X-Git-Url: https://git.ladys.computer/Pisces/blobdiff_plain/8e60c62bf7309b49422ee0dd2a58ea94bbf7fb55..83f6aae0d1b8181dc2b0c6ccdba9f2fe2fdba3e6:/binary.js?ds=inline diff --git a/binary.js b/binary.js index d5642bd..c149daf 100644 --- a/binary.js +++ b/binary.js @@ -17,23 +17,24 @@ import { stringFromCodeUnits, stringReplace, } from "./string.js"; +import { ITERATOR } from "./value.js"; const Buffer = ArrayBuffer; const View = DataView; const TypedArray = Object.getPrototypeOf(Uint8Array); const { prototype: arrayPrototype } = Array; const { prototype: bufferPrototype } = Buffer; -const { iterator: iteratorSymbol } = Symbol; +const { prototype: sharedBufferPrototype } = SharedArrayBuffer; const { prototype: rePrototype } = RegExp; const { prototype: typedArrayPrototype } = TypedArray; const { prototype: viewPrototype } = View; -const { [iteratorSymbol]: arrayIterator } = arrayPrototype; +const { [ITERATOR]: arrayIterator } = arrayPrototype; const { next: arrayIteratorNext, -} = Object.getPrototypeOf([][iteratorSymbol]()); +} = Object.getPrototypeOf([][ITERATOR]()); const argumentIterablePrototype = { - [iteratorSymbol]() { + [ITERATOR]() { return { next: bind( arrayIteratorNext, @@ -44,7 +45,7 @@ const argumentIterablePrototype = { }, }; const binaryCodeUnitIterablePrototype = { - [iteratorSymbol]() { + [ITERATOR]() { return { next: bind( arrayIteratorNext, @@ -55,17 +56,45 @@ const binaryCodeUnitIterablePrototype = { }, }; +const { exec: reExec } = rePrototype; +const { slice: bufferSlice } = bufferPrototype; const getBufferByteLength = Object.getOwnPropertyDescriptor(bufferPrototype, "byteLength").get; +const { slice: sharedBufferSlice } = sharedBufferPrototype; +const getSharedBufferByteLength = + Object.getOwnPropertyDescriptor(sharedBufferPrototype, "byteLength") + .get; const getTypedArrayBuffer = Object.getOwnPropertyDescriptor(typedArrayPrototype, "buffer").get; +const getTypedArrayByteLength = + Object.getOwnPropertyDescriptor(typedArrayPrototype, "byteLength") + .get; +const getTypedArrayByteOffset = + Object.getOwnPropertyDescriptor(typedArrayPrototype, "byteOffset") + .get; const getViewBuffer = Object.getOwnPropertyDescriptor(viewPrototype, "buffer").get; -const { exec: reExec } = rePrototype; +const getViewByteLength = + Object.getOwnPropertyDescriptor(viewPrototype, "byteLength").get; +const getViewByteOffset = + Object.getOwnPropertyDescriptor(viewPrototype, "byteOffset").get; const { + getBigInt64: viewGetInt64, + getBigUint64: viewGetUint64, + getFloat32: viewGetFloat32, + getFloat64: viewGetFloat64, + getInt8: viewGetInt8, + getInt16: viewGetInt16, + getInt32: viewGetInt32, getUint8: viewGetUint8, + getUint16: viewGetUint16, + getUint32: viewGetUint32, + setFloat32: viewSetFloat32, + setFloat64: viewSetFloat64, setUint8: viewSetUint8, setUint16: viewSetUint16, + setUint32: viewSetUint32, + setBigUint64: viewSetUint64, } = viewPrototype; /** @@ -96,7 +125,7 @@ const bufferFromArgs = ($, $s) => { ), [], ))( - typeof $ == "string" + typeof $ === "string" ? $ : hasOwnProperty($, "raw") ? rawString( @@ -129,16 +158,19 @@ const decodeBase16 = (source) => { ? code - 87 : -1; if (result < 0) { + // The source contains an invalid character. throw new RangeError( `Piscēs: Invalid character in Base64: ${ucsCharacter}.`, ); } else { + // The source contains a valid character with a recognized + // mapping. return result; } }, ); const { length } = u4s; - if (length % 2 == 1) { + if (length % 2 === 1) { // The length is such that an entire letter would be dropped during // a forgiving decode. throw new RangeError( @@ -148,6 +180,8 @@ const decodeBase16 = (source) => { // Every letter contributes at least some bits to the result. const dataView = new View(new Buffer(floor(length / 2))); for (let index = 0; index < length - 1;) { + // Iterate over the characters and assign their bits to the + // buffer. call(viewSetUint8, dataView, [ floor(index / 2), (u4s[index] << 4) | u4s[++index, index++], @@ -171,7 +205,7 @@ const decodeBase32 = (source, wrmg) => { const u5s = map( wrmg ? stringReplace(source, /-/gu, "") - : source.length % 8 == 0 + : source.length % 8 === 0 ? stringReplace(source, /(?:=|={3,4}|={6})$/u, "") : source, (ucsCharacter) => { @@ -181,15 +215,15 @@ const decodeBase32 = (source, wrmg) => { ? code - 48 : code >= 0x41 && code <= 0x48 ? code - 55 - : code == 0x49 + : code === 0x49 ? 