提交 499389ef 编写于 作者: WOSHIMAHAIFENG's avatar WOSHIMAHAIFENG

Merge branch 'dev_arraybuffer' into 'dev'

Dev arraybuffer

See merge request !10
## 1.0.17
* update 4.22.2024062415-alpha
## 1.0.16
* update 4.21.2024061818-alpha
## 1.0.15
* update 4.19.2024060704-alpha
## 1.0.14
* update 4.18.2024060311-alpha
## 1.0.13
* update 4.17.2024051110-alpha
......
......@@ -2,7 +2,7 @@
"id": "hello-uts-alpha",
"name": "hello-uts-alpha",
"displayName": "hello-uts-alpha",
"version": "1.0.13",
"version": "1.0.18",
"description": "UTS插件示例项目",
"repository": "https://gitcode.net/dcloud/hello-uts",
"keywords": [
......
import { describe, test, expect, Result } from './tests.uts'
import { TDataView } from './TDataView.js'
import { TFloat32Array } from './TFloat32Array.js'
import { TFloat64Array } from './TFloat64Array.js'
import { TInt8Array } from './TInt8Array.js'
import { TInt16Array } from './TInt16Array.js'
import { TInt32Array } from './TInt32Array.js'
import { TUint8Array } from './TUint8Array.js'
import { TUint8ClampedArray } from './TUint8ClampedArray.js'
import { TUint16Array } from './TUint16Array.js'
import { TUint32Array } from './TUint32Array.js'
const tDataView = new TDataView();
const float32 = new TFloat32Array();
const float64 = new TFloat64Array()
const int8 = new TInt8Array()
const int32 = new TInt32Array()
const uint8 = new TUint8Array()
const uint8Clamped = new TUint8ClampedArray()
const uint16 = new TUint16Array()
const uint32 = new TUint32Array()
const int16 = new TInt16Array()
export function testArrayBuffer() : Result {
return describe("ArrayBuffer", () => {
//dataview start
test('dataview_constructor', () => {
tDataView.setConstructor()
})
test('dataview_setInt8', () => {
tDataView.setInt8()
})
test('dataview_setFloat32', () => {
tDataView.setFloat32()
})
test('dataview_setFloat64', () => {
tDataView.setFloat64()
})
test('dataview_setInt16', () => {
tDataView.setInt16()
})
test('dataview_setInt32', () => {
tDataView.setInt32()
})
test('dataview_setUint16', () => {
tDataView.setUint16()
})
test('dataview_setUint32', () => {
tDataView.setUint32()
})
test('dataview_setUint8', () => {
tDataView.setUint8()
})
test('doTestDataViewBigEndian', () => {
tDataView.doTestDataViewBigEndian()
})
test('doTestDataViewLittleEndian', () => {
tDataView.doTestDataViewLittleEndian()
})
test('doTestTypedArrayBigEndian', () => {
tDataView.doTestTypedArrayBigEndian()
})
test('doTestTypedArrayLittleEndian', () => {
tDataView.doTestTypedArrayLittleEndian()
})
test('doTestDataViewFloats', () => {
tDataView.doTestDataViewFloats()
})
//dataview end
//float32array start
test('float32_testConstructor', () => {
float32.testConstructor()
})
test('float32_testSet', () => {
float32.testSet()
})
test('float32_testCopyWith', () => {
float32.testCopyWith()
})
test('float32_testEvery', () => {
float32.testEvery()
})
test('float32_testFill', () => {
float32.testFill()
})
test('float32_testFilter', () => {
float32.testFilter()
})
test('float32_find', () => {
float32.find()
})
test('float32_findIndex', () => {
float32.findIndex()
})
test('float32_foreach', () => {
float32.foreach()
})
test('float32_iterator', () => {
float32.iterator()
})
test('float32_includes', () => {
float32.includes()
})
test('float32_indexOf', () => {
float32.indexOf()
})
test('float32_join', () => {
float32.join()
})
test('float32_keys', () => {
float32.keys()
})
test('float32_map', () => {
float32.map()
})
test('float32_reduce', () => {
float32.reduce()
})
test('float32_reduceRight', () => {
float32.reduceRight()
})
test('float32_reverse', () => {
float32.reverse()
})
test('float32_slice', () => {
float32.slice()
})
test('float32_sort', () => {
float32.sort()
})
test('float32_subarray', () => {
float32.subarray()
})
test('float32_values', () => {
float32.values()
})
test('float32_arrayBufferSlice', () => {
float32.arrayBufferSlice()
})
//float32array end
//float64array start
test('float64_testConstructor', () => {
float64.testConstructor()
})
test('float64_testSet', () => {
float64.testSet()
})
test('float64_testCopyWith', () => {
float64.testCopyWith()
})
test('float64_testEvery', () => {
float64.testEvery()
})
test('float64_testFill', () => {
float64.testFill()
})
test('float64_testFilter', () => {
float64.testFilter()
})
test('float64_find', () => {
float64.find()
})
test('float64_findIndex', () => {
float64.findIndex()
})
test('float64_foreach', () => {
float64.foreach()
})
test('float64_iterator', () => {
float64.iterator()
})
test('float64_includes', () => {
float64.includes()
})
test('float64_indexOf', () => {
float64.indexOf()
})
test('float64_join', () => {
float64.join()
})
test('float64_keys', () => {
float64.keys()
})
test('float64_map', () => {
float64.map()
})
test('float64_reduce', () => {
float64.reduce()
})
test('float64_reduceRight', () => {
float64.reduceRight()
})
test('float64_reverse', () => {
float64.reverse()
})
test('float64_slice', () => {
float64.slice()
})
test('float64_sort', () => {
float64.sort()
})
test('float64_subarray', () => {
float64.subarray()
})
test('float64_values', () => {
float64.values()
})
test('float64_arrayBufferSlice', () => {
float64.arrayBufferSlice()
})
//float64 end
//int8 start
test('int8_testConstructor', () => {
int8.testConstructor()
})
test('int8_testSet', () => {
int8.testSet()
})
test('int8_testCopyWith', () => {
int8.testCopyWith()
})
test('int8_testEvery', () => {
int8.testEvery()
})
test('int8_testFill', () => {
int8.testFill()
})
test('int8_testFilter', () => {
int8.testFilter()
})
test('int8_find', () => {
int8.find()
})
test('int8_findIndex', () => {
int8.findIndex()
})
test('int8_foreach', () => {
int8.foreach()
})
test('int8_iterator', () => {
int8.iterator()
})
test('int8_includes', () => {
int8.includes()
})
test('int8_indexOf', () => {
int8.indexOf()
})
test('int8_join', () => {
int8.join()
})
test('int8_keys', () => {
int8.keys()
})
test('int8_map', () => {
int8.map()
})
test('int8_reduce', () => {
int8.reduce()
})
test('int8_reduceRight', () => {
int8.reduceRight()
})
test('int8_reverse', () => {
int8.reverse()
})
test('int8_slice', () => {
int8.slice()
})
test('int8_sort', () => {
int8.sort()
})
test('int8_subarray', () => {
int8.subarray()
})
test('int8_values', () => {
int8.values()
})
test('int8_arrayBufferSlice', () => {
int8.arrayBufferSlice()
})
// //int8 end
// //int16 start
test('int16_testConstructor', () => {
int16.testConstructor()
})
test('int16_testSet', () => {
int16.testSet()
})
test('int16_testCopyWith', () => {
int16.testCopyWith()
})
test('int16_testEvery', () => {
int16.testEvery()
})
test('int16_testFill', () => {
int16.testFill()
})
test('int16_testFilter', () => {
int16.testFilter()
})
test('int16_find', () => {
int16.find()
})
test('int16_findIndex', () => {
int16.findIndex()
})
test('int16_foreach', () => {
int16.foreach()
})
test('int16_iterator', () => {
int16.iterator()
})
test('int16_includes', () => {
int16.includes()
})
test('int16_indexOf', () => {
int16.indexOf()
})
test('int16_join', () => {
int16.join()
})
test('int16_keys', () => {
int16.keys()
})
test('int16_map', () => {
int16.map()
})
test('int16_reduce', () => {
int16.reduce()
})
test('int16_reduceRight', () => {
int16.reduceRight()
})
test('int16_reverse', () => {
int16.reverse()
})
test('int16_slice', () => {
int16.slice()
})
test('int16_sort', () => {
int16.sort()
})
test('int16_subarray', () => {
int16.subarray()
})
test('int16_values', () => {
int16.values()
})
test('int16_arrayBufferSlice', () => {
int16.arrayBufferSlice()
})
//int16 end
//int32 start
test('int32_testConstructor', () => {
int32.testConstructor()
})
test('int32_testSet', () => {
int32.testSet()
})
test('int32_testCopyWith', () => {
int32.testCopyWith()
})
test('int32_testEvery', () => {
int32.testEvery()
})
test('int32_testFill', () => {
int32.testFill()
})
test('int32_testFilter', () => {
int32.testFilter()
})
test('int32_find', () => {
int32.find()
})
test('int32_findIndex', () => {
int32.findIndex()
})
test('int32_foreach', () => {
int32.foreach()
})
test('int32_iterator', () => {
int32.iterator()
})
test('int32_includes', () => {
int32.includes()
})
test('int32_indexOf', () => {
int32.indexOf()
})
test('int32_join', () => {
int32.join()
})
test('int32_keys', () => {
int32.keys()
})
test('int32_map', () => {
int32.map()
})
test('int32_reduce', () => {
int32.reduce()
})
test('int32_reduceRight', () => {
int32.reduceRight()
})
test('int32_reverse', () => {
int32.reverse()
})
test('int32_slice', () => {
int32.slice()
})
test('int32_sort', () => {
int32.sort()
})
test('int32_subarray', () => {
int32.subarray()
})
test('int32_values', () => {
int32.values()
})
test('int32_arrayBufferSlice', () => {
int32.arrayBufferSlice()
})
//int32 end
//uint8 start
test('uint8_testConstructor', () => {
uint8.testConstructor()
})
test('uint8_testSet', () => {
uint8.testSet()
})
test('uint8_testCopyWith', () => {
uint8.testCopyWith()
})
test('uint8_testEvery', () => {
uint8.testEvery()
})
test('uint8_testFill', () => {
uint8.testFill()
})
test('uint8_testFilter', () => {
uint8.testFilter()
})
test('uint8_find', () => {
uint8.find()
})
test('uint8_findIndex', () => {
uint8.findIndex()
})
test('uint8_foreach', () => {
uint8.foreach()
})
test('uint8_iterator', () => {
uint8.iterator()
})
test('uint8_includes', () => {
uint8.includes()
})
test('uint8_indexOf', () => {
uint8.indexOf()
})
test('uint8_join', () => {
uint8.join()
})
test('uint8_keys', () => {
uint8.keys()
})
test('uint8_map', () => {
uint8.map()
})
test('uint8_reduce', () => {
uint8.reduce()
})
test('uint8_reduceRight', () => {
uint8.reduceRight()
})
test('uint8_reverse', () => {
uint8.reverse()
})
test('uint8_slice', () => {
uint8.slice()
})
test('uint8_sort', () => {
uint8.sort()
})
test('uint8_subarray', () => {
uint8.subarray()
})
test('uint8_values', () => {
uint8.values()
})
test('uint8_arrayBufferSlice', () => {
uint8.arrayBufferSlice()
})
//uint8 end
//uint8Clamped start
test('uint8Clamped_testConstructor', () => {
uint8Clamped.testConstructor()
})
test('uint8Clamped_testSet', () => {
uint8Clamped.testSet()
})
test('uint8Clamped_testCopyWith', () => {
uint8Clamped.testCopyWith()
})
test('uint8Clamped_testEvery', () => {
uint8Clamped.testEvery()
})
test('uint8Clamped_testFill', () => {
uint8Clamped.testFill()
})
test('uint8Clamped_testFilter', () => {
uint8Clamped.testFilter()
})
test('uint8Clamped_find', () => {
uint8Clamped.find()
})
test('uint8Clamped_findIndex', () => {
uint8Clamped.findIndex()
