A playground based on reducer
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@ -1,124 +0,0 @@
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import * as React from "react";
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import _ from "lodash";
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import type { Spec } from "vega";
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import type {
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DistPlus,
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} from "@quri/squiggle-lang";
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import { createClassFromSpec } from "react-vega";
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import * as chartSpecification from "../vega-specs/spec-distributions.json";
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let SquiggleVegaChart = createClassFromSpec({
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spec: chartSpecification as Spec,
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});
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export const DistPlusChart: React.FC<{
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distPlus: DistPlus;
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width: number;
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height: number;
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}> = ({ distPlus, width, height }) => {
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let shape = distPlus.pointSetDist;
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if (shape.tag === "Continuous") {
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let xyShape = shape.value.xyShape;
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let totalY = xyShape.ys.reduce((a, b) => a + b);
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let total = 0;
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let cdf = xyShape.ys.map((y) => {
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total += y;
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return total / totalY;
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});
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let values = _.zip(cdf, xyShape.xs, xyShape.ys).map(([c, x, y]) => ({
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cdf: (c * 100).toFixed(2) + "%",
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x: x,
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y: y,
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}));
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return (
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<SquiggleVegaChart
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width={width}
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height={height}
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data={{ con: values }}
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actions={false}
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/>
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);
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} else if (shape.tag === "Discrete") {
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let xyShape = shape.value.xyShape;
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let totalY = xyShape.ys.reduce((a, b) => a + b);
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let total = 0;
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let cdf = xyShape.ys.map((y) => {
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total += y;
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return total / totalY;
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});
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let values = _.zip(cdf, xyShape.xs, xyShape.ys).map(([c, x, y]) => ({
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cdf: (c * 100).toFixed(2) + "%",
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x: x,
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y: y,
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}));
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return <SquiggleVegaChart data={{ dis: values }} actions={false} />;
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} else if (shape.tag === "Mixed") {
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let discreteShape = shape.value.discrete.xyShape;
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let totalDiscrete = discreteShape.ys.reduce((a, b) => a + b);
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let discretePoints = _.zip(discreteShape.xs, discreteShape.ys);
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let continuousShape = shape.value.continuous.xyShape;
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let continuousPoints = _.zip(continuousShape.xs, continuousShape.ys);
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interface labeledPoint {
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x: number;
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y: number;
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type: "discrete" | "continuous";
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}
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let markedDisPoints: labeledPoint[] = discretePoints.map(([x, y]) => ({
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x: x,
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y: y,
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type: "discrete",
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}));
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let markedConPoints: labeledPoint[] = continuousPoints.map(([x, y]) => ({
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x: x,
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y: y,
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type: "continuous",
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}));
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let sortedPoints = _.sortBy(markedDisPoints.concat(markedConPoints), "x");
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let totalContinuous = 1 - totalDiscrete;
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let totalY = continuousShape.ys.reduce((a: number, b: number) => a + b);
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let total = 0;
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let cdf = sortedPoints.map((point: labeledPoint) => {
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if (point.type === "discrete") {
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total += point.y;
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return total;
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} else if (point.type === "continuous") {
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total += (point.y / totalY) * totalContinuous;
