compression/decompression-buffersource.tentative.any.js - external/github.com/web-platform-tests/wpt - Git at Google

 // META: global=window,worker,shadowrealm

 'use strict';

 const compressedBytesWithDeflate = [120, 156, 75, 52, 48, 52, 50, 54, 49, 53, 3, 0, 8, 136, 1, 199];
 const compressedBytesWithGzip = [31, 139, 8, 0, 0, 0, 0, 0, 0, 3, 75, 52, 48, 52, 2, 0, 216, 252, 63, 136, 4, 0, 0, 0];
 const compressedBytesWithDeflateRaw = [
   0x00, 0x06, 0x00, 0xf9, 0xff, 0x41, 0x42, 0x43,
   0x44, 0x45, 0x46, 0x01, 0x00, 0x00, 0xff, 0xff,
 ];
 // These chunk values below were chosen to make the length of the compressed
 // output be a multiple of 8 bytes.
 const deflateExpectedChunkValue = new TextEncoder().encode('a0123456');
 const gzipExpectedChunkValue = new TextEncoder().encode('a012');
 const deflateRawExpectedChunkValue = new TextEncoder().encode('ABCDEF');

 const bufferSourceChunksForDeflate = [
   {
     name: 'ArrayBuffer',
     value: new Uint8Array(compressedBytesWithDeflate).buffer
   },
   {
     name: 'Int8Array',
     value: new Int8Array(new Uint8Array(compressedBytesWithDeflate).buffer)
   },
   {
     name: 'Uint8Array',
     value: new Uint8Array(new Uint8Array(compressedBytesWithDeflate).buffer)
   },
   {
     name: 'Uint8ClampedArray',
     value: new Uint8ClampedArray(new Uint8Array(compressedBytesWithDeflate).buffer)
   },
   {
     name: 'Int16Array',
     value: new Int16Array(new Uint8Array(compressedBytesWithDeflate).buffer)
   },
   {
     name: 'Uint16Array',
     value: new Uint16Array(new Uint8Array(compressedBytesWithDeflate).buffer)
   },
   {
     name: 'Int32Array',
     value: new Int32Array(new Uint8Array(compressedBytesWithDeflate).buffer)
   },
   {
     name: 'Uint32Array',
     value: new Uint32Array(new Uint8Array(compressedBytesWithDeflate).buffer)
   },
   {
     name: 'Float16Array',
     value: () => new Float16Array(new Uint8Array(compressedBytesWithDeflate).buffer)
   },
   {
     name: 'Float32Array',
     value: new Float32Array(new Uint8Array(compressedBytesWithDeflate).buffer)
   },
   {
     name: 'Float64Array',
     value: new Float64Array(new Uint8Array(compressedBytesWithDeflate).buffer)
   },
   {
     name: 'DataView',
     value: new DataView(new Uint8Array(compressedBytesWithDeflate).buffer)
   },
 ];

 const bufferSourceChunksForGzip = [
   {
     name: 'ArrayBuffer',
     value: new Uint8Array(compressedBytesWithGzip).buffer
   },
   {
     name: 'Int8Array',
     value: new Int8Array(new Uint8Array(compressedBytesWithGzip).buffer)
   },
   {
     name: 'Uint8Array',
     value: new Uint8Array(new Uint8Array(compressedBytesWithGzip).buffer)
   },
   {
     name: 'Uint8ClambedArray',
     value: new Uint8ClampedArray(new Uint8Array(compressedBytesWithGzip).buffer)
   },
   {
     name: 'Int16Array',
     value: new Int16Array(new Uint8Array(compressedBytesWithGzip).buffer)
   },
   {
     name: 'Uint16Array',
     value: new Uint16Array(new Uint8Array(compressedBytesWithGzip).buffer)
   },
   {
     name: 'Int32Array',
     value: new Int32Array(new Uint8Array(compressedBytesWithGzip).buffer)
   },
   {
     name: 'Uint32Array',
     value: new Uint32Array(new Uint8Array(compressedBytesWithGzip).buffer)
   },
   {
     name: 'Float16Array',
     value: () => new Float16Array(new Uint8Array(compressedBytesWithGzip).buffer)
   },
   {
     name: 'Float32Array',
     value: new Float32Array(new Uint8Array(compressedBytesWithGzip).buffer)
   },
   {
     name: 'Float64Array',
     value: new Float64Array(new Uint8Array(compressedBytesWithGzip).buffer)
   },
   {
     name: 'DataView',
     value: new DataView(new Uint8Array(compressedBytesWithGzip).buffer)
   },
 ];