})
test('uint8Clamped_foreach', () => {
uint8Clamped.foreach()
})
test('uint8Clamped_iterator', () => {
uint8Clamped.iterator()
})
test('uint8Clamped_includes', () => {
uint8Clamped.includes()
})
test('uint8Clamped_indexOf', () => {
uint8Clamped.indexOf()
})
test('uint8Clamped_join', () => {
uint8Clamped.join()
})
test('uint8Clamped_keys', () => {
uint8Clamped.keys()
})
test('uint8Clamped_map', () => {
uint8Clamped.map()
})
test('uint8Clamped_reduce', () => {
uint8Clamped.reduce()
})
test('uint8Clamped_reduceRight', () => {
uint8Clamped.reduceRight()
})
test('uint8Clamped_reverse', () => {
uint8Clamped.reverse()
})
test('uint8Clamped_slice', () => {
uint8Clamped.slice()
})
test('uint8Clamped_sort', () => {
uint8Clamped.sort()
})
test('uint8Clamped_subarray', () => {
uint8Clamped.subarray()
})
test('uint8Clamped_values', () => {
uint8Clamped.values()
})
test('uint8Clamped_arrayBufferSlice', () => {
uint8Clamped.arrayBufferSlice()
})
//uint8Clamped end
//uint16 start
test('uint16_testConstructor', () => {
uint16.testConstructor()
})
test('uint16_testSet', () => {
uint16.testSet()
})
test('uint16_testCopyWith', () => {
uint16.testCopyWith()
})
test('uint16_testEvery', () => {
uint16.testEvery()
})
test('uint16_testFill', () => {
uint16.testFill()
})
test('uint16_testFilter', () => {
uint16.testFilter()
})
test('uint16_find', () => {
uint16.find()
})
test('uint16_findIndex', () => {
uint16.findIndex()
})
test('uint16_foreach', () => {
uint16.foreach()
})
test('uint16_iterator', () => {
uint16.iterator()
})
test('uint16_includes', () => {
uint16.includes()
})
test('uint16_indexOf', () => {
uint16.indexOf()
})
test('uint16_join', () => {
uint16.join()
})
test('uint16_keys', () => {
uint16.keys()
})
test('uint16_map', () => {
uint16.map()
})
test('uint16_reduce', () => {
uint16.reduce()
})
test('uint16_reduceRight', () => {
uint16.reduceRight()
})
test('uint16_reverse', () => {
uint16.reverse()
})
test('uint16_slice', () => {
uint16.slice()
})
test('uint16_sort', () => {
uint16.sort()
})
test('uint16_subarray', () => {
uint16.subarray()
})
test('uint16_values', () => {
uint16.values()
})
test('uint16_arrayBufferSlice', () => {
uint16.arrayBufferSlice()
})
//uint16 end
//uint32 start
test('uint32_testConstructor', () => {
uint32.testConstructor()
})
test('uint32_testSet', () => {
uint32.testSet()
})
test('uint32_testCopyWith', () => {
uint32.testCopyWith()
})
test('uint32_testEvery', () => {
uint32.testEvery()
})
test('uint32_testFill', () => {
uint32.testFill()
})
test('uint32_testFilter', () => {
uint32.testFilter()
})
test('uint32_find', () => {
uint32.find()
})
test('uint32_findIndex', () => {
uint32.findIndex()
})
test('uint32_foreach', () => {
uint32.foreach()
})
test('uint32_iterator', () => {
uint32.iterator()
})
test('uint32_includes', () => {
uint32.includes()
})
test('uint32_indexOf', () => {
uint32.indexOf()
})
test('uint32_join', () => {
uint32.join()
})
test('uint32_keys', () => {
uint32.keys()
})
test('uint32_map', () => {
uint32.map()
})
test('uint32_reduce', () => {
uint32.reduce()
})
test('uint32_reduceRight', () => {
uint32.reduceRight()
})
test('uint32_reverse', () => {
uint32.reverse()
})
test('uint32_slice', () => {
uint32.slice()
})
test('uint32_sort', () => {
uint32.sort()
})
test('uint32_subarray', () => {
uint32.subarray()
})
test('uint32_values', () => {
uint32.values()
})
test('uint32_arrayBufferSlice', () => {
uint32.arrayBufferSlice()
})
//uint32 end
})
}
\ No newline at end of file
import {
describe,
test,
expect,
Result
} from './tests.uts'
export class TDataView {
test() {
// this.setDv();
// this.setInt8();
// this.setFloat32();
// this.setFloat64();
// this.setInt16();
// this.setInt32();
// this.setUint16();
// this.setUint32();
// this.setUint8();
// this.testMix();
}
setConstructor() {
let buffer = new ArrayBuffer(16);
let dataview = new DataView(buffer);
dataview.setInt8(1, 12);
dataview.setFloat32(1, 34);
expect(dataview.getInt8(1)).toEqual(66);
expect(this.numberEquals(34, dataview.getFloat32(1))).toEqual(true);
buffer = new ArrayBuffer(16);
let view = new DataView(buffer, 1, 4);
view.setInt16(1, 42); // 42
expect(view.getInt16(1)).toEqual(42);
}
setInt8() {
// Create an ArrayBuffer with a size in bytes
let buffer = new ArrayBuffer(16);
let view = new DataView(buffer);
view.setInt8(1, 127); // Max signed 8-bit integer
expect(view.getInt8(1)).toEqual(127);
}
setFloat32() {
console.log('setFloat32', 'start')
// Create an ArrayBuffer with a size in bytes
let buffer = new ArrayBuffer(16);
let view = new DataView(buffer);
view.setFloat32(1, Math.PI.toFloat());
expect(this.numberEquals(3.1415927, view.getFloat32(1).toFloat())).toEqual(true);
}
setFloat64() {
// Create an ArrayBuffer with a size in bytes
let buffer = new ArrayBuffer(16);
let view = new DataView(buffer);
view.setFloat64(1, Math.PI);
expect(this.numberEquals(3.141592653589793, view.getFloat64(1))).toEqual(true);
}
setInt16() {
// Create an ArrayBuffer with a size in bytes
let buffer = new ArrayBuffer(16);
let view = new DataView(buffer);
view.setInt16(1, 32767); // Max signed 16-bit integer
expect(view.getInt16(1)).toEqual(32767);
}
setInt32() {
// Create an ArrayBuffer with a size in bytes
let buffer = new ArrayBuffer(16);
let view = new DataView(buffer);
view.setInt32(1, 2147483647); // Max signed 32-bit integer
expect(this.numberEquals(2147483647, view.getInt32(1))).toEqual(true);
}
setUint16() {
// Create an ArrayBuffer with a size in bytes
let buffer = new ArrayBuffer(16);
let view = new DataView(buffer);
view.setUint16(1, 65535); // Max unsigned 16-bit integer
expect(this.numberEquals(65535, view.getUint16(1))).toEqual(true);
}
setUint32() {
// Create an ArrayBuffer with a size in bytes
let buffer = new ArrayBuffer(16);
let view = new DataView(buffer);
view.setUint32(1, 4294967295); // Max unsigned 32-bit integer
expect(this.numberEquals(4294967295, view.getUint32(1))).toEqual(true);
}
setUint8() {
// Create an ArrayBuffer with a size in bytes
let buffer = new ArrayBuffer(16);
let view = new DataView(buffer);
view.setUint8(1, 255); // Max unsigned 8-bit integer
expect(this.numberEquals(255, view.getUint8(1))).toEqual(true);
}
numberEquals(a: Number, b: Number): Boolean {
return a == b
}
doTestDataViewBigEndian() {
this.doIterations(false, true);
}
doTestDataViewLittleEndian() {
this.doIterations(true, true);
}
doTestTypedArrayBigEndian() {
this.doIterations(false, false);
}
doTestTypedArrayLittleEndian() {
this.doIterations(true, false);
}
doTestDataViewFloats() {
this.doFloatIterations(true);
}
doTestTypedArrayFloats() {
this.doFloatIterations(false);
}
doIterations(littleEndian: boolean, dataView: boolean) {
var buffer = this.makeBuffer(1000, littleEndian);
var iterations = 10;
if (dataView) {
for (var i = 0; i < iterations; i++)
this.doOneIterationDV(buffer, littleEndian);
} else {
for (var i = 0; i < iterations; i++)
this.doOneIterationJS(buffer, littleEndian);
}
}
makeBuffer(size: Int, littleEndian: boolean): ArrayBuffer {
var buffer = new ArrayBuffer(size * 14);
var view = new DataView(buffer);
for (var i = 0; i < size; ++i) {
view.setInt8(i * 14, i);
view.setUint8(i * 14 + 1, i);
view.setInt16(i * 14 + 2, i * i, littleEndian);
view.setUint16(i * 14 + 4, i * i, littleEndian);
view.setInt32(i * 14 + 6, i * i * i, littleEndian);
view.setUint32(i * 14 + 10, i * i * i, littleEndian);
}
return buffer;
}
doOneIterationDV(buffer: ArrayBuffer, littleEndian: boolean) {
var xor = 0;
var view = new DataView(buffer);
for (var i = 0; i < view.byteLength; i += 14) {
xor ^= view.getInt8(i);
xor ^= view.getUint8(i + 1);
xor ^= view.getInt16(i + 2, littleEndian);
xor ^= view.getUint16(i + 4, littleEndian);
xor ^= view.getInt32(i + 6, littleEndian);
xor ^= view.getUint32(i + 10, littleEndian);
}
expect(xor).toEqual(0);
}
doOneIterationJS(buffer: ArrayBuffer, littleEndian: boolean) {
var xor = 0;
if (littleEndian) {
var reader = new LittleEndian(buffer);
for (var i = 0; i < buffer.byteLength; i += 14) {
xor ^= reader.getInt8(i);
xor ^= reader.getUint8(i + 1);
xor ^= reader.getInt16(i + 2);
xor ^= reader.getUint16(i + 4);
xor ^= reader.getInt32(i + 6);
xor ^= reader.getUint32(i + 10);
}
expect(xor).toEqual(0);
} else {
var reader = new BigEndian(buffer);
for (var i = 0; i < buffer.byteLength; i += 14) {
xor ^= reader.getInt8(i);
xor ^= reader.getUint8(i + 1);
xor ^= reader.getInt16(i + 2);
xor ^= reader.getUint16(i + 4);
xor ^= reader.getInt32(i + 6);
xor ^= reader.getUint32(i + 10);
}
}
}
doFloatIterations(dataView: boolean) {
var buffer = makeFloatBuffer(1000);
var iterations = 10;
if (dataView) {
for (var i = 0; i < iterations; i++)
this.doOneFloatIterationDV(buffer);
} else {
for (var i = 0; i < iterations; i++)
this.doOneFloatIterationJS(buffer);
}
}
makeFloatBuffer(size: Int): ArrayBuffer {
var buffer = new ArrayBuffer(size * 16);
var view = new DataView(buffer);
for (var i = 0; i < size; i++) {
view.setFloat64(i * 16, Math.log10(i + 1));
view.setFloat32(i * 16 + 8, Math.sqrt(i));
view.setFloat32(i * 16 + 12, Math.cos(i));
}
return buffer;
}
doOneFloatIterationDV(buffer: ArrayBuffer) {
var sum = 0;
var view = new DataView(buffer);
for (var i = 0; i < view.byteLength; i += 16) {
sum += view.getFloat64(i);
sum += view.getFloat32(i + 8);
sum += view.getFloat32(i + 12);
}
expect(sum).toEqual(23634.413356150446);
}
doOneFloatIterationJS(buffer: ArrayBuffer) {
var sum = 0;
var float32array = new Float32Array(buffer);
var float64array = new Float64Array(buffer);
for (var i = 0; i < buffer.byteLength; i += 16) {
sum += float64array[i / 8];
sum += float32array[i / 4 + 2];
sum += float32array[i / 4 + 3];
}
}
}
class BigEndian {
private uint8View_: Uint8Array;
private int8View_: Int8Array;
constructor(buffer: ArrayBuffer, ) {
const offset = 0;
this.uint8View_ = new Uint8Array(buffer, offset);
this.int8View_ = new Int8Array(buffer, offset);
}
getInt8(byteOffset: number): number {
return this.int8View_[byteOffset];
}
getUint8(byteOffset: number): number {
return this.uint8View_[byteOffset];
}
getInt16(byteOffset: number): number {
return this.uint8View_[byteOffset + 1] | (this.int8View_[byteOffset] << 8);
}
getUint16(byteOffset: number): number {
return this.uint8View_[byteOffset + 1] | (this.uint8View_[byteOffset] << 8);
}
getInt32(byteOffset: number): number {
return (
this.uint8View_[byteOffset + 3] |
(this.uint8View_[byteOffset + 2] << 8) |
(this.uint8View_[byteOffset + 1] << 16) |
(this.int8View_[byteOffset] << 24)
);
}