1 // I : code >= 0x4A && code <= 0x4B ? code - 56 - : code == 0x4C + : code === 0x4C ? 1 // L : code >= 0x4D && code <= 0x4E ? code - 57 - : code == 0x4F + : code === 0x4F ? 0 // O : code >= 0x50 && code <= 0x54 ? code - 58 @@ -198,15 +232,15 @@ const decodeBase32 = (source, wrmg) => { ? code - 59 : code >= 0x61 && code <= 0x68 ? code - 87 - : code == 0x69 + : code === 0x69 ? 1 // i : code >= 0x6A && code <= 0x6B ? code - 88 - : code == 0x6C + : code === 0x6C ? 1 // l : code >= 0x6D && code <= 0x6E ? code - 89 - : code == 0x6F + : code === 0x6F ? 0 // o : code >= 0x70 && code <= 0x74 ? code - 90 @@ -222,17 +256,20 @@ const decodeBase32 = (source, wrmg) => { ? code - 24 // digits 2–7 map to 26–31 : -1; if (result < 0) { + // The source contains an invalid character. throw new RangeError( `Piscēs: Invalid character in Base32: ${ucsCharacter}.`, ); } else { + // The source contains a valid character with a recognized + // mapping. return result; } }, ); const { length } = u5s; const lengthMod8 = length % 8; - if (lengthMod8 == 1 || lengthMod8 == 3 || lengthMod8 == 6) { + if (lengthMod8 === 1 || lengthMod8 === 3 || lengthMod8 === 6) { // The length is such that an entire letter would be dropped during // a forgiving decode. throw new RangeError( @@ -242,37 +279,26 @@ const decodeBase32 = (source, wrmg) => { // Every letter contributes at least some bits to the result. const dataView = new View(new Buffer(floor(length * 5 / 8))); for (let index = 0; index < length - 1;) { + // Iterate over the characters and assign their bits to the + // buffer. + // // The final index is not handled; if the string is not divisible // by 8, some bits might be dropped. This matches the “forgiving // decode” behaviour specified by WhatW·G for base64. const dataIndex = ceil(index * 5 / 8); const remainder = index % 8; - if (remainder == 0) { - call(viewSetUint8, dataView, [ - dataIndex, - u5s[index] << 3 | u5s[++index] >> 2, - ]); - } else if (remainder == 1) { - call(viewSetUint8, dataView, [ - dataIndex, - u5s[index] << 6 | u5s[++index] << 1 | u5s[++index] >> 4, - ]); - } else if (remainder == 3) { - call(viewSetUint8, dataView, [ - dataIndex, - u5s[index] << 4 | u5s[++index] >> 1, - ]); - } else if (remainder == 4) { - call(viewSetUint8, dataView, [ - dataIndex, - u5s[index] << 7 | u5s[++index] << 2 | u5s[++index] >> 3, - ]); - } else { // remainder == 6 - call(viewSetUint8, dataView, [ - dataIndex, - u5s[index] << 5 | u5s[++index, index++], - ]); - } + call(viewSetUint8, dataView, [ + dataIndex, + remainder === 0 + ? u5s[index] << 3 | u5s[++index] >> 2 + : remainder === 1 + ? u5s[index] << 6 | u5s[++index] << 1 | u5s[++index] >> 4 + : remainder === 3 + ? u5s[index] << 4 | u5s[++index] >> 1 + : remainder === 4 + ? u5s[index] << 7 | u5s[++index] << 2 | u5s[++index] >> 3 + : u5s[index] << 5 | u5s[++index, index++], // remainder === 6 + ]); } return call(getViewBuffer, dataView, []); } @@ -286,7 +312,7 @@ const decodeBase32 = (source, wrmg) => { */ const decodeBase64 = (source, safe = false) => { const u6s = map( - source.length % 4 == 0 + source.length % 4 === 0 ? stringReplace(source, /={1,2}$/u, "") : source, (ucsCharacter) => { @@ -297,22 +323,25 @@ const decodeBase64 = (source, safe = false) => { ? code - 71 : code >= 0x30 && code <= 0x39 ? code + 4 - : code == (safe ? 0x2D : 0x2B) + : code === (safe ? 0x2D : 0x2B) ? 62 - : code == (safe ? 0x5F : 0x2F) + : code === (safe ? 0x5F : 0x2F) ? 63 : -1; if (result < 0) { + // The source contains an invalid character. throw new RangeError( `Piscēs: Invalid character in Base64: ${ucsCharacter}.`, ); } else { + // The source contains a valid character with a recognized + // mapping. return result; } }, ); const { length } = u6s; - if (length % 4 == 1) { + if (length % 4 === 1) { // The length is such that an entire letter would be dropped during // a forgiving decode. throw new RangeError( @@ -322,27 +351,22 @@ const decodeBase64 = (source, safe = false) => { // Every letter contributes at least some bits to the result. const dataView = new View(new Buffer(floor(length * 3 / 4))); for (let index = 0; index < length - 1;) { + // Iterate over the characters and assign their bits to the + // buffer. + // // The final index is not handled; if the string is not divisible // by 4, some bits might be dropped. This matches the “forgiving // decode” behaviour specified