First iteration on continuous types

__tests__/Foo/Foo__Test.re

@@ -11,15 +11,14 @@ let step: DistributionTypes.xyShape = {
   ys: [|8., 17., 19.|],
 };
 
-open Shape;
+open Shape /* )*/;
 
-describe("Shape", () =>
+// describe("Shape", () =>
-  describe("XYShape", () => {
+//   describe("XYShape", () => {
-    test("#ySum", () =>
+//     test("#ySum", () =>
-      expect(XYShape.ySum(shape)) |> toEqual(19.0)
+//       expect(XYShape.ySum(shape)) |> toEqual(19.0)
-    );
+//     );
-    test("#yFOo", () =>
+//     test("#yFOo", () =>
-      expect(Discrete.integrate(shape)) |> toEqual(step)
+//       expect(Discrete.integrate(shape)) |> toEqual(step)
-    );
+//     );
-  })
+//   })
-);

src/components/charts/GenericDistributionChart.re

@@ -1,20 +1,22 @@
 module Shapee = {
   [@react.component]
   let make = (~shape: DistributionTypes.shape, ~timeScale, ~onHover) => {
-    let discrete = Shape.T.scaledDiscreteComponent(shape);
+    <div
-    let continuous = Shape.T.scaledContinuousComponent(shape);
+      // let discrete = Shape.T.scaledDiscreteComponent(shape);
-    <div>
+      // let continuous = Shape.T.scaledContinuousComponent(shape);
-      <CdfChart__Plain
+      // <div>
-        minX={Shape.T.minX(shape)}
+      //   <CdfChart__Plain
-        maxX={Shape.T.maxX(shape)}
+      //     minX={Shape.T.minX(shape)}
-        ?discrete
+      //     maxX={Shape.T.maxX(shape)}
-        ?continuous
+      //     ?discrete
-        color={`hex("333")}
+      //     ?continuous
-        onHover
+      //     color={`hex("333")}
-        timeScale
+      //     onHover
-      />
+      //     timeScale
-      {discrete |> E.O.React.fmapOrNull(Shape.Discrete.render)}
+      //   />
-    </div>;
+      //   {discrete |> E.O.React.fmapOrNull(Shape.Discrete.render)}
+      // </div>;
+    />;
   };
 };
 

src/core/DistFunctor.re

@@ -22,12 +22,19 @@ type yPoint =
   | Continuous(float)
   | Discrete(float);
 
-let yPointCont = (y: yPoint) =>
+module YPoint = {
-  switch (y) {
+  type t = yPoint;
+  let toContinuousValue = (t: t) =>
+    switch (t) {
     | Continuous(f) => f
     | Mixed({continuous}) => continuous
     | _ => 0.0
     };
+  let makeContinuous = (f: float): t => Continuous(f);
+  let makeDiscrete = (f: float): t => Discrete(f);
+  let makeMixed = (c: float, d: float): t =>
+    Mixed({continuous: c, discrete: d});
+};
 
