// Licensed to the Apache Software Foundation (ASF) under one // or more contributor license agreements. See the NOTICE file // distributed with this work for additional information // regarding copyright ownership. The ASF licenses this file // to you under the Apache License, Version 2.0 (the // "License"); you may not use this file except in compliance // with the License. You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, // software distributed under the License is distributed on an // "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY // KIND, either express or implied. See the License for the // specific language governing permissions and limitations // under the License. import { memcpy } from '../util/buffer.js'; import { TypedArray, TypedArrayConstructor, BigIntArray, BigIntArrayConstructor } from '../interfaces.js'; /** @ignore */ type DataValue = T extends TypedArray ? number : T extends BigIntArray ? WideValue : T; /** @ignore */ type WideValue = T extends BigIntArray ? bigint | Int32Array | Uint32Array : never; /** @ignore */ type ArrayCtor = T extends TypedArray ? TypedArrayConstructor : T extends BigIntArray ? BigIntArrayConstructor : any; /** @ignore */ const roundLengthUpToNearest64Bytes = (len: number, BPE: number) => ((((len * BPE) + 63) & ~63) || 64) / BPE; /** @ignore */ const sliceOrExtendArray = (arr: T, len = 0) => ( arr.length >= len ? arr.subarray(0, len) : memcpy(new (arr.constructor as any)(len), arr, 0) ) as T; /** @ignore */ export interface BufferBuilder> { readonly offset: number; } /** @ignore */ export class BufferBuilder> { constructor(buffer: T, stride = 1) { this.buffer = buffer; this.stride = stride; this.BYTES_PER_ELEMENT = buffer.BYTES_PER_ELEMENT; this.ArrayType = buffer.constructor as ArrayCtor; this._resize(this.length = Math.trunc(buffer.length / stride)); } public buffer: T; public length: number; public readonly stride: number; public readonly ArrayType: ArrayCtor; public readonly BYTES_PER_ELEMENT: number; public get byteLength() { return Math.trunc(this.length * this.stride * this.BYTES_PER_ELEMENT); } public get reservedLength() { return this.buffer.length / this.stride; } public get reservedByteLength() { return this.buffer.byteLength; } // @ts-ignore public set(index: number, value: TValue) { return this; } public append(value: TValue) { return this.set(this.length, value); } public reserve(extra: number) { if (extra > 0) { this.length += extra; const stride = this.stride; const length = this.length * stride; const reserved = this.buffer.length; if (length >= reserved) { this._resize(reserved === 0 ? roundLengthUpToNearest64Bytes(length * 1, this.BYTES_PER_ELEMENT) : roundLengthUpToNearest64Bytes(length * 2, this.BYTES_PER_ELEMENT) ); } } return this; } public flush(length = this.length) { length = roundLengthUpToNearest64Bytes(length * this.stride, this.BYTES_PER_ELEMENT); const array = sliceOrExtendArray(this.buffer, length); this.clear(); return array; } public clear() { this.length = 0; this._resize(0); return this; } protected _resize(newLength: number) { return this.buffer = memcpy(new this.ArrayType(newLength), this.buffer); } } (BufferBuilder.prototype as any).offset = 0; /** @ignore */ export class DataBufferBuilder extends BufferBuilder { public last() { return this.get(this.length - 1); } public get(index: number) { return this.buffer[index]; } public set(index: number, value: number) { this.reserve(index - this.length + 1); this.buffer[index * this.stride] = value; return this; } } /** @ignore */ export class BitmapBufferBuilder extends DataBufferBuilder { constructor(data = new Uint8Array(0)) { super(data, 1 / 8); } public numValid = 0; public get numInvalid() { return this.length - this.numValid; } public get(idx: number) { return this.buffer[idx >> 3] >> idx % 8 & 1; } public set(idx: number, val: number) { const { buffer } = this.reserve(idx - this.length + 1); const byte = idx >> 3, bit = idx % 8, cur = buffer[byte] >> bit & 1; // If `val` is truthy and the current bit is 0, flip it to 1 and increment `numValid`. // If `val` is falsey and the current bit is 1, flip it to 0 and decrement `numValid`. val ? cur === 0 && ((buffer[byte] |= (1 << bit)), ++this.numValid) : cur === 1 && ((buffer[byte] &= ~(1 << bit)), --this.numValid); return this; } public clear() { this.numValid = 0; return super.clear(); } } /** @ignore */ export class OffsetsBufferBuilder extends DataBufferBuilder { constructor(data = new Int32Array(1)) { super(data, 1); } public append(value: number) { return this.set(this.length - 1, value); } public set(index: number, value: number) { const offset = this.length - 1; const buffer = this.reserve(index - offset + 1).buffer; if (offset < index++) { buffer.fill(buffer[offset], offset, index); } buffer[index] = buffer[index - 1] + value; return this; } public flush(length = this.length - 1) { if (length > this.length) { this.set(length - 1, 0); } return super.flush(length + 1); } } // /** @ignore */ // export class WideBufferBuilder extends BufferBuilder> { // public buffer64!: R; // protected _ArrayType64!: BigIntArrayConstructor; // public get ArrayType64() { // return this._ArrayType64 || (this._ArrayType64 = > (this.buffer instanceof Int32Array ? BigInt64Array : BigUint64Array)); // } // public set(index: number, value: DataValue) { // this.reserve(index - this.length + 1); // switch (typeof value) { // case 'bigint': this.buffer64[index] = value; break; // case 'number': this.buffer[index * this.stride] = value; break; // default: this.buffer.set(value as TypedArray, index * this.stride); // } // return this; // } // protected _resize(newLength: number) { // const data = super._resize(newLength); // const length = data.byteLength / (this.BYTES_PER_ELEMENT * this.stride); // if (BigIntAvailable) { // this.buffer64 = new this.ArrayType64(data.buffer, data.byteOffset, length); // } // return data; // } // }