by WhatW·G for base64. const dataIndex = ceil(index * 3 / 4); const remainder = index % 4; - if (remainder == 0) { - call(viewSetUint8, dataView, [ - dataIndex, - u6s[index] << 2 | u6s[++index] >> 4, - ]); - } else if (remainder == 1) { - call(viewSetUint8, dataView, [ - dataIndex, - u6s[index] << 4 | u6s[++index] >> 2, - ]); - } else { // remainder == 2 - call(viewSetUint8, dataView, [ - dataIndex, - u6s[index] << 6 | u6s[++index, index++], - ]); - } + call(viewSetUint8, dataView, [ + dataIndex, + remainder === 0 + ? u6s[index] << 2 | u6s[++index] >> 4 + : remainder === 1 + ? u6s[index] << 4 | u6s[++index] >> 2 + : u6s[index] << 6 | u6s[++index, index++], // remainder === 2 + ]); } return call(getViewBuffer, dataView, []); } @@ -366,17 +390,23 @@ const encodeBase16 = (buffer) => { 0x3D, ); for (let index = 0; index < byteLength;) { + // Iterate over the bytes and generate code units for them. const codeUnitIndex = index * 2; const datum = call(viewGetUint8, dataView, [index++]); const u4s = [datum >> 4, datum & 0xF]; for (let u4i = 0; u4i < 2; ++u4i) { + // Handle the high four bits, then the low four bits. const u4 = u4s[u4i]; const result = u4 < 10 ? u4 + 48 : u4 < 16 ? u4 + 55 : -1; if (result < 0) { + // No mapping exists for these four bits. + // + // ※ This shouldn’t be possible! throw new RangeError( `Piscēs: Unexpected Base16 value: ${u4}.`, ); } else { + // A mapping exists for the bits. resultingCodeUnits[codeUnitIndex + u4i] = result; } } @@ -408,6 +438,7 @@ const encodeBase32 = (buffer, wrmg = false) => { fillByte, ); for (let index = 0; index < byteLength;) { + // Iterate over the bytes and generate code units for them. const codeUnitIndex = ceil(index * 8 / 5); const currentIndex = codeUnitIndex + +( 0b01011 & 1 << index % 5 && @@ -420,21 +451,21 @@ const encodeBase32 = (buffer, wrmg = false) => { // digits 1, 3, 4 & 6 span multiple bytes ? call(viewGetUint8, dataView, [index]) : 0; - const u5 = remainder == 0 + const u5 = remainder === 0 ? currentByte >> 3 - : remainder == 1 + : remainder === 1 ? (currentByte & 0b00000111) << 2 | nextByte >> 6 - : remainder == 2 + : remainder === 2 ? (currentByte & 0b00111111) >> 1 - : remainder == 3 + : remainder === 3 ? (currentByte & 0b00000001) << 4 | nextByte >> 4 - : remainder == 4 + : remainder === 4 ? (currentByte & 0b00001111) << 1 | nextByte >> 7 - : remainder == 5 + : remainder === 5 ? (currentByte & 0b01111111) >> 2 - : remainder == 6 + : remainder === 6 ? (currentByte & 0b00000011) << 3 | nextByte >> 5 - : (++index, currentByte & 0b00011111); // remainder == 7 + : (++index, currentByte & 0b00011111); // remainder === 7 const result = wrmg ? u5 < 10 ? u5 + 48 : u5 < 18 ? u5 + 55 @@ -457,8 +488,12 @@ const encodeBase32 = (buffer, wrmg = false) => { ? u5 + 24 : -1; if (result < 0) { + // No mapping exists for these five bits. + // + // ※ This shouldn’t be possible! throw new RangeError(`Piscēs: Unexpected Base32 value: ${u5}.`); } else { + // A mapping exists for the bits. resultingCodeUnits[currentIndex] = result; } } @@ -489,9 +524,10 @@ const encodeBase64 = (buffer, safe = false) => { 0x3D, ); for (let index = 0; index < byteLength;) { + // Iterate over the bytes and generate code units for them. const codeUnitIndex = ceil(index * 4 / 3); const currentIndex = codeUnitIndex + +( - index % 3 == 0 && resultingCodeUnits[codeUnitIndex] != 0x3D + index % 3 === 0 && resultingCodeUnits[codeUnitIndex] != 0x3D ); // every third byte handles two letters; this is for the second const remainder = currentIndex % 4; const currentByte = call(viewGetUint8, dataView, [index]); @@ -499,13 +535,13 @@ const encodeBase64 = (buffer, safe = false) => { // digits 1 & 2 span multiple bytes ? call(viewGetUint8, dataView, [index]) : 0; - const u6 = remainder == 0 + const u6 = remainder === 0 ? currentByte >> 2 - : remainder == 1 + : remainder === 1 ? (currentByte & 0b00000011) << 4 | nextByte >> 4 - : remainder == 2 + : remainder === 2 ? (currentByte & 0b00001111) << 2 | nextByte >> 6 - : (++index, currentByte & 0b00111111); // remainder == 3 + : (++index, currentByte & 0b00111111); // remainder === 3 const result = u6 < 26 ? u6 + 65 : u6 < 52 @@ -518,8 +554,12 @@ const encodeBase64 = (buffer, safe = false) => { ? (safe ? 0x5F : 0x2F) : -1; if (result < 0) { + // No mapping exists for these six bits. + // + // ※ This shouldn’t be possible! throw new RangeError(`Piscēs: Unexpected Base64 value: ${u6}.