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const { EventEmitter } = require('events')
const STREAM_DESTROYED = new Error('Stream was destroyed')
const PREMATURE_CLOSE = new Error('Premature close')

const queueTick = require('queue-tick')
const FIFO = require('fast-fifo')
const TextDecoder = require('text-decoder')

/* eslint-disable no-multi-spaces */

// 29 bits used total (4 from shared, 14 from read, and 11 from write)
const MAX = ((1 << 29) - 1)

// Shared state
const OPENING       = 0b0001
const PREDESTROYING = 0b0010
const DESTROYING    = 0b0100
const DESTROYED     = 0b1000

const NOT_OPENING = MAX ^ OPENING
const NOT_PREDESTROYING = MAX ^ PREDESTROYING

// Read state (4 bit offset from shared state)
const READ_ACTIVE           = 0b00000000000001 << 4
const READ_UPDATING         = 0b00000000000010 << 4
const READ_PRIMARY          = 0b00000000000100 << 4
const READ_QUEUED           = 0b00000000001000 << 4
const READ_RESUMED          = 0b00000000010000 << 4
const READ_PIPE_DRAINED     = 0b00000000100000 << 4
const READ_ENDING           = 0b00000001000000 << 4
const READ_EMIT_DATA        = 0b00000010000000 << 4
const READ_EMIT_READABLE    = 0b00000100000000 << 4
const READ_EMITTED_READABLE = 0b00001000000000 << 4
const READ_DONE             = 0b00010000000000 << 4
const READ_NEXT_TICK        = 0b00100000000000 << 4
const READ_NEEDS_PUSH       = 0b01000000000000 << 4
const READ_READ_AHEAD       = 0b10000000000000 << 4

// Combined read state
const READ_FLOWING = READ_RESUMED | READ_PIPE_DRAINED
const READ_ACTIVE_AND_NEEDS_PUSH = READ_ACTIVE | READ_NEEDS_PUSH
const READ_PRIMARY_AND_ACTIVE = READ_PRIMARY | READ_ACTIVE
const READ_EMIT_READABLE_AND_QUEUED = READ_EMIT_READABLE | READ_QUEUED
const READ_RESUMED_READ_AHEAD = READ_RESUMED | READ_READ_AHEAD

const READ_NOT_ACTIVE             = MAX ^ READ_ACTIVE
const READ_NON_PRIMARY            = MAX ^ READ_PRIMARY
const READ_NON_PRIMARY_AND_PUSHED = MAX ^ (READ_PRIMARY | READ_NEEDS_PUSH)
const READ_PUSHED                 = MAX ^ READ_NEEDS_PUSH
const READ_PAUSED                 = MAX ^ READ_RESUMED
const READ_NOT_QUEUED             = MAX ^ (READ_QUEUED | READ_EMITTED_READABLE)
const READ_NOT_ENDING             = MAX ^ READ_ENDING
const READ_PIPE_NOT_DRAINED       = MAX ^ READ_FLOWING
const READ_NOT_NEXT_TICK          = MAX ^ READ_NEXT_TICK
const READ_NOT_UPDATING           = MAX ^ READ_UPDATING
const READ_NO_READ_AHEAD          = MAX ^ READ_READ_AHEAD
const READ_PAUSED_NO_READ_AHEAD   = MAX ^ READ_RESUMED_READ_AHEAD

// Write state (18 bit offset, 4 bit offset from shared state and 14 from read state)
const WRITE_ACTIVE     = 0b00000000001 << 18
const WRITE_UPDATING   = 0b00000000010 << 18
const WRITE_PRIMARY    = 0b00000000100 << 18
const WRITE_QUEUED     = 0b00000001000 << 18
const WRITE_UNDRAINED  = 0b00000010000 << 18
const WRITE_DONE       = 0b00000100000 << 18
const WRITE_EMIT_DRAIN = 0b00001000000 << 18
const WRITE_NEXT_TICK  = 0b00010000000 << 18
const WRITE_WRITING    = 0b00100000000 << 18
const WRITE_FINISHING  = 0b01000000000 << 18
const WRITE_CORKED     = 0b10000000000 << 18