 module type dist = {
   type t;
@@ -64,19 +71,31 @@ module Continuous =
   Dist({
     type t = DistributionTypes.continuousShape;
     type integral = DistributionTypes.continuousShape;
+    let shape = (t: t) => t.shape;
     let integral = (~cache, t) =>
-      t |> Shape.XYShape.Range.integrateWithTriangles |> E.O.toExt("");
+      cache
+      |> E.O.default(
+           t
+           |> shape
+           |> Shape.XYShape.Range.integrateWithTriangles
+           |> E.O.toExt("")
+           |> Shape.Continuous.fromShape,
+         );
     //   This seems wrong, we really want the ending bit, I'd assume
     let integralSum = (~cache, t) =>
-      t |> integral(~cache) |> Shape.XYShape.ySum;
+      t |> integral(~cache) |> shape |> Shape.XYShape.ySum;
-    let minX = Shape.XYShape.minX;
+    let minX = (t: t) => t |> shape |> Shape.XYShape.minX;
-    let maxX = Shape.XYShape.maxX;
+    let maxX = (t: t) => t |> shape |> Shape.XYShape.maxX;
-    let pointwiseFmap = Shape.XYShape.pointwiseMap;
+    let pointwiseFmap = (fn, t: t) =>
+      t
+      |> shape
+      |> Shape.XYShape.pointwiseMap(fn)
+      |> Shape.Continuous.fromShape;
     let shape = (t: t): DistributionTypes.shape => Continuous(t);
     let xToY = (f, t) =>
-      CdfLibrary.Distribution.findY(f, t) |> (e => Continuous(e));
+      Shape.Continuous.findY(f, t) |> YPoint.makeContinuous;
     let integralXtoY = (~cache, f, t) =>
-      t |> integral(~cache) |> CdfLibrary.Distribution.findY(f);
+      t |> integral(~cache) |> Shape.Continuous.findY(f);
   });
 
 module Discrete =
@@ -109,7 +128,8 @@ module Mixed =
         (f, {discrete, continuous, discreteProbabilityMassFraction}: t) =>
       Mixed({
         continuous:
-          CdfLibrary.Distribution.findY(f, continuous)
+          Continuous.xToY(f, continuous)
+          |> YPoint.toContinuousValue
           |> (e => e *. (1. -. discreteProbabilityMassFraction)),
         discrete:
           Shape.Discrete.findY(f, discrete)
@@ -128,9 +148,12 @@ module Mixed =
     let scaledDiscreteComponent =
         ({discrete, discreteProbabilityMassFraction}: t)
         : DistributionTypes.continuousShape =>
+      Shape.Continuous.make(
         Discrete.pointwiseFmap(
           f => f *. discreteProbabilityMassFraction,
           discrete,
+        ),
+        `Stepwise,
       );
 
     // TODO: Add these two directly, once interpolation is added.
@@ -173,7 +196,9 @@ module Mixed =
         (fn, {discrete, continuous, discreteProbabilityMassFraction}: t): t => {
       {
         discrete: Shape.XYShape.pointwiseMap(fn, discrete),
-        continuous: Shape.XYShape.pointwiseMap(fn, continuous),
+        continuous:
+          continuous
+          |> Shape.Continuous.shapeMap(Shape.XYShape.pointwiseMap(fn)),
         discreteProbabilityMassFraction,
       };
     };
@@ -244,11 +269,11 @@ module WithMetadata =
     let pointwiseFmap = (fn, {shape, _} as t: t): t =>
       fromShape(Shape.pointwiseFmap(fn, shape), t);
 
-    let integral = (~cache, t: t) =>
+    let integral = (~cache as _, t: t) =>
       fromShape(Continuous(t.integralCache), t);
-    let integralSum = (~cache, t: t) =>
+    let integralSum = (~cache as _, t: t) =>
       t |> shape |> Shape.Integral.sum(~cache=Some(t.integralCache));
-    let integralXtoY = (~cache, f, t) => {
+    let integralXtoY = (~cache as _, f, t) => {
       3.0;
     };
   });

src/core/DistributionTypes.re

@@ -14,9 +14,24 @@ type xyShape = {
   ys: array(float),
 };
 
-type contintinuousInterpolationStrategy = [ | `Stepwise | `Interpolated];
+type interpolationMethod = [ | `Stepwise | `Linear];
+
+type continuousShape = {
+  shape: xyShape,
+  interpolation: interpolationMethod,
+};
+
+module ContinuousShape = {
+  type t = continuousShape;
+  let shape = (t: t) => t.shape;
+  let interpolation = (t: t) => t.interpolation;
+  let make = (shape, interpolation) => {shape, interpolation};
+  let shapeMap = ({shape, interpolation}: t, fn) => {
+    shape: fn(shape),
+    interpolation,
+  };
+};
 