 const bufferSourceChunksForDeflateRaw = [
   {
     name: 'ArrayBuffer',
     value: new Uint8Array(compressedBytesWithDeflateRaw).buffer
   },
   {
     name: 'Int8Array',
     value: new Int8Array(new Uint8Array(compressedBytesWithDeflateRaw).buffer)
   },
   {
     name: 'Uint8Array',
     value: new Uint8Array(new Uint8Array(compressedBytesWithDeflateRaw).buffer)
   },
   {
     name: 'Uint8ClampedArray',
     value: new Uint8ClampedArray(new Uint8Array(compressedBytesWithDeflateRaw).buffer)
   },
   {
     name: 'Int16Array',
     value: new Int16Array(new Uint8Array(compressedBytesWithDeflateRaw).buffer)
   },
   {
     name: 'Uint16Array',
     value: new Uint16Array(new Uint8Array(compressedBytesWithDeflateRaw).buffer)
   },
   {
     name: 'Int32Array',
     value: new Int32Array(new Uint8Array(compressedBytesWithDeflateRaw).buffer)
   },
   {
     name: 'Uint32Array',
     value: new Uint32Array(new Uint8Array(compressedBytesWithDeflateRaw).buffer)
   },
   {
     name: 'Float16Array',
     value: () => new Float16Array(new Uint8Array(compressedBytesWithDeflateRaw).buffer)
   },
   {
     name: 'Float32Array',
     value: new Float32Array(new Uint8Array(compressedBytesWithDeflateRaw).buffer)
   },
   {
     name: 'Float64Array',
     value: new Float64Array(new Uint8Array(compressedBytesWithDeflateRaw).buffer)
   },
   {
     name: 'DataView',
     value: new DataView(new Uint8Array(compressedBytesWithDeflateRaw).buffer)
   },
 ];

 for (const chunk of bufferSourceChunksForDeflate) {
   promise_test(async t => {
     const ds = new DecompressionStream('deflate');
     const reader = ds.readable.getReader();
     const writer = ds.writable.getWriter();
     const writePromise = writer.write(typeof chunk.value === 'function' ? chunk.value() : chunk.value);
     writer.close();
     const { value } = await reader.read();
     assert_array_equals(Array.from(value), deflateExpectedChunkValue, 'value should match');
   }, `chunk of type ${chunk.name} should work for deflate`);
 }

 for (const chunk of bufferSourceChunksForGzip) {
   promise_test(async t => {
     const ds = new DecompressionStream('gzip');
     const reader = ds.readable.getReader();
     const writer = ds.writable.getWriter();
     const writePromise = writer.write(typeof chunk.value === 'function' ? chunk.value() : chunk.value);
     writer.close();
     const { value } = await reader.read();
     assert_array_equals(Array.from(value), gzipExpectedChunkValue, 'value should match');
   }, `chunk of type ${chunk.name} should work for gzip`);
 }

 for (const chunk of bufferSourceChunksForDeflateRaw) {
   promise_test(async t => {
     const ds = new DecompressionStream('deflate-raw');
     const reader = ds.readable.getReader();
     const writer = ds.writable.getWriter();
     const writePromise = writer.write(typeof chunk.value === 'function' ? chunk.value() : chunk.value);
     writer.close();
     const { value } = await reader.read();
     assert_array_equals(Array.from(value), deflateRawExpectedChunkValue, 'value should match');
   }, `chunk of type ${chunk.name} should work for deflate-raw`);
 }
	// META: global=window,worker,shadowrealm

