tweak: In Danger namespace, build dmr function further
dmr = diminishing marginal returns
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@ -69,8 +69,11 @@ module Internals = {
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result
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result
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}
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}
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let castFloatToInternalNumber = x => ReducerInterface_InternalExpressionValue.IEvNumber(x)
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let castFloatToInternalNumber = x => ReducerInterface_InternalExpressionValue.IEvNumber(x)
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let castArrayOfFloatsToInternalArrayOfInternals = xs => ReducerInterface_InternalExpressionValue.IEvArray(Belt.Array.map(xs, x => castFloatToInternalNumber(x)))
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let castArrayOfFloatsToInternalArrayOfInternals = xs => ReducerInterface_InternalExpressionValue.IEvArray(
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@dead let applyFunctionAtFloat = (aLambda, point, environment, reducer) =>
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Belt.Array.map(xs, x => castFloatToInternalNumber(x)),
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)
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@dead
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let applyFunctionAtFloat = (aLambda, point, environment, reducer) =>
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// reason for existence: might be an useful template to have for calculating diminishing marginal returns later on
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// reason for existence: might be an useful template to have for calculating diminishing marginal returns later on
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applyFunctionAtPoint(aLambda, castFloatToInternalNumber(point), environment, reducer)
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applyFunctionAtPoint(aLambda, castFloatToInternalNumber(point), environment, reducer)
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// integrate function itself
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// integrate function itself
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@ -84,7 +87,7 @@ module Internals = {
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) => {
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) => {
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let applyFunctionAtFloatToFloatOption = (point: float) => {
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let applyFunctionAtFloatToFloatOption = (point: float) => {
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// Defined here so that it has access to environment, reducer
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// Defined here so that it has access to environment, reducer
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let pointAsInternalExpression = ReducerInterface_InternalExpressionValue.IEvNumber(point)
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let pointAsInternalExpression = castFloatToInternalNumber(point)
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let resultAsInternalExpression = Reducer_Expression_Lambda.doLambdaCall(
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let resultAsInternalExpression = Reducer_Expression_Lambda.doLambdaCall(
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aLambda,
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aLambda,
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list{pointAsInternalExpression},
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list{pointAsInternalExpression},
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@ -168,15 +171,67 @@ module Internals = {
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}
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}
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result
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result
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}
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}
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type diminishingReturnsAccumulatorInner = {
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optimalAllocations: array<float>,
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currentMarginalReturns: array<result<float, string>>,
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}
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type diminishingReturnsAccumulator = result<diminishingReturnsAccumulatorInner, string>
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let diminishingMarginalReturnsSkeleton = (
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let diminishingMarginalReturnsSkeleton = (
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lambda1,
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lambda1,
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lambda2,
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lambda2,
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funds,
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funds,
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increment,
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approximateIncrement,
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environment,
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environment,
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reducer,
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reducer,
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) => {
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) => {
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Ok(castArrayOfFloatsToInternalArrayOfInternals([0.0, 1.0]))
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/*
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Two possible algorithms (n=funds/increment, m=num lambdas)
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1. O(n): Iterate through value on next n dollars. At each step, only compute the new marginal return of the function which is spent
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2. O(n*m): Iterate through all possible spending combinations. Fun is, it doesn't assume that the returns of marginal spending are diminishing.
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*/
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let applyFunctionAtFloatToFloatOption = (lambda, point: float) => {
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// Defined here so that it has access to environment, reducer
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let pointAsInternalExpression = castFloatToInternalNumber(point)
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let resultAsInternalExpression = Reducer_Expression_Lambda.doLambdaCall(
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lambda,
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list{pointAsInternalExpression},
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environment,
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reducer,
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)
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let result = switch resultAsInternalExpression {
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| Ok(IEvNumber(x)) => Ok(x)
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| Error(_) =>
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Error(
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"Integration error 1 in Danger.integrate. It's possible that your function doesn't return a number, try definining auxiliaryFunction(x) = mean(yourFunction(x)) and integrate auxiliaryFunction instead",
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)
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| _ => Error("Integration error 2 in Danger.integrate")
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}
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result
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}
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let numDivisions = Js.Math.round(funds /. approximateIncrement)
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let numDivisionsInt = Belt.Float.toInt(numDivisions)
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let increment = funds /. numDivisions
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let arrayOfIncrements = Belt.Array.makeBy(numDivisionsInt, _ => increment)
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let initAccumulator: diminishingReturnsAccumulator = Ok({
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optimalAllocations: [0.0, 0.0],
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currentMarginalReturns: [
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applyFunctionAtFloatToFloatOption(lambda1, 0.0),
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applyFunctionAtFloatToFloatOption(lambda2, 0.0),
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],
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})
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let optimalAllocationEndAccumulator = E.A.reduce(arrayOfIncrements, initAccumulator, (
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acc,
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new,
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) => {
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acc
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})
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let optimalAllocationResult = switch optimalAllocationEndAccumulator {
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| Ok(inner) => Ok(castArrayOfFloatsToInternalArrayOfInternals(inner.optimalAllocations))
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| Error(b) => Error(b)
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}
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optimalAllocationResult
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}
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}
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}
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}
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@ -364,8 +419,20 @@ let library = [
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~inputs=[FRTypeLambda, FRTypeLambda, FRTypeNumber, FRTypeNumber],
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~inputs=[FRTypeLambda, FRTypeLambda, FRTypeNumber, FRTypeNumber],
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~run=(inputs, _, env, reducer) =>
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~run=(inputs, _, env, reducer) =>
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switch inputs {
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switch inputs {
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| [IEvLambda(lambda1), IEvLambda(lambda2), IEvNumber(funds), IEvNumber(increment)] =>
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| [
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Internals.diminishingMarginalReturnsSkeleton(lambda1, lambda2, funds, increment, env, reducer)
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IEvLambda(lambda1),
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IEvLambda(lambda2),
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IEvNumber(funds),
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IEvNumber(approximateIncrement),
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] =>
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Internals.diminishingMarginalReturnsSkeleton(
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lambda1,
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lambda2,
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funds,
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approximateIncrement,
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env,
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reducer,
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)
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| _ => Error("Error in Danger.diminishingMarginalReturnsSkeleton")
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| _ => Error("Error in Danger.diminishingMarginalReturnsSkeleton")
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},
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},
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(),
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(),
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@ -75,7 +75,8 @@ module Internals = {
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})
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})
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})
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})
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)
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)
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let result = rMappedList->E.R2.fmap(mappedList => mappedList->Belt.List.toArray->Wrappers.evArray)
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let result =
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rMappedList->E.R2.fmap(mappedList => mappedList->Belt.List.toArray->Wrappers.evArray)
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result
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result
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}
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}
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}
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}
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@ -190,8 +191,7 @@ let library = [
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FnDefinition.make(
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FnDefinition.make(
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~name="map",
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~name="map",
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~inputs=[FRTypeArray(FRTypeAny), FRTypeLambda],
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~inputs=[FRTypeArray(FRTypeAny), FRTypeLambda],
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~run=(inputs, _, env, reducer) =>
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~run=(inputs, _, env, reducer) => {
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{
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let result = switch inputs {
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let result = switch inputs {
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| [IEvArray(array), IEvLambda(lambda)] =>
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| [IEvArray(array), IEvLambda(lambda)] =>
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Internals.map(array, env, lambda, reducer)->E.R2.errMap(_ => "Error!")
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Internals.map(array, env, lambda, reducer)->E.R2.errMap(_ => "Error!")
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