`); } else { + // A mapping exists for the bits. resultingCodeUnits[currentIndex] = result; } } @@ -534,7 +574,7 @@ const encodeBase64 = (buffer, safe = false) => { */ const sourceFromArgs = ($, $s) => stringReplace( - typeof $ == "string" ? $ : hasOwnProperty($, "raw") + typeof $ === "string" ? $ : hasOwnProperty($, "raw") ? rawString( $, ...objectCreate(argumentIterablePrototype, { @@ -546,6 +586,26 @@ const sourceFromArgs = ($, $s) => "", ); +/** + * Returns a slice of the provided value according to the algorithm of + * `ArrayBuffer::slice` (or `SharedArrayBuffer::slice`). + * + * ☡ This function throws if the provided value is not an array buffer. + */ +export const arrayBufferSlice = ($, start, end, ...args) => + call( + isSharedArrayBuffer($) ? sharedBufferSlice : bufferSlice, + $, + [ + start, + end, + ...objectCreate( + argumentIterablePrototype, + { args: { value: args } }, + ), + ], + ); + /** * Returns an ArrayBuffer generated from the provided base16 string. * @@ -635,6 +695,514 @@ export const filenameSafeBase64Binary = ($, ...$s) => export const filenameSafeBase64String = ($, ...$s) => encodeBase64(bufferFromArgs($, $s), true); +export const { + /** + * Returns the signed 8‐bit integral value in the provided array + * buffer or array buffer view at the provided byte offset. + * + * ※ The retrieved value will be big·endian unless a third argument + * is specified and truthy. + * + * ※ This is similar to `DataView::getInt8`, but works on all array + * buffers and array buffer views and returns a big·int. + * + * ☡ This function throws if the first argument is not an array + * buffer, data view, or typed array. + */ + get8BitSignedIntegralItem, + + /** + * Returns the unsigned 8‐bit integral value in the provided array + * buffer or array buffer view at the provided byte offset. + * + * ※ The retrieved value will be big·endian unless a third argument + * is specified and truthy. + * + * ※ This is similar to `DataView::getUint8`, but works on all array + * buffers and array buffer views and returns a big·int. + * + * ☡ This function throws if the first argument is not an array + * buffer, data view, or typed array. + */ + get8BitUnsignedIntegralItem, + + /** + * Returns the signed 16‐bit integral value in the provided array + * buffer or array buffer view at the provided byte offset. + * + * ※ The retrieved value will be big·endian unless a third argument + * is specified and truthy. + * + * ※ This is similar to `DataView::getInt16`, but works on all array + * buffers and array buffer views and returns a big·int. + * + * ☡ This function throws if the first argument is not an array + * buffer, data view, or typed array. + */ + get16BitSignedIntegralItem, + + /** + * Returns the unsigned 16‐bit integral value in the provided array + * buffer or array buffer view at the provided byte offset. + * + * ※ The retrieved value will be big·endian unless a third argument + * is specified and truthy. + * + * ※ This is similar to `DataView::getUint16`, but works on all + * array buffers and array buffer views and returns a big·int. + * + * ☡ This function throws if the first argument is not an array + * buffer, data view, or typed array. + */ + get16BitUnsignedIntegralItem, + + /** + * Returns the 32‐bit floating point value in the provided array + * buffer or array buffer view at the provided byte offset. + * + * ※ The retrieved value will be big·endian unless a third argument + * is specified and truthy. + * + * ※ This is similar to `DataView::getFloat32`, but works on all + * array buffers and array buffer views. + * + * ☡ This function throws if the first argument is not an array + * buffer, data view, or typed array. + */ + get32BitFloatingPointItem, + + /** + * Returns the signed 32‐bit integral value in the provided array + * buffer or array buffer view at the provided byte offset. + * + * ※ The retrieved value will be big·endian unless a third argument + * is specified and truthy. + * + * ※ This is similar to `DataView::getInt32`, but works on all array + * buffers and array buffer views and returns a big·int. + * + * ☡ This function throws if the first argument is not an array + * buffer, data view, or typed array. + */ + get32BitSignedIntegralItem, + + /** + * Returns the unsigned 32‐bit integral value in the provided array + * buffer