294 lines
9.0 KiB
JavaScript
294 lines
9.0 KiB
JavaScript
'use strict'
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const flattenDeep = require('lodash.flattendeep')
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// Indexes are hexadecimal to make reading the binary output easier.
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const valueTypes = {
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zero: 0x00,
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int8: 0x01, // Note that the hex value equals the number of bytes required
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int16: 0x02, // to store the integer.
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int24: 0x03,
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int32: 0x04,
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int40: 0x05,
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int48: 0x06,
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// Leave room for int56 and int64
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numberString: 0x09,
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negativeZero: 0x0A,
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notANumber: 0x0B,
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infinity: 0x0C,
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negativeInfinity: 0x0D,
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undefined: 0x0E,
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null: 0x0F,
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true: 0x10,
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false: 0x11,
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utf8: 0x12,
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bytes: 0x13,
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list: 0x14,
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descriptor: 0x15
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}
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const descriptorSymbol = Symbol('descriptor')
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exports.descriptorSymbol = descriptorSymbol
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function encodeInteger (type, value) {
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const encoded = Buffer.alloc(type)
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encoded.writeIntLE(value, 0, type)
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return [type, encoded]
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}
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function encodeValue (value) {
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if (Object.is(value, 0)) return valueTypes.zero
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if (Object.is(value, -0)) return valueTypes.negativeZero
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if (Object.is(value, NaN)) return valueTypes.notANumber
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if (value === Infinity) return valueTypes.infinity
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if (value === -Infinity) return valueTypes.negativeInfinity
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if (value === undefined) return valueTypes.undefined
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if (value === null) return valueTypes.null
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if (value === true) return valueTypes.true
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if (value === false) return valueTypes.false
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const type = typeof value
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if (type === 'number') {
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if (Number.isInteger(value)) {
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// The integer types are signed, so int8 can only store 7 bits, int16
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// only 15, etc.
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if (value >= -0x80 && value < 0x80) return encodeInteger(valueTypes.int8, value)
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if (value >= -0x8000 && value < 0x8000) return encodeInteger(valueTypes.int16, value)
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if (value >= -0x800000 && value < 0x800000) return encodeInteger(valueTypes.int24, value)
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if (value >= -0x80000000 && value < 0x80000000) return encodeInteger(valueTypes.int32, value)
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if (value >= -0x8000000000 && value < 0x8000000000) return encodeInteger(valueTypes.int40, value)
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if (value >= -0x800000000000 && value < 0x800000000000) return encodeInteger(valueTypes.int48, value)
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// Fall through to encoding the value as a number string.
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}
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const encoded = Buffer.from(String(value), 'utf8')
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return [valueTypes.numberString, encodeValue(encoded.length), encoded]
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}
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if (type === 'string') {
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const encoded = Buffer.from(value, 'utf8')
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return [valueTypes.utf8, encodeValue(encoded.length), encoded]
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}
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if (Buffer.isBuffer(value)) {
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return [valueTypes.bytes, encodeValue(value.byteLength), value]
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}
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if (Array.isArray(value)) {
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return [
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value[descriptorSymbol] === true ? valueTypes.descriptor : valueTypes.list,
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encodeValue(value.length),
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value.map(encodeValue)
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]
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}
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const hex = `0x${type.toString(16).toUpperCase()}`
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throw new TypeError(`Unexpected value with type ${hex}`)
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}
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function decodeValue (buffer, byteOffset) {
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const type = buffer.readUInt8(byteOffset)
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byteOffset += 1
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if (type === valueTypes.zero) return { byteOffset, value: 0 }
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if (type === valueTypes.negativeZero) return { byteOffset, value: -0 }
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if (type === valueTypes.notANumber) return { byteOffset, value: NaN }
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if (type === valueTypes.infinity) return { byteOffset, value: Infinity }
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if (type === valueTypes.negativeInfinity) return { byteOffset, value: -Infinity }
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if (type === valueTypes.undefined) return { byteOffset, value: undefined }
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if (type === valueTypes.null) return { byteOffset, value: null }
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if (type === valueTypes.true) return { byteOffset, value: true }
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if (type === valueTypes.false) return { byteOffset, value: false }
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if (
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type === valueTypes.int8 || type === valueTypes.int16 || type === valueTypes.int24 ||
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type === valueTypes.int32 || type === valueTypes.int40 || type === valueTypes.int48
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) {
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const value = buffer.readIntLE(byteOffset, type)
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byteOffset += type
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return { byteOffset, value }
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}
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if (type === valueTypes.numberString || type === valueTypes.utf8 || type === valueTypes.bytes) {
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const length = decodeValue(buffer, byteOffset)
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const start = length.byteOffset
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const end = start + length.value
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if (type === valueTypes.numberString) {
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const value = Number(buffer.toString('utf8', start, end))
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return { byteOffset: end, value }
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}
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if (type === valueTypes.utf8) {
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const value = buffer.toString('utf8', start, end)
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return { byteOffset: end, value }
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}
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const value = buffer.slice(start, end)
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return { byteOffset: end, value }
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}
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if (type === valueTypes.list || type === valueTypes.descriptor) {
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const length = decodeValue(buffer, byteOffset)
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byteOffset = length.byteOffset
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const value = new Array(length.value)
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if (type === valueTypes.descriptor) {
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value[descriptorSymbol] = true
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}