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return total;
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}
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});
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interface cdfLabeledPoint {
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cdf: string;
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x: number;
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y: number;
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type: "discrete" | "continuous";
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}
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let cdfLabeledPoint: cdfLabeledPoint[] = _.zipWith(
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cdf,
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sortedPoints,
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(c: number, point: labeledPoint) => ({
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...point,
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cdf: (c * 100).toFixed(2) + "%",
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})
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);
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let continuousValues = cdfLabeledPoint.filter(
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(x) => x.type === "continuous"
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);
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let discreteValues = cdfLabeledPoint.filter((x) => x.type === "discrete");
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return (
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<SquiggleVegaChart
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data={{ con: continuousValues, dis: discreteValues }}
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actions={false}
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/>
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);
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}
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};
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38
packages/components/src/components/DistributionChart.tsx
Normal file
38
packages/components/src/components/DistributionChart.tsx
Normal file
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import * as React from "react";
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import _ from "lodash";
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import type { Spec } from "vega";
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import type {
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Distribution,
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} from "@quri/squiggle-lang";
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import { distributionErrorToString } from '@quri/squiggle-lang';
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import { createClassFromSpec } from "react-vega";
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import * as chartSpecification from "../vega-specs/spec-distributions.json";
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let SquiggleVegaChart = createClassFromSpec({
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spec: chartSpecification as Spec,
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});
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type DistributionChartProps = {
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distribution: Distribution;
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width: number;
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height: number;
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}
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export const DistributionChart: React.FC<DistributionChartProps> = ({ distribution, width, height }: DistributionChartProps) => {
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console.log("Making shape")
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let shape = distribution.shape();
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console.log(shape)
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if (shape.tag === "Ok") {
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return (
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<SquiggleVegaChart
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data={{ con: shape.value.continuous, dis: shape.value.discrete }}
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width={width}
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height={height}
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actions={false}
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/>
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);
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}
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else{
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return <> {distributionErrorToString(shape.value)} </>;
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}
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};
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import * as React from "react";
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import _ from "lodash";
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import type { Spec } from "vega";
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import type { DistPlus } from "@quri/squiggle-lang";
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import type { Distribution, errorValue, result } from "@quri/squiggle-lang";
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import { createClassFromSpec } from "react-vega";
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import * as percentilesSpec from "../vega-specs/spec-percentiles.json";
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import { DistPlusChart } from "./DistPlusChart";
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import { DistributionChart } from "./DistributionChart";
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import { Error } from "./Error";
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let SquigglePercentilesChart = createClassFromSpec({
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type distPlusFn = (
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a: number
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) => { tag: "Ok"; value: DistPlus } | { tag: "Error"; value: string };
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) => result<Distribution, errorValue>
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const _rangeByCount = (start, stop, count) => {
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const _rangeByCount = (start: number, stop: number, count: number) => {
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const step = (stop - start) / (count - 1);