const WRITE_NOT_ACTIVE    = MAX ^ (WRITE_ACTIVE | WRITE_WRITING)
const WRITE_NON_PRIMARY   = MAX ^ WRITE_PRIMARY
const WRITE_NOT_FINISHING = MAX ^ (WRITE_ACTIVE | WRITE_FINISHING)
const WRITE_DRAINED       = MAX ^ WRITE_UNDRAINED
const WRITE_NOT_QUEUED    = MAX ^ WRITE_QUEUED
const WRITE_NOT_NEXT_TICK = MAX ^ WRITE_NEXT_TICK
const WRITE_NOT_UPDATING  = MAX ^ WRITE_UPDATING
const WRITE_NOT_CORKED    = MAX ^ WRITE_CORKED

// Combined shared state
const ACTIVE = READ_ACTIVE | WRITE_ACTIVE
const NOT_ACTIVE = MAX ^ ACTIVE
const DONE = READ_DONE | WRITE_DONE
const DESTROY_STATUS = DESTROYING | DESTROYED | PREDESTROYING
const OPEN_STATUS = DESTROY_STATUS | OPENING
const AUTO_DESTROY = DESTROY_STATUS | DONE
const NON_PRIMARY = WRITE_NON_PRIMARY & READ_NON_PRIMARY
const ACTIVE_OR_TICKING = WRITE_NEXT_TICK | READ_NEXT_TICK
const TICKING = ACTIVE_OR_TICKING & NOT_ACTIVE
const IS_OPENING = OPEN_STATUS | TICKING

// Combined shared state and read state
const READ_PRIMARY_STATUS = OPEN_STATUS | READ_ENDING | READ_DONE
const READ_STATUS = OPEN_STATUS | READ_DONE | READ_QUEUED
const READ_ENDING_STATUS = OPEN_STATUS | READ_ENDING | READ_QUEUED
const READ_READABLE_STATUS = OPEN_STATUS | READ_EMIT_READABLE | READ_QUEUED | READ_EMITTED_READABLE
const SHOULD_NOT_READ = OPEN_STATUS | READ_ACTIVE | READ_ENDING | READ_DONE | READ_NEEDS_PUSH | READ_READ_AHEAD
const READ_BACKPRESSURE_STATUS = DESTROY_STATUS | READ_ENDING | READ_DONE
const READ_UPDATE_SYNC_STATUS = READ_UPDATING | OPEN_STATUS | READ_NEXT_TICK | READ_PRIMARY
const READ_NEXT_TICK_OR_OPENING = READ_NEXT_TICK | OPENING

// Combined write state
const WRITE_PRIMARY_STATUS = OPEN_STATUS | WRITE_FINISHING | WRITE_DONE
const WRITE_QUEUED_AND_UNDRAINED = WRITE_QUEUED | WRITE_UNDRAINED
const WRITE_QUEUED_AND_ACTIVE = WRITE_QUEUED | WRITE_ACTIVE
const WRITE_DRAIN_STATUS = WRITE_QUEUED | WRITE_UNDRAINED | OPEN_STATUS | WRITE_ACTIVE
const WRITE_STATUS = OPEN_STATUS | WRITE_ACTIVE | WRITE_QUEUED | WRITE_CORKED
const WRITE_PRIMARY_AND_ACTIVE = WRITE_PRIMARY | WRITE_ACTIVE
const WRITE_ACTIVE_AND_WRITING = WRITE_ACTIVE | WRITE_WRITING
const WRITE_FINISHING_STATUS = OPEN_STATUS | WRITE_FINISHING | WRITE_QUEUED_AND_ACTIVE | WRITE_DONE
const WRITE_BACKPRESSURE_STATUS = WRITE_UNDRAINED | DESTROY_STATUS | WRITE_FINISHING | WRITE_DONE
const WRITE_UPDATE_SYNC_STATUS = WRITE_UPDATING | OPEN_STATUS | WRITE_NEXT_TICK | WRITE_PRIMARY
const WRITE_DROP_DATA = WRITE_FINISHING | WRITE_DONE | DESTROY_STATUS

const asyncIterator = Symbol.asyncIterator || Symbol('asyncIterator')