getUint32(byteOffset: number): number {
return (
this.uint8View_[byteOffset + 3] +
(this.uint8View_[byteOffset + 2] << 8) +
(this.uint8View_[byteOffset + 1] << 16) +
this.uint8View_[byteOffset] * (1 << 24)
);
}
}
class LittleEndian {
private uint8View_: Uint8Array;
private int8View_: Int8Array;
constructor(buffer: ArrayBuffer) {
const offset = 0;
this.uint8View_ = new Uint8Array(buffer, offset);
this.int8View_ = new Int8Array(buffer, offset);
}
getInt8(byteOffset: number): number {
return this.int8View_[byteOffset];
}
getUint8(byteOffset: number): number {
return this.uint8View_[byteOffset];
}
getInt16(byteOffset: number): number {
return this.uint8View_[byteOffset] | (this.int8View_[byteOffset + 1] << 8);
}
getUint16(byteOffset: number): number {
return this.uint8View_[byteOffset] | (this.uint8View_[byteOffset + 1] << 8);
}
getInt32(byteOffset: number): number {
return (
this.uint8View_[byteOffset] |
(this.uint8View_[byteOffset + 1] << 8) |
(this.uint8View_[byteOffset + 2] << 16) |
(this.int8View_[byteOffset + 3] << 24)
);
}
getUint32(byteOffset: number): number {
return (
this.uint8View_[byteOffset] +
(this.uint8View_[byteOffset + 1] << 8) +
(this.uint8View_[byteOffset + 2] << 16) +
this.uint8View_[byteOffset + 3] * (1 << 24)
);
}
}
\ No newline at end of file
import {
describe,
test,
expect,
Result
} from './tests.uts'
export class TFloat32Array {
test() {
this.testfloat32();
this.testConstructor();
this.testSet();
this.testCopyWith();
this.testEvery();
this.testFill();
this.testFilter();
this.find();
this.findIndex();
this.foreach();
this.iterator();
this.includes();
this.indexOf();
this.join();
this.keys();
this.map();
this.reduce();
this.reduceRight();
this.reverse();
this.slice();
this.sort();
this.subarray();
this.values();
this.arrayBufferSlice();
}
testfloat32() {
let float32 = new Float32Array(2);
float32[0] = 42;
expect(float32[0]).toEqual(42);
expect(float32.length).toEqual(2);
expect(Float32Array.BYTES_PER_ELEMENT).toEqual(4);
let x = new Float32Array([21, 31, 3]);
expect(x[1]).toEqual(31);
let y = new Float32Array(x);
expect(y[0]).toEqual(21);
let buffer = new ArrayBuffer(16);
let z = new Float32Array(buffer, 2, 4);
expect(z.byteOffset).toEqual(2);
expect(z.length).toEqual(4);
var k = Float32Array.of(1, 2, 3)
expect(k.toString()).toEqual("1,2,3");
}
testConstructor() {
let buffer = new ArrayBuffer(16);
let float32 = new Float32Array(buffer);
float32[1] = 42;
expect(float32.toString()).toEqual("0,42,0,0");
}
testSet() {
let float32 = new Float32Array(8);
var array = [1, 2, 3]
float32.set(array, 1);
expect(float32.toString()).toEqual("0,1,2,3,0,0,0,0");
}
testCopyWith() {
console.log("testCopyWith 1")
let float32 = new Float32Array(8);
float32.set([1, 2, 3], 1);
console.log("testCopyWith 1")
float32.copyWithin(3, 0, 3);
console.log("testCopyWith 1")
expect(float32.toString()).toEqual("0,1,2,0,1,2,0,0");
}
testEvery() {
// const isBelowThreshold = (currentValue: number, index: number, array:Float32Array): boolean => currentValue < 40;
let result = new Float32Array([12, 5, 8, 130, 44]).every((value: number, index: number, array: Float32Array):
boolean => value < 40); //
expect(result).toEqual(false);
}
testFill() {
let float32 = new Float32Array([1, 2, 3]).fill(4);
expect(float32.toString()).toEqual("4,4,4");
float32 = new Float32Array([1, 2, 3]).fill(4, 1);
expect(float32.toString()).toEqual("1,4,4");
float32 = new Float32Array([1, 2, 3]).fill(4, 1, 2);
expect(float32.toString()).toEqual("1,4,3");
float32 = new Float32Array([1, 2, 3]).fill(4, 1, 1);
expect(float32.toString()).toEqual("1,2,3");
float32 = new Float32Array([1, 2, 3]).fill(4, -3, -2);
expect(float32.toString()).toEqual("4,2,3");
}
testFilter() {
// const isBelowThreshold = (currentValue: number, index: number, _): boolean => currentValue >= 10;
let float32 = new Float32Array([12, 5, 8, 44]).filter((value: number, index: number, array: Float32Array):
boolean => value >= 10);
expect(float32.toString()).toEqual("12,44");
}
find() {
let float32 = new Float32Array([4, 5, 8, 12]);
let res = float32.find((value: number, index: number, obj: Float32Array): boolean => value > 5);
expect(res).toEqual(8);
}
findIndex() {
let float32 = new Float32Array([4, 6, 8, 12]);
let res = float32.findIndex((value: number, index: number, obj: Float32Array): boolean => value > 100);
expect(res).toEqual(-1);
let ufloat32 = new Float32Array([4, 6, 7, 120]);
res = ufloat32.findIndex((value: number, index: number, obj: Float32Array): boolean => value > 100);
expect(res).toEqual(3);
}
foreach() {
new Float32Array([0, 1, 2, 3]).forEach((value: number, index: number, array: Float32Array) => {
console.log(`a[${index}] = ${value}`);
});
}
iterator() {
let arr = new Float32Array([10, 20, 30, 40, 50]);
let entries = arr.entries();
expect(entries.next().value[1]).toEqual(10);
expect(entries.next().value[1]).toEqual(20);
}
includes() {
let float32 = new Float32Array([1, 2, 3]);
let res = float32.includes(2.0);
expect(res).toEqual(true);
res = float32.includes(4.0);
expect(res).toEqual(false);
res = float32.includes(3.0, 3);
expect(res).toEqual(false);
}
indexOf() {
let float32 = new Float32Array([2, 5, 9]);
let res = float32.indexOf(2);
expect(res).toEqual(0);
res = float32.indexOf(7);
expect(res).toEqual(-1);
res = float32.indexOf(9, 2);
expect(res).toEqual(2);
res = float32.indexOf(2, -1);
expect(res).toEqual(-1);
res = float32.indexOf(2, -3);
expect(res).toEqual(0);
}
join() {
let float32 = new Float32Array([1, 2, 3]);
let res = float32.join();
expect(res).toEqual("1,2,3");
res = float32.join(" / ");
expect(res).toEqual("1 / 2 / 3");
res = float32.join("");
expect(res).toEqual("123");
}
keys() {
let arr = new Float32Array([10, 20, 30, 40, 50]);
let keys = arr.keys();
expect(keys.next().value).toEqual(0);
expect(keys.next().value).toEqual(1);
expect(keys.next().value).toEqual(2);
expect(keys.next().value).toEqual(3);
expect(keys.next().value).toEqual(4);
}
map() {
let numbers = new Float32Array([1, 4, 9]);
let doubles = numbers.map((value: number, index: number, array: Float32Array): number => value * 2);
expect(numbers.toString()).toEqual("1,4,9");
expect(doubles.toString()).toEqual("2,8,18");
}
reduce() {
let total = new Float32Array([0, 1, 2, 3]);
let res = total.reduce((accumulator: number, currentValue: number, currentIndex: number, array: Float32Array):
number => accumulator + currentValue);
expect(res).toEqual(6.0);
total = new Float32Array([0, 1, 2, 3]);
res = total.reduce((accumulator: number, currentValue: number, currentIndex: number, array: Float32Array):
number => accumulator + currentValue, 8);
expect(res).toEqual(14.0);
}
reduceRight() {
let total = new Float32Array([0, 1, 2, 3]);
let res = total.reduceRight((accumulator: number, currentValue: number, currentIndex: number, array:
Float32Array): number => accumulator + currentValue);
expect(res).toEqual(6.0);
total = new Float32Array([0, 1, 2, 3]);
res = total.reduceRight((accumulator: number, currentValue: number, currentIndex: number, array: Float32Array):
number => accumulator + currentValue, 8);
expect(res).toEqual(14.0);
}
reverse() {
let float32 = new Float32Array([1, 2, 3]);
float32.reverse();
expect(float32.toString()).toEqual("3,2,1");
}
slice() {
let float32 = new Float32Array([1, 2, 3]);
let res = float32.slice(1);
expect(res.toString()).toEqual("2,3");
res = float32.slice(2);
expect(res.toString()).toEqual("3");
res = float32.slice(-2);
expect(res.toString()).toEqual("2,3");
res = float32.slice(0, 1);
expect(res.toString()).toEqual("1");
}
sort() {
let numbers = new Float32Array([40, 1, 5]);
numbers.sort();
expect(numbers.toString()).toEqual("1,5,40");
numbers.sort((a, b): Number => a - b);
expect(numbers.toString()).toEqual("1,5,40");
}
subarray() {
let buffer = new ArrayBuffer(16);
let float32 = new Float32Array(buffer);
float32.set([1, 2, 3]);
expect(float32.toString()).toEqual("1,2,3,0");
let sub = float32.subarray(0, 4);
expect(sub.toString()).toEqual("1,2,3,0");
}
values() {
let arr = new Float32Array([1, 2, 3]);
let values = arr.values();
expect(values.next().value).toEqual(1);
expect(values.next().value).toEqual(2);
expect(values.next().value).toEqual(3);
}
arrayBufferSlice() {
let buffer = new ArrayBuffer(16);
let float32 = new Float32Array(buffer);
float32[3] = 42;
expect(float32.toString()).toEqual("0,0,0,42");
let res = buffer.slice(8);
let sliced = new Float32Array(res);
expect(sliced[1]).toEqual(42);
}
}
\ No newline at end of file
import {
describe,
test,
expect,
Result
} from './tests.uts'
export class TFloat64Array {
test() {
this.testfloat64();
this.testConstructor();
this.testSet();
this.testCopyWith();
this.testEvery();
this.testFill();
this.testFilter();
this.find();
this.findIndex();
this.foreach();
this.iterator();
this.includes();
this.indexOf();
this.join();
this.keys();
this.map();
this.reduce();
this.reduceRight();
this.reverse();
this.slice();
this.sort();
this.subarray();
this.values();
this.arrayBufferSlice();
}
testfloat64() {
let float32 = new Float64Array(2);
float32[0] = 42;
expect(float32[0]).toEqual(42);
expect(float32.length).toEqual(2);
expect(Float64Array.BYTES_PER_ELEMENT).toEqual(8);
let x = new Float64Array([21, 31, 3]);
expect(x[1]).toEqual(31);
let y = new Float64Array(x);
expect(y[0]).toEqual(21);
let buffer = new ArrayBuffer(16);
let z = new Float64Array(buffer, 2, 4);
expect(z.byteOffset).toEqual(2);
expect(z.length).toEqual(4);
}
testConstructor() {
let buffer = new ArrayBuffer(16);
let float32 = new Float64Array(buffer);
float32[1] = 42;
expect(float32.toString()).toEqual("0,42");
}
testSet() {
let float32 = new Float64Array(8);
var array = [1, 2, 3]
float32.set(array, 1);
expect(float32.toString()).toEqual("0,1,2,3,0,0,0,0");
}
testCopyWith() {
let float32 = new Float64Array(8);
float32.set([1, 2, 3], 1);
float32.copyWithin(3, 0, 3);
expect(float32.toString()).toEqual("0,1,2,0,1,2,0,0");
}
testEvery() {
// const isBelowThreshold = (currentValue: number, index: number, array:Float64Array): boolean => currentValue < 40;
let result = new Float64Array([-10, -20, -30, -40, -50]).every((value: number, index: number, array:
Float64Array): boolean => value < 0); //
expect(result).toEqual(true);
}
testFill() {
let float32 = new Float64Array([1, 2, 3]).fill(4);
expect(float32.toString()).toEqual("4,4,4");
float32 = new Float64Array([1, 2, 3]).fill(4, 1);
expect(float32.toString()).toEqual("1,4,4");
float32 = new Float64Array([1, 2, 3]).fill(4, 1, 2);