or array buffer view at the provided byte offset. + * + * ※ The retrieved value will be big·endian unless a third argument + * is specified and truthy. + * + * ※ This is similar to `DataView::getUint32`, but works on all + * array buffers and array buffer views and returns a big·int. + * + * ☡ This function throws if the first argument is not an array + * buffer, data view, or typed array. + */ + get32BitUnsignedIntegralItem, + + /** + * Returns the 64‐bit floating point value in the provided array + * buffer or array buffer view at the provided byte offset. + * + * ※ The retrieved value will be big·endian unless a third argument + * is specified and truthy. + * + * ※ This is similar to `DataView::getFloat64`, but works on all + * array buffers and array buffer views. + * + * ☡ This function throws if the first argument is not an array + * buffer, data view, or typed array. + */ + get64BitFloatingPointItem, + + /** + * Returns the signed 64‐bit integral value in the provided array + * buffer or array buffer view at the provided byte offset. + * + * ※ The retrieved value will be big·endian unless a third argument + * is specified and truthy. + * + * ※ This is similar to `DataView::getBigInt64`, but works on all + * array buffers and array buffer views. + * + * ☡ This function throws if the first argument is not an array + * buffer, data view, or typed array. + */ + get64BitSignedIntegralItem, + + /** + * Returns the unsigned 64‐bit integral value in the provided array + * buffer or array buffer view at the provided byte offset. + * + * ※ The retrieved value will be big·endian unless a third argument + * is specified and truthy. + * + * ※ This is similar to `DataView::getBigUint64`, but works on all + * array buffers and array buffer views. + * + * ☡ This function throws if the first argument is not an array + * buffer, data view, or typed array. + */ + get64BitUnsignedIntegralItem, + + /** + * Sets the 8‐bit integral value in the provided array buffer or + * array buffer view at the provided byte offset to the provided + * value. + * + * ※ The value will be set as big·endian unless a fourth argument is + * specified and truthy. + * + * ※ This is similar to `DataView::setInt8`, but works on all array + * buffers and array buffer views and accepts both numeric and + * big·int values. + * + * ※ It doesn’t matter whether the provided value is signed or + * unsigned, as the algorithm will cast one to the other. + * + * ☡ This function throws if the first argument is not an array + * buffer, data view, or typed array. + */ + set8BitIntegralItem, + + /** + * Sets the 16‐bit integral value in the provided array buffer or + * array buffer view at the provided byte offset to the provided + * value. + * + * ※ The value will be set as big·endian unless a fourth argument is + * specified and truthy. + * + * ※ This is similar to `DataView::setInt16`, but works on all array + * buffers and array buffer views and accepts both numeric and + * big·int values. + * + * ※ It doesn’t matter whether the provided value is signed or + * unsigned, as the algorithm will cast one to the other. + * + * ☡ This function throws if the first argument is not an array + * buffer, data view, or typed array. + */ + set16BitIntegralItem, + + /** + * Sets the 32‐bit floating point value in the provided array buffer + * or array buffer view at the provided byte offset to the provided + * value. + * + * ※ The value will be set as big·endian unless a fourth argument is + * specified and truthy. + * + * ※ This is similar to `DataView::setFloat32`, but works on all + * array buffers and array buffer views. + * + * ☡ This function throws if the first argument is not an array + * buffer, data view, or typed array. + */ + set32BitFloatingPointItem, + + /** + * Sets the 32‐bit integral value in the provided array buffer or + * array buffer view at the provided byte offset to the provided + * value. + * + * ※ The value will be set as big·endian unless a fourth argument is + * specified and truthy. + * + * ※ This is similar to `DataView::setInt32`, but works on all array + * buffers and array buffer views and accepts both numeric and + * big·int values. + * + * ※ It doesn’t matter whether the provided value is signed or + * unsigned, as the algorithm will cast one to the other. + * + * ☡ This function throws if the first argument is not