squiggle/packages/squiggle-lang/src/rescript/FunctionRegistry/Library/FR_Danger.res

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open FunctionRegistry_Core
open FunctionRegistry_Helpers
let nameSpace = "Danger"
let requiresNamespace = true
module NumberToNumber = {
let make = (name, fn) =>
FnDefinition.make(
~name,
~inputs=[FRTypeNumber],
~run=(_, inputs, _, _) => {
inputs
->getOrError(0)
->E.R.bind(Prepare.oneNumber)
->E.R2.fmap(fn)
->E.R2.fmap(Wrappers.evNumber)
},
(),
)
}
module TwoNumbersToNumber = {
let make = (name, fn) =>
FnDefinition.make(
~name,
~inputs=[FRTypeNumber, FRTypeNumber],
~run=(_, inputs, _, _) => {
inputs->Prepare.ToValueTuple.twoNumbers->E.R2.fmap(fn)->E.R2.fmap(Wrappers.evNumber)
},
(),
)
}
module ThreeNumbersToNumber = {
let make = (name, fn) =>
FnDefinition.make(
~name,
~inputs=[FRTypeNumber, FRTypeNumber, FRTypeNumber],
~run=(_, inputs, _, _) => {
inputs->Prepare.ToValueTuple.threeNumbers->E.R2.fmap(fn)->E.R2.fmap(Wrappers.evNumber)
},
(),
)
}
module FunctionToNumberZero = {
let make = (name, fn) =>
FnDefinition.make(
~name,
~inputs=[FRTypeLambda],
~run=(_, inputs, _, _) => {
Ok(0.0)->E.R2.fmap(Wrappers.evNumber)
},
(),
)
}
module Internals = {
let factorial = Stdlib.Math.factorial
let choose = ((n, k)) => factorial(n) /. (factorial(n -. k) *. factorial(k))
let pow = (base, exp) => Js.Math.pow_float(~base, ~exp)
let binomial = ((n, k, p)) => choose((n, k)) *. pow(p, k) *. pow(1.0 -. p, n -. k)
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let applyFunctionAtPoint = (
aLambda,
internalNumber: internalExpressionValue,
environment,
reducer,
): result<ReducerInterface_InternalExpressionValue.t, Reducer_ErrorValue.errorValue> => {
let x = internalNumber
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let result = Reducer_Expression_Lambda.doLambdaCall(aLambda, list{x}, environment, reducer)
result
}
let internalZero = ReducerInterface_InternalExpressionValue.IEvNumber(0.0)
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let applyFunctionAtZero = (aLambda, environment, reducer) =>
applyFunctionAtPoint(aLambda, internalZero, environment, reducer)
@dead
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let applyFunctionAtFloat = (aLambda, point, environment, reducer) =>
applyFunctionAtPoint(aLambda, ReducerInterface_InternalExpressionValue.IEvNumber(point))
let integrateFunctionBetweenWithIncrement = (
aLambda,
min: float,
max: float,
increment: float,
environment,
reducer,
) => {
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// Should be easy, but tired today.
