+    error,
+  > => {
    let toPointSetFn = t =>
      toPointSet(
        t,
-        ~xyPointLength=MagicNumbers.Environment.defaultXYPointLength,
-        ~sampleCount=MagicNumbers.Environment.defaultSampleCount,
+        ~xyPointLength=env.xyPointLength,
+        ~sampleCount=env.sampleCount,
        ~xSelection=#ByWeight,
        (),
      )
-    let prior': option<result<pointSet_ScoreDistOrScalar, error>> = switch prior {
+    let prior': option<result<PointSetTypes.pointSetDist, error>> = switch prior {
    | None => None
-    | Some(Score_Dist(d)) => toPointSetFn(d)->E.R.bind(x => x->PSDist->Ok)->Some
-    | Some(Score_Scalar(s)) => s->PSScalar->Ok->Some
+    | Some(d) => toPointSetFn(d)->Some
    }
    let twoDists = (~toPointSetFn, esti': t, answ': t): result<
      (PointSetTypes.pointSetDist, PointSetTypes.pointSetDist),
      error,
    > => E.R.merge(toPointSetFn(esti'), toPointSetFn(answ'))
    switch (esti, answ, prior') {
-    | (Score_Dist(esti'), Score_Dist(answ'), None) =>
+    | (esti', Score_Dist(answ'), None) =>
      twoDists(~toPointSetFn, esti', answ')->E.R2.fmap(((esti'', answ'')) =>
        {estimate: esti'', answer: answ'', prior: None}->PointSetDist_Scoring.DistAnswer
      )
-    | (Score_Dist(esti'), Score_Dist(answ'), Some(Ok(PSDist(prior'')))) =>
+    | (esti', Score_Dist(answ'), Some(Ok(prior''))) =>
      twoDists(~toPointSetFn, esti', answ')->E.R2.fmap(((esti'', answ'')) =>
        {
          estimate: esti'',
@ -170,8 +172,7 @@ module Score = {
          prior: Some(prior''),
        }->PointSetDist_Scoring.DistAnswer
      )
-    | (Score_Dist(_), _, Some(Ok(PSScalar(_)))) => DistributionTypes.Unreachable->Error
-    | (Score_Dist(esti'), Score_Scalar(answ'), None) =>
+    | (esti', Score_Scalar(answ'), None) =>
      toPointSetFn(esti')->E.R2.fmap(esti'' =>
        {
          estimate: esti'',
@ -179,7 +180,7 @@ module Score = {
          prior: None,
        }->PointSetDist_Scoring.ScalarAnswer
      )
-    | (Score_Dist(esti'), Score_Scalar(answ'), Some(Ok(PSDist(prior'')))) =>
+    | (esti', Score_Scalar(answ'), Some(Ok(prior''))) =>
      toPointSetFn(esti')->E.R2.fmap(esti'' =>
        {
          estimate: esti'',
@ -187,20 +188,17 @@ module Score = {
          prior: Some(prior''),
        }->PointSetDist_Scoring.ScalarAnswer
      )
-    | (Score_Scalar(_), Score_Dist(_), None) => NotYetImplemented->Error
-    | (Score_Scalar(_), Score_Dist(_), Some(Ok(PSScalar(_)))) => NotYetImplemented->Error
-    | (Score_Scalar(_), _, Some(Ok(PSDist(_)))) => DistributionTypes.Unreachable->Error
-    | (Score_Scalar(_), Score_Scalar(_), _) => NotYetImplemented->Error
    | (_, _, Some(Error(err))) => err->Error
    }
  }

  let logScore = (
-    ~estimate: genericDistOrScalar,
+    ~estimate: t,
    ~answer: genericDistOrScalar,
-    ~prior: option<genericDistOrScalar>,
+    ~prior: option<t>,
+    ~env: env,
  ): result<float, error> =>
-    argsMake(~esti=estimate, ~answ=answer, ~prior)->E.R.bind(x =>
+    argsMake(~esti=estimate, ~answ=answer, ~prior, ~env)->E.R.bind(x =>
      x->PointSetDist.logScore->E.R2.errMap(y => DistributionTypes.OperationError(y))
    )
 }
--- a/packages/squiggle-lang/src/rescript/Distributions/GenericDist.resi
+++ b/packages/squiggle-lang/src/rescript/Distributions/GenericDist.resi
@ -5,6 +5,9 @@ type toSampleSetFn = t => result<SampleSetDist.t, error>
 type scaleMultiplyFn = (t, float) => result<t, error>
 type pointwiseAddFn = (t, t) => result<t, error>