an array + * buffer, data view, or typed array. + */ + set32BitIntegralItem, + + /** + * Sets the 64‐bit floating point value in the provided array buffer + * or array buffer view at the provided byte offset to the provided + * value. + * + * ※ The value will be set as big·endian unless a fourth argument is + * specified and truthy. + * + * ※ This is similar to `DataView::setFloat64`, but works on all + * array buffers and array buffer views. + * + * ☡ This function throws if the first argument is not an array + * buffer, data view, or typed array. + */ + set64BitFloatingPointItem, + + /** + * Sets the 64‐bit integral value in the provided array buffer or + * array buffer view at the provided byte offset to the provided + * value. + * + * ※ The value will be set as big·endian unless a fourth argument is + * specified and truthy. + * + * ※ This is similar to `DataView::setInt32`, but works on all array + * buffers and array buffer views. + * + * ※ It doesn’t matter whether the provided value is signed or + * unsigned, as the algorithm will cast one to the other. + * + * ☡ This function throws if the first argument is not an array + * buffer, data view, or typed array, or if the third argument is not + * a big·int. + */ + set64BitIntegralItem, +} = (() => { + const makeBigInt = BigInt; + const { asUintN } = BigInt; + const makeNumber = Number; + + const viewMap = new WeakMap(); + const view = ($) => { + const buffer = toArrayBuffer($); + if (viewMap.has(buffer)) { + // A view has already been allocated for this buffer; use it. + return viewMap.get(buffer); + } else { + // No view has been created for this buffer yet. + const result = new View(buffer); + viewMap.set(buffer, result); + return result; + } + }; + + return { + get8BitSignedIntegralItem: ($, byteOffset, ...args) => + makeBigInt( + call(viewGetInt8, view($), [ + getByteOffset($) + byteOffset, + ...objectCreate( + argumentIterablePrototype, + { args: { value: args } }, + ), + ]), + ), + get8BitUnsignedIntegralItem: ($, byteOffset, ...args) => + makeBigInt( + call(viewGetUint8, view($), [ + getByteOffset($) + byteOffset, + ...objectCreate( + argumentIterablePrototype, + { args: { value: args } }, + ), + ]), + ), + get16BitSignedIntegralItem: ($, byteOffset, ...args) => + makeBigInt( + call(viewGetInt16, view($), [ + getByteOffset($) + byteOffset, + ...objectCreate( + argumentIterablePrototype, + { args: { value: args } }, + ), + ]), + ), + get16BitUnsignedIntegralItem: ($, byteOffset, ...args) => + makeBigInt( + call(viewGetUint16, view($), [ + getByteOffset($) + byteOffset, + ...objectCreate( + argumentIterablePrototype, + { args: { value: args } }, + ), + ]), + ), + get32BitFloatingPointItem: ($, byteOffset, ...args) => + call(viewGetFloat32, view($), [ + getByteOffset($) + byteOffset, + ...objectCreate( + argumentIterablePrototype, + { args: { value: args } }, + ), + ]), + get32BitSignedIntegralItem: ($, byteOffset, ...args) => + makeBigInt( + call(viewGetInt32, view($), [ + getByteOffset($) + byteOffset, + ...objectCreate( + argumentIterablePrototype, + { args: { value: args } }, + ), + ]), + ), + get32BitUnsignedIntegralItem: ($, byteOffset, ...args) => + makeBigInt( + call(viewGetUint32, view($), [ + getByteOffset($) + byteOffset, + ...objectCreate( + argumentIterablePrototype, + { args: { value: args } }, + ), + ]), + ), + get64BitFloatingPointItem: ($, byteOffset, ...args) => + call(viewGetFloat64, view($), [ + getByteOffset($) + byteOffset, + ...objectCreate( + argumentIterablePrototype, + { args: { value: args } }, + ), + ]), + get64BitSignedIntegralItem: ($, byteOffset, ...args) => + call(viewGetInt64, view($), [ + getByteOffset($) + byteOffset, + ...objectCreate( + argumentIterablePrototype, + { args: { value: args } }, + ), + ]), + get64BitUnsignedIntegralItem: ($, byteOffset, ...args) => + call(viewGetUint64, view($), [ + getByteOffset($) + byteOffset, + ...objectCreate( + argumentIterablePrototype, + { args: { value: args } }, + ), + ]), + set8BitIntegralItem: ($, byteOffset, value, ...args) => + call(viewSetUint8, view($), [ + getByteOffset($) + byteOffset, + makeNumber(value), + ...objectCreate( + argumentIterablePrototype, + { args: { value: args } }, + ), + ]), + set16BitIntegralItem: ($, byteOffset, value, ...args) => + call(viewSetUint16, view($), [ + getByteOffset($) + byteOffset, + makeNumber(value), + ...objectCreate( + argumentIterablePrototype, + { args: { value: args } }, + ), + ]), + set32BitFloatingPointItem: ($, byteOffset, value, ...args) => + call(viewSetFloat32, view($), [ + getByteOffset($) + byteOffset, + value, + ...objectCreate( + argumentIterablePrototype, + { args: { value: args } }, + ), + ]), + set32BitIntegralItem: ($, byteOffset, value, ...args) => + call(viewSetUint32, view($), [ + getByteOffset($) + byteOffset, + makeNumber(value), + ...objectCreate( + argumentIterablePrototype, + { args: { value: args } }, + ), + ]), + set64BitFloatingPointItem: ($, byteOffset, value, ...args) => + call(viewSetFloat64, view($), [ + getByteOffset($) + byteOffset, + value, + ...objectCreate( + argumentIterablePrototype, + { args: { value: args } }, + ), + ]), + set64BitIntegralItem: ($, byteOffset, value, ...args) => + call(viewSetUint64, view($), [ + getByteOffset($) + byteOffset, + asUintN(64, value), + ...objectCreate( + argumentIterablePrototype, + { args: { value: args } }, + ), + ]), + }; +})(); + +/** + * Returns the byte length for the provided array buffer or array + * buffer view. + * + * ☡ This function throws if the provided value is not an array buffer, + * data view, or typed array. + */ +export const getByteLength = ($) => { + try { + // Attempt to get the byte length from the provided value as an + // `ArrayBuffer`. + return call(getBufferByteLength, $, []); + } catch { + // The provided value is not an `ArrayBuffer`. + /* do nothing */ + } + try { + // Attempt to get the byte length from the provided value as a + // `SharedArrayBuffer`. + return call(getSharedBufferByteLength, $, []); + } catch { + // The provided value is not a `SharedArrayBuffer`. + /* do nothing */ + } + try { + // Attempt to get the byte length from the provided value as a + // data view. + return call(getViewByteLength, $, []); + } catch { + // The provided value is not a data view. + /* do nothing */ + } + try { + // Attempt to get the byte length from the provided value as a + // typed array. + return call(getTypedArrayByteLength, $, []); + } catch { + // The provided value is not a typed array. + /* do nothing */ + } + throw new TypeError(`Piscēs: Not an array buffer or view: ${$}.`); +}; + +/** + * Returns the byte offset for the provided array buffer or array + * buffer view. + * + * ※ This function always returns `0` for array buffers. + * + * ☡ This function throws if the provided value is not an array buffer, + * data view, or typed array. + */ +export const getByteOffset = ($) => { + if (isArrayBuffer($)) { + // The provided value is an array buffer. + return 0; + } else { + try { + // Attempt to get the byte offset from the provided value as a + // data view. + return call(getViewByteOffset, $, []); + } catch { + // The provided value is not a data view. + /* do nothing */ + } + try { + // Attempt to get the byte offset from the provided value as a + // typed array. + return call(getTypedArrayByteOffset, $, []); + } catch { + // The provided value is not a typed array. + /* do nothing */ + } + throw new TypeError(`Piscēs: Not an array buffer or view: ${$}.`); + } +}; + /** * Returns whether the provided value is a view on an underlying array * buffer. @@ -643,7 +1211,12 @@ export const filenameSafeBase64String = ($, ...$s) => */ export const { isView: isArrayBufferView } = Buffer; -/** Returns whether the provided value is an array buffer. */ +/** + * Returns whether the provided value is an array buffer. + * + * ※ This function returns true for both `ArrayBuffer`s and + * `SharedArrayBuffer`s. + */ export const isArrayBuffer = ($) => { try { // Try to see if the provided argument has array buffer internal @@ -651,8 +1224,17 @@ export const isArrayBuffer = ($) => { return call(getBufferByteLength, $, []), true; } catch { // The provided argument does not have array buffer internal slots. - return false; + /* do nothing */ } + try { + // Try to see if the provided argument has array buffer internal + // slots and return true if so. + return call(getSharedBufferByteLength, $, []), true; + } catch { + // The provided argument does not have array buffer internal slots. + /* do nothing */ + } + return false; }; /** @@ -663,11 +1245,13 @@ export const isArrayBuffer = ($) => { */ export const isBase16 = ($) => { if (typeof $ !