let applyFunctionAtFloatToFloatOption = (point: float) => {
let pointAsInternalExpression = ReducerInterface_InternalExpressionValue.IEvNumber(point)
let resultAsInternalExpression = Reducer_Expression_Lambda.doLambdaCall(
aLambda,
list{pointAsInternalExpression},
environment,
reducer,
)
let result = switch resultAsInternalExpression {
| Ok(IEvNumber(x)) => Ok(x)
| Error(_) => Error("Integration error in Danger.integrate")
| _ => Error("Integration error in Danger.integrate")
}
result
}
let xsLength = Js.Math.ceil((max -. min) /. increment)
let xs = Belt.Array.makeBy(xsLength, i => min +. Belt_Float.fromInt(i) *. increment)
let ysOptions = Belt.Array.map(xs, x => applyFunctionAtFloatToFloatOption(x))
let okYs = E.A.R.filterOk(ysOptions)
let result = switch E.A.length(ysOptions) == E.A.length(okYs) {
| true => {
let numericIntermediate = okYs->E.A.reduce(0.0, (a, b) => a +. b)
let numericIntermediate2 = numericIntermediate *. increment
let resultWrapped =
numericIntermediate2->ReducerInterface_InternalExpressionValue.IEvNumber->Ok
resultWrapped
}
| false => Error("Integration error in Danger.integrate")
}
result
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}
@dead let getDiminishingMarginalReturnsEquilibrium = "To do"
}
let library = [
Function.make(
~name="laplace",
~nameSpace,
~requiresNamespace,
~output=EvtNumber,
~examples=[`Danger.laplace(1, 20)`],
~definitions=[
TwoNumbersToNumber.make("laplace", ((successes, trials)) =>
(successes +. 1.0) /. (trials +. 2.0)
),
],
(),
),
Function.make(
~name="factorial",
~nameSpace,
~requiresNamespace,
~output=EvtNumber,
~examples=[`Danger.factorial(20)`],
~definitions=[NumberToNumber.make("factorial", Internals.factorial)],
(),
),
Function.make(
~name="choose",
~nameSpace,
~requiresNamespace,
~output=EvtNumber,
~examples=[`Danger.choose(1, 20)`],
~definitions=[TwoNumbersToNumber.make("choose", Internals.choose)],
(),
),
Function.make(
~name="binomial",
~nameSpace,
~requiresNamespace,
~output=EvtNumber,
~examples=[`Danger.binomial(1, 20, 0.5)`],
~definitions=[ThreeNumbersToNumber.make("binomial", Internals.binomial)],
(),
),
Function.make(
~name="functionToZero",
~nameSpace,
~requiresNamespace,
~output=EvtNumber,
~examples=[`Danger.functionToZero({|x| x})`],
~definitions=[FunctionToNumberZero.make("functionToZero", x => x)],
(),
),
Function.make(
~name="applyFunctionAtZero",
~nameSpace,
~output=EvtArray,
~requiresNamespace=false,
~examples=[`Danger.applyFunctionAtZero({|x| x+1})`],
~definitions=[
FnDefinition.make(
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~name="applyFunctionAtZero",
~inputs=[FRTypeLambda],
~run=(inputs, _, env, reducer) => {
let result = switch inputs {
| [IEvLambda(aLambda)] =>
Internals.applyFunctionAtZero(aLambda, env, reducer)->E.R2.errMap(_ => "Error!")
| _ => Error(impossibleError)
}
result
},
(),
),
],
(),
),
Function.make(
~name="applyFunctionAtPoint",
~nameSpace,
~output=EvtArray,
~requiresNamespace=false,
~examples=[`Danger.applyFunctionAtPoint({|x| x+1}, 1)`],
~definitions=[
FnDefinition.make(
~name="applyFunctionAtPoint",
~inputs=[FRTypeLambda, FRTypeNumber],
~run=(inputs, _, env, reducer) =>
switch inputs {
| [IEvLambda(aLambda), point] =>
Internals.applyFunctionAtPoint(aLambda, point, env, reducer)->E.R2.errMap(_ => "Error!")
| _ => Error(impossibleError)
},
(),
),
],
(),
),
Function.make(
~name="integrateFunctionBetweenWithIncrement",
~nameSpace,
~output=EvtArray,
~requiresNamespace=false,
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~examples=[`Danger.integrateFunctionBetweenWithIncrement({|x| x+1}, 1, 10, 1)`],
// should be [x^2/2 + x]1_10 = (100/2 + 10) - (1/2 + 1) = 60 - 1.5 = 58.5
// https://www.wolframalpha.com/input?i=integrate+x%2B1+from+1+to+10
~definitions=[
FnDefinition.make(
~name="integrateFunctionBetweenWithIncrement",
~inputs=[FRTypeLambda, FRTypeNumber, FRTypeNumber, FRTypeNumber],
~run=(inputs, _, env, reducer) => {
let result = switch inputs {
| [_, _, _, IEvNumber(0.0)] =>
Error("Integration error in Danger.integrate: Increment can't be 0.")
| [IEvLambda(aLambda), IEvNumber(min), IEvNumber(max), IEvNumber(increment)] =>
Internals.integrateFunctionBetweenWithIncrement(
aLambda,
min,
max,
increment,
env,
reducer,
)->E.R2.errMap(_ =>
"Integration error in Danger.integrate. Something went wrong along the way"
)
| _ =>
Error(
"Integration error in Danger.integrate. Remember that inputs are (function, number (min), number (max), number(increment))",
)
}
result
},
(),
),
],
(),
),
]