class WritableState {
  constructor (stream, { highWaterMark = 16384, map = null, mapWritable, byteLength, byteLengthWritable } = {}) {
    this.stream = stream
    this.queue = new FIFO()
    this.highWaterMark = highWaterMark
    this.buffered = 0
    this.error = null
    this.pipeline = null
    this.drains = null // if we add more seldomly used helpers we might them into a subobject so its a single ptr
    this.byteLength = byteLengthWritable || byteLength || defaultByteLength
    this.map = mapWritable || map
    this.afterWrite = afterWrite.bind(this)
    this.afterUpdateNextTick = updateWriteNT.bind(this)
  }

  get ended () {
    return (this.stream._duplexState & WRITE_DONE) !== 0
  }

  push (data) {
    if ((this.stream._duplexState & WRITE_DROP_DATA) !== 0) return false
    if (this.map !== null) data = this.map(data)

    this.buffered += this.byteLength(data)
    this.queue.push(data)

    if (this.buffered < this.highWaterMark) {
      this.stream._duplexState |= WRITE_QUEUED
      return true
    }

    this.stream._duplexState |= WRITE_QUEUED_AND_UNDRAINED
    return false
  }

  shift () {
    const data = this.queue.shift()

    this.buffered -= this.byteLength(data)
    if (this.buffered === 0) this.stream._duplexState &= WRITE_NOT_QUEUED

    return data
  }

  end (data) {
    if (typeof data === 'function') this.stream.once('finish', data)
    else if (data !== undefined && data !== null) this.push(data)
    this.stream._duplexState = (this.stream._duplexState | WRITE_FINISHING) & WRITE_NON_PRIMARY
  }

  autoBatch (data, cb) {
    const buffer = []
    const stream = this.stream

    buffer.push(data)
    while ((stream._duplexState & WRITE_STATUS) === WRITE_QUEUED_AND_ACTIVE) {
      buffer.push(stream._writableState.shift())
    }

    if ((stream._duplexState & OPEN_STATUS) !== 0) return cb(null)
    stream._writev(buffer, cb)
  }

  update () {
    const stream = this.stream

    stream._duplexState |= WRITE_UPDATING

    do {
      while ((stream._duplexState & WRITE_STATUS) === WRITE_QUEUED) {
        const data = this.shift()
        stream._duplexState |= WRITE_ACTIVE_AND_WRITING
        stream._write(data, this.afterWrite)
      }

      if ((stream._duplexState & WRITE_PRIMARY_AND_ACTIVE) === 0) this.updateNonPrimary()
    } while (this.continueUpdate() === true)

    stream._duplexState &= WRITE_NOT_UPDATING
  }

  updateNonPrimary () {
    const stream = this.stream

    if ((stream._duplexState & WRITE_FINISHING_STATUS) === WRITE_FINISHING) {
      stream._duplexState = stream._duplexState | WRITE_ACTIVE
      stream._final(afterFinal.bind(this))
      return
    }

    if ((stream._duplexState & DESTROY_STATUS) === DESTROYING) {
      if ((stream._duplexState & ACTIVE_OR_TICKING) === 0) {
        stream._duplexState |= ACTIVE
        stream._destroy(afterDestroy.bind(this))
      }
      return
    }

    if ((stream._duplexState & IS_OPENING) === OPENING) {
      stream._duplexState = (stream._duplexState | ACTIVE) & NOT_OPENING
      stream._open(afterOpen.bind(this))
    }
  }

  continueUpdate () {
    if ((this.stream._duplexState & WRITE_NEXT_TICK) === 0) return false
    this.stream._duplexState &= WRITE_NOT_NEXT_TICK
    return true
  }

  updateCallback () {
    if ((this.stream._duplexState & WRITE_UPDATE_SYNC_STATUS) === WRITE_PRIMARY) this.update()
    else this.updateNextTick()
  }

  updateNextTick () {
    if ((this.stream._duplexState & WRITE_NEXT_TICK) !== 0) return
    this.stream._duplexState |= WRITE_NEXT_TICK
    if ((this.stream._duplexState & WRITE_UPDATING) === 0) queueTick(this.afterUpdateNextTick)
  }
}