+@genType
+type env = {sampleCount: int, xyPointLength: int}
+
 let sampleN: (t, int) => array<float>
 let sample: t => float

@ -26,9 +29,10 @@ let toFloatOperation: (

 module Score: {
  let logScore: (
-    ~estimate: DistributionTypes.DistributionOperation.genericDistOrScalar,
+    ~estimate: t,
    ~answer: DistributionTypes.DistributionOperation.genericDistOrScalar,
-    ~prior: option<DistributionTypes.DistributionOperation.genericDistOrScalar>,
+    ~prior: option<t>,
+    ~env: env
  ) => result<float, error>
 }

--- a/packages/squiggle-lang/src/rescript/Distributions/PointSetDist/PointSetDist_Scoring.res
+++ b/packages/squiggle-lang/src/rescript/Distributions/PointSetDist/PointSetDist_Scoring.res
@ -19,7 +19,7 @@ module WithDistAnswer = {
    float,
    Operation.Error.t,
  > =>
-    // We decided that negative infinity, not an error at answerElement = 0.0, is a desirable value.
+    // We decided that 0.0, not an error at answerElement = 0.0, is a desirable value.
    if answerElement == 0.0 {
      Ok(0.0)
    } else if estimateElement == 0.0 {
--- a/packages/squiggle-lang/src/rescript/FunctionRegistry/FunctionRegistry_Core.res
+++ b/packages/squiggle-lang/src/rescript/FunctionRegistry/FunctionRegistry_Core.res
@ -8,6 +8,7 @@ type rec frType =
  | FRTypeNumber
  | FRTypeNumeric
  | FRTypeDistOrNumber
+  | FRTypeDist
  | FRTypeLambda
  | FRTypeRecord(frTypeRecord)
  | FRTypeDict(frType)
@ -41,7 +42,7 @@ and frValueDistOrNumber = FRValueNumber(float) | FRValueDist(DistributionTypes.g
 type fnDefinition = {
  name: string,
  inputs: array<frType>,
-  run: (array<frValue>, DistributionOperation.env) => result<internalExpressionValue, string>,
+  run: (array<frValue>, GenericDist.env) => result<internalExpressionValue, string>,
 }

 type function = {
@ -60,6 +61,7 @@ module FRType = {
    switch t {
    | FRTypeNumber => "number"
    | FRTypeNumeric => "numeric"
+    | FRTypeDist => "distribution"
    | FRTypeDistOrNumber => "distribution|number"
    | FRTypeRecord(r) => {
        let input = ((name, frType): frTypeRecordParam) => `${name}: ${toString(frType)}`
@ -98,6 +100,7 @@ module FRType = {
    | (FRTypeDistOrNumber, IEvDistribution(Symbolic(#Float(f)))) =>
      Some(FRValueDistOrNumber(FRValueNumber(f)))
    | (FRTypeDistOrNumber, IEvDistribution(f)) => Some(FRValueDistOrNumber(FRValueDist(f)))
+    | (FRTypeDist, IEvDistribution(f)) => Some(FRValueDist(f))
    | (FRTypeNumeric, IEvNumber(f)) => Some(FRValueNumber(f))
    | (FRTypeNumeric, IEvDistribution(Symbolic(#Float(f)))) => Some(FRValueNumber(f))
    | (FRTypeLambda, IEvLambda(f)) => Some(FRValueLambda(f))
@ -319,7 +322,7 @@ module FnDefinition = {
    t.name ++ `(${inputs})`
  }