expect(float32.toString()).toEqual("1,4,3");
float32 = new Float64Array([1, 2, 3]).fill(4, 1, 1);
expect(float32.toString()).toEqual("1,2,3");
float32 = new Float64Array([1, 2, 3]).fill(4, -3, -2);
expect(float32.toString()).toEqual("4,2,3");
}
testFilter() {
// const isBelowThreshold = (currentValue: number, index: number, _): boolean => currentValue >= 10;
let float32 = new Float64Array([12, 5, 8, 44]).filter((value: number, index: number, array: Float64Array):
boolean => value >= 10);
expect(float32.toString()).toEqual("12,44");
}
find() {
let float32 = new Float64Array([4, 5, 8, 12]);
let res = float32.find((value: number, index: number, obj: Float64Array): boolean => value > 5);
expect(res).toEqual(8);
}
findIndex() {
let float32 = new Float64Array([4, 6, 8, 12]);
let res = float32.findIndex((value: number, index: number, obj: Float64Array): boolean => value > 100);
expect(res).toEqual(-1);
let ufloat32 = new Float64Array([4, 6, 7, 120]);
res = ufloat32.findIndex((value: number, index: number, obj: Float64Array): boolean => value > 100);
expect(res).toEqual(3);
}
foreach() {
new Float64Array([0, 1, 2, 3]).forEach((value: number, index: number, array: Float64Array) => {
console.log(`a[${index}] = ${value}`);
});
}
iterator() {
let arr = new Float64Array([10, 20, 30, 40, 50]);
let entries = arr.entries();
expect(entries.next().value[1]).toEqual(10);
expect(entries.next().value[1]).toEqual(20);
}
includes() {
let float32 = new Float64Array([1, 2, 3]);
let res = float32.includes(2);
expect(res).toEqual(true);
res = float32.includes(4);
expect(res).toEqual(false);
res = float32.includes(3, 3);
expect(res).toEqual(false);
}
indexOf() {
let float32 = new Float64Array([2, 5, 9]);
let res = float32.indexOf(2);
expect(res).toEqual(0);
res = float32.indexOf(7);
expect(res).toEqual(-1);
res = float32.indexOf(9, 2);
expect(res).toEqual(2);
res = float32.indexOf(2, -1);
expect(res).toEqual(-1);
res = float32.indexOf(2, -3);
expect(res).toEqual(0);
}
join() {
let float32 = new Float64Array([1, 2, 3]);
let res = float32.join();
expect(res).toEqual("1,2,3");
res = float32.join(" / ");
expect(res).toEqual("1 / 2 / 3");
res = float32.join("");
expect(res).toEqual("123");
}
keys() {
//todo 有差异 js 是keys.next().value
let arr = new Float64Array([10, 20, 30, 40, 50]);
let keys = arr.keys();
expect(keys.next().value).toEqual(0);
expect(keys.next().value).toEqual(1);
expect(keys.next().value).toEqual(2);
expect(keys.next().value).toEqual(3);
expect(keys.next().value).toEqual(4);
}
map() {
let numbers = new Float64Array([1, 4, 9]);
let doubles = numbers.map((value: number, index: number, array: Float64Array): number => value * 2);
expect(numbers.toString()).toEqual("1,4,9");
expect(doubles.toString()).toEqual("2,8,18");
}
reduce() {
let total = new Float64Array([0, 1, 2, 3]);
let res = total.reduce((accumulator: number, currentValue: number, currentIndex: number, array: Float64Array):
number => accumulator + currentValue);
expect(res).toEqual(6.0);
total = new Float64Array([0, 1, 2, 3]);
res = total.reduce((accumulator: number, currentValue: number, currentIndex: number, array: Float64Array):
number => accumulator + currentValue, 8);
expect(res).toEqual(14.0);
}
reduceRight() {
let total = new Float64Array([0, 1, 2, 3]);
let res = total.reduceRight((accumulator: number, currentValue: number, currentIndex: number, array:
Float64Array): number => accumulator + currentValue);
expect(res).toEqual(6.0);
total = new Float64Array([0, 1, 2, 3]);
res = total.reduceRight((accumulator: number, currentValue: number, currentIndex: number, array: Float64Array):
number => accumulator + currentValue, 8);
expect(res).toEqual(14.0);
}
reverse() {
let float32 = new Float64Array([1, 2, 3]);
float32.reverse();
expect(float32.toString()).toEqual("3,2,1");
}
slice() {
let float32 = new Float64Array([1, 2, 3]);
let res = float32.slice(1);
expect(res.toString()).toEqual("2,3");
res = float32.slice(2);
expect(res.toString()).toEqual("3");
res = float32.slice(-2);
expect(res.toString()).toEqual("2,3");
res = float32.slice(0, 1);
expect(res.toString()).toEqual("1");
}
sort() {
let numbers = new Float64Array([40, 1, 5]);
numbers.sort();
expect(numbers.toString()).toEqual("1,5,40");
numbers.sort((a, b): Number => a - b);
expect(numbers.toString()).toEqual("1,5,40");
}
subarray() {
let buffer = new ArrayBuffer(32);
let float32 = new Float64Array(buffer);
float32.set([1, 2, 3]);
expect(float32.toString()).toEqual("1,2,3,0");
let sub = float32.subarray(0, 4);
expect(sub.toString()).toEqual("1,2,3,0");
}
values() {
let arr = new Float64Array([1, 2, 3]);
let values = arr.values();
expect(values.next().value).toEqual(1);
expect(values.next().value).toEqual(2);
expect(values.next().value).toEqual(3);
}
arrayBufferSlice() {
let buffer = new ArrayBuffer(16);
let float32 = new Float64Array(buffer);
float32[1] = 42;
expect(float32.toString()).toEqual("0,42");
let res = buffer.slice(8);
let sliced = new Float64Array(res);
expect(sliced[0]).toEqual(42);
}
}
\ No newline at end of file
import {
describe,
test,
expect,
Result
} from './tests.uts'
export class TInt16Array {
test() {
this.testConstructor();
this.testSet();
this.testCopyWith();
this.testEvery();
this.testFill();
this.testFilter();
this.find();
this.findIndex();
this.foreach();
this.iterator();
this.includes();
this.indexOf();
this.join();
this.keys();
this.map();
this.reduce();
this.reduceRight();
this.reverse();
this.slice();
this.sort();
this.subarray();
this.values();
this.arrayBufferSlice();
}
testConstructor() {
let buffer = new ArrayBuffer(16);
let float32 = new Int16Array(buffer);
float32[5] = 42;
expect(float32.toString()).toEqual("0,0,0,0,0,42,0,0");
}
testSet() {
let float32 = new Int16Array(8);
var array =[1, 2, 3]
float32.set(array, 1);
expect(float32.toString()).toEqual("0,1,2,3,0,0,0,0");
}
testCopyWith() {
console.log("testCopyWith 1")
let float32 = new Int16Array(8);
float32.set([1, 2, 3], 1);
console.log("testCopyWith 1")
float32.copyWithin(3, 0, 3);
console.log("testCopyWith 1")
expect(float32.toString()).toEqual("0,1,2,0,1,2,0,0");
}
testEvery() {
// const isBelowThreshold = (currentValue: number, index: number, array:Int16Array): boolean => currentValue < 40;
let result = new Int16Array([12, 5, 8, 130, 44]).every((value:number,index : number, array : Int16Array): boolean => value< 40); //
expect(result).toEqual(false);
}
testFill() {
let float32 = new Int16Array([1, 2, 3]).fill(4);
expect(float32.toString()).toEqual("4,4,4");
float32 = new Int16Array([1, 2, 3]).fill(4, 1);
expect(float32.toString()).toEqual("1,4,4");
float32 = new Int16Array([1, 2, 3]).fill(4, 1, 2);
expect(float32.toString()).toEqual("1,4,3");
float32 = new Int16Array([1, 2, 3]).fill(4, 1, 1);
expect(float32.toString()).toEqual("1,2,3");
float32 = new Int16Array([1, 2, 3]).fill(4, -3, -2);
expect(float32.toString()).toEqual("4,2,3");
}
testFilter() {
// const isBelowThreshold = (currentValue: number, index: number, _): boolean => currentValue >= 10;
let float32 = new Int16Array([12, 5, 8, 44]).filter((value : number, index : number, array : Int16Array): boolean => value>= 10);
expect(float32.toString()).toEqual("12,44");
}
find() {
let float32 = new Int16Array([4, 5, 8, 12]);
let res = float32.find((value : number, index : number, obj : Int16Array): boolean => value > 5);
expect(res).toEqual(8);
}
findIndex() {
let float32 = new Int16Array([4, 6, 8, 12]);
let res = float32.findIndex((value : number, index : number, obj : Int16Array): boolean => value > 100);
expect(res).toEqual(-1);
let ufloat32 = new Int16Array([4, 6, 7, 120]);
res = ufloat32.findIndex((value : number, index : number, obj : Int16Array): boolean => value > 100);
expect(res).toEqual(3);
}
foreach() {
new Int16Array([0, 1, 2, 3]).forEach((value : number, index : number, array : Int16Array) => {
console.log(`a[${index}] = ${value}`);
});
}
iterator() {
let arr = new Int16Array([10, 20, 30, 40, 50]);
let entries = arr.entries();
expect(entries.next().value[1]).toEqual(10);
}
includes() {
let float32 = new Int16Array([1, 2, 3]);
let res = float32.includes(2);
expect(res).toEqual(true);
res = float32.includes(4);
expect(res).toEqual(false);
res = float32.includes(3, 3);
expect(res).toEqual(false);
}
indexOf() {
let float32 = new Int16Array([2, 5, 9]);
let res = float32.indexOf(2);
expect(res).toEqual(0);
res = float32.indexOf(7);
expect(res).toEqual(-1);
res = float32.indexOf(9, 2);
expect(res).toEqual(2);
res = float32.indexOf(2, -1);
expect(res).toEqual(-1);
res = float32.indexOf(2, -3);
expect(res).toEqual(0);
}
join() {
let float32 = new Int16Array([1, 2, 3]);
let res = float32.join();
expect(res).toEqual("1,2,3");
res = float32.join(" / ");
expect(res).toEqual("1 / 2 / 3");
res = float32.join("");
expect(res).toEqual("123");
}
keys() {
let arr = new Int16Array([10, 20, 30, 40, 50]);
let keys = arr.keys();
expect(keys.next().value).toEqual(0);
expect(keys.next().value).toEqual(1);
expect(keys.next().value).toEqual(2);
expect(keys.next().value).toEqual(3);
expect(keys.next().value).toEqual(4);
}
map() {
let numbers = new Int16Array([1, 4, 9]);
let doubles = numbers.map((value : number, index : number, array : Int16Array): number => value * 2);
expect(numbers.toString()).toEqual("1,4,9");
expect(doubles.toString()).toEqual("2,8,18");
}
reduce() {
let total = new Int16Array([0, 1, 2, 3]);
let res = total.reduce((accumulator : number, currentValue : number, currentIndex : number, array : Int16Array): number => accumulator + currentValue);
expect(res).toEqual(6.0);
total = new Int16Array([0, 1, 2, 3]);
res = total.reduce((accumulator : number, currentValue : number, currentIndex : number, array : Int16Array): number => accumulator + currentValue, 8);
expect(res).toEqual(14.0);
}
reduceRight() {
let total = new Int16Array([0, 1, 2, 3]);
let res = total.reduceRight((accumulator: number, currentValue : number, currentIndex : number, array : Int16Array): number => accumulator + currentValue);
expect(res).toEqual(6.0);
total = new Int16Array([0, 1, 2, 3]);
res = total.reduceRight((accumulator: number, currentValue : number, currentIndex : number, array : Int16Array): number => accumulator + currentValue, 8);
expect(res).toEqual(14.0);
}
reverse() {
let float32 = new Int16Array([1, 2, 3]);
float32.reverse();
expect(float32.toString()).toEqual("3,2,1");
}
slice() {
let float32 = new Int16Array([1, 2, 3]);
let res = float32.slice(1);
expect(res.toString()).toEqual("2,3");
