audiogram-beta/test/store_test.js
2022-11-29 23:15:44 -05:00

117 lines
4.0 KiB
JavaScript

import { assertEquals } from "https://deno.land/std@0.166.0/testing/asserts.ts";
import { Reducer, ColumnMapping } from "../src/store.js";
Deno.test("Store", async(t)=>
{
let state = {
Chan: 0,
Freq: 3,
Stim: 30,
Live:
{
Test: undefined,
Freq: undefined,
Mark: undefined
},
Tests: [
{
Name: "Patient A Asymmetric Notch",
Plot:
[
{ Hz: 500, TestL: { Stim: 30, Resp: true }, TestR: { Stim: 50, Resp: true } },
{ Hz: 1000, TestL: { Stim: 50, Resp: true }, TestR: { Stim: 55, Resp: true } }
]
}
]
};
await t.step("Initialize", async(t)=>
{
await t.step("A test exists with 500 and 1k hz plots", ()=>
{
assertEquals(state.Tests.length > 0, true);
const test = state.Tests[0];
assertEquals(test.Plot.length > 1, true);
assertEquals(test.Plot[0].Hz, 500);
assertEquals(test.Plot[1].Hz, 1000);
});
await t.step("Dispatch Test, Freq, Stim, and Chan updates", ()=>
{
state = Reducer(state, {Name:"Test", Data:0});
state = Reducer(state, {Name:"Freq", Data:2});
state = Reducer(state, {Name:"Stim", Data:25});
state = Reducer(state, {Name:"Chan", Data:1});
});
await t.step("Freq, Stim, and Chan have the correct values", ()=>
{
assertEquals(state.Stim, 25);
assertEquals(state.Freq, 2);
assertEquals(state.Chan, 1);
});
await t.step("Live context values are correct", ()=>
{
assertEquals(state.Live.Test, state.Tests[0]);
assertEquals(state.Live.Freq.Hz, ColumnMapping[state.Freq][0]);
assertEquals(state.Live.Mark, undefined, "(User) Mark is undefined");
});
});
await t.step("Make Marks", async(t)=>
{
await t.step("Dispatch Mark create", ()=>
{
state = Reducer(state, {Name:"Mark", Data:true});
});
await t.step("Check marked value", ()=>
{
assertEquals(state.Live.Freq.UserR !== undefined, true, `there will be a user mark for the right channel`);
assertEquals(state.Live.Freq.UserL === undefined, true, `the left channel user mark will be undefined`);
assertEquals(state.Live.Mark.Stim, state.Stim);
assertEquals(state.Live.Mark.Resp, true);
});
await t.step("Dispatch Mark delete", ()=>
{
state = Reducer(state, {Name:"Mark", Data:null});
});
await t.step("Check marked value", ()=>
{
assertEquals(state.Live.Freq.UserR === undefined, true);
assertEquals(state.Live.Freq.UserL === undefined, true);
assertEquals(state.Live.Mark, undefined);
});
await t.step("Dispatch Freq, Stim, and Chan updates", ()=>
{
state = Reducer(state, {Name:"Freq", Data:3});
state = Reducer(state, {Name:"Stim", Data:65});
state = Reducer(state, {Name:"Chan", Data:0});
});
await t.step("Live context values are correct", ()=>
{
assertEquals(state.Live.Test, state.Tests[0]);
assertEquals(state.Live.Freq.Hz, ColumnMapping[state.Freq][0]);
assertEquals(state.Live.Mark, undefined);
});
await t.step("Dispatch Mark create", ()=>
{
state = Reducer(state, {Name:"Mark", Data:false});
});
await t.step("Check marked value", ()=>
{
assertEquals(state.Live.Freq.UserR === undefined, true, `there will be a user mark for the right channel`);
assertEquals(state.Live.Freq.UserL !== undefined, true, `the left channel user mark will be undefined`);
assertEquals(state.Live.Mark.Stim, state.Stim);
assertEquals(state.Live.Mark.Resp, false);
});
})
});