-  let run = (t: t, args: array<internalExpressionValue>, env: DistributionOperation.env) => {
+  let run = (t: t, args: array<internalExpressionValue>, env: GenericDist.env) => {
    let argValues = FRType.matchWithExpressionValueArray(t.inputs, args)
    switch argValues {
    | Some(values) => t.run(values, env)
@ -374,7 +377,7 @@ module Registry = {
    ~registry: registry,
    ~fnName: string,
    ~args: array<internalExpressionValue>,
-    ~env: DistributionOperation.env,
+    ~env: GenericDist.env,
  ) => {
    let matchToDef = m => Matcher.Registry.matchToDef(registry, m)
    //Js.log(toSimple(registry))
--- a/packages/squiggle-lang/src/rescript/FunctionRegistry/FunctionRegistry_Helpers.res
+++ b/packages/squiggle-lang/src/rescript/FunctionRegistry/FunctionRegistry_Helpers.res
@ -27,6 +27,12 @@ module Prepare = {
        | _ => Error(impossibleError)
        }

+      let threeArgs = (inputs: ts): result<ts, err> =>
+        switch inputs {
+        | [FRValueRecord([(_, n1), (_, n2), (_, n3)])] => Ok([n1, n2, n3])
+        | _ => Error(impossibleError)
+        }
+
      let toArgs = (inputs: ts): result<ts, err> =>
        switch inputs {
        | [FRValueRecord(args)] => args->E.A2.fmap(((_, b)) => b)->Ok
@ -57,6 +63,13 @@ module Prepare = {
      }
    }

+    let twoDist = (values: ts): result<(DistributionTypes.genericDist, DistributionTypes.genericDist), err> => {
+      switch values {
+      | [FRValueDist(a1), FRValueDist(a2)] => Ok(a1, a2)
+      | _ => Error(impossibleError)
+      }
+    }
+
    let twoNumbers = (values: ts): result<(float, float), err> => {
      switch values {
      | [FRValueNumber(a1), FRValueNumber(a2)] => Ok(a1, a2)
@ -81,6 +94,9 @@ module Prepare = {
    module Record = {
      let twoDistOrNumber = (values: ts): result<(frValueDistOrNumber, frValueDistOrNumber), err> =>
        values->ToValueArray.Record.twoArgs->E.R.bind(twoDistOrNumber)
+
+      let twoDist = (values: ts): result<(DistributionTypes.genericDist, DistributionTypes.genericDist), err> =>
+        values->ToValueArray.Record.twoArgs->E.R.bind(twoDist)
    }
  }

@ -128,7 +144,7 @@ module Prepare = {
 module Process = {
  module DistOrNumberToDist = {
    module Helpers = {
-      let toSampleSet = (r, env: DistributionOperation.env) =>
+      let toSampleSet = (r, env: GenericDist.env) =>
        GenericDist.toSampleSetDist(r, env.sampleCount)

      let mapFnResult = r =>
@ -166,7 +182,7 @@ module Process = {
    let oneValue = (
      ~fn: float => result<DistributionTypes.genericDist, string>,
      ~value: frValueDistOrNumber,
-      ~env: DistributionOperation.env,
+      ~env: GenericDist.env,
    ): result<DistributionTypes.genericDist, string> => {
      switch value {
      | FRValueNumber(a1) => fn(a1)
@ -179,7 +195,7 @@ module Process = {
    let twoValues = (
      ~fn: ((float, float)) => result<DistributionTypes.genericDist, string>,
      ~values: (frValueDistOrNumber, frValueDistOrNumber),
-      ~env: DistributionOperation.env,
+      ~env: GenericDist.env,
    ): result<DistributionTypes.genericDist, string> => {
      switch values {
      | (FRValueNumber(a1), FRValueNumber(a2)) => fn((a1, a2))
--- a/packages/squiggle-lang/src/rescript/FunctionRegistry/FunctionRegistry_Library.res
+++ b/packages/squiggle-lang/src/rescript/FunctionRegistry/FunctionRegistry_Library.res
@ -49,7 +49,7 @@ let inputsTodist = (inputs: array<FunctionRegistry_Core.frValue>, makeDist) => {
  expressionValue
 }