	'use strict';

	const compressedBytesWithDeflate = [120, 156, 75, 52, 48, 52, 50, 54, 49, 53, 3, 0, 8, 136, 1, 199];
	const compressedBytesWithGzip = [31, 139, 8, 0, 0, 0, 0, 0, 0, 3, 75, 52, 48, 52, 2, 0, 216, 252, 63, 136, 4, 0, 0, 0];
	const compressedBytesWithDeflateRaw = [
	0x00, 0x06, 0x00, 0xf9, 0xff, 0x41, 0x42, 0x43,
	0x44, 0x45, 0x46, 0x01, 0x00, 0x00, 0xff, 0xff,
	];
	// These chunk values below were chosen to make the length of the compressed
	// output be a multiple of 8 bytes.
	const deflateExpectedChunkValue = new TextEncoder().encode('a0123456');
	const gzipExpectedChunkValue = new TextEncoder().encode('a012');
	const deflateRawExpectedChunkValue = new TextEncoder().encode('ABCDEF');

	const bufferSourceChunksForDeflate = [
	{
	name: 'ArrayBuffer',
	value: new Uint8Array(compressedBytesWithDeflate).buffer
	},
	{
	name: 'Int8Array',
	value: new Int8Array(new Uint8Array(compressedBytesWithDeflate).buffer)
	},
	{
	name: 'Uint8Array',
	value: new Uint8Array(new Uint8Array(compressedBytesWithDeflate).buffer)
	},
	{
	name: 'Uint8ClampedArray',
	value: new Uint8ClampedArray(new Uint8Array(compressedBytesWithDeflate).buffer)
	},
	{
	name: 'Int16Array',
	value: new Int16Array(new Uint8Array(compressedBytesWithDeflate).buffer)
	},
	{
	name: 'Uint16Array',
	value: new Uint16Array(new Uint8Array(compressedBytesWithDeflate).buffer)
	},
	{
	name: 'Int32Array',
	value: new Int32Array(new Uint8Array(compressedBytesWithDeflate).buffer)
	},
	{
	name: 'Uint32Array',
	value: new Uint32Array(new Uint8Array(compressedBytesWithDeflate).buffer)
	},
	{
	name: 'Float16Array',
	value: () => new Float16Array(new Uint8Array(compressedBytesWithDeflate).buffer)
	},
	{
	name: 'Float32Array',
	value: new Float32Array(new Uint8Array(compressedBytesWithDeflate).buffer)
	},
	{
	name: 'Float64Array',
	value: new Float64Array(new Uint8Array(compressedBytesWithDeflate).buffer)
	},
	{
	name: 'DataView',
	value: new DataView(new Uint8Array(compressedBytesWithDeflate).buffer)
	},
	];

	const bufferSourceChunksForGzip = [
	{
	name: 'ArrayBuffer',
	value: new Uint8Array(compressedBytesWithGzip).buffer
	},
	{
	name: 'Int8Array',
	value: new Int8Array(new Uint8Array(compressedBytesWithGzip).buffer)
	},
	{
	name: 'Uint8Array',
	value: new Uint8Array(new Uint8Array(compressedBytesWithGzip).buffer)
	},
	{
	name: 'Uint8ClambedArray',
	value: new Uint8ClampedArray(new Uint8Array(compressedBytesWithGzip).buffer)
	},
	{
	name: 'Int16Array',
	value: new Int16Array(new Uint8Array(compressedBytesWithGzip).buffer)
	},
	{
	name: 'Uint16Array',
	value: new Uint16Array(new Uint8Array(compressedBytesWithGzip).buffer)
	},
	{
	name: 'Int32Array',
	value: new Int32Array(new Uint8Array(compressedBytesWithGzip).buffer)
	},
	{
	name: 'Uint32Array',
	value: new Uint32Array(new Uint8Array(compressedBytesWithGzip).buffer)
	},
	{
	name: 'Float16Array',
	value: () => new Float16Array(new Uint8Array(compressedBytesWithGzip).buffer)
	},
	{
	name: 'Float32Array',
	value: new Float32Array(new Uint8Array(compressedBytesWithGzip).buffer)
	},
	{
	name: 'Float64Array',
	value: new Float64Array(new Uint8Array(compressedBytesWithGzip).buffer)
	},
	{
	name: 'DataView',
	value: new DataView(new Uint8Array(compressedBytesWithGzip).buffer)
	},
	];