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const items = _.range(start, stop, step);
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const result = items.concat([stop]);
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return result;
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};
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function unwrap<a, b>( x: result<a, b>): a {
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if(x.tag === "Ok"){
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return x.value
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}
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}
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export const FunctionChart: React.FC<{
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distPlusFn: distPlusFn;
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diagramStart: number;
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diagramStop: number;
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diagramCount: number;
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}> = ({ distPlusFn, diagramStart, diagramStop, diagramCount }) => {
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let [mouseOverlay, setMouseOverlay] = React.useState(NaN);
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let [mouseOverlay, setMouseOverlay] = React.useState(0);
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function handleHover(...args) {
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setMouseOverlay(args[1]);
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}
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function handleOut(...args) {
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function handleOut() {
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setMouseOverlay(NaN);
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}
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const signalListeners = { mousemove: handleHover, mouseout: handleOut };
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let percentileArray = [
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0.01, 0.05, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 0.95, 0.99,
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];
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let mouseItem = distPlusFn(mouseOverlay);
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let showChart =
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mouseItem.tag === "Ok" ? (
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<DistPlusChart distPlus={mouseItem.value} width={400} height={140} />
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<DistributionChart distribution={mouseItem.value} width={400} height={140} />
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) : (
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<></>
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);
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})
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.filter((x) => x !== null)
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.map(({ x, value }) => {
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let percentiles = getPercentiles(percentileArray, value);
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return {
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x: x,
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p1: percentiles[0],
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p5: percentiles[1],
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p10: percentiles[2],
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p20: percentiles[3],
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p30: percentiles[4],
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p40: percentiles[5],
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p50: percentiles[6],
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p60: percentiles[7],
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p70: percentiles[8],
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p80: percentiles[9],
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p90: percentiles[10],
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p95: percentiles[11],
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p99: percentiles[12],
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p1: unwrap(value.inv(0.01)),
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p5: unwrap(value.inv(0.05)),
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p10: unwrap(value.inv(0.12)),
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p20: unwrap(value.inv(0.20)),
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p30: unwrap(value.inv(0.30)),
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p40: unwrap(value.inv(0.40)),
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p50: unwrap(value.inv(0.50)),
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p60: unwrap(value.inv(0.60)),
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p70: unwrap(value.inv(0.70)),
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p80: unwrap(value.inv(0.80)),
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p90: unwrap(value.inv(0.90)),
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p95: unwrap(value.inv(0.95)),
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p99: unwrap(value.inv(0.99)),
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};
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});
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);
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};
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function getPercentiles(percentiles: number[], t: DistPlus) {
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if (t.pointSetDist.tag === "Discrete") {
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let total = 0;
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let maxX = _.max(t.pointSetDist.value.xyShape.xs);
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let bounds = percentiles.map((_) => maxX);
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_.zipWith(
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t.pointSetDist.value.xyShape.xs,
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t.pointSetDist.value.xyShape.ys,
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(x, y) => {
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total += y;
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percentiles.forEach((v, i) => {
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if (total > v && bounds[i] === maxX) {
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bounds[i] = x;
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}
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});
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}