-let registry = [
+let registryStart = [
  Function.make(
    ~name="toContinuousPointSet",
    ~definitions=[
@ -510,3 +510,67 @@ to(5,10)
    (),
  ),
 ]
+
+let runScoring = (estimate, answer, prior, env) => {
+  GenericDist.Score.logScore(~estimate, ~answer, ~prior, ~env)
+  ->E.R2.fmap(FunctionRegistry_Helpers.Wrappers.evNumber)
+  ->E.R2.errMap(DistributionTypes.Error.toString)
+}
+
+let scoreFunctions = [
+  Function.make(
+    ~name="Score",
+    ~definitions=[
+      FnDefinition.make(
+        ~name="logScore",
+        ~inputs=[
+          FRTypeRecord([
+            ("estimate", FRTypeDist),
+            ("answer", FRTypeDistOrNumber),
+            ("prior", FRTypeDist),
+          ]),
+        ],
+        ~run=(inputs, env) => {
+          switch FunctionRegistry_Helpers.Prepare.ToValueArray.Record.threeArgs(inputs) {
+          | Ok([FRValueDist(estimate), FRValueDistOrNumber(FRValueDist(d)), FRValueDist(prior)]) =>
+            runScoring(estimate, Score_Dist(d), Some(prior), env)
+          | Ok([
+              FRValueDist(estimate),
+              FRValueDistOrNumber(FRValueNumber(d)),
+              FRValueDist(prior),
+            ]) =>
+            runScoring(estimate, Score_Scalar(d), Some(prior), env)
+          | Error(e) => Error(e)
+          | _ => Error(FunctionRegistry_Helpers.impossibleError)
+          }
+        },
+      ),
+      FnDefinition.make(
+        ~name="logScore",
+        ~inputs=[FRTypeRecord([("estimate", FRTypeDist), ("answer", FRTypeDistOrNumber)])],
+        ~run=(inputs, env) => {
+          switch FunctionRegistry_Helpers.Prepare.ToValueArray.Record.twoArgs(inputs) {
+          | Ok([FRValueDist(estimate), FRValueDistOrNumber(FRValueDist(d))]) =>
+            runScoring(estimate, Score_Dist(d), None, env)
+          | Ok([FRValueDist(estimate), FRValueDistOrNumber(FRValueNumber(d))]) =>
+            runScoring(estimate, Score_Scalar(d), None, env)
+          | Error(e) => Error(e)
+          | _ => Error(FunctionRegistry_Helpers.impossibleError)
+          }
+        },
+      ),
+      FnDefinition.make(~name="klDivergence", ~inputs=[FRTypeDist, FRTypeDist], ~run=(
+        inputs,
+        env,
+      ) => {
+        switch inputs {
+        | [FRValueDist(estimate), FRValueDist(d)] => runScoring(estimate, Score_Dist(d), None, env)
+        | _ => Error(FunctionRegistry_Helpers.impossibleError)
+        }
+      }),
+    ],
+    (),
+  ),
+]
+
+let registry = E.A.append(registryStart, scoreFunctions)
--- a/packages/squiggle-lang/src/rescript/ReducerInterface/ReducerInterface_Date.res
+++ b/packages/squiggle-lang/src/rescript/ReducerInterface/ReducerInterface_Date.res
@ -1,7 +1,7 @@
 module IEV = ReducerInterface_InternalExpressionValue
 type internalExpressionValue = IEV.t

-let dispatch = (call: IEV.functionCall, _: DistributionOperation.env): option<
+let dispatch = (call: IEV.functionCall, _: GenericDist.env): option<
  result<internalExpressionValue, QuriSquiggleLang.Reducer_ErrorValue.errorValue>,
 > => {
  switch call {
--- a/packages/squiggle-lang/src/rescript/ReducerInterface/ReducerInterface_Duration.res
+++ b/packages/squiggle-lang/src/rescript/ReducerInterface/ReducerInterface_Duration.res
@ -1,7 +1,7 @@
 module IEV = ReducerInterface_InternalExpressionValue
 type internalExpressionValue = IEV.t