res = float32.slice(2);
expect(res.toString()).toEqual("3");
res = float32.slice(-2);
expect(res.toString()).toEqual("2,3");
res = float32.slice(0, 1);
expect(res.toString()).toEqual("1");
}
sort() {
let numbers = new Int16Array([40, 1, 5]);
numbers.sort();
expect(numbers.toString()).toEqual("1,5,40");
numbers.sort((a, b):Number => a - b);
expect(numbers.toString()).toEqual("1,5,40");
}
subarray() {
let buffer = new ArrayBuffer(16);
let float32 = new Int16Array(buffer);
float32.set([1, 2, 3]);
expect(float32.toString()).toEqual("1,2,3,0,0,0,0,0");
let sub = float32.subarray(0, 4);
expect(sub.toString()).toEqual("1,2,3,0");
}
values() {
let arr = new Int16Array([1, 2, 3]);
let values = arr.values();
expect(values.next().value).toEqual(1);
}
arrayBufferSlice() {
let buffer = new ArrayBuffer(16);
let float32 = new Int16Array(buffer);
float32[4] = 42;
expect(float32.toString()).toEqual("0,0,0,0,42,0,0,0");
let res = buffer.slice(8,12);
let sliced = new Int16Array(res);
expect(sliced[0]).toEqual(42);
}
}
import {
describe,
test,
expect,
Result
} from './tests.uts'
export class TInt32Array {
test() {
this.testfloat32();
this.testConstructor();
this.testSet();
this.testCopyWith();
this.testEvery();
this.testFill();
this.testFilter();
this.find();
this.findIndex();
this.foreach();
this.iterator();
this.includes();
this.indexOf();
this.join();
this.keys();
this.map();
this.reduce();
this.reduceRight();
this.reverse();
this.slice();
this.sort();
this.subarray();
this.values();
this.arrayBufferSlice();
}
testfloat32() {
let float32 = new Int32Array(2);
float32[0] = 42;
expect(float32[0]).toEqual(42);
expect(float32.length).toEqual(2);
expect(Int32Array.BYTES_PER_ELEMENT).toEqual(4);
let x = new Int32Array([21, 31, 3]);
expect(x[1]).toEqual(31);
let y = new Int32Array(x);
expect(y[0]).toEqual(21);
let buffer = new ArrayBuffer(16);
let z = new Int32Array(buffer, 2, 4);
expect(z.byteOffset).toEqual(2);
expect(z.length).toEqual(4);
}
testConstructor() {
let buffer = new ArrayBuffer(16);
let float32 = new Int32Array(buffer);
float32[1] = 42;
expect(float32.toString()).toEqual("0,42,0,0");
}
testSet() {
let float32 = new Int32Array(8);
var array =[1, 2, 3]
float32.set(array, 1);
expect(float32.toString()).toEqual("0,1,2,3,0,0,0,0");
}
testCopyWith() {
console.log("testCopyWith 1")
let float32 = new Int32Array(8);
float32.set([1, 2, 3], 1);
console.log("testCopyWith 1")
float32.copyWithin(3, 0, 3);
console.log("testCopyWith 1")
expect(float32.toString()).toEqual("0,1,2,0,1,2,0,0");
}
testEvery() {
// const isBelowThreshold = (currentValue: number, index: number, array:Int32Array): boolean => currentValue < 40;
let result = new Int32Array([12, 5, 8, 130, 44]).every((value:number,index : number, array : Int32Array): boolean => value< 40); //
expect(result).toEqual(false);
}
testFill() {
let float32 = new Int32Array([1, 2, 3]).fill(4);
expect(float32.toString()).toEqual("4,4,4");
float32 = new Int32Array([1, 2, 3]).fill(4, 1);
expect(float32.toString()).toEqual("1,4,4");
float32 = new Int32Array([1, 2, 3]).fill(4, 1, 2);
expect(float32.toString()).toEqual("1,4,3");
float32 = new Int32Array([1, 2, 3]).fill(4, 1, 1);
expect(float32.toString()).toEqual("1,2,3");
float32 = new Int32Array([1, 2, 3]).fill(4, -3, -2);
expect(float32.toString()).toEqual("4,2,3");
}
testFilter() {
// const isBelowThreshold = (currentValue: number, index: number, _): boolean => currentValue >= 10;
let float32 = new Int32Array([12, 5, 8, 44]).filter((value : number, index : number, array : Int32Array): boolean => value>= 10);
expect(float32.toString()).toEqual("12,44");
}
find() {
let float32 = new Int32Array([4, 5, 8, 12]);
let res = float32.find((value : number, index : number, obj : Int32Array): boolean => value > 5);
expect(res).toEqual(8);
}
findIndex() {
let float32 = new Int32Array([4, 6, 8, 12]);
let res = float32.findIndex((value : number, index : number, obj : Int32Array): boolean => value > 100);
expect(res).toEqual(-1);
let ufloat32 = new Int32Array([4, 6, 7, 120]);
res = ufloat32.findIndex((value : number, index : number, obj : Int32Array): boolean => value > 100);
expect(res).toEqual(3);
}
foreach() {
new Int32Array([0, 1, 2, 3]).forEach((value : number, index : number, array : Int32Array) => {
console.log(`a[${index}] = ${value}`);
});
}
iterator() {
let arr = new Int32Array([10, 20, 30, 40, 50]);
let entries = arr.entries();
expect(entries.next().value[1]).toEqual(10);
}
includes() {
let float32 = new Int32Array([1, 2, 3]);
let res = float32.includes(2);
expect(res).toEqual(true);
res = float32.includes(4);
expect(res).toEqual(false);
res = float32.includes(3, 3);
expect(res).toEqual(false);
}
indexOf() {
let float32 = new Int32Array([2, 5, 9]);
let res = float32.indexOf(2);
expect(res).toEqual(0);
res = float32.indexOf(7);
expect(res).toEqual(-1);
res = float32.indexOf(9, 2);
expect(res).toEqual(2);
res = float32.indexOf(2, -1);
expect(res).toEqual(-1);
res = float32.indexOf(2, -3);
expect(res).toEqual(0);
}
join() {
let float32 = new Int32Array([1, 2, 3]);
let res = float32.join();
expect(res).toEqual("1,2,3");
res = float32.join(" / ");
expect(res).toEqual("1 / 2 / 3");
res = float32.join("");
expect(res).toEqual("123");
}
keys() {
let arr = new Int32Array([10, 20, 30, 40, 50]);
let keys = arr.keys();
expect(keys.next().value).toEqual(0);
}
map() {
let numbers = new Int32Array([1, 4, 9]);
let doubles = numbers.map((value : number, index : number, array : Int32Array): number => value * 2);
expect(numbers.toString()).toEqual("1,4,9");
expect(doubles.toString()).toEqual("2,8,18");
}
reduce() {
let total = new Int32Array([0, 1, 2, 3]);
let res = total.reduce((accumulator : number, currentValue : number, currentIndex : number, array : Int32Array): number => accumulator + currentValue);
expect(res).toEqual(6);
total = new Int32Array([0, 1, 2, 3]);
res = total.reduce((accumulator : number, currentValue : number, currentIndex : number, array : Int32Array): number => accumulator + currentValue, 8);
expect(res).toEqual(14);
}
reduceRight() {
let total = new Int32Array([0, 1, 2, 3]);
let res = total.reduceRight((accumulator: number, currentValue : number, currentIndex : number, array : Int32Array): number => accumulator + currentValue);
expect(res).toEqual(6);
total = new Int32Array([0, 1, 2, 3]);
res = total.reduceRight((accumulator: number, currentValue : number, currentIndex : number, array : Int32Array): number => accumulator + currentValue, 8);
expect(res).toEqual(14);
}
reverse() {
let float32 = new Int32Array([1, 2, 3]);
float32.reverse();
expect(float32.toString()).toEqual("3,2,1");
}
slice() {
let float32 = new Int32Array([1, 2, 3]);
let res = float32.slice(1);
expect(res.toString()).toEqual("2,3");
res = float32.slice(2);
expect(res.toString()).toEqual("3");
res = float32.slice(-2);
expect(res.toString()).toEqual("2,3");
res = float32.slice(0, 1);
expect(res.toString()).toEqual("1");
}
sort() {
let numbers = new Int32Array([40, 1, 5]);
numbers.sort();
expect(numbers.toString()).toEqual("1,5,40");
numbers.sort((a, b):Number => a - b);
expect(numbers.toString()).toEqual("1,5,40");
}
subarray() {
let buffer = new ArrayBuffer(16);
let float32 = new Int32Array(buffer);
float32.set([1, 2, 3]);
expect(float32.toString()).toEqual("1,2,3,0");
let sub = float32.subarray(0, 4);
expect(sub.toString()).toEqual("1,2,3,0");
}
values() {
let arr = new Int32Array([1, 2, 3]);
let values = arr.values();
expect(values.next().value).toEqual(1);
}
arrayBufferSlice() {
let buffer = new ArrayBuffer(16);
let float32 = new Int32Array(buffer);
float32[3] = 42;
expect(float32.toString()).toEqual("0,0,0,42");
let res = buffer.slice(8);
let sliced = new Int32Array(res);
expect(sliced[1]).toEqual(42);
}
}
import {
describe,
test,
expect,
Result
} from './tests.uts'
export class TInt8Array {
test() {
this.testConstructor();
this.testSet();
this.testCopyWith();
this.testEvery();
this.testFill();
this.testFilter();
this.find();
this.findIndex();
this.foreach();
this.iterator();
this.includes();
this.indexOf();
this.join();
this.keys();
this.map();
this.reduce();
this.reduceRight();
this.reverse();
this.slice();
this.sort();
this.subarray();
this.values();
this.arrayBufferSlice();
}
testConstructor() {
let buffer = new ArrayBuffer(16);
let int8View = new Int8Array(buffer);
int8View[5] = 42;
expect(int8View.toString()).toEqual("0,0,0,0,0,42,0,0,0,0,0,0,0,0,0,0");
}
testSet() {
let float32 = new Int8Array(8);
var array = [1, 2, 3]
float32.set(array, 1);
expect(float32.toString()).toEqual("0,1,2,3,0,0,0,0");
}
testCopyWith() {
console.log("testCopyWith 1")
let float32 = new Int8Array(8);
float32.set([1, 2, 3], 1);
console.log("testCopyWith 1")
float32.copyWithin(3, 0, 3);
console.log("testCopyWith 1")
expect(float32.toString()).toEqual("0,1,2,0,1,2,0,0");
}
testEvery() {
// const isBelowThreshold = (currentValue: number, index: number, array:Int8Array): boolean => currentValue < 40;
let result = new Int8Array([12, 5, 8, 130, 44]).every((value: number, index: number, array: Int8Array): boolean =>
value < 40); //
expect(result).toEqual(false);
}
testFill() {
let float32 = new Int8Array([1, 2, 3]).fill(4);
expect(float32.toString()).toEqual("4,4,4");
float32 = new Int8Array([1, 2, 3]).fill(4, 1);
expect(float32.toString()).toEqual("1,4,4");
float32 = new Int8Array([1, 2, 3]).fill(4, 1, 2);
expect(float32.toString()).toEqual("1,4,3");
float32 = new Int8Array([1, 2, 3]).fill(4, 1, 1);
expect(float32.toString()).toEqual("1,2,3");
float32 = new Int8Array([1, 2, 3]).fill(4, -3, -2);
expect(float32.toString()).toEqual("4,2,3");
}
testFilter() {
// const isBelowThreshold = (currentValue: number, index: number, _): boolean => currentValue >= 10;
let float32 = new Int8Array([12, 5, 8, 44]).filter((value: number, index: number, array: Int8Array): boolean =>
value >= 10);
expect(float32.toString()).toEqual("12,44");
}
find() {
let float32 = new Int8Array([4, 5, 8, 12]);
let res = float32.find((value: number, index: number, obj: Int8Array): boolean => value > 5);
expect(res).toEqual(8);
}
findIndex() {
let float32 = new Int8Array([4, 6, 8, 12]);
let res = float32.findIndex((value: number, index: number, obj: Int8Array): boolean => value > 100);
expect(res).toEqual(-1);
let ufloat32 = new Int8Array([4, 6, 7, 120]);
res = ufloat32.findIndex((value: number, index: number, obj: Int8Array): boolean => value > 100);
expect(res).toEqual(3);
}
foreach() {
new Int8Array([0, 1, 2, 3]).forEach((value: number, index: number, array: Int8Array) => {