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);
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return bounds;
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} else if (t.pointSetDist.tag === "Continuous") {
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let total = 0;
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let maxX = _.max(t.pointSetDist.value.xyShape.xs);
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let totalY = _.sum(t.pointSetDist.value.xyShape.ys);
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let bounds = percentiles.map((_) => maxX);
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_.zipWith(
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t.pointSetDist.value.xyShape.xs,
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t.pointSetDist.value.xyShape.ys,
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(x, y) => {
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total += y / totalY;
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percentiles.forEach((v, i) => {
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if (total > v && bounds[i] === maxX) {
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bounds[i] = x;
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}
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});
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}
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);
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return bounds;
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} else if (t.pointSetDist.tag === "Mixed") {
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let discreteShape = t.pointSetDist.value.discrete.xyShape;
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let totalDiscrete = discreteShape.ys.reduce((a, b) => a + b);
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let discretePoints = _.zip(discreteShape.xs, discreteShape.ys);
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let continuousShape = t.pointSetDist.value.continuous.xyShape;
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let continuousPoints = _.zip(continuousShape.xs, continuousShape.ys);
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interface labeledPoint {
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x: number;
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y: number;
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type: "discrete" | "continuous";
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}
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let markedDisPoints: labeledPoint[] = discretePoints.map(([x, y]) => ({
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x: x,
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y: y,
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type: "discrete",
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}));
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let markedConPoints: labeledPoint[] = continuousPoints.map(([x, y]) => ({
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x: x,
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y: y,
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type: "continuous",
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}));
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let sortedPoints = _.sortBy(markedDisPoints.concat(markedConPoints), "x");
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let totalContinuous = 1 - totalDiscrete;
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let totalY = continuousShape.ys.reduce((a: number, b: number) => a + b);
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let total = 0;
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let maxX = _.max(sortedPoints.map((x) => x.x));
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let bounds = percentiles.map((_) => maxX);
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sortedPoints.map((point: labeledPoint) => {
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if (point.type === "discrete") {
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total += point.y;
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} else if (point.type === "continuous") {
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total += (point.y / totalY) * totalContinuous;
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}
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percentiles.forEach((v, i) => {
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if (total > v && bounds[i] === maxX) {
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bounds[i] = total;
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}
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});
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return total;
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});
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return bounds;
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}
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}
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@ -1,14 +1,12 @@
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import * as React from "react";
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import _ from "lodash";
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import { run } from "@quri/squiggle-lang";
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import { run, errorValueToString } from "@quri/squiggle-lang";
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import type {
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SamplingInputs,
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samplingParams,
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exportEnv,
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exportDistribution,
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} from "@quri/squiggle-lang";
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import { NumberShower } from "./NumberShower";
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import { DistPlusChart } from "./DistPlusChart";
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import { FunctionChart } from "./FunctionChart";
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import { DistributionChart } from "./DistributionChart";
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import { Error } from "./Error";
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export interface SquiggleChartProps {
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@ -39,8 +37,6 @@ export const SquiggleChart: React.FC<SquiggleChartProps> = ({
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squiggleString = "",
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sampleCount = 1000,
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outputXYPoints = 1000,
