squiggle/packages/squiggle-lang/__tests__/Distributions/Invariants/AlgebraicCombination_test.res

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/*
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This file is like a half measure between one-off unit tests and proper invariant validation.
As such, I'm not that excited about it, though it does provide some structure and will alarm us
when things substantially change.
Also, there are some open comments in https://github.com/quantified-uncertainty/squiggle/pull/232 that haven't been addressed.
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*/
open Jest
open Expect
open TestHelpers
let {
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normalDist5, // mean=5, stdev=2
normalDist10, // mean=10, stdev=2
normalDist20, // mean=20, stdev=2
normalDist, // mean=5; stdev=2
uniformDist, // low=9; high=10
betaDist, // alpha=2; beta=5
lognormalDist, // mu=0; sigma=1
cauchyDist, // local=1; scale=1
triangularDist, // low=1; medium=2; high=3;
exponentialDist, // rate=2
} = module(GenericDist_Fixtures)
let {
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algebraicAdd,
algebraicMultiply,
algebraicDivide,
algebraicSubtract,
algebraicLogarithm,
algebraicPower,
} = module(DistributionOperation.Constructors)
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let algebraicAdd = algebraicAdd(~env)
let algebraicMultiply = algebraicMultiply(~env)
let algebraicDivide = algebraicDivide(~env)
let algebraicSubtract = algebraicSubtract(~env)
let algebraicLogarithm = algebraicLogarithm(~env)
let algebraicPower = algebraicPower(~env)
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describe("(Algebraic) addition of distributions", () => {
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describe("mean", () => {
test("normal(mean=5) + normal(mean=20)", () => {
normalDist5
->algebraicAdd(normalDist20)
->E.R2.fmap(DistributionTypes.Constructors.UsingDists.mean)
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->E.R2.fmap(run)
->E.R2.fmap(toFloat)
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->E.R.toExn("Expected float", _)
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->expect
->toBe(Some(2.5e1))
})
test("uniform(low=9, high=10) + beta(alpha=2, beta=5)", () => {
// let uniformMean = (9.0 +. 10.0) /. 2.0
// let betaMean = 1.0 /. (1.0 +. 5.0 /. 2.0)
let received =
uniformDist
->algebraicAdd(betaDist)
->E.R2.fmap(DistributionTypes.Constructors.UsingDists.mean)
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->E.R2.fmap(run)
->E.R2.fmap(toFloat)
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->E.R.toExn("Expected float", _)
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switch received {
| None => "algebraicAdd has"->expect->toBe("failed")
// This is nondeterministic, we could be in a situation where ci fails but you click rerun and it passes, which is bad.
// sometimes it works with ~digits=2.
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| Some(x) => x->expect->toBeSoCloseTo(9.786831807237022, ~digits=1) // (uniformMean +. betaMean)
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}
})
test("beta(alpha=2, beta=5) + uniform(low=9, high=10)", () => {
// let uniformMean = (9.0 +. 10.0) /. 2.0
// let betaMean = 1.0 /. (1.0 +. 5.0 /. 2.0)
let received =
betaDist
->algebraicAdd(uniformDist)
->E.R2.fmap(DistributionTypes.Constructors.UsingDists.mean)
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->E.R2.fmap(run)
->E.R2.fmap(toFloat)
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->E.R.toExn("Expected float", _)
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switch received {
| None => "algebraicAdd has"->expect->toBe("failed")
// This is nondeterministic, we could be in a situation where ci fails but you click rerun and it passes, which is bad.
// sometimes it works with ~digits=2.
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| Some(x) => x->expect->toBeSoCloseTo(9.784290207736126, ~digits=1) // (uniformMean +. betaMean)
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}
})
})
describe("pdf", () => {
// TEST IS WRONG. SEE STDEV ADDITION EXPRESSION.
testAll(
"(normal(mean=5) + normal(mean=5)).pdf (imprecise)",
list{8e0, 1e1, 1.2e1, 1.4e1},
x => {
let received =
normalDist10 // this should be normal(10, sqrt(8))
->Ok
->E.R2.fmap(d => DistributionTypes.Constructors.UsingDists.pdf(d, x))
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->E.R2.fmap(run)
->E.R2.fmap(toFloat)
->E.R.toOption
->E.O.flatten
let calculated =
normalDist5
->algebraicAdd(normalDist5)
->E.R2.fmap(d => DistributionTypes.Constructors.UsingDists.pdf(d, x))
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->E.R2.fmap(run)
->E.R2.fmap(toFloat)
->E.R.toOption
->E.O.flatten
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switch received {
| None =>
"this branch occurs when the dispatch to Jstat on trusted input fails."