-let dispatch = (call: IEV.functionCall, _: DistributionOperation.env): option<
+let dispatch = (call: IEV.functionCall, _: GenericDist.env): option<
  result<internalExpressionValue, QuriSquiggleLang.Reducer_ErrorValue.errorValue>,
 > => {
  switch call {
--- a/packages/squiggle-lang/src/rescript/ReducerInterface/ReducerInterface_ExternalExpressionValue.res
+++ b/packages/squiggle-lang/src/rescript/ReducerInterface/ReducerInterface_ExternalExpressionValue.res
@ -86,7 +86,7 @@ let toStringResult = x =>
  }

@genType
-type environment = DistributionOperation.env
+type environment = GenericDist.env

@genType
 let defaultEnvironment: environment = DistributionOperation.defaultEnv
--- a/packages/squiggle-lang/src/rescript/ReducerInterface/ReducerInterface_GenericDistribution.res
+++ b/packages/squiggle-lang/src/rescript/ReducerInterface/ReducerInterface_GenericDistribution.res
@ -32,7 +32,7 @@ module Helpers = {
  let toFloatFn = (
    fnCall: DistributionTypes.DistributionOperation.toFloat,
    dist: DistributionTypes.genericDist,
-    ~env: DistributionOperation.env,
+    ~env: GenericDist.env,
  ) => {
    FromDist(#ToFloat(fnCall), dist)->DistributionOperation.run(~env)->Some
  }
@ -40,7 +40,7 @@ module Helpers = {
  let toStringFn = (
    fnCall: DistributionTypes.DistributionOperation.toString,
    dist: DistributionTypes.genericDist,
-    ~env: DistributionOperation.env,
+    ~env: GenericDist.env,
  ) => {
    FromDist(#ToString(fnCall), dist)->DistributionOperation.run(~env)->Some
  }
@ -48,7 +48,7 @@ module Helpers = {
  let toBoolFn = (
    fnCall: DistributionTypes.DistributionOperation.toBool,
    dist: DistributionTypes.genericDist,
-    ~env: DistributionOperation.env,
+    ~env: GenericDist.env,
  ) => {
    FromDist(#ToBool(fnCall), dist)->DistributionOperation.run(~env)->Some
  }
@ -56,12 +56,12 @@ module Helpers = {
  let toDistFn = (
    fnCall: DistributionTypes.DistributionOperation.toDist,
    dist,
-    ~env: DistributionOperation.env,
+    ~env: GenericDist.env,
  ) => {
    FromDist(#ToDist(fnCall), dist)->DistributionOperation.run(~env)->Some
  }

-  let twoDiststoDistFn = (direction, arithmetic, dist1, dist2, ~env: DistributionOperation.env) => {
+  let twoDiststoDistFn = (direction, arithmetic, dist1, dist2, ~env: GenericDist.env) => {
    FromDist(
      #ToDistCombination(direction, arithmeticMap(arithmetic), #Dist(dist2)),
      dist1,
@ -97,7 +97,7 @@ module Helpers = {
  let mixtureWithGivenWeights = (
    distributions: array<DistributionTypes.genericDist>,
    weights: array<float>,
-    ~env: DistributionOperation.env,
+    ~env: GenericDist.env,
  ): DistributionOperation.outputType =>
    E.A.length(distributions) == E.A.length(weights)
      ? Mixture(Belt.Array.zip(distributions, weights))->DistributionOperation.run(~env)
@ -107,7 +107,7 @@ module Helpers = {

  let mixtureWithDefaultWeights = (
    distributions: array<DistributionTypes.genericDist>,
-    ~env: DistributionOperation.env,
+    ~env: GenericDist.env,
  ): DistributionOperation.outputType => {
    let length = E.A.length(distributions)
    let weights = Belt.Array.make(length, 1.0 /. Belt.Int.toFloat(length))
@ -116,7 +116,7 @@ module Helpers = {

  let mixture = (
    args: array<internalExpressionValue>,
-    ~env: DistributionOperation.env,
+    ~env: GenericDist.env,
  ): DistributionOperation.outputType => {
    let error = (err: string): DistributionOperation.outputType =>
      err->DistributionTypes.ArgumentError->GenDistError
@ -173,7 +173,7 @@ module SymbolicConstructors = {
    }
 }