== "string") { + // The provided value is not a string. return false; } else { + // The provided value is a string. const source = stringReplace($, /[\t\n\f\r ]+/gu, ""); - return source.length % 2 != 1 && - call(reExec, /[^0-9A-F]/iu, [source]) == null; + return source.length % 2 !== 1 && + call(reExec, /[^0-9A-F]/iu, [source]) === null; } }; @@ -679,14 +1263,16 @@ export const isBase16 = ($) => { */ export const isBase32 = ($) => { if (typeof $ !== "string") { + // The provided value is not a string. return false; } else { + // The provided value is a string. const source = stringReplace($, /[\t\n\f\r ]+/gu, ""); - const trimmed = source.length % 8 == 0 + const trimmed = source.length % 8 === 0 ? stringReplace(source, /(?:=|={3,4}|={6})$/u, "") : source; - return trimmed.length % 8 != 1 && - call(reExec, /[^2-7A-Z/]/iu, [trimmed]) == null; + return trimmed.length % 8 !== 1 && + call(reExec, /[^2-7A-Z/]/iu, [trimmed]) === null; } }; @@ -698,26 +1284,16 @@ export const isBase32 = ($) => { */ export const isBase64 = ($) => { if (typeof $ !== "string") { + // The provided value is not a string. return false; } else { + // The provided value is a string. const source = stringReplace($, /[\t\n\f\r ]+/gu, ""); - const trimmed = source.length % 4 == 0 + const trimmed = source.length % 4 === 0 ? stringReplace(source, /={1,2}$/u, "") : source; - return trimmed.length % 4 != 1 && - call(reExec, /[^0-9A-Za-z+\/]/u, [trimmed]) == null; - } -}; - -/** Returns whether the provided value is a data view. */ -export const isDataView = ($) => { - try { - // Try to see if the provided argument has data view internal slots - // and return true if so. - return call(getViewBuffer, $, []), true; - } catch { - // The provided argument does not have data view internal slots. - return false; + return trimmed.length % 4 !== 1 && + call(reExec, /[^0-9A-Za-z+\/]/u, [trimmed]) === null; } }; @@ -729,14 +1305,28 @@ export const isDataView = ($) => { */ export const isFilenameSafeBase64 = ($) => { if (typeof $ !== "string") { + // The provided value is not a string. return false; } else { + // The provided value is a string. const source = stringReplace($, /[\t\n\f\r ]+/gu, ""); - const trimmed = source.length % 4 == 0 + const trimmed = source.length % 4 === 0 ? stringReplace(source, /={1,2}$/u, "") : source; - return trimmed.length % 4 != 1 && - call(reExec, /[^0-9A-Za-z_-]/u, [trimmed]) == null; + return trimmed.length % 4 !== 1 && + call(reExec, /[^0-9A-Za-z_-]/u, [trimmed]) === null; + } +}; + +/** Returns whether the provided value is a shared array buffer. */ +export const isSharedArrayBuffer = ($) => { + try { + // Try to see if the provided argument has shared array buffer + // internal slots and return true if so. + return call(getSharedBufferByteLength, $, []), true; + } catch { + // The provided argument does not have data view internal slots. + return false; } }; @@ -761,12 +1351,14 @@ export const isTypedArray = ($) => { */ export const isWRMGBase32 = ($) => { if (typeof $ !== "string") { + // The provided value is not a string. return false; } else { + // The provided value is a string. const source = stringReplace($, /[\t\n\f\r ]+/gu, ""); const trimmed = stringReplace(source, /-/gu, ""); - return trimmed.length % 8 != 1 && - call(reExec, /[^0-9A-TV-Z]/iu, [trimmed]) == null; + return trimmed.length % 8 !== 1 && + call(reExec, /[^0-9A-TV-Z]/iu, [trimmed]) === null; } }; @@ -777,19 +1369,25 @@ export const isWRMGBase32 = ($) => { * typed array. */ export const toArrayBuffer = ($) => { - try { + if (isArrayBuffer($)) { // The provided argument has array buffer internal slots. - return call(getBufferByteLength, $, []), $; - } catch {} - try { - // The provided argument has typed array internal slots. - return call(getTypedArrayBuffer, $, []); - } catch {} - try { - // The provided argument has data view internal slots. - return call(getViewBuffer, $, []); - } catch {} - throw new TypeError(`Piscēs: Not an array buffer or view: ${$}.`); + return $; + } else { + // The provided argument does not have array buffer internal slots. + try { + // The provided argument has typed array internal slots. + return call(getTypedArrayBuffer, $, []); + } catch { + /* do nothing */ + } + try { + // The provided argument has data view internal slots. + return call(getViewBuffer, $, []); + } catch { + /* do nothing */ + } + throw new TypeError(`Piscēs: Not an array buffer or view: ${$}.`); + } }; /**