->expect
->toBe("never")
| Some(x) =>
switch calculated {
| None => "algebraicAdd has"->expect->toBe("failed")
| Some(y) => x->expect->toBeSoCloseTo(y, ~digits=0)
}
}
},
)
test("(normal(mean=10) + normal(mean=10)).pdf(1.9e1)", () => {
let received =
normalDist20
->Ok
->E.R2.fmap(d => DistributionTypes.Constructors.UsingDists.pdf(d, 1.9e1))
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->E.R2.fmap(run)
->E.R2.fmap(toFloat)
->E.R.toOption
->E.O.flatten
let calculated =
normalDist10
->algebraicAdd(normalDist10)
->E.R2.fmap(d => DistributionTypes.Constructors.UsingDists.pdf(d, 1.9e1))
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->E.R2.fmap(run)
->E.R2.fmap(toFloat)
->E.R.toOption
->E.O.flatten
switch received {
| None =>
"this branch occurs when the dispatch to Jstat on trusted input fails."
->expect
->toBe("never")
| Some(x) =>
switch calculated {
| None => "algebraicAdd has"->expect->toBe("failed")
| Some(y) => x->expect->toBeSoCloseTo(y, ~digits=1)
}
}
})
test("(uniform(low=9, high=10) + beta(alpha=2, beta=5)).pdf(10)", () => {
let received =
uniformDist
->algebraicAdd(betaDist)
->E.R2.fmap(d => DistributionTypes.Constructors.UsingDists.pdf(d, 1e1))
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->E.R2.fmap(run)
->E.R2.fmap(toFloat)
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->E.R.toExn("Expected float", _)
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switch received {
| None => "algebraicAdd has"->expect->toBe("failed")
// This is nondeterministic, we could be in a situation where ci fails but you click rerun and it passes, which is bad.
// sometimes it works with ~digits=4.
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// This value was calculated by a python script
| Some(x) => x->expect->toBeSoCloseTo(0.979023, ~digits=0)
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}
})
test("(beta(alpha=2, beta=5) + uniform(low=9, high=10)).pdf(10)", () => {
let received =
betaDist
->algebraicAdd(uniformDist)
->E.R2.fmap(d => DistributionTypes.Constructors.UsingDists.pdf(d, 1e1))
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->E.R2.fmap(run)
->E.R2.fmap(toFloat)
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->E.R.toExn("Expected float", _)
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switch received {
| None => "algebraicAdd has"->expect->toBe("failed")
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// This is nondeterministic.
| Some(x) => x->expect->toBeSoCloseTo(0.979023, ~digits=0)
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}
})
})
describe("cdf", () => {
testAll("(normal(mean=5) + normal(mean=5)).cdf (imprecise)", list{6e0, 8e0, 1e1, 1.2e1}, x => {
let received =
normalDist10
->Ok
->E.R2.fmap(d => DistributionTypes.Constructors.UsingDists.cdf(d, x))
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->E.R2.fmap(run)
->E.R2.fmap(toFloat)
->E.R.toOption
->E.O.flatten
let calculated =
normalDist5
->algebraicAdd(normalDist5)
->E.R2.fmap(d => DistributionTypes.Constructors.UsingDists.cdf(d, x))
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->E.R2.fmap(run)
->E.R2.fmap(toFloat)
->E.R.toOption
->E.O.flatten
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switch received {
| None =>
"this branch occurs when the dispatch to Jstat on trusted input fails."
->expect
->toBe("never")
| Some(x) =>
switch calculated {
| None => "algebraicAdd has"->expect->toBe("failed")
| Some(y) => x->expect->toBeSoCloseTo(y, ~digits=0)
}
}
})
test("(normal(mean=10) + normal(mean=10)).cdf(1.25e1)", () => {
let received =
normalDist20
->Ok
->E.R2.fmap(d => DistributionTypes.Constructors.UsingDists.cdf(d, 1.25e1))
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->E.R2.fmap(run)
->E.R2.fmap(toFloat)
->E.R.toOption
->E.O.flatten
let calculated =
normalDist10
->algebraicAdd(normalDist10)
->E.R2.fmap(d => DistributionTypes.Constructors.UsingDists.cdf(d, 1.25e1))
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->E.R2.fmap(run)
->E.R2.fmap(toFloat)
->E.R.toOption
->E.O.flatten
switch received {
| None =>
"this branch occurs when the dispatch to Jstat on trusted input fails."
->expect
->toBe("never")
| Some(x) =>
switch calculated {
| None => "algebraicAdd has"->expect->toBe("failed")
| Some(y) => x->expect->toBeSoCloseTo(y, ~digits=2)
}
}
})
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test("(uniform(low=9, high=10) + beta(alpha=2, beta=5)).cdf(10)", () => {
let received =
uniformDist
->algebraicAdd(betaDist)
->E.R2.fmap(d => DistributionTypes.Constructors.UsingDists.cdf(d, 1e1))
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->E.R2.fmap(run)
->E.R2.fmap(toFloat)
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->E.R.toExn("Expected float", _)
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switch received {
| None => "algebraicAdd has"->expect->toBe("failed")
// This is nondeterministic, we could be in a situation where ci fails but you click rerun and it passes, which is bad.