console.log(`a[${index}] = ${value}`);
});
}
iterator() {
let arr = new Int8Array([10, 20, 30, 40, 50]);
let entries = arr.entries();
expect(entries.next().value[1]).toEqual(10);
expect(entries.next().value[1]).toEqual(20);
}
includes() {
let float32 = new Int8Array([1, 2, 3]);
let res = float32.includes(2);
expect(res).toEqual(true);
res = float32.includes(4);
expect(res).toEqual(false);
res = float32.includes(3, 3);
expect(res).toEqual(false);
}
indexOf() {
let float32 = new Int8Array([2, 5, 9]);
let res = float32.indexOf(2);
expect(res).toEqual(0);
res = float32.indexOf(7);
expect(res).toEqual(-1);
res = float32.indexOf(9, 2);
expect(res).toEqual(2);
res = float32.indexOf(2, -1);
expect(res).toEqual(-1);
res = float32.indexOf(2, -3);
expect(res).toEqual(0);
}
join() {
let float32 = new Int8Array([1, 2, 3]);
let res = float32.join();
expect(res).toEqual("1,2,3");
res = float32.join(" / ");
expect(res).toEqual("1 / 2 / 3");
res = float32.join("");
expect(res).toEqual("123");
}
keys() {
let arr = new Int8Array([10, 20, 30, 40, 50]);
let keys = arr.keys();
expect(keys.next().value).toEqual(0);
expect(keys.next().value).toEqual(1);
expect(keys.next().value).toEqual(2);
expect(keys.next().value).toEqual(3);
expect(keys.next().value).toEqual(4);
}
map() {
let numbers = new Int8Array([1, 4, 9]);
let doubles = numbers.map((value: number, index: number, array: Int8Array): number => value * 2);
expect(numbers.toString()).toEqual("1,4,9");
expect(doubles.toString()).toEqual("2,8,18");
}
reduce() {
let total = new Int8Array([0, 1, 2, 3]);
let res = total.reduce((accumulator: number, currentValue: number, currentIndex: number, array: Int8Array):
number => accumulator + currentValue);
expect(res).toEqual(6.0);
total = new Int8Array([0, 1, 2, 3]);
res = total.reduce((accumulator: number, currentValue: number, currentIndex: number, array: Int8Array): number =>
accumulator + currentValue, 8);
expect(res).toEqual(14.0);
}
reduceRight() {
let total = new Int8Array([0, 1, 2, 3]);
let res = total.reduceRight((accumulator: number, currentValue: number, currentIndex: number, array: Int8Array):
number => accumulator + currentValue);
expect(res).toEqual(6.0);
total = new Int8Array([0, 1, 2, 3]);
res = total.reduceRight((accumulator: number, currentValue: number, currentIndex: number, array: Int8Array):
number => accumulator + currentValue, 8);
expect(res).toEqual(14.0);
}
reverse() {
let float32 = new Int8Array([1, 2, 3]);
float32.reverse();
expect(float32.toString()).toEqual("3,2,1");
}
slice() {
let float32 = new Int8Array([1, 2, 3]);
let res = float32.slice(1);
expect(res.toString()).toEqual("2,3");
res = float32.slice(2);
expect(res.toString()).toEqual("3");
res = float32.slice(-2);
expect(res.toString()).toEqual("2,3");
res = float32.slice(0, 1);
expect(res.toString()).toEqual("1");
}
sort() {
let numbers = new Int8Array([40, 1, 5]);
numbers.sort();
expect(numbers.toString()).toEqual("1,5,40");
numbers.sort((a, b): Number => a - b);
expect(numbers.toString()).toEqual("1,5,40");
}
subarray() {
let buffer = new ArrayBuffer(8);
let float32 = new Int8Array(buffer);
float32.set([1, 2, 3]);
expect(float32.toString()).toEqual("1,2,3,0,0,0,0,0");
let sub = float32.subarray(0, 4);
expect(sub.toString()).toEqual("1,2,3,0");
}
values() {
let arr = new Int8Array([1, 2, 3]);
let values = arr.values();
expect(values.next().value).toEqual(1);
expect(values.next().value).toEqual(2);
expect(values.next().value).toEqual(3);
}
arrayBufferSlice() {
let buffer = new ArrayBuffer(16);
let float32 = new Int8Array(buffer);
float32[4] = 42;
expect(float32.toString()).toEqual("0,0,0,0,42,0,0,0,0,0,0,0,0,0,0,0");
let res = buffer.slice(4, 12);
let sliced = new Int8Array(res);
expect(sliced[0]).toEqual(42);
}
}
\ No newline at end of file
import {
describe,
test,
expect,
Result
} from './tests.uts'
export class TUint8Array {
test() {
this.testMAX();
this.testConstructor();
this.testSet();
this.testCopyWith();
this.testEvery();
this.testFill();
this.testFilter();
this.find();
this.findIndex();
this.foreach();
this.iterator();
this.includes();
this.indexOf();
this.join();
this.keys();
this.map();
this.reduce();
this.reduceRight();
this.reverse();
this.slice();
this.sort();
this.subarray();
this.values();
this.arrayBufferSlice();
}
testMAX() {
let float32 = new Uint8Array(16);
float32[0] = 255;
expect(float32[0]).toEqual(255);
}
testConstructor() {
let buffer = new ArrayBuffer(16);
let float32 = new Uint8Array(buffer);
float32[5] = 42;
expect(float32.toString()).toEqual("0,0,0,0,0,42,0,0,0,0,0,0,0,0,0,0");
}
testSet() {
let float32 = new Uint8Array(8);
var array =[1, 2, 3]
float32.set(array, 1);
expect(float32.toString()).toEqual("0,1,2,3,0,0,0,0");
}
testCopyWith() {
console.log("testCopyWith 1")
let float32 = new Uint8Array(8);
float32.set([1, 2, 3], 1);
float32.copyWithin(3, 0, 3);
expect(float32.toString()).toEqual("0,1,2,0,1,2,0,0");
}
testEvery() {
// const isBelowThreshold = (currentValue: number, index: number, array:Uint8Array): boolean => currentValue < 40;
let result = new Uint8Array([12, 5, 8, 130, 44]).every((value:number,index : number, array : Uint8Array): boolean => value< 40); //
expect(result).toEqual(false);
}
testFill() {
let float32 = new Uint8Array([1, 2, 3]).fill(4);
expect(float32.toString()).toEqual("4,4,4");
float32 = new Uint8Array([1, 2, 3]).fill(4, 1);
expect(float32.toString()).toEqual("1,4,4");
float32 = new Uint8Array([1, 2, 3]).fill(4, 1, 2);
expect(float32.toString()).toEqual("1,4,3");
float32 = new Uint8Array([1, 2, 3]).fill(4, 1, 1);
expect(float32.toString()).toEqual("1,2,3");
float32 = new Uint8Array([1, 2, 3]).fill(4, -3, -2);
expect(float32.toString()).toEqual("4,2,3");
}
testFilter() {
// const isBelowThreshold = (currentValue: number, index: number, _): boolean => currentValue >= 10;
let float32 = new Uint8Array([12, 5, 8, 44]).filter((value : number, index : number, array : Uint8Array): boolean => value>= 10);
expect(float32.toString()).toEqual("12,44");
}
find() {
let float32 = new Uint8Array([4, 5, 8, 12]);
let res = float32.find((value : number, index : number, obj : Uint8Array): boolean => value > 5);
expect(res).toEqual(8);
}
findIndex() {
let float32 = new Uint8Array([4, 6, 8, 12]);
let res = float32.findIndex((value : number, index : number, obj : Uint8Array): boolean => value > 100);
expect(res).toEqual(-1);
let ufloat32 = new Uint8Array([4, 6, 7, 120]);
res = ufloat32.findIndex((value : number, index : number, obj : Uint8Array): boolean => value > 100);
expect(res).toEqual(3);
}
foreach() {
new Uint8Array([0, 1, 2, 3]).forEach((value : number, index : number, array : Uint8Array) => {
console.log(`a[${index}] = ${value}`);
});
}
iterator() {
let arr = new Uint8Array([10, 20, 30, 40, 50]);
let entries = arr.entries();
expect(entries.next().value[1]).toEqual(10);
}
includes() {
let float32 = new Uint8Array([1, 2, 3]);
let res = float32.includes(2.0);
expect(res).toEqual(true);
res = float32.includes(4.0);
expect(res).toEqual(false);
res = float32.includes(3.0, 3);
expect(res).toEqual(false);
}
indexOf() {
let float32 = new Uint8Array([2, 5, 9]);
let res = float32.indexOf(2);
expect(res).toEqual(0);
res = float32.indexOf(7);
expect(res).toEqual(-1);
res = float32.indexOf(9, 2);
expect(res).toEqual(2);
res = float32.indexOf(2, -1);
expect(res).toEqual(-1);
res = float32.indexOf(2, -3);
expect(res).toEqual(0);
}
join() {
let float32 = new Uint8Array([1, 2, 3]);
let res = float32.join();
expect(res).toEqual("1,2,3");
res = float32.join(" / ");
expect(res).toEqual("1 / 2 / 3");
res = float32.join("");
expect(res).toEqual("123");
}
keys() {
let arr = new Uint8Array([10, 20, 30, 40, 50]);
let keys = arr.keys();
expect(keys.next().value).toEqual(0);
}
map() {
let numbers = new Uint8Array([1, 4, 9]);
let doubles = numbers.map((value : number, index : number, array : Uint8Array): number => value * 2);
expect(numbers.toString()).toEqual("1,4,9");
expect(doubles.toString()).toEqual("2,8,18");
}
reduce() {
let total = new Uint8Array([0, 1, 2, 3]);
let res = total.reduce((accumulator : number, currentValue : number, currentIndex : number, array : Uint8Array): number => accumulator + currentValue);
expect(res).toEqual(6.0);
total = new Uint8Array([0, 1, 2, 3]);
res = total.reduce((accumulator : number, currentValue : number, currentIndex : number, array : Uint8Array): number => accumulator + currentValue, 8);
expect(res).toEqual(14.0);
}
reduceRight() {
let total = new Uint8Array([0, 1, 2, 3]);
let res = total.reduceRight((accumulator: number, currentValue : number, currentIndex : number, array : Uint8Array): number => accumulator + currentValue);
expect(res).toEqual(6.0);
total = new Uint8Array([0, 1, 2, 3]);
res = total.reduceRight((accumulator: number, currentValue : number, currentIndex : number, array : Uint8Array): number => accumulator + currentValue, 8);
expect(res).toEqual(14.0);
}
reverse() {
let float32 = new Uint8Array([1, 2, 3]);
float32.reverse();
expect(float32.toString()).toEqual("3,2,1");
}
slice() {
let float32 = new Uint8Array([1, 2, 3]);
let res = float32.slice(1);
expect(res.toString()).toEqual("2,3");
res = float32.slice(2);
expect(res.toString()).toEqual("3");
res = float32.slice(-2);
expect(res.toString()).toEqual("2,3");
res = float32.slice(0, 1);
expect(res.toString()).toEqual("1");
}
sort() {
let numbers = new Uint8Array([40, 1, 5]);
numbers.sort();
expect(numbers.toString()).toEqual("1,5,40");
numbers.sort((a, b):Number => a - b);
expect(numbers.toString()).toEqual("1,5,40");
}
subarray() {
let buffer = new ArrayBuffer(16);
let float32 = new Uint8Array(buffer);
float32.set([1, 2, 3]);
expect(float32.toString()).toEqual("1,2,3,0,0,0,0,0,0,0,0,0,0,0,0,0");
let sub = float32.subarray(0, 4);
expect(sub.toString()).toEqual("1,2,3,0");
}
values() {
let arr = new Uint8Array([1, 2, 3]);
let values = arr.values();
expect(values.next().value).toEqual(1);
}
arrayBufferSlice() {
let buffer = new ArrayBuffer(16);
let float32 = new Uint8Array(buffer);
float32[4] = 42;
expect(float32.toString()).toEqual("0,0,0,0,42,0,0,0,0,0,0,0,0,0,0,0");
let res = buffer.slice(4, 12);
let sliced = new Uint8Array(res);
expect(sliced[0]).toEqual(42);
}
}
import {
describe,
test,
expect,
Result
} from './tests.uts'
export class TUint8ClampedArray {
test() {
this.testMAX();
this.testConstructor();
this.testSet();
this.testCopyWith();
this.testEvery();
this.testFill();
this.testFilter();
this.find();
