// Loaded from https://deno.land/std@0.83.0/io/bufio.ts // Copyright 2018-2020 the Deno authors. All rights reserved. MIT license. // Based on https://github.com/golang/go/blob/891682/src/bufio/bufio.go // Copyright 2009 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. type Reader = Deno.Reader; type Writer = Deno.Writer; type WriterSync = Deno.WriterSync; import { copy } from "../bytes/mod.ts"; import { assert } from "../_util/assert.ts"; const DEFAULT_BUF_SIZE = 4096; const MIN_BUF_SIZE = 16; const MAX_CONSECUTIVE_EMPTY_READS = 100; const CR = "\r".charCodeAt(0); const LF = "\n".charCodeAt(0); export class BufferFullError extends Error { name = "BufferFullError"; constructor(public partial: Uint8Array) { super("Buffer full"); } } export class PartialReadError extends Deno.errors.UnexpectedEof { name = "PartialReadError"; partial?: Uint8Array; constructor() { super("Encountered UnexpectedEof, data only partially read"); } } /** Result type returned by of BufReader.readLine(). */ export interface ReadLineResult { line: Uint8Array; more: boolean; } /** BufReader implements buffering for a Reader object. */ export class BufReader implements Reader { private buf!: Uint8Array; private rd!: Reader; // Reader provided by caller. private r = 0; // buf read position. private w = 0; // buf write position. private eof = false; // private lastByte: number; // private lastCharSize: number; /** return new BufReader unless r is BufReader */ static create(r: Reader, size: number = DEFAULT_BUF_SIZE): BufReader { return r instanceof BufReader ? r : new BufReader(r, size); } constructor(rd: Reader, size: number = DEFAULT_BUF_SIZE) { if (size < MIN_BUF_SIZE) { size = MIN_BUF_SIZE; } this._reset(new Uint8Array(size), rd); } /** Returns the size of the underlying buffer in bytes. */ size(): number { return this.buf.byteLength; } buffered(): number { return this.w - this.r; } // Reads a new chunk into the buffer. private async _fill(): Promise { // Slide existing data to beginning. if (this.r > 0) { this.buf.copyWithin(0, this.r, this.w); this.w -= this.r; this.r = 0; } if (this.w >= this.buf.byteLength) { throw Error("bufio: tried to fill full buffer"); } // Read new data: try a limited number of times. for (let i = MAX_CONSECUTIVE_EMPTY_READS; i > 0; i--) { const rr = await this.rd.read(this.buf.subarray(this.w)); if (rr === null) { this.eof = true; return; } assert(rr >= 0, "negative read"); this.w += rr; if (rr > 0) { return; } } throw new Error( `No progress after ${MAX_CONSECUTIVE_EMPTY_READS} read() calls`, ); } /** Discards any buffered data, resets all state, and switches * the buffered reader to read from r. */ reset(r: Reader): void { this._reset(this.buf, r); } private _reset(buf: Uint8Array, rd: Reader): void { this.buf = buf; this.rd = rd; this.eof = false; // this.lastByte = -1; // this.lastCharSize = -1; } /** reads data into p. * It returns the number of bytes read into p. * The bytes are taken from at most one Read on the underlying Reader, * hence n may be less than len(p). * To read exactly len(p) bytes, use io.ReadFull(b, p). */ async read(p: Uint8Array): Promise { let rr: number | null = p.byteLength; if (p.byteLength === 0) return rr; if (this.r === this.w) { if (p.byteLength >= this.buf.byteLength) { // Large read, empty buffer. // Read directly into p to avoid copy. const rr = await this.rd.read(p); const nread = rr ?? 0; assert(nread >= 0, "negative read"); // if (rr.nread > 0) { // this.lastByte = p[rr.nread - 1]; // this.lastCharSize = -1; // } return rr; } // One read. // Do not use this.fill, which will loop. this.r = 0; this.w = 0; rr = await this.rd.read(this.buf); if (rr === 0 || rr === null) return rr; assert(rr >= 0, "negative read"); this.w += rr; } // copy as much as we can const copied = copy(this.buf.subarray(this.r, this.w), p, 0); this.r += copied; // this.lastByte = this.buf[this.r - 1]; // this.lastCharSize = -1; return copied; } /** reads exactly `p.length` bytes into `p`. * * If successful, `p` is returned. * * If the end of the underlying stream has been reached, and there are no more * bytes available in the buffer, `readFull()` returns `null` instead. * * An error is thrown if some bytes could be read, but not enough to fill `p` * entirely before the underlying stream reported an error or EOF. Any error * thrown will have a `partial` property that indicates the slice of the * buffer that has been successfully filled with data. * * Ported from https://golang.org/pkg/io/#ReadFull */ async readFull(p: Uint8Array): Promise { let bytesRead = 0; while (bytesRead < p.length) { try { const rr = await this.read(p.subarray(bytesRead)); if (rr === null) { if (bytesRead === 0) { return null; } else { throw new