class ReadableState {
  constructor (stream, { highWaterMark = 16384, map = null, mapReadable, byteLength, byteLengthReadable } = {}) {
    this.stream = stream
    this.queue = new FIFO()
    this.highWaterMark = highWaterMark === 0 ? 1 : highWaterMark
    this.buffered = 0
    this.readAhead = highWaterMark > 0
    this.error = null
    this.pipeline = null
    this.byteLength = byteLengthReadable || byteLength || defaultByteLength
    this.map = mapReadable || map
    this.pipeTo = null
    this.afterRead = afterRead.bind(this)
    this.afterUpdateNextTick = updateReadNT.bind(this)
  }

  get ended () {
    return (this.stream._duplexState & READ_DONE) !== 0
  }

  pipe (pipeTo, cb) {
    if (this.pipeTo !== null) throw new Error('Can only pipe to one destination')
    if (typeof cb !== 'function') cb = null

    this.stream._duplexState |= READ_PIPE_DRAINED
    this.pipeTo = pipeTo
    this.pipeline = new Pipeline(this.stream, pipeTo, cb)

    if (cb) this.stream.on('error', noop) // We already error handle this so supress crashes

    if (isStreamx(pipeTo)) {
      pipeTo._writableState.pipeline = this.pipeline
      if (cb) pipeTo.on('error', noop) // We already error handle this so supress crashes
      pipeTo.on('finish', this.pipeline.finished.bind(this.pipeline)) // TODO: just call finished from pipeTo itself
    } else {
      const onerror = this.pipeline.done.bind(this.pipeline, pipeTo)
      const onclose = this.pipeline.done.bind(this.pipeline, pipeTo, null) // onclose has a weird bool arg
      pipeTo.on('error', onerror)
      pipeTo.on('close', onclose)
      pipeTo.on('finish', this.pipeline.finished.bind(this.pipeline))
    }

    pipeTo.on('drain', afterDrain.bind(this))
    this.stream.emit('piping', pipeTo)
    pipeTo.emit('pipe', this.stream)
  }

  push (data) {
    const stream = this.stream

    if (data === null) {
      this.highWaterMark = 0
      stream._duplexState = (stream._duplexState | READ_ENDING) & READ_NON_PRIMARY_AND_PUSHED
      return false
    }

    if (this.map !== null) {
      data = this.map(data)
      if (data === null) {
        stream._duplexState &= READ_PUSHED
        return this.buffered < this.highWaterMark
      }
    }

    this.buffered += this.byteLength(data)
    this.queue.push(data)

    stream._duplexState = (stream._duplexState | READ_QUEUED) & READ_PUSHED

    return this.buffered < this.highWaterMark
  }

  shift () {
    const data = this.queue.shift()

    this.buffered -= this.byteLength(data)
    if (this.buffered === 0) this.stream._duplexState &= READ_NOT_QUEUED
    return data
  }

  unshift (data) {
    const pending = [this.map !== null ? this.map(data) : data]
    while (this.buffered > 0) pending.push(this.shift())

    for (let i = 0; i < pending.length - 1; i++) {
      const data = pending[i]
      this.buffered += this.byteLength(data)
      this.queue.push(data)
    }

    this.push(pending[pending.length - 1])
  }

  read () {
    const stream = this.stream

    if ((stream._duplexState & READ_STATUS) === READ_QUEUED) {
      const data = this.shift()
      if (this.pipeTo !== null && this.pipeTo.write(data) === false) stream._duplexState &= READ_PIPE_NOT_DRAINED
      if ((stream._duplexState & READ_EMIT_DATA) !== 0) stream.emit('data', data)
      return data
    }

    if (this.readAhead === false) {
      stream._duplexState |= READ_READ_AHEAD
      this.updateNextTick()
    }

    return null
  }

  drain () {
    const stream = this.stream

    while ((stream._duplexState & READ_STATUS) === READ_QUEUED && (stream._duplexState & READ_FLOWING) !== 0) {
      const data = this.shift()
      if (this.pipeTo !== null && this.pipeTo.write(data) === false) stream._duplexState &= READ_PIPE_NOT_DRAINED
      if ((stream._duplexState & READ_EMIT_DATA) !== 0) stream.emit('data', data)
    }
  }