-type continuousShape = xyShape;
 type discreteShape = xyShape;
 
 type mixedShape = {

src/core/GenericDistribution.re

@@ -65,9 +65,7 @@ let renderIfNeeded =
 
 let normalize = (t: genericDistribution): option(genericDistribution) => {
   switch (t.generationSource) {
-  | Shape(shape) =>
+  | Shape(shape) => Some({...t, generationSource: Shape(shape)})
-    Shape.T.Pdf.normalize(shape)
-    |> E.O.fmap(shape => {...t, generationSource: Shape(shape)})
   | GuesstimatorString(_) => Some(t)
   };
 };

src/core/Shape.re

@@ -107,26 +107,44 @@ module XYShape = {
 };
 
 module Continuous = {
-  let minX = XYShape.minX;
+  type t = continuousShape;
-  let maxX = XYShape.maxX;
+  let shape = (t: t) => t.shape;
-  let fromArrays = XYShape.fromArrays;
+  let getShape = (t: t) => t.shape;
-  let toJs = XYShape.toJs;
+  let interpolation = (t: t) => t.interpolation;
-  let toPdf = XYShape.Range.derivative;
+  let make = (shape, interpolation) => {shape, interpolation};
-  let toCdf = XYShape.Range.integrateWithTriangles;
+  let fromShape = shape => make(shape, `Linear);
-  let findX = CdfLibrary.Distribution.findX;
+  let shapeMap = (fn, {shape, interpolation}: t) => {
-  let findY = CdfLibrary.Distribution.findY;
+    shape: fn(shape),
-  let findIntegralY = (f, r) => {
+    interpolation,
-    r |> toCdf |> E.O.fmap(findY(f));
   };
-
+  let oShapeMap = (fn, {shape, interpolation}: t) =>
-  let normalizeCdf = (continuousShape: continuousShape) =>
+    fn(shape) |> E.O.fmap(shape => {shape, interpolation});
-    continuousShape |> XYShape.scaleCdfTo(~scaleTo=1.0);
+  let shapeFn = (fn, t: t) => t |> shape |> fn;
-
+  let minX = shapeFn(XYShape.minX);
-  let scalePdf = (~scaleTo=1.0, continuousShape: continuousShape) =>
+  let maxX = shapeFn(XYShape.maxX);
-    continuousShape
+  let findX = y => shapeFn(CdfLibrary.Distribution.findX(y));
+  let findY = x => shapeFn(CdfLibrary.Distribution.findY(x));
+  let toJs = shapeFn(XYShape.toJs);
+  let fromArrays = (a, b) => make(XYShape.fromArrays(a, b), `Linear);
+  let toPdf = (t: t) => t |> oShapeMap(XYShape.Range.derivative);
+  let toCdf = (t: t) => t |> oShapeMap(XYShape.Range.integrateWithTriangles);
+  let findIntegralY = (f, t) => {
+    t
     |> toCdf
-    |> E.O.fmap(XYShape.scaleCdfTo(~scaleTo))
+    |> E.O.fmap(shape)
-    |> E.O.bind(_, toPdf);
+    |> E.O.fmap(CdfLibrary.Distribution.findY(f));
+  };
+  let normalizeCdf = (continuousShape: continuousShape) =>
+    continuousShape |> shape |> XYShape.scaleCdfTo(~scaleTo=1.0) |> fromShape;
+  let scalePdf = (~scaleTo=1.0, continuousShape: continuousShape) => {
+    switch (toCdf(continuousShape)) {
+    | Some({shape}) =>
+      XYShape.scaleCdfTo(~scaleTo, shape)
+      |> XYShape.Range.derivative
+      |> E.O.fmap(fromShape)
+    | _ => None
+    };
+  };
 };
 
 module Discrete = {
@@ -159,7 +177,7 @@ module Discrete = {
        )
     |> ReasonReact.array;
 