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// The value was calculated externally using a python script
| Some(x) => x->expect->toBeSoCloseTo(0.71148, ~digits=1)
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}
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})
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test("(beta(alpha=2, beta=5) + uniform(low=9, high=10)).cdf(10)", () => {
let received =
betaDist
->algebraicAdd(uniformDist)
->E.R2.fmap(d => DistributionTypes.Constructors.UsingDists.cdf(d, 1e1))
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->E.R2.fmap(run)
->E.R2.fmap(toFloat)
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->E.R.toExn("Expected float", _)
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switch received {
| None => "algebraicAdd has"->expect->toBe("failed")
// This is nondeterministic, we could be in a situation where ci fails but you click rerun and it passes, which is bad.
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// The value was calculated externally using a python script
| Some(x) => x->expect->toBeSoCloseTo(0.71148, ~digits=1)
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}
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})
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})
describe("inv", () => {
testAll("(normal(mean=5) + normal(mean=5)).inv (imprecise)", list{5e-2, 4.2e-3, 9e-3}, x => {
let received =
normalDist10
->Ok
->E.R2.fmap(d => DistributionTypes.Constructors.UsingDists.inv(d, x))
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->E.R2.fmap(run)
->E.R2.fmap(toFloat)
->E.R.toOption
->E.O.flatten
let calculated =
normalDist5
->algebraicAdd(normalDist5)
->E.R2.fmap(d => DistributionTypes.Constructors.UsingDists.inv(d, x))
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->E.R2.fmap(run)
->E.R2.fmap(toFloat)
->E.R.toOption
->E.O.flatten
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switch received {
| None =>
"this branch occurs when the dispatch to Jstat on trusted input fails."
->expect
->toBe("never")
| Some(x) =>
switch calculated {
| None => "algebraicAdd has"->expect->toBe("failed")
| Some(y) => x->expect->toBeSoCloseTo(y, ~digits=-1)
}
}
})
test("(normal(mean=10) + normal(mean=10)).inv(1e-1)", () => {
let received =
normalDist20
->Ok
->E.R2.fmap(d => DistributionTypes.Constructors.UsingDists.inv(d, 1e-1))
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->E.R2.fmap(run)
->E.R2.fmap(toFloat)
->E.R.toOption
->E.O.flatten
let calculated =
normalDist10
->algebraicAdd(normalDist10)
->E.R2.fmap(d => DistributionTypes.Constructors.UsingDists.inv(d, 1e-1))
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->E.R2.fmap(run)
->E.R2.fmap(toFloat)
->E.R.toOption
->E.O.flatten
switch received {
| None =>
"this branch occurs when the dispatch to Jstat on trusted input fails."
->expect
->toBe("never")
| Some(x) =>
switch calculated {
| None => "algebraicAdd has"->expect->toBe("failed")
| Some(y) => x->expect->toBeSoCloseTo(y, ~digits=-1)
}
}
})
test("(uniform(low=9, high=10) + beta(alpha=2, beta=5)).inv(2e-2)", () => {
let received =
uniformDist
->algebraicAdd(betaDist)
->E.R2.fmap(d => DistributionTypes.Constructors.UsingDists.inv(d, 2e-2))
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->E.R2.fmap(run)
->E.R2.fmap(toFloat)
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->E.R.toExn("Expected float", _)
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switch received {
| None => "algebraicAdd has"->expect->toBe("failed")
// This is nondeterministic, we could be in a situation where ci fails but you click rerun and it passes, which is bad.
// sometimes it works with ~digits=2.
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| Some(x) => x->expect->toBeSoCloseTo(9.179319623146968, ~digits=0)
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}
})
test("(beta(alpha=2, beta=5) + uniform(low=9, high=10)).inv(2e-2)", () => {
let received =
betaDist
->algebraicAdd(uniformDist)
->E.R2.fmap(d => DistributionTypes.Constructors.UsingDists.inv(d, 2e-2))
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->E.R2.fmap(run)
->E.R2.fmap(toFloat)
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->E.R.toExn("Expected float", _)
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switch received {
| None => "algebraicAdd has"->expect->toBe("failed")
// This is nondeterministic, we could be in a situation where ci fails but you click rerun and it passes, which is bad.
// sometimes it works with ~digits=2.
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| Some(x) => x->expect->toBeSoCloseTo(9.190872365862756, ~digits=0)
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}
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})
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})
})