122 lines
2.9 KiB
Plaintext
122 lines
2.9 KiB
Plaintext
// This file has no dependencies. It's used outside of the interpreter, but the interpreter depends on it.
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@genType
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type algebraicOperation = [
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| #Add
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| #Multiply
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| #Subtract
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| #Divide
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| #Power
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| #Logarithm
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]
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@genType
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type pointwiseOperation = [#Add | #Multiply | #Power]
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type scaleOperation = [#Multiply | #Power | #Logarithm | #Divide]
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type distToFloatOperation = [
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| #Pdf(float)
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| #Cdf(float)
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| #Inv(float)
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| #Mean
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| #Sample
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]
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module Algebraic = {
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type t = algebraicOperation
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let toFn: (t, float, float) => float = x =>
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switch x {
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| #Add => \"+."
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| #Subtract => \"-."
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| #Multiply => \"*."
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| #Power => \"**"
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| #Divide => \"/."
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| #Logarithm => (a, b) => log(a) /. log(b)
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}
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let applyFn = (t, f1, f2) =>
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switch (t, f1, f2) {
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| (#Divide, _, 0.) => Error("Cannot divide $v1 by zero.")
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| _ => Ok(toFn(t, f1, f2))
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}
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let toString = x =>
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switch x {
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| #Add => "+"
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| #Subtract => "-"
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| #Multiply => "*"
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| #Power => "**"
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| #Divide => "/"
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| #Logarithm => "log"
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}
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let format = (a, b, c) => b ++ (" " ++ (toString(a) ++ (" " ++ c)))
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}
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module Pointwise = {
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type t = pointwiseOperation
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let toString = x =>
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switch x {
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| #Add => "+"
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| #Power => "**"
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| #Multiply => "*"
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}
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let format = (a, b, c) => b ++ (" " ++ (toString(a) ++ (" " ++ c)))
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}
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module DistToFloat = {
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type t = distToFloatOperation
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let format = (operation, value) =>
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switch operation {
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| #Cdf(f) => j`cdf(x=$f,$value)`
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| #Pdf(f) => j`pdf(x=$f,$value)`
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| #Inv(f) => j`inv(x=$f,$value)`
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| #Sample => "sample($value)"
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| #Mean => "mean($value)"
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}
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}
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// Note that different logarithms don't really do anything.
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module Scale = {
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type t = scaleOperation
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let toFn = x =>
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switch x {
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| #Multiply => \"*."
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| #Divide => \"/."
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| #Power => \"**"
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| #Logarithm => (a, b) => log(a) /. log(b)
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}
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let format = (operation: t, value, scaleBy) =>
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switch operation {
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| #Multiply => j`verticalMultiply($value, $scaleBy) `
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| #Divide => j`verticalDivide($value, $scaleBy) `
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| #Power => j`verticalPower($value, $scaleBy) `
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| #Logarithm => j`verticalLog($value, $scaleBy) `
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}
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let toIntegralSumCacheFn = x =>
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switch x {
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| #Multiply => (a, b) => Some(a *. b)
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| #Divide => (a, b) => Some(a /. b)
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| #Power => (_, _) => None
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| #Logarithm => (_, _) => None
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}
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let toIntegralCacheFn = x =>
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switch x {
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| #Multiply => (_, _) => None // TODO: this could probably just be multiplied out (using Continuous.scaleBy)
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| #Divide => (_, _) => None
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| #Power => (_, _) => None
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| #Logarithm => (_, _) => None
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}
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}
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module Truncate = {
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let toString = (left: option<float>, right: option<float>, nodeToString) => {
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let left = left |> E.O.dimap(Js.Float.toString, () => "-inf")
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let right = right |> E.O.dimap(Js.Float.toString, () => "inf")
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j`truncate($nodeToString, $left, $right)`
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}
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}
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