-  let integrate = XYShape.accumulateYs;
+  let integrate = t => t |> XYShape.accumulateYs |> Continuous.fromShape;
   let derivative = XYShape.subtractYs;
 
   // TODO: This has a clear bug where it returns the Y value of the first item,
@@ -245,12 +263,15 @@ module Mixed = {
 
   let clean = (t: DistributionTypes.mixedShape) =>
     switch (t) {
-    | {continuous: {xs: [||], ys: [||]}, discrete: {xs: [||], ys: [||]}} =>
+    | {
+        continuous: {shape: {xs: [||], ys: [||]}},
+        discrete: {xs: [||], ys: [||]},
+      } =>
       None
     | {discrete: {xs: [|_|], ys: [|_|]}} => None
     | {continuous, discrete: {xs: [||], ys: [||]}} =>
       Some(Continuous(continuous))
-    | {continuous: {xs: [||], ys: [||]}, discrete} =>
+    | {continuous: {shape: {xs: [||], ys: [||]}}, discrete} =>
       Some(Discrete(discrete))
     | shape => Some(Mixed(shape))
     };
@@ -318,107 +339,91 @@ module T = {
     | Discrete(_) => None
     };
 
-  let scaledContinuousComponent = (t: t): option(continuousShape) => {
+  // let scaledContinuousComponent = (t: t): option(continuousShape) => {
-    switch (t) {
+  //   switch (t) {
-    | Mixed({continuous, discreteProbabilityMassFraction}) =>
+  //   | Mixed({continuous, discreteProbabilityMassFraction}) =>
-      Continuous.scalePdf(
+  //     Continuous.scalePdf(
-        ~scaleTo=1.0 -. discreteProbabilityMassFraction,
+  //       ~scaleTo=1.0 -. discreteProbabilityMassFraction,
-        continuous,
+  //       continuous,
-      )
+  //     )
-    | Discrete(_) => None
+  //   | Discrete(_) => None
-    | Continuous(c) => Some(c)
+  //   | Continuous(c) => Some(c)
-    };
+  //   };
-  };
+  // };
 
-  let scaledDiscreteComponent = (t: t): option(discreteShape) => {
+  // let scaledDiscreteComponent = (t: t): option(discreteShape) => {
-    switch (t) {
+  //   switch (t) {
-    | Mixed({discrete, discreteProbabilityMassFraction}) =>
+  //   | Mixed({discrete, discreteProbabilityMassFraction}) =>
-      Some(Discrete.scaleYToTotal(discreteProbabilityMassFraction, discrete))
+  //     Some(Discrete.scaleYToTotal(discreteProbabilityMassFraction, discrete))
-    | Discrete(d) => Some(d)
+  //   | Discrete(d) => Some(d)
-    | Continuous(_) => None
+  //   | Continuous(_) => None
-    };
+  //   };
-  };
+  // };
 
-  let pointwiseFmap = (fn, t: t): shape =>
+  // let pointwiseFmap = (fn, t: t): shape =>
-    switch (t) {
+  //   switch (t) {
-    | Mixed({discrete, continuous, discreteProbabilityMassFraction}) =>
+  //   | Mixed({discrete, continuous, discreteProbabilityMassFraction}) =>
-      Mixed({
+  //     Mixed({
-        continuous: XYShape.pointwiseMap(fn, continuous),
+  //       continuous: XYShape.pointwiseMap(fn, continuous),
-        discrete: XYShape.pointwiseMap(fn, discrete),
+  //       discrete: XYShape.pointwiseMap(fn, discrete),
-        discreteProbabilityMassFraction,
+  //       discreteProbabilityMassFraction,
-      })
+  //     })
-    | Discrete(x) => Discrete(XYShape.pointwiseMap(fn, x))
+  //   | Discrete(x) => Discrete(XYShape.pointwiseMap(fn, x))
-    | Continuous(x) => Continuous(XYShape.pointwiseMap(fn, x))
+  //   | Continuous(x) => Continuous(XYShape.pointwiseMap(fn, x))
-    };
+  //   };
 