PartialReadError(); } } bytesRead += rr; } catch (err) { err.partial = p.subarray(0, bytesRead); throw err; } } return p; } /** Returns the next byte [0, 255] or `null`. */ async readByte(): Promise { while (this.r === this.w) { if (this.eof) return null; await this._fill(); // buffer is empty. } const c = this.buf[this.r]; this.r++; // this.lastByte = c; return c; } /** readString() reads until the first occurrence of delim in the input, * returning a string containing the data up to and including the delimiter. * If ReadString encounters an error before finding a delimiter, * it returns the data read before the error and the error itself * (often `null`). * ReadString returns err != nil if and only if the returned data does not end * in delim. * For simple uses, a Scanner may be more convenient. */ async readString(delim: string): Promise { if (delim.length !== 1) { throw new Error("Delimiter should be a single character"); } const buffer = await this.readSlice(delim.charCodeAt(0)); if (buffer === null) return null; return new TextDecoder().decode(buffer); } /** `readLine()` is a low-level line-reading primitive. Most callers should * use `readString('\n')` instead or use a Scanner. * * `readLine()` tries to return a single line, not including the end-of-line * bytes. If the line was too long for the buffer then `more` is set and the * beginning of the line is returned. The rest of the line will be returned * from future calls. `more` will be false when returning the last fragment * of the line. The returned buffer is only valid until the next call to * `readLine()`. * * The text returned from ReadLine does not include the line end ("\r\n" or * "\n"). * * When the end of the underlying stream is reached, the final bytes in the * stream are returned. No indication or error is given if the input ends * without a final line end. When there are no more trailing bytes to read, * `readLine()` returns `null`. * * Calling `unreadByte()` after `readLine()` will always unread the last byte * read (possibly a character belonging to the line end) even if that byte is * not part of the line returned by `readLine()`. */ async readLine(): Promise { let line: Uint8Array | null; try { line = await this.readSlice(LF); } catch (err) { let { partial } = err; assert( partial instanceof Uint8Array, "bufio: caught error from `readSlice()` without `partial` property", ); // Don't throw if `readSlice()` failed with `BufferFullError`, instead we // just return whatever is available and set the `more` flag. if (!(err instanceof BufferFullError)) { throw err; } // Handle the case where "\r\n" straddles the buffer. if ( !this.eof && partial.byteLength > 0 && partial[partial.byteLength - 1] === CR ) { // Put the '\r' back on buf and drop it from line. // Let the next call to ReadLine check for "\r\n". assert(this.r > 0, "bufio: tried to rewind past start of buffer"); this.r--; partial = partial.subarray(0, partial.byteLength - 1); } return { line: partial, more: !this.eof }; } if (line === null) { return null; } if (line.byteLength === 0) { return { line, more: false }; } if (line[line.byteLength - 1] == LF) { let drop = 1; if (line.byteLength > 1 && line[line.byteLength - 2] === CR) { drop = 2; } line = line.subarray(0, line.byteLength - drop); } return { line, more: false }; } /** `readSlice()` reads until the first occurrence of `delim` in the input, * returning a slice pointing at the bytes in the buffer. The bytes stop * being valid at the next read. * * If `readSlice()` encounters an error before finding a delimiter, or the * buffer fills without finding a delimiter, it throws an error with a * `partial` property that contains the entire buffer. * * If `readSlice()` encounters the end of the underlying stream and there are * any bytes left in the buffer, the rest of the buffer is returned. In other * words, EOF is always treated as a delimiter. Once the buffer is empty, * it returns `null`. * * Because the data returned from `readSlice()` will be overwritten by the * next I/O operation, most clients should use `readString()` instead. */ async readSlice(delim: number): Promise { let s = 0; // search start index let slice: Uint8Array | undefined; while (true) { // Search buffer. let i = this.buf.subarray(this.r + s, this.w).indexOf(delim); if (i >= 0) { i += s; slice = this.buf.subarray(this.r, this.r + i + 1); this.r += i + 1; break; } // EOF? if (this.eof) { if (this.r === this.w) { return null; } slice = this.buf.subarray(this.r, this.w); this.r = this.w; break; } // Buffer full? if (this.buffered() >= this.buf.byteLength) { this.r = this.w; // #4521 The internal buffer should not be reused across reads because it causes corruption of data. const oldbuf = this.buf; const newbuf = this.buf.slice(0); this.buf = newbuf; throw new BufferFullError(oldbuf); } s = this.w - this.r; // do not rescan area we scanned before // Buffer is not full. try { await this._fill(); } catch (err) { err.partial = slice; throw err; } } // Handle last byte, if any. // const i = slice.byteLength - 1; // if (i >= 0) { // this.lastByte = slice[i]; // this.lastCharSize = -1 // } return slice; } /** `peek()` returns the next `n` bytes without advancing the reader. The * bytes stop being valid at the next read call. * * When the end of the underlying stream is reached, but there are unread * bytes left in the buffer, those bytes are returned. If there are no bytes * left in the buffer, it returns `null`. * * If an error is encountered before `n` bytes are available, `peek()` throws * an error with the `partial` property set to a slice of the buffer that * contains the bytes that were available before the error occurred. */ async peek(n: number): Promise { if (n < 0) { throw Error("negative count"); } let avail = this.w - this.r; while (avail < n && avail < this.buf.byteLength && !this.eof) { try { await this._fill(); } catch (err) { err.partial = this.buf.subarray(this.r, this.w); throw err; } avail = this.w - this.r; } if (avail === 0 && this.eof) { return null; } else if (avail < n && this.eof) { return this.buf.subarray(this.r, this.r + avail); } else if (avail < n) { throw new BufferFullError(this.buf.subarray(this.r, this.w)); } return this.buf.subarray(this.r, this.r + n); } } abstract class AbstractBufBase { buf!: Uint8Array; usedBufferBytes = 0; err: Error | null = null; /** Size returns the size of the underlying buffer in bytes. */ size(): number { return this.buf.byteLength; } /** Returns how many bytes are unused in the buffer. */ available(): number { return this.buf.byteLength - this.usedBufferBytes; } /** buffered returns the number of bytes that have been written into the * current buffer. */ buffered(): number { return this.usedBufferBytes; } } /** BufWriter implements buffering for an deno.Writer object. * If an error occurs writing to a Writer, no more data will be * accepted and all subsequent writes, and flush(), will return the error. * After all data has been written, the client should call the * flush() method to guarantee all data has been forwarded to * the underlying deno.Writer. */ export class BufWriter extends AbstractBufBase implements Writer { /** return new BufWriter unless writer is BufWriter */ static create(writer: Writer, size: number = DEFAULT_BUF_SIZE): BufWriter { return writer instanceof BufWriter ? writer : new BufWriter(writer, size); } constructor(private writer: Writer, size: number = DEFAULT_BUF_SIZE) { super(); if (size <= 0) { size = DEFAULT_BUF_SIZE; } this.buf = new Uint8Array(size); } /** Discards any unflushed buffered data, clears any error, and * resets buffer to write its output to w. */ reset(w: Writer): void { this.err = null; this.usedBufferBytes = 0; this.writer = w; } /** Flush writes any buffered data to the underlying io.Writer. */ async flush(): Promise { if (this.err !== null) throw this.err; if (this.usedBufferBytes === 0) return; try { await Deno.writeAll( this.writer, this.buf.subarray(0, this.usedBufferBytes), ); } catch (e) { this.err = e; throw e; } this.buf = new Uint8Array(this.buf.length); this.usedBufferBytes = 0; } /** Writes the contents of `data` into the buffer. If the contents won't fully * fit into the buffer, those bytes that can are copied into the buffer, the * buffer is the flushed to the writer and the remaining bytes are copied into * the now empty buffer. * * @return the number of bytes written to the buffer. */ async write(data: Uint8Array): Promise { if (this.err !== null) throw this.err; if (data.length === 0) return 0; let totalBytesWritten = 0; let numBytesWritten = 0; while (data.byteLength > this.available()) { if (this.buffered() === 0) { // Large write, empty buffer. // Write directly from data to avoid copy. try { numBytesWritten = await this.writer.write(data); } catch (e) { this.err = e; throw e; } } else { numBytesWritten = copy(data, this.buf, this.usedBufferBytes); this.usedBufferBytes += numBytesWritten; await this.flush(); } totalBytesWritten += numBytesWritten; data = data.subarray(numBytesWritten); } numBytesWritten = copy(data, this.buf, this.usedBufferBytes); this.usedBufferBytes += numBytesWritten; totalBytesWritten += numBytesWritten; return totalBytesWritten; } } /** BufWriterSync implements buffering for a deno.WriterSync object. * If an error occurs writing to a WriterSync, no more data will be * accepted and all subsequent writes, and flush(), will return the error. * After all data has been written, the client should call the * flush() method