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kernelWidth,
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pointDistLength = 1000,
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diagramStart = 0,
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diagramStop = 10,
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diagramCount = 20,
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@ -49,43 +45,35 @@ export const SquiggleChart: React.FC<SquiggleChartProps> = ({
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width = 500,
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height = 60,
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}: SquiggleChartProps) => {
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let samplingInputs: SamplingInputs = {
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let samplingInputs: samplingParams = {
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sampleCount: sampleCount,
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outputXYPoints: outputXYPoints,
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kernelWidth: kernelWidth,
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pointDistLength: pointDistLength,
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xyPointLength: outputXYPoints
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};
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let result = run(squiggleString, samplingInputs, environment);
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console.log(result)
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if (result.tag === "Ok") {
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let environment = result.value.environment;
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let exports = result.value.exports;
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onEnvChange(environment);
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let chartResults = exports.map((chartResult: exportDistribution) => {
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if (chartResult["NAME"] === "Float") {
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return <NumberShower precision={3} number={chartResult["VAL"]} />;
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} else if (chartResult["NAME"] === "DistPlus") {
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let chartResult = result.value;
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if (chartResult.tag === "number") {
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return <NumberShower precision={3} number={chartResult.value} />;
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} else if (chartResult.tag === "distribution") {
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console.log("Is a distribution")
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return (
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<DistPlusChart
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distPlus={chartResult.VAL}
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<DistributionChart
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distribution={chartResult.value}
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height={height}
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width={width}
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/>
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);
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} else if (chartResult.NAME === "Function") {
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return (
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<FunctionChart
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distPlusFn={chartResult.VAL}
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diagramStart={diagramStart}
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diagramStop={diagramStop}
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diagramCount={diagramCount}
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/>
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);
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console.log("NOT THIS LINE")
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}
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else {
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console.log("Is a distribution")
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return <Error heading="No Viewer">{"We don't currently have a viewer for this type: " + chartResult.tag}</Error>;
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}
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});
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return <>{chartResults}</>;
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} else if (result.tag === "Error") {
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// At this point, we came across an error. What was our error?
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return <Error heading={"Parse Error"}>{result.value}</Error>;
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return <Error heading={"Parse Error"}>{errorValueToString(result.value)}</Error>;
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}
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};
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|
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@ -4,8 +4,8 @@ import type {
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exportDistribution,
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} from "../rescript/ProgramEvaluator.gen";
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export type { exportEnv, exportDistribution };
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import { genericDist, samplingParams, evaluate, expressionValue, errorValue, distributionError } from "../rescript/TypescriptInterface.gen";
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export { makeSampleSetDist } from "../rescript/TypescriptInterface.gen";
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import { genericDist, samplingParams, evaluate, expressionValue, errorValue, distributionError, toPointSet, continuousShape, discreteShape, distributionErrorToString } from "../rescript/TypescriptInterface.gen";
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export { makeSampleSetDist, errorValueToString, distributionErrorToString } from "../rescript/TypescriptInterface.gen";
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import {
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Constructors_mean,
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Constructors_sample,
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|
@ -32,19 +32,14 @@ import {
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Constructors_pointwiseLogarithm,
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Constructors_pointwisePower,