this.findIndex();
this.foreach();
this.iterator();
this.includes();
this.indexOf();
this.join();
this.keys();
this.map();
this.reduce();
this.reduceRight();
this.reverse();
this.slice();
this.sort();
this.subarray();
this.values();
this.arrayBufferSlice();
}
testMAX() {
let float32 = new Uint8ClampedArray(16);
float32[0] = 255;
expect(float32[0]).toEqual(255);
}
testConstructor() {
let buffer = new ArrayBuffer(16);
let float32 = new Uint8ClampedArray(buffer);
float32[5] = 42;
expect(float32.toString()).toEqual("0,0,0,0,0,42,0,0,0,0,0,0,0,0,0,0");
}
testSet() {
let float32 = new Uint8ClampedArray(8);
var array = [1, 2, 3]
float32.set(array, 1);
expect(float32.toString()).toEqual("0,1,2,3,0,0,0,0");
}
testCopyWith() {
console.log("testCopyWith 1")
let float32 = new Uint8ClampedArray(8);
float32.set([1, 2, 3], 1);
float32.copyWithin(3, 0, 3);
expect(float32.toString()).toEqual("0,1,2,0,1,2,0,0");
}
testEvery() {
// const isBelowThreshold = (currentValue: number, index: number, array:Uint8ClampedArray): boolean => currentValue < 40;
let result = new Uint8ClampedArray([12, 5, 8, 130, 44]).every((value: number, index: number, array:
Uint8ClampedArray): boolean => value < 40); //
expect(result).toEqual(false);
}
testFill() {
let float32 = new Uint8ClampedArray([1, 2, 3]).fill(4);
expect(float32.toString()).toEqual("4,4,4");
float32 = new Uint8ClampedArray([1, 2, 3]).fill(4, 1);
expect(float32.toString()).toEqual("1,4,4");
float32 = new Uint8ClampedArray([1, 2, 3]).fill(4, 1, 2);
expect(float32.toString()).toEqual("1,4,3");
float32 = new Uint8ClampedArray([1, 2, 3]).fill(4, 1, 1);
expect(float32.toString()).toEqual("1,2,3");
float32 = new Uint8ClampedArray([1, 2, 3]).fill(4, -3, -2);
expect(float32.toString()).toEqual("4,2,3");
}
testFilter() {
// const isBelowThreshold = (currentValue: number, index: number, _): boolean => currentValue >= 10;
let float32 = new Uint8ClampedArray([12, 5, 8, 44]).filter((value: number, index: number, array:
Uint8ClampedArray): boolean => value >= 10);
expect(float32.toString()).toEqual("12,44");
}
find() {
let float32 = new Uint8ClampedArray([4, 5, 8, 12]);
let res = float32.find((value: number, index: number, obj: Uint8ClampedArray): boolean => value > 5);
expect(res).toEqual(8);
}
findIndex() {
let float32 = new Uint8ClampedArray([4, 6, 8, 12]);
let res = float32.findIndex((value: number, index: number, obj: Uint8ClampedArray): boolean => value > 100);
expect(res).toEqual(-1);
let ufloat32 = new Uint8ClampedArray([4, 6, 7, 120]);
res = ufloat32.findIndex((value: number, index: number, obj: Uint8ClampedArray): boolean => value > 100);
expect(res).toEqual(3);
}
foreach() {
new Uint8ClampedArray([0, 1, 2, 3]).forEach((value: number, index: number, array: Uint8ClampedArray) => {
console.log(`a[${index}] = ${value}`);
});
}
iterator() {
let arr = new Uint8ClampedArray([10, 20, 30, 40, 50]);
let entries = arr.entries();
expect(entries.next().value[1]).toEqual(10);
}
includes() {
let float32 = new Uint8ClampedArray([1, 2, 3]);
let res = float32.includes(2.0);
expect(res).toEqual(true);
res = float32.includes(4.0);
expect(res).toEqual(false);
res = float32.includes(3.0, 3);
expect(res).toEqual(false);
}
indexOf() {
let float32 = new Uint8ClampedArray([2, 5, 9]);
let res = float32.indexOf(2);
expect(res).toEqual(0);
res = float32.indexOf(7);
expect(res).toEqual(-1);
res = float32.indexOf(9, 2);
expect(res).toEqual(2);
res = float32.indexOf(2, -1);
expect(res).toEqual(-1);
res = float32.indexOf(2, -3);
expect(res).toEqual(0);
}
join() {
let float32 = new Uint8ClampedArray([1, 2, 3]);
let res = float32.join();
expect(res).toEqual("1,2,3");
res = float32.join(" / ");
expect(res).toEqual("1 / 2 / 3");
res = float32.join("");
expect(res).toEqual("123");
}
keys() {
let arr = new Uint8ClampedArray([10, 20, 30, 40, 50]);
let keys = arr.keys();
expect(keys.next().value).toEqual(0);
}
map() {
let numbers = new Uint8ClampedArray([1, 4, 9]);
let doubles = numbers.map((value: number, index: number, array: Uint8ClampedArray): number => value * 2);
expect(numbers.toString()).toEqual("1,4,9");
expect(doubles.toString()).toEqual("2,8,18");
}
reduce() {
let total = new Uint8ClampedArray([0, 1, 2, 3]);
let res = total.reduce((accumulator: number, currentValue: number, currentIndex: number, array:
Uint8ClampedArray): number => accumulator + currentValue);
expect(res).toEqual(6.0);
total = new Uint8ClampedArray([0, 1, 2, 3]);
res = total.reduce((accumulator: number, currentValue: number, currentIndex: number, array: Uint8ClampedArray):
number => accumulator + currentValue, 8);
expect(res).toEqual(14.0);
}
reduceRight() {
let total = new Uint8ClampedArray([0, 1, 2, 3]);
let res = total.reduceRight((accumulator: number, currentValue: number, currentIndex: number, array:
Uint8ClampedArray): number => accumulator + currentValue);
expect(res).toEqual(6.0);
total = new Uint8ClampedArray([0, 1, 2, 3]);
res = total.reduceRight((accumulator: number, currentValue: number, currentIndex: number, array:
Uint8ClampedArray): number => accumulator + currentValue, 8);
expect(res).toEqual(14.0);
}
reverse() {
let float32 = new Uint8ClampedArray([1, 2, 3]);
float32.reverse();
expect(float32.toString()).toEqual("3,2,1");
}
slice() {
let float32 = new Uint8ClampedArray([1, 2, 3]);
let res = float32.slice(1);
expect(res.toString()).toEqual("2,3");
res = float32.slice(2);
expect(res.toString()).toEqual("3");
res = float32.slice(-2);
expect(res.toString()).toEqual("2,3");
res = float32.slice(0, 1);
expect(res.toString()).toEqual("1");
}
sort() {
let numbers = new Uint8ClampedArray([40, 1, 5]);
numbers.sort();
expect(numbers.toString()).toEqual("1,5,40");
numbers.sort((a, b): Number => a - b);
expect(numbers.toString()).toEqual("1,5,40");
}
subarray() {
let buffer = new ArrayBuffer(16);
let float32 = new Uint8ClampedArray(buffer);
float32.set([1, 2, 3]);
expect(float32.toString()).toEqual("1,2,3,0,0,0,0,0,0,0,0,0,0,0,0,0");
let sub = float32.subarray(0, 4);
expect(sub.toString()).toEqual("1,2,3,0");
}
values() {
let arr = new Uint8ClampedArray([1, 2, 3]);
let values = arr.values();
expect(values.next().value).toEqual(1);
}
arrayBufferSlice() {
let buffer = new ArrayBuffer(16);
let float32 = new Uint8ClampedArray(buffer);
float32[4] = 42;
expect(float32.toString()).toEqual("0,0,0,0,42,0,0,0,0,0,0,0,0,0,0,0");
let res = buffer.slice(4, 12);
let sliced = new Uint8ClampedArray(res);
expect(sliced[0]).toEqual(42);
}
}
\ No newline at end of file
import {
describe,
test,
expect,
Result
} from './tests.uts'
export class TUint16Array {
test() {
this.testfloat32();
this.testConstructor();
this.testSet();
this.testCopyWith();
this.testEvery();
this.testFill();
this.testFilter();
this.find();
this.findIndex();
this.foreach();
this.iterator();
this.includes();
this.indexOf();
this.join();
this.keys();
this.map();
this.reduce();
this.reduceRight();
this.reverse();
this.slice();
this.sort();
this.subarray();
this.values();
this.arrayBufferSlice();
}
testfloat32() {
let float32 = new Uint16Array(2);
float32[0] = 42;
expect(float32[0]).toEqual(42);
expect(float32.length).toEqual(2);
expect(Uint16Array.BYTES_PER_ELEMENT).toEqual(4);
let x = new Uint16Array([21, 31, 3]);
expect(x[1]).toEqual(31);
let y = new Uint16Array(x);
expect(y[0]).toEqual(21);
let buffer = new ArrayBuffer(16);
let z = new Uint16Array(buffer, 2, 4);
expect(z.byteOffset).toEqual(2);
expect(z.length).toEqual(4);
}
testConstructor() {
let buffer = new ArrayBuffer(16);
let float32 = new Uint16Array(buffer);
float32[1] = 42;
expect(float32.toString()).toEqual("0,42,0,0,0,0,0,0");
}
testSet() {
let float32 = new Uint16Array(8);
var array = [1, 2, 3]
float32.set(array, 1);
expect(float32.toString()).toEqual("0,1,2,3,0,0,0,0");
}
testCopyWith() {
console.log("testCopyWith 1")
let float32 = new Uint16Array(8);
float32.set([1, 2, 3], 1);
console.log("testCopyWith 1")
float32.copyWithin(3, 0, 3);
console.log("testCopyWith 1")
expect(float32.toString()).toEqual("0,1,2,0,1,2,0,0");
}
testEvery() {
// const isBelowThreshold = (currentValue: number, index: number, array:Uint16Array): boolean => currentValue < 40;
let result = new Uint16Array([12, 5, 8, 130, 44]).every((value: number, index: number, array: Uint16Array):
boolean => value < 40); //
expect(result).toEqual(false);
}
testFill() {
let float32 = new Uint16Array([1, 2, 3]).fill(4);
expect(float32.toString()).toEqual("4,4,4");
float32 = new Uint16Array([1, 2, 3]).fill(4, 1);
expect(float32.toString()).toEqual("1,4,4");
float32 = new Uint16Array([1, 2, 3]).fill(4, 1, 2);
expect(float32.toString()).toEqual("1,4,3");
float32 = new Uint16Array([1, 2, 3]).fill(4, 1, 1);
expect(float32.toString()).toEqual("1,2,3");
float32 = new Uint16Array([1, 2, 3]).fill(4, -3, -2);
expect(float32.toString()).toEqual("4,2,3");
}
testFilter() {
// const isBelowThreshold = (currentValue: number, index: number, _): boolean => currentValue >= 10;
let float32 = new Uint16Array([12, 5, 8, 44]).filter((value: number, index: number, array: Uint16Array):
boolean => value >= 10);
expect(float32.toString()).toEqual("12,44");
}
find() {
let float32 = new Uint16Array([4, 5, 8, 12]);
let res = float32.find((value: number, index: number, obj: Uint16Array): boolean => value > 5);
expect(res).toEqual(8);
}
findIndex() {
let float32 = new Uint16Array([4, 6, 8, 12]);
let res = float32.findIndex((value: number, index: number, obj: Uint16Array): boolean => value > 100);
expect(res).toEqual(-1);
let ufloat32 = new Uint16Array([4, 6, 7, 120]);
res = ufloat32.findIndex((value: number, index: number, obj: Uint16Array): boolean => value > 100);
expect(res).toEqual(3);
}
foreach() {
new Uint16Array([0, 1, 2, 3]).forEach((value: number, index: number, array: Uint16Array) => {
console.log(`a[${index}] = ${value}`);
});
}
iterator() {
let arr = new Uint16Array([10, 20, 30, 40, 50]);
let entries = arr.entries();
expect(entries.next().value[1]).toEqual(10);
}
includes() {
let float32 = new Uint16Array([1, 2, 3]);
let res = float32.includes(2.0);
expect(res).toEqual(true);
res = float32.includes(4.0);
expect(res).toEqual(false);
res = float32.includes(3.0, 3);
expect(res).toEqual(false);
}
indexOf() {
let float32 = new Uint16Array([2, 5, 9]);
let res = float32.indexOf(2);
expect(res).toEqual(0);
res = float32.indexOf(7);
expect(res).toEqual(-1);
res = float32.indexOf(9, 2);
expect(res).toEqual(2);
res = float32.indexOf(2, -1);
expect(res).toEqual(-1);
res = float32.indexOf(2, -3);
expect(res).toEqual(0);