	const bufferSourceChunksForDeflateRaw = [
	{
	name: 'ArrayBuffer',
	value: new Uint8Array(compressedBytesWithDeflateRaw).buffer
	},
	{
	name: 'Int8Array',
	value: new Int8Array(new Uint8Array(compressedBytesWithDeflateRaw).buffer)
	},
	{
	name: 'Uint8Array',
	value: new Uint8Array(new Uint8Array(compressedBytesWithDeflateRaw).buffer)
	},
	{
	name: 'Uint8ClampedArray',
	value: new Uint8ClampedArray(new Uint8Array(compressedBytesWithDeflateRaw).buffer)
	},
	{
	name: 'Int16Array',
	value: new Int16Array(new Uint8Array(compressedBytesWithDeflateRaw).buffer)
	},
	{
	name: 'Uint16Array',
	value: new Uint16Array(new Uint8Array(compressedBytesWithDeflateRaw).buffer)
	},
	{
	name: 'Int32Array',
	value: new Int32Array(new Uint8Array(compressedBytesWithDeflateRaw).buffer)
	},
	{
	name: 'Uint32Array',
	value: new Uint32Array(new Uint8Array(compressedBytesWithDeflateRaw).buffer)
	},
	{
	name: 'Float16Array',
	value: () => new Float16Array(new Uint8Array(compressedBytesWithDeflateRaw).buffer)
	},
	{
	name: 'Float32Array',
	value: new Float32Array(new Uint8Array(compressedBytesWithDeflateRaw).buffer)
	},
	{
	name: 'Float64Array',
	value: new Float64Array(new Uint8Array(compressedBytesWithDeflateRaw).buffer)
	},
	{
	name: 'DataView',
	value: new DataView(new Uint8Array(compressedBytesWithDeflateRaw).buffer)
	},
	];

	for (const chunk of bufferSourceChunksForDeflate) {
	promise_test(async t => {
	const ds = new DecompressionStream('deflate');
	const reader = ds.readable.getReader();
	const writer = ds.writable.getWriter();
	const writePromise = writer.write(typeof chunk.value === 'function' ? chunk.value() : chunk.value);
	writer.close();
	const { value } = await reader.read();
	assert_array_equals(Array.from(value), deflateExpectedChunkValue, 'value should match');
	}, `chunk of type ${chunk.name} should work for deflate`);
	}

	for (const chunk of bufferSourceChunksForGzip) {
	promise_test(async t => {
	const ds = new DecompressionStream('gzip');
	const reader = ds.readable.getReader();
	const writer = ds.writable.getWriter();
	const writePromise = writer.write(typeof chunk.value === 'function' ? chunk.value() : chunk.value);
	writer.close();
	const { value } = await reader.read();
	assert_array_equals(Array.from(value), gzipExpectedChunkValue, 'value should match');
	}, `chunk of type ${chunk.name} should work for gzip`);
	}

	for (const chunk of bufferSourceChunksForDeflateRaw) {
	promise_test(async t => {
	const ds = new DecompressionStream('deflate-raw');
	const reader = ds.readable.getReader();
	const writer = ds.writable.getWriter();
	const writePromise = writer.write(typeof chunk.value === 'function' ? chunk.value() : chunk.value);
	writer.close();
	const { value } = await reader.read();
	assert_array_equals(Array.from(value), deflateRawExpectedChunkValue, 'value should match');
	}, `chunk of type ${chunk.name} should work for deflate-raw`);
	}