open FunctionRegistry_Core open FunctionRegistry_Helpers let twoArgs = E.Tuple2.toFnCall module Declaration = { let frType = FRTypeRecord([ ("fn", FRTypeLambda), ("inputs", FRTypeArray(FRTypeRecord([("min", FRTypeNumber), ("max", FRTypeNumber)]))), ]) let fromExpressionValue = (e: frValue): result => { switch FunctionRegistry_Helpers.Prepare.ToValueArray.Record.twoArgs([e]) { | Ok([FRValueLambda(lambda), FRValueArray(inputs)]) => { open FunctionRegistry_Helpers.Prepare let getMinMax = arg => ToValueArray.Record.toArgs([arg]) ->E.R.bind(ToValueTuple.twoNumbers) ->E.R2.fmap(((min, max)) => Declaration.ContinuousFloatArg.make(min, max)) inputs ->E.A2.fmap(getMinMax) ->E.A.R.firstErrorOrOpen ->E.R2.fmap(args => ReducerInterface_ExpressionValue.EvDeclaration( Declaration.make(lambda, args), )) } | Error(r) => Error(r) | Ok(_) => Error(FunctionRegistry_Helpers.impossibleError) } } } let inputsTodist = (inputs: array, makeDist) => { let array = inputs->E.A.unsafe_get(0)->Prepare.ToValueArray.Array.openA let xyCoords = array->E.R.bind(xyCoords => xyCoords ->E.A2.fmap(xyCoord => [xyCoord]->Prepare.ToValueArray.Record.twoArgs->E.R.bind(Prepare.ToValueTuple.twoNumbers) ) ->E.A.R.firstErrorOrOpen ) let expressionValue = xyCoords ->E.R.bind(r => r->XYShape.T.makeFromZipped->E.R2.errMap(XYShape.Error.toString)) ->E.R2.fmap(r => ReducerInterface_ExpressionValue.EvDistribution(PointSet(makeDist(r)))) expressionValue } let registry = [ Function.make( ~name="toContinuousPointSet", ~definitions=[ FnDefinition.make( ~name="toContinuousPointSet", ~inputs=[FRTypeArray(FRTypeRecord([("x", FRTypeNumeric), ("y", FRTypeNumeric)]))], ~run=(inputs, _) => inputsTodist(inputs, r => Continuous(Continuous.make(r))), ), ], ), Function.make( ~name="toDiscretePointSet", ~definitions=[ FnDefinition.make( ~name="toDiscretePointSet", ~inputs=[FRTypeArray(FRTypeRecord([("x", FRTypeNumeric), ("y", FRTypeNumeric)]))], ~run=(inputs, _) => inputsTodist(inputs, r => Discrete(Discrete.make(r))), ), ], ), Function.make( ~name="Declaration", ~definitions=[ FnDefinition.make(~name="declareFn", ~inputs=[Declaration.frType], ~run=(inputs, _) => { inputs->E.A.unsafe_get(0)->Declaration.fromExpressionValue }), ], ), Function.make( ~name="Normal", ~definitions=[ TwoArgDist.make("normal", twoArgs(SymbolicDist.Normal.make)), TwoArgDist.makeRecordP5P95("normal", r => twoArgs(SymbolicDist.Normal.from90PercentCI, r)->Ok ), TwoArgDist.makeRecordMeanStdev("normal", twoArgs(SymbolicDist.Normal.make)), ], ), Function.make( ~name="Lognormal", ~definitions=[ TwoArgDist.make("lognormal", twoArgs(SymbolicDist.Lognormal.make)), TwoArgDist.makeRecordP5P95("lognormal", r => twoArgs(SymbolicDist.Lognormal.from90PercentCI, r)->Ok ), TwoArgDist.makeRecordMeanStdev("lognormal", twoArgs(SymbolicDist.Lognormal.fromMeanAndStdev)), ], ), Function.make( ~name="Uniform", ~definitions=[TwoArgDist.make("uniform", twoArgs(SymbolicDist.Uniform.make))], ), Function.make( ~name="Beta", ~definitions=[TwoArgDist.make("beta", twoArgs(SymbolicDist.Beta.make))], ), Function.make( ~name="Cauchy", ~definitions=[TwoArgDist.make("cauchy", twoArgs(SymbolicDist.Cauchy.make))], ), Function.make( ~name="Gamma", ~definitions=[TwoArgDist.make("gamma", twoArgs(SymbolicDist.Gamma.make))], ), Function.make( ~name="Logistic", ~definitions=[TwoArgDist.make("logistic", twoArgs(SymbolicDist.Logistic.make))], ), Function.make( ~name="To", ~definitions=[ TwoArgDist.make("to", twoArgs(SymbolicDist.From90thPercentile.make)), TwoArgDist.make( "credibleIntervalToDistribution", twoArgs(SymbolicDist.From90thPercentile.make), ), ], ), Function.make( ~name="Exponential", ~definitions=[OneArgDist.make("exponential", SymbolicDist.Exponential.make)], ), Function.make( ~name="Bernoulli", ~definitions=[OneArgDist.make("bernoulli", SymbolicDist.Bernoulli.make)], ), ]