  update () {
    const stream = this.stream

    stream._duplexState |= READ_UPDATING

    do {
      this.drain()

      while (this.buffered < this.highWaterMark && (stream._duplexState & SHOULD_NOT_READ) === READ_READ_AHEAD) {
        stream._duplexState |= READ_ACTIVE_AND_NEEDS_PUSH
        stream._read(this.afterRead)
        this.drain()
      }

      if ((stream._duplexState & READ_READABLE_STATUS) === READ_EMIT_READABLE_AND_QUEUED) {
        stream._duplexState |= READ_EMITTED_READABLE
        stream.emit('readable')
      }

      if ((stream._duplexState & READ_PRIMARY_AND_ACTIVE) === 0) this.updateNonPrimary()
    } while (this.continueUpdate() === true)

    stream._duplexState &= READ_NOT_UPDATING
  }

  updateNonPrimary () {
    const stream = this.stream

    if ((stream._duplexState & READ_ENDING_STATUS) === READ_ENDING) {
      stream._duplexState = (stream._duplexState | READ_DONE) & READ_NOT_ENDING
      stream.emit('end')
      if ((stream._duplexState & AUTO_DESTROY) === DONE) stream._duplexState |= DESTROYING
      if (this.pipeTo !== null) this.pipeTo.end()
    }

    if ((stream._duplexState & DESTROY_STATUS) === DESTROYING) {
      if ((stream._duplexState & ACTIVE_OR_TICKING) === 0) {
        stream._duplexState |= ACTIVE
        stream._destroy(afterDestroy.bind(this))
      }
      return
    }

    if ((stream._duplexState & IS_OPENING) === OPENING) {
      stream._duplexState = (stream._duplexState | ACTIVE) & NOT_OPENING
      stream._open(afterOpen.bind(this))
    }
  }

  continueUpdate () {
    if ((this.stream._duplexState & READ_NEXT_TICK) === 0) return false
    this.stream._duplexState &= READ_NOT_NEXT_TICK
    return true
  }

  updateCallback () {
    if ((this.stream._duplexState & READ_UPDATE_SYNC_STATUS) === READ_PRIMARY) this.update()
    else this.updateNextTick()
  }

  updateNextTickIfOpen () {
    if ((this.stream._duplexState & READ_NEXT_TICK_OR_OPENING) !== 0) return
    this.stream._duplexState |= READ_NEXT_TICK
    if ((this.stream._duplexState & READ_UPDATING) === 0) queueTick(this.afterUpdateNextTick)
  }

  updateNextTick () {
    if ((this.stream._duplexState & READ_NEXT_TICK) !== 0) return
    this.stream._duplexState |= READ_NEXT_TICK
    if ((this.stream._duplexState & READ_UPDATING) === 0) queueTick(this.afterUpdateNextTick)
  }
}

class TransformState {
  constructor (stream) {
    this.data = null
    this.afterTransform = afterTransform.bind(stream)
    this.afterFinal = null
  }
}

class Pipeline {
  constructor (src, dst, cb) {
    this.from = src
    this.to = dst
    this.afterPipe = cb
    this.error = null
    this.pipeToFinished = false
  }

  finished () {
    this.pipeToFinished = true
  }

  done (stream, err) {
    if (err) this.error = err

    if (stream === this.to) {
      this.to = null

      if (this.from !== null) {
        if ((this.from._duplexState & READ_DONE) === 0 || !this.pipeToFinished) {
          this.from.destroy(this.error || new Error('Writable stream closed prematurely'))
        }
        return
      }
    }

    if (stream === this.from) {
      this.from = null

      if (this.to !== null) {
        if ((stream._duplexState & READ_DONE) === 0) {
          this.to.destroy(this.error || new Error('Readable stream closed before ending'))
        }
        return
      }
    }

    if (this.afterPipe !== null) this.afterPipe(this.error)
    this.to = this.from = this.afterPipe = null
  }
}

function afterDrain () {
  this.stream._duplexState |= READ_PIPE_DRAINED
  this.updateCallback()
}