-let dispatchToGenericOutput = (call: IEV.functionCall, env: DistributionOperation.env): option<
+let dispatchToGenericOutput = (call: IEV.functionCall, env: GenericDist.env): option<
  DistributionOperation.outputType,
 > => {
  let (fnName, args) = call
@ -213,70 +213,6 @@ let dispatchToGenericOutput = (call: IEV.functionCall, env: DistributionOperatio
      ~env,
    )->Some
  | ("normalize", [IEvDistribution(dist)]) => Helpers.toDistFn(Normalize, dist, ~env)
-  | ("klDivergence", [IEvDistribution(prediction), IEvDistribution(answer)]) =>
-    Some(
-      DistributionOperation.run(
-        FromDist(
-          #ToScore(LogScore(DistributionTypes.DistributionOperation.Score_Dist(answer), None)),
-          prediction,
-        ),
-        ~env,
-      ),
-    )
-  | (
-      "klDivergence",
-      [IEvDistribution(prediction), IEvDistribution(answer), IEvDistribution(prior)],
-    ) =>
-    Some(
-      DistributionOperation.run(
-        FromDist(
-          #ToScore(
-            LogScore(
-              DistributionTypes.DistributionOperation.Score_Dist(answer),
-              Some(DistributionTypes.DistributionOperation.Score_Dist(prior)),
-            ),
-          ),
-          prediction,
-        ),
-        ~env,
-      ),
-    )
-  | (
-    "logScoreWithPointAnswer",
-    [IEvDistribution(prediction), IEvNumber(answer), IEvDistribution(prior)],
-  )
-  | (
-    "logScoreWithPointAnswer",
-    [
-      IEvDistribution(prediction),
-      IEvDistribution(Symbolic(#Float(answer))),
-      IEvDistribution(prior),
-    ],
-  ) =>
-    DistributionOperation.run(
-      FromDist(
-        #ToScore(
-          LogScore(
-            DistributionTypes.DistributionOperation.Score_Scalar(answer),
-            DistributionTypes.DistributionOperation.Score_Dist(prior)->Some,
-          ),
-        ),
-        prediction,
-      ),
-      ~env,
-    )->Some
-  | ("logScoreWithPointAnswer", [IEvDistribution(prediction), IEvNumber(answer)])
-  | (
-    "logScoreWithPointAnswer",
-    [IEvDistribution(prediction), IEvDistribution(Symbolic(#Float(answer)))],
-  ) =>
-    DistributionOperation.run(
-      FromDist(
-        #ToScore(LogScore(DistributionTypes.DistributionOperation.Score_Scalar(answer), None)),
-        prediction,
-      ),
-      ~env,
-    )->Some
  | ("isNormalized", [IEvDistribution(dist)]) => Helpers.toBoolFn(IsNormalized, dist, ~env)
  | ("toPointSet", [IEvDistribution(dist)]) => Helpers.toDistFn(ToPointSet, dist, ~env)
  | ("scaleLog", [IEvDistribution(dist)]) =>
--- a/packages/squiggle-lang/src/rescript/ReducerInterface/ReducerInterface_Number.res
+++ b/packages/squiggle-lang/src/rescript/ReducerInterface/ReducerInterface_Number.res
@ -24,7 +24,7 @@ module ScientificUnit = {
  }
 }

-let dispatch = (call: IEV.functionCall, _: DistributionOperation.env): option<
+let dispatch = (call: IEV.functionCall, _: GenericDist.env): option<
  result<internalExpressionValue, QuriSquiggleLang.Reducer_ErrorValue.errorValue>,
 > => {
  switch call {
--- a/packages/squiggle-lang/src/rescript/TypescriptInterface.res
+++ b/packages/squiggle-lang/src/rescript/TypescriptInterface.res
@ -8,7 +8,7 @@ The below few seem to work fine. In the future there's definitely more work to d
 */

@genType
-type samplingParams = DistributionOperation.env
+type samplingParams = GenericDist.env

@genType
 type genericDist = DistributionTypes.genericDist