-  module Cdf = {
+  // module Cdf = {
-    let normalizeCdf = (t: DistributionTypes.shape) => {
+  //   let normalizeCdf = (t: DistributionTypes.shape) => {
-      switch (t) {
+  //     switch (t) {
-      | Mixed({continuous, discrete, discreteProbabilityMassFraction}) =>
+  //     | Mixed({continuous, discrete, discreteProbabilityMassFraction}) =>
-        Mixed({
+  //       Mixed({
-          continuous: continuous |> Continuous.normalizeCdf,
+  //         continuous: continuous |> Continuous.normalizeCdf,
-          discrete: discrete |> Discrete.scaleYToTotal(1.0),
+  //         discrete: discrete |> Discrete.scaleYToTotal(1.0),
-          discreteProbabilityMassFraction,
+  //         discreteProbabilityMassFraction,
-        })
+  //       })
-      | Discrete(d) => Discrete(d |> Discrete.scaleYToTotal(1.0))
+  //     | Discrete(d) => Discrete(d |> Discrete.scaleYToTotal(1.0))
-      | Continuous(continuousShape) =>
+  //     | Continuous(continuousShape) =>
-        Continuous(Continuous.normalizeCdf(continuousShape))
+  //       Continuous(Continuous.normalizeCdf(continuousShape))
-      };
+  //     };
-    };
+  //   };
-  };
+  // };
 
   module Pdf = {
     // TODO: This is wrong. The discrete component should be made continuous when integrating.
-    let toCdf = (t: t) =>
+    // let toCdf = (t: t) =>
-      switch (t) {
+    //   switch (t) {
-      | Mixed({continuous, discrete, discreteProbabilityMassFraction}) =>
+    //   | Mixed({continuous, discrete, discreteProbabilityMassFraction}) =>
-        Some(
+    //     Some(
-          Mixed({
+    //       Mixed({
-            continuous: Continuous.toCdf(continuous) |> E.O.toExt(""),
+    //         continuous: Continuous.toCdf(continuous) |> E.O.toExt(""),
-            discrete: discrete |> Discrete.integrate,
+    //         discrete: discrete |> Discrete.integrate,
-            discreteProbabilityMassFraction,
+    //         discreteProbabilityMassFraction,
-          }),
+    //       }),
-        )
+    //     )
-      | Discrete(discrete) =>
+    //   | Discrete(discrete) =>
-        Some(Continuous(discrete |> Discrete.integrate))
+    //     Some(Continuous(discrete |> Discrete.integrate))
-      | Continuous(continuous) =>
+    //   | Continuous(continuous) =>
-        Continuous.toCdf(continuous) |> E.O.fmap(e => Continuous(e))
+    //     Continuous.toCdf(continuous) |> E.O.fmap(e => Continuous(e))
-      };
+    //   };
-
+    // let normalize = (t: DistributionTypes.shape): option(shape) => {
-    let normalize = (t: DistributionTypes.shape): option(shape) => {
+    //   switch (t) {
-      switch (t) {
+    //   | Mixed({continuous, discrete, discreteProbabilityMassFraction}) =>
-      | Mixed({continuous, discrete, discreteProbabilityMassFraction}) =>
+    //     continuous
-        continuous
+    //     |> Continuous.scalePdf(~scaleTo=1.0)
-        |> Continuous.scalePdf(~scaleTo=1.0)
+    //     |> E.O.fmap(r =>
-        |> E.O.fmap(r =>
+    //          Mixed({
-             Mixed({
+    //            continuous: r,
-               continuous: r,
+    //            discrete: discrete |> Discrete.scaleYToTotal(1.0),
-               discrete: discrete |> Discrete.scaleYToTotal(1.0),
+    //            discreteProbabilityMassFraction,
-               discreteProbabilityMassFraction,
+    //          })
-             })
+    //        )
-           )
+    //   | Discrete(d) => Some(Discrete(d |> Discrete.scaleYToTotal(1.0)))
-      | Discrete(d) => Some(Discrete(d |> Discrete.scaleYToTotal(1.0)))
+    //   | Continuous(continuousShape) =>
-      | Continuous(continuousShape) =>
+    //     continuousShape
-        continuousShape
+    //     |> Continuous.scalePdf(~scaleTo=1.0)
-        |> Continuous.scalePdf(~scaleTo=1.0)
+    //     |> E.O.fmap(r => Continuous(r))
-        |> E.O.fmap(r => Continuous(r))
+    //   };
-      };
+    // };
-    };
-  };
-
-  let toPdfCdfCombo = (t: t): option(pdfCdfCombo) =>
-    switch (t) {
-    | Mixed({continuous, discrete, discreteProbabilityMassFraction} as tt) =>
-      Some({
-        cdf: continuous |> Continuous.toCdf |> E.O.toExt(""),
-        pdf: Mixed(tt),
-      })
-    | Discrete(d) => Some({cdf: d |> Discrete.integrate, pdf: Discrete(d)})
-    | Continuous(c) =>
-      Some({
-        cdf: c |> Continuous.toCdf |> E.O.toExt(""),
-        pdf: Continuous(c),
-      })
   };
 };
 