to guarantee all data has been forwarded to * the underlying deno.WriterSync. */ export class BufWriterSync extends AbstractBufBase implements WriterSync { /** return new BufWriterSync unless writer is BufWriterSync */ static create( writer: WriterSync, size: number = DEFAULT_BUF_SIZE, ): BufWriterSync { return writer instanceof BufWriterSync ? writer : new BufWriterSync(writer, size); } constructor(private writer: WriterSync, size: number = DEFAULT_BUF_SIZE) { super(); if (size <= 0) { size = DEFAULT_BUF_SIZE; } this.buf = new Uint8Array(size); } /** Discards any unflushed buffered data, clears any error, and * resets buffer to write its output to w. */ reset(w: WriterSync): void { this.err = null; this.usedBufferBytes = 0; this.writer = w; } /** Flush writes any buffered data to the underlying io.WriterSync. */ flush(): void { if (this.err !== null) throw this.err; if (this.usedBufferBytes === 0) return; try { Deno.writeAllSync( this.writer, this.buf.subarray(0, this.usedBufferBytes), ); } catch (e) { this.err = e; throw e; } this.buf = new Uint8Array(this.buf.length); this.usedBufferBytes = 0; } /** Writes the contents of `data` into the buffer. If the contents won't fully * fit into the buffer, those bytes that can are copied into the buffer, the * buffer is the flushed to the writer and the remaining bytes are copied into * the now empty buffer. * * @return the number of bytes written to the buffer. */ writeSync(data: Uint8Array): number { if (this.err !== null) throw this.err; if (data.length === 0) return 0; let totalBytesWritten = 0; let numBytesWritten = 0; while (data.byteLength > this.available()) { if (this.buffered() === 0) { // Large write, empty buffer. // Write directly from data to avoid copy. try { numBytesWritten = this.writer.writeSync(data); } catch (e) { this.err = e; throw e; } } else { numBytesWritten = copy(data, this.buf, this.usedBufferBytes); this.usedBufferBytes += numBytesWritten; this.flush(); } totalBytesWritten += numBytesWritten; data = data.subarray(numBytesWritten); } numBytesWritten = copy(data, this.buf, this.usedBufferBytes); this.usedBufferBytes += numBytesWritten; totalBytesWritten += numBytesWritten; return totalBytesWritten; } } /** Generate longest proper prefix which is also suffix array. */ function createLPS(pat: Uint8Array): Uint8Array { const lps = new Uint8Array(pat.length); lps[0] = 0; let prefixEnd = 0; let i = 1; while (i < lps.length) { if (pat[i] == pat[prefixEnd]) { prefixEnd++; lps[i] = prefixEnd; i++; } else if (prefixEnd === 0) { lps[i] = 0; i++; } else { prefixEnd = pat[prefixEnd - 1]; } } return lps; } /** Read delimited bytes from a Reader. */ export async function* readDelim( reader: Reader, delim: Uint8Array, ): AsyncIterableIterator { // Avoid unicode problems const delimLen = delim.length; const delimLPS = createLPS(delim); let inputBuffer = new Deno.Buffer(); const inspectArr = new Uint8Array(Math.max(1024, delimLen + 1)); // Modified KMP let inspectIndex = 0; let matchIndex = 0; while (true) { const result = await reader.read(inspectArr); if (result === null) { // Yield last chunk. yield inputBuffer.bytes(); return; } if ((result as number) < 0) { // Discard all remaining and silently fail. return; } const sliceRead = inspectArr.subarray(0, result as number); await Deno.writeAll(inputBuffer, sliceRead); let sliceToProcess = inputBuffer.bytes(); while (inspectIndex < sliceToProcess.length) { if (sliceToProcess[inspectIndex] === delim[matchIndex]) { inspectIndex++; matchIndex++; if (matchIndex === delimLen) { // Full match const matchEnd = inspectIndex - delimLen; const readyBytes = sliceToProcess.subarray(0, matchEnd); // Copy const pendingBytes = sliceToProcess.slice(inspectIndex); yield readyBytes; // Reset match, different from KMP. sliceToProcess = pendingBytes; inspectIndex = 0; matchIndex = 0; } } else { if (matchIndex === 0) { inspectIndex++; } else { matchIndex = delimLPS[matchIndex - 1]; } } } // Keep inspectIndex and matchIndex. inputBuffer = new Deno.Buffer(sliceToProcess); } } /** Read delimited strings from a Reader. */ export async function* readStringDelim( reader: Reader, delim: string, ): AsyncIterableIterator { const encoder = new TextEncoder(); const decoder = new TextDecoder(); for await (const chunk of readDelim(reader, encoder.encode(delim))) { yield decoder.decode(chunk); } } /** Read strings line-by-line from a Reader. */ export async function* readLines( reader: Reader, ): AsyncIterableIterator { for await (let chunk of readStringDelim(reader, "\n")) { // Finding a CR at the end of the line is evidence of a // "\r\n" at the end of the line. The "\r" part should be // removed too. if (chunk.endsWith("\r")) { chunk = chunk.slice(0, -1); } yield chunk; } }