}
join() {
let float32 = new Uint16Array([1, 2, 3]);
let res = float32.join();
expect(res).toEqual("1,2,3");
res = float32.join(" / ");
expect(res).toEqual("1 / 2 / 3");
res = float32.join("");
expect(res).toEqual("123");
}
keys() {
let arr = new Uint16Array([10, 20, 30, 40, 50]);
let keys = arr.keys();
expect(keys.next().value).toEqual(0);
}
map() {
let numbers = new Uint16Array([1, 4, 9]);
let doubles = numbers.map((value: number, index: number, array: Uint16Array): number => value * 2);
expect(numbers.toString()).toEqual("1,4,9");
expect(doubles.toString()).toEqual("2,8,18");
}
reduce() {
let total = new Uint16Array([0, 1, 2, 3]);
let res = total.reduce((accumulator: number, currentValue: number, currentIndex: number, array: Uint16Array):
number => accumulator + currentValue);
expect(res).toEqual(6.0);
total = new Uint16Array([0, 1, 2, 3]);
res = total.reduce((accumulator: number, currentValue: number, currentIndex: number, array: Uint16Array):
number => accumulator + currentValue, 8);
expect(res).toEqual(14.0);
}
reduceRight() {
let total = new Uint16Array([0, 1, 2, 3]);
let res = total.reduceRight((accumulator: number, currentValue: number, currentIndex: number, array: Uint16Array):
number => accumulator + currentValue);
expect(res).toEqual(6.0);
total = new Uint16Array([0, 1, 2, 3]);
res = total.reduceRight((accumulator: number, currentValue: number, currentIndex: number, array: Uint16Array):
number => accumulator + currentValue, 8);
expect(res).toEqual(14.0);
}
reverse() {
let float32 = new Uint16Array([1, 2, 3]);
float32.reverse();
expect(float32.toString()).toEqual("3,2,1");
}
slice() {
let float32 = new Uint16Array([1, 2, 3]);
let res = float32.slice(1);
expect(res.toString()).toEqual("2,3");
res = float32.slice(2);
expect(res.toString()).toEqual("3");
res = float32.slice(-2);
expect(res.toString()).toEqual("2,3");
res = float32.slice(0, 1);
expect(res.toString()).toEqual("1");
}
sort() {
let numbers = new Uint16Array([40, 1, 5]);
numbers.sort();
expect(numbers.toString()).toEqual("1,5,40");
numbers.sort((a, b): Number => a - b);
expect(numbers.toString()).toEqual("1,5,40");
}
subarray() {
let buffer = new ArrayBuffer(16);
let float32 = new Uint16Array(buffer);
float32.set([1, 2, 3]);
expect(float32.toString()).toEqual("1,2,3,0,0,0,0,0");
let sub = float32.subarray(0, 4);
expect(sub.toString()).toEqual("1,2,3,0");
}
values() {
let arr = new Uint16Array([1, 2, 3]);
let values = arr.values();
expect(values.next().value).toEqual(1);
}
arrayBufferSlice() {
let buffer = new ArrayBuffer(16);
let float32 = new Uint16Array(buffer);
float32[3] = 42;
expect(float32.toString()).toEqual("0,0,0,42,0,0,0,0");
let res = buffer.slice(8);
let sliced = new Uint16Array(res);
expect(sliced[0]).toEqual(42);
}
}
\ No newline at end of file
import {
describe,
test,
expect,
Result
} from './tests.uts'
export class TUint32Array {
test() {
this.testfloat32();
this.testConstructor();
this.testSet();
this.testCopyWith();
this.testEvery();
this.testFill();
this.testFilter();
this.find();
this.findIndex();
this.foreach();
this.iterator();
this.includes();
this.indexOf();
this.join();
this.keys();
this.map();
this.reduce();
this.reduceRight();
this.reverse();
this.slice();
this.sort();
this.subarray();
this.values();
this.arrayBufferSlice();
}
testfloat32() {
let float32 = new Uint32Array(2);
float32[0] = 42;
expect(float32[0]).toEqual(42);
expect(float32.length).toEqual(2);
expect(Uint32Array.BYTES_PER_ELEMENT).toEqual(4);
let x = new Uint32Array([21, 31, 3]);
expect(x[1]).toEqual(31);
let y = new Uint32Array(x);
expect(y[0]).toEqual(21);
let buffer = new ArrayBuffer(16);
let z = new Uint32Array(buffer, 2, 4);
expect(z.byteOffset).toEqual(2);
expect(z.length).toEqual(4);
}
testConstructor() {
let buffer = new ArrayBuffer(16);
let float32 = new Uint32Array(buffer);
float32[1] = 42;
expect(float32.toString()).toEqual("0,42,0,0");
}
testSet() {
let float32 = new Uint32Array(8);
var array = [1, 2, 3]
float32.set(array, 1);
expect(float32.toString()).toEqual("0,1,2,3,0,0,0,0");
}
testCopyWith() {
console.log("testCopyWith 1")
let float32 = new Uint32Array(8);
float32.set([1, 2, 3], 1);
console.log("testCopyWith 1")
float32.copyWithin(3, 0, 3);
console.log("testCopyWith 1")
expect(float32.toString()).toEqual("0,1,2,0,1,2,0,0");
}
testEvery() {
// const isBelowThreshold = (currentValue: number, index: number, array:Uint32Array): boolean => currentValue < 40;
let result = new Uint32Array([12, 5, 8, 130, 44]).every((value: number, index: number, array: Uint32Array):
boolean => value < 40); //
expect(result).toEqual(false);
}
testFill() {
let float32 = new Uint32Array([1, 2, 3]).fill(4);
expect(float32.toString()).toEqual("4,4,4");
float32 = new Uint32Array([1, 2, 3]).fill(4, 1);
expect(float32.toString()).toEqual("1,4,4");
float32 = new Uint32Array([1, 2, 3]).fill(4, 1, 2);
expect(float32.toString()).toEqual("1,4,3");
float32 = new Uint32Array([1, 2, 3]).fill(4, 1, 1);
expect(float32.toString()).toEqual("1,2,3");
float32 = new Uint32Array([1, 2, 3]).fill(4, -3, -2);
expect(float32.toString()).toEqual("4,2,3");
}
testFilter() {
// const isBelowThreshold = (currentValue: number, index: number, _): boolean => currentValue >= 10;
let float32 = new Uint32Array([12, 5, 8, 44]).filter((value: number, index: number, array: Uint32Array):
boolean => value >= 10);
expect(float32.toString()).toEqual("12,44");
}
find() {
let float32 = new Uint32Array([4, 5, 8, 12]);
let res = float32.find((value: number, index: number, obj: Uint32Array): boolean => value > 5);
expect(res).toEqual(8);
}
findIndex() {
let float32 = new Uint32Array([4, 6, 8, 12]);
let res = float32.findIndex((value: number, index: number, obj: Uint32Array): boolean => value > 100);
expect(res).toEqual(-1);
let ufloat32 = new Uint32Array([4, 6, 7, 120]);
res = ufloat32.findIndex((value: number, index: number, obj: Uint32Array): boolean => value > 100);
expect(res).toEqual(3);
}
foreach() {
new Uint32Array([0, 1, 2, 3]).forEach((value: number, index: number, array: Uint32Array) => {
console.log(`a[${index}] = ${value}`);
});
}
iterator() {
let arr = new Uint32Array([10, 20, 30, 40, 50]);
let entries = arr.entries();
expect(entries.next().value[1]).toEqual(10);
}
includes() {
let float32 = new Uint32Array([1, 2, 3]);
let res = float32.includes(2);
expect(res).toEqual(true);
res = float32.includes(4);
expect(res).toEqual(false);
res = float32.includes(3, 3);
expect(res).toEqual(false);
}
indexOf() {
let float32 = new Uint32Array([2, 5, 9]);
let res = float32.indexOf(2);
expect(res).toEqual(0);
res = float32.indexOf(7);
expect(res).toEqual(-1);
res = float32.indexOf(9, 2);
expect(res).toEqual(2);
res = float32.indexOf(2, -1);
expect(res).toEqual(-1);
res = float32.indexOf(2, -3);
expect(res).toEqual(0);
}
join() {
let float32 = new Uint32Array([1, 2, 3]);
let res = float32.join();
expect(res).toEqual("1,2,3");
res = float32.join(" / ");
expect(res).toEqual("1 / 2 / 3");
res = float32.join("");
expect(res).toEqual("123");
}
keys() {
let arr = new Uint32Array([10, 20, 30, 40, 50]);
let keys = arr.keys();
expect(keys.next().value).toEqual(0);
}
map() {
let numbers = new Uint32Array([1, 4, 9]);
let doubles = numbers.map((value: number, index: number, array: Uint32Array): number => value * 2);
expect(numbers.toString()).toEqual("1,4,9");
expect(doubles.toString()).toEqual("2,8,18");
}
reduce() {
let total = new Uint32Array([0, 1, 2, 3]);
let res = total.reduce((accumulator: number, currentValue: number, currentIndex: number, array: Uint32Array):
number => accumulator + currentValue);
expect(res).toEqual(6);
total = new Uint32Array([0, 1, 2, 3]);
res = total.reduce((accumulator: number, currentValue: number, currentIndex: number, array: Uint32Array):
number => accumulator + currentValue, 8);
expect(res).toEqual(14);
}
reduceRight() {
let total = new Uint32Array([0, 1, 2, 3]);
let res = total.reduceRight((accumulator: number, currentValue: number, currentIndex: number, array: Uint32Array):
number => accumulator + currentValue);
expect(res).toEqual(6);
total = new Uint32Array([0, 1, 2, 3]);
res = total.reduceRight((accumulator: number, currentValue: number, currentIndex: number, array: Uint32Array):
number => accumulator + currentValue, 8);
expect(res).toEqual(14);
}
reverse() {
let float32 = new Uint32Array([1, 2, 3]);
float32.reverse();
expect(float32.toString()).toEqual("3,2,1");
}
slice() {
let float32 = new Uint32Array([1, 2, 3]);
let res = float32.slice(1);
expect(res.toString()).toEqual("2,3");
res = float32.slice(2);
expect(res.toString()).toEqual("3");
res = float32.slice(-2);
expect(res.toString()).toEqual("2,3");
res = float32.slice(0, 1);
expect(res.toString()).toEqual("1");
}
sort() {
let numbers = new Uint32Array([40, 1, 5]);
numbers.sort();
expect(numbers.toString()).toEqual("1,5,40");
numbers.sort((a, b): Number => a - b);
expect(numbers.toString()).toEqual("1,5,40");
}
subarray() {
let buffer = new ArrayBuffer(16);
let float32 = new Uint32Array(buffer);
float32.set([1, 2, 3]);
expect(float32.toString()).toEqual("1,2,3,0");
let sub = float32.subarray(0, 4);
expect(sub.toString()).toEqual("1,2,3,0");
}
values() {
let arr = new Uint32Array([1, 2, 3]);
let values = arr.values();
expect(values.next().value).toEqual(1);
}
arrayBufferSlice() {
let buffer = new ArrayBuffer(16);
let float32 = new Uint32Array(buffer);
float32[3] = 42;
expect(float32.toString()).toEqual("0,0,0,42");
let res = buffer.slice(8);
let sliced = new Uint32Array(res);
expect(sliced[1]).toEqual(42);
}
}
\ No newline at end of file
......@@ -17,6 +17,8 @@ import { testForLoop } from './ForLoop.uts'
import { testGlobal } from './Global.uts'
import { testType } from './Type.uts'
export { Result } from './tests.uts'
import { testArrayBuffer } from './ArrayBuffer.uts'
// Promise、Proxy、Reflect、Weakmap、WeakSet 不支持
export function runTests() : UTSJSONObject {
......@@ -38,6 +40,7 @@ export function runTests() : UTSJSONObject {
const JSONLargeRes = testJSONLarge();
const consoleRes = testConsole();
const UTSJSONObjectRes = testUTSJSONObject();
const ArrayBufferRes = testArrayBuffer();
return {
Array: ArrayRes,
Date: DateRes,
......@@ -56,6 +59,7 @@ export function runTests() : UTSJSONObject {
Global: GlobalRes,
Type: TypeRes,
console:consoleRes,
UTSJSONObject:UTSJSONObjectRes
UTSJSONObject:UTSJSONObjectRes,
ArrayBuffer:ArrayBufferRes
}
}
\ No newline at end of file
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