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for (let index = 0; index < length.value; index++) {
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const item = decodeValue(buffer, byteOffset)
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byteOffset = item.byteOffset
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value[index] = item.value
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}
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return { byteOffset, value }
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}
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const hex = `0x${type.toString(16).toUpperCase()}`
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throw new TypeError(`Could not decode type ${hex}`)
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}
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function buildBuffer (numberOrArray) {
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if (typeof numberOrArray === 'number') {
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const byte = Buffer.alloc(1)
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byte.writeUInt8(numberOrArray)
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return byte
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}
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const array = flattenDeep(numberOrArray)
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const buffers = new Array(array.length)
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let byteLength = 0
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for (let index = 0; index < array.length; index++) {
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if (typeof array[index] === 'number') {
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byteLength += 1
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const byte = Buffer.alloc(1)
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byte.writeUInt8(array[index])
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buffers[index] = byte
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} else {
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byteLength += array[index].byteLength
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buffers[index] = array[index]
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}
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}
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return Buffer.concat(buffers, byteLength)
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}
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function encode (serializerVersion, rootRecord, usedPlugins) {
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const buffers = []
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let byteOffset = 0
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const versionHeader = Buffer.alloc(2)
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versionHeader.writeUInt16LE(serializerVersion)
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buffers.push(versionHeader)
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byteOffset += versionHeader.byteLength
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const rootOffset = Buffer.alloc(4)
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buffers.push(rootOffset)
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byteOffset += rootOffset.byteLength
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const numPlugins = buildBuffer(encodeValue(usedPlugins.size))
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buffers.push(numPlugins)
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byteOffset += numPlugins.byteLength
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for (const name of usedPlugins.keys()) {
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const plugin = usedPlugins.get(name)
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const record = buildBuffer([
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encodeValue(name),
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encodeValue(plugin.serializerVersion)
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])
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buffers.push(record)
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byteOffset += record.byteLength
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}
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const queue = [rootRecord]
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const pointers = [rootOffset]
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while (queue.length > 0) {
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pointers.shift().writeUInt32LE(byteOffset, 0)
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const record = queue.shift()
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const recordHeader = buildBuffer([
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encodeValue(record.pluginIndex),
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encodeValue(record.id),
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encodeValue(record.children.length)
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])
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buffers.push(recordHeader)
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byteOffset += recordHeader.byteLength
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// Add pointers before encoding the state. This allows, if it ever becomes
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// necessary, for records to be extracted from a buffer without having to
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// parse the (variable length) state field.
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for (const child of record.children) {
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queue.push(child)
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const pointer = Buffer.alloc(4)
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pointers.push(pointer)
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buffers.push(pointer)
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byteOffset += 4
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}
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const state = buildBuffer(encodeValue(record.state))
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buffers.push(state)
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byteOffset += state.byteLength
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}
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return Buffer.concat(buffers, byteOffset)
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}
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exports.encode = encode
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function decodePlugins (buffer) {
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const $numPlugins = decodeValue(buffer, 0)
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let byteOffset = $numPlugins.byteOffset
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const usedPlugins = new Map()
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const lastIndex = $numPlugins.value
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for (let index = 1; index <= lastIndex; index++) {
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const $name = decodeValue(buffer, byteOffset)
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const name = $name.value
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byteOffset = $name.byteOffset
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const serializerVersion = decodeValue(buffer, byteOffset).value
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usedPlugins.set(index, {name, serializerVersion})
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}
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return usedPlugins
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}
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exports.decodePlugins = decodePlugins
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function decodeRecord (buffer, byteOffset) {
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const $pluginIndex = decodeValue(buffer, byteOffset)
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const pluginIndex = $pluginIndex.value
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byteOffset = $pluginIndex.byteOffset
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const $id = decodeValue(buffer, byteOffset)
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const id = $id.value
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byteOffset = $id.byteOffset
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const $numPointers = decodeValue(buffer, byteOffset)
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const numPointers = $numPointers.value
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byteOffset = $numPointers.byteOffset
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const pointerAddresses = new Array(numPointers)
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for (let index = 0; index < numPointers; index++) {
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pointerAddresses[index] = buffer.readUInt32LE(byteOffset)
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byteOffset += 4
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}
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const state = decodeValue(buffer, byteOffset).value
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return {id, pluginIndex, state, pointerAddresses}
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}
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exports.decodeRecord = decodeRecord
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function extractVersion (buffer) {
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return buffer.readUInt16LE(0)
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}
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exports.extractVersion = extractVersion
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function decode (buffer) {
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const rootOffset = buffer.readUInt32LE(2)
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const pluginBuffer = buffer.slice(6, rootOffset)
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const rootRecord = decodeRecord(buffer, rootOffset)
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return {pluginBuffer, rootRecord}
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}
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exports.decode = decode
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