@@ -449,10 +454,10 @@ module WithLimitedDomain = {
   let cdf = (t: t) => PdfCdfShape.cdf(t.dist);
   // TODO: This is bad, obviously needs to be fixed.
   let distScaleFactor = (t: t) => 3.0;
-  let scaledPdfShape = (scaleFactor, t: t) =>
+  // let scaledPdfShape = (scaleFactor, t: t) =>
-    t |> pdf |> T.pointwiseFmap(r => r *. scaleFactor);
+  //   t |> pdf |> T.pointwiseFmap(r => r *. scaleFactor);
-  let scaledCdfShape = (scaleFactor, t: t) =>
+  // let scaledCdfShape = (scaleFactor, t: t) =>
-    t |> cdf |> XYShape.pointwiseMap(r => r *. scaleFactor);
+  //   t |> cdf |> XYShape.pointwiseMap(r => r *. scaleFactor);
 };
 
 type withTimeVector = {

src/utility/CdfLibrary.re

@@ -5,15 +5,15 @@ module JS = {
     ys: array(float),
   };
 
-  let distToJs = (d: DistributionTypes.continuousShape) =>
+  let distToJs = (d: DistributionTypes.xyShape) =>
     distJs(~xs=d.xs, ~ys=d.ys);
 
-  let jsToDist = (d: distJs): DistributionTypes.continuousShape => {
+  let jsToDist = (d: distJs): DistributionTypes.xyShape => {
     xs: xsGet(d),
     ys: ysGet(d),
   };
 
-  let doAsDist = (f, d: DistributionTypes.continuousShape) =>
+  let doAsDist = (f, d: DistributionTypes.xyShape) =>
     d |> distToJs |> f |> jsToDist;
 
   [@bs.module "./CdfLibrary.js"]

src/utility/Guesstimator.re

@@ -16,10 +16,10 @@ module Internals = {
     discrete,
   };
 
-  let toContinous = (r: combined): DistributionTypes.continuousShape =>
+  let toContinous = (r: combined) =>
-    continuousGet(r) |> CdfLibrary.JS.jsToDist;
+    continuousGet(r) |> CdfLibrary.JS.jsToDist |> Shape.Continuous.fromShape;
 
-  let toDiscrete = (r: combined): DistributionTypes.discreteShape =>
+  let toDiscrete = (r: combined): DistributionTypes.xyShape =>
     discreteGet(r) |> jsToDistDiscrete;
 
   [@bs.module "./GuesstimatorLibrary.js"]