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} from "../rescript/Distributions/DistributionOperation/DistributionOperation.gen";
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export type {samplingParams, errorValue}
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export type SamplingInputs = {
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readonly sampleCount?: number;
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readonly outputXYPoints?: number;
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readonly kernelWidth?: number;
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readonly pointDistLength?: number
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};
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export let defaultSamplingInputs: samplingParams = {
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sampleCount: 10000,
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xyPointLength: 10000
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};
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type result<a, b> =
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export type result<a, b> =
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| {
|
||||
tag: "Ok";
|
||||
value: a;
|
||||
|
@ -65,6 +60,10 @@ export function resultMap<a, b, c>(
|
|||
}
|
||||
}
|
||||
|
||||
function Ok<a,b>(x: a): result<a,b> {
|
||||
return {"tag": "Ok", value: x}
|
||||
}
|
||||
|
||||
type tagged<a, b> = {tag: a, value: b}
|
||||
|
||||
function tag<a,b>(x: a, y: b) : tagged<a, b>{
|
||||
|
@ -97,9 +96,6 @@ function createTsExport(x: expressionValue, sampEnv: samplingParams): squiggleEx
|
|||
return tag("number", x.value);
|
||||
case "EvRecord":
|
||||
return tag("record", _.mapValues(x.value, x => createTsExport(x, sampEnv)))
|
||||
|
||||
|
||||
|
||||
}
|
||||
}
|
||||
|
||||
|
@ -108,6 +104,19 @@ export function resultExn<a, c>(r: result<a, c>): a | c {
|
|||
return r.value;
|
||||
}
|
||||
|
||||
export type point = { x: number, y: number}
|
||||
|
||||
export type shape = {
|
||||
continuous: point[]
|
||||
discrete: point[]
|
||||
}
|
||||
|
||||
function shapePoints(x : continuousShape | discreteShape): point[]{
|
||||
let xs = x.xyShape.xs;
|
||||
let ys = x.xyShape.ys;
|
||||
return _.zipWith(xs, ys, (x, y) => ({x, y}))
|
||||
}
|
||||
|
||||
export class Distribution {
|
||||
t: genericDist;
|
||||
env: samplingParams;
|
||||
|
@ -148,6 +157,34 @@ export class Distribution {
|
|||
);
|
||||
}
|
||||
|
||||
shape() : result<shape, distributionError> {
|
||||
let pointSet = toPointSet(this.t, {xyPointLength: this.env.xyPointLength, sampleCount: this.env.sampleCount}, null);
|
||||
if(pointSet.tag === "Ok"){
|
||||
let distribution = pointSet.value;
|
||||
if(distribution.tag === "Continuous"){
|
||||
return Ok({
|
||||
continuous: shapePoints(distribution.value),
|
||||
discrete: []
|
||||
})
|
||||
}
|
||||
else if(distribution.tag === "Discrete"){
|
||||
return Ok({
|
||||
discrete: shapePoints(distribution.value),
|
||||
continuous: []
|
||||
})
|
||||
}
|
||||
else if(distribution.tag === "Mixed"){
|
||||
return Ok({
|
||||
discrete: shapePoints(distribution.value.discrete),
|
||||
continuous: shapePoints(distribution.value.continuous)
|
||||
})
|
||||
}
|
||||
}
|
||||
else {
|
||||
return pointSet
|
||||
}
|
||||
}
|
||||
|
||||
toPointSet(): result<Distribution, distributionError> {
|
||||
return this.mapResultDist(
|
||||
Constructors_toPointSet({ env: this.env }, this.t)
|
||||
|
@ -170,8 +207,14 @@ export class Distribution {
|
|||
return this.mapResultDist(Constructors_inspect({ env: this.env }, this.t));
|
||||
}
|
||||
|
||||
toString(): result<string, distributionError> {
|
||||
return Constructors_toString({ env: this.env }, this.t);
|
||||
toString(): string {
|
||||
let result = Constructors_toString({ env: this.env }, this.t);
|
||||
if(result.tag === "Ok"){
|
||||
result.value
|
||||
}
|
||||
else {
|
||||
return distributionErrorToString(result.value)
|
||||
}
|
||||
}
|
||||
|
||||
toSparkline(n: number): result<string, distributionError> {
|
||||
|
|
|
@ -21,6 +21,7 @@ let toFloatOperation: (
|
|||
~distToFloatOperation: Operation.distToFloatOperation,
|
||||
) => result<float, error>
|
||||
|
||||
@genType
|
||||
let toPointSet: (
|
||||
t,
|
||||
~xyPointLength: int,
|
||||
|
|
|
@ -10,11 +10,22 @@ type error =
|
|||
| DistributionVerticalShiftIsInvalid
|
||||
| Other(string)
|
||||
|
||||
@genType
|
||||
module Error = {
|
||||
type t = error
|
||||
|
||||
let fromString = (s: string): t => Other(s)
|
||||
|
||||
@genType
|
||||
let toString = (x: t) => {
|
||||
switch x {
|
||||
| NotYetImplemented => "Not Yet Implemented"
|
||||
| Unreachable => "Unreachable"
|
||||
| DistributionVerticalShiftIsInvalid => "Distribution Vertical Shift Is Invalid"
|
||||
| Other(s) => s
|
||||
}
|
||||
}
|
||||
|
||||
let resultStringToResultError: result<'a, string> => result<'a, error> = n =>
|
||||
n->E.R2.errMap(r => r->fromString->Error)
|
||||
}
|
||||
|
@ -51,6 +62,7 @@ module Operation = {
|
|||
| #Sample
|
||||
]
|
||||
|
||||
@genType
|
||||
type pointsetXSelection = [#Linear | #ByWeight]
|
||||
|
||||
type toDist =
|
||||
|
|
|
@ -19,6 +19,7 @@ type interpolationStrategy = XYShape.interpolationStrategy;
|
|||
type extrapolationStrategy = XYShape.extrapolationStrategy;
|
||||
type interpolator = XYShape.extrapolationStrategy;
|
||||
|
||||
@genType
|
||||
type rec continuousShape = {
|
||||
xyShape: xyShape,
|
||||
interpolation: interpolationStrategy,
|
||||
|
@ -26,12 +27,14 @@ type rec continuousShape = {
|
|||
integralCache: option<continuousShape>,
|
||||
}
|
||||
|
||||
@genType
|
||||
type discreteShape = {
|
||||
xyShape: xyShape,
|
||||
integralSumCache: option<float>,
|
||||
integralCache: option<continuousShape>,
|
||||
}
|
||||
|
||||
@genType
|
||||
type mixedShape = {
|
||||
continuous: continuousShape,
|
||||
discrete: discreteShape,
|
||||
|
|
|
@ -8,6 +8,7 @@ type errorValue =
|
|||
|
||||
type t = errorValue
|
||||
|
||||
@genType
|
||||
let errorToString = err =>
|
||||
switch err {
|
||||
| REArrayIndexNotFound(msg, index) => `${msg}: ${Js.String.make(index)}`
|
||||
|
|
|
@ -36,3 +36,21 @@ type expressionValue = Reducer_Expression.expressionValue
|
|||
|
||||
@genType
|
||||
type errorValue = Reducer_ErrorValue.errorValue
|
||||
|
||||
@genType
|
||||
let toPointSet = GenericDist.toPointSet
|
||||
|
||||
@genType
|
||||
type mixedShape = PointSetTypes.mixedShape
|
||||
|
||||
@genType
|
||||
type discreteShape = PointSetTypes.discreteShape
|
||||
|
||||
@genType
|
||||
type continuousShape = PointSetTypes.continuousShape
|
||||
|
||||
@genType
|
||||
let errorValueToString = Reducer_ErrorValue.errorToString
|
||||
|
||||
@genType
|
||||
let distributionErrorToString = GenericDist_Types.Error.toString
|
||||
|
|
Loading…
Reference in New Issue
Block a user