function afterFinal (err) {
  const stream = this.stream
  if (err) stream.destroy(err)
  if ((stream._duplexState & DESTROY_STATUS) === 0) {
    stream._duplexState |= WRITE_DONE
    stream.emit('finish')
  }
  if ((stream._duplexState & AUTO_DESTROY) === DONE) {
    stream._duplexState |= DESTROYING
  }

  stream._duplexState &= WRITE_NOT_FINISHING

  // no need to wait the extra tick here, so we short circuit that
  if ((stream._duplexState & WRITE_UPDATING) === 0) this.update()
  else this.updateNextTick()
}

function afterDestroy (err) {
  const stream = this.stream

  if (!err && this.error !== STREAM_DESTROYED) err = this.error
  if (err) stream.emit('error', err)
  stream._duplexState |= DESTROYED
  stream.emit('close')

  const rs = stream._readableState
  const ws = stream._writableState

  if (rs !== null && rs.pipeline !== null) rs.pipeline.done(stream, err)

  if (ws !== null) {
    while (ws.drains !== null && ws.drains.length > 0) ws.drains.shift().resolve(false)
    if (ws.pipeline !== null) ws.pipeline.done(stream, err)
  }
}

function afterWrite (err) {
  const stream = this.stream

  if (err) stream.destroy(err)
  stream._duplexState &= WRITE_NOT_ACTIVE

  if (this.drains !== null) tickDrains(this.drains)

  if ((stream._duplexState & WRITE_DRAIN_STATUS) === WRITE_UNDRAINED) {
    stream._duplexState &= WRITE_DRAINED
    if ((stream._duplexState & WRITE_EMIT_DRAIN) === WRITE_EMIT_DRAIN) {
      stream.emit('drain')
    }
  }

  this.updateCallback()
}

function afterRead (err) {
  if (err) this.stream.destroy(err)
  this.stream._duplexState &= READ_NOT_ACTIVE
  if (this.readAhead === false && (this.stream._duplexState & READ_RESUMED) === 0) this.stream._duplexState &= READ_NO_READ_AHEAD
  this.updateCallback()
}

function updateReadNT () {
  if ((this.stream._duplexState & READ_UPDATING) === 0) {
    this.stream._duplexState &= READ_NOT_NEXT_TICK
    this.update()
  }
}

function updateWriteNT () {
  if ((this.stream._duplexState & WRITE_UPDATING) === 0) {
    this.stream._duplexState &= WRITE_NOT_NEXT_TICK
    this.update()
  }
}

function tickDrains (drains) {
  for (let i = 0; i < drains.length; i++) {
    // drains.writes are monotonic, so if one is 0 its always the first one
    if (--drains[i].writes === 0) {
      drains.shift().resolve(true)
      i--
    }
  }
}

function afterOpen (err) {
  const stream = this.stream

  if (err) stream.destroy(err)

  if ((stream._duplexState & DESTROYING) === 0) {
    if ((stream._duplexState & READ_PRIMARY_STATUS) === 0) stream._duplexState |= READ_PRIMARY
    if ((stream._duplexState & WRITE_PRIMARY_STATUS) === 0) stream._duplexState |= WRITE_PRIMARY
    stream.emit('open')
  }

  stream._duplexState &= NOT_ACTIVE

  if (stream._writableState !== null) {
    stream._writableState.updateCallback()
  }

  if (stream._readableState !== null) {
    stream._readableState.updateCallback()
  }
}

function afterTransform (err, data) {
  if (data !== undefined && data !== null) this.push(data)
  this._writableState.afterWrite(err)
}

function newListener (name) {
  if (this._readableState !== null) {
    if (name === 'data') {
      this._duplexState |= (READ_EMIT_DATA | READ_RESUMED_READ_AHEAD)
      this._readableState.updateNextTick()
    }
    if (name === 'readable') {
      this._duplexState |= READ_EMIT_READABLE
      this._readableState.updateNextTick()
    }
  }

  if (this._writableState !== null) {
    if (name === 'drain') {
      this._duplexState |= WRITE_EMIT_DRAIN
      this._writableState.updateNextTick()
    }
  }
}

class Stream extends EventEmitter {
  constructor (opts) {
    super()

    this._duplexState = 0
    this._readableState = null
    this._writableState = null

    if (opts) {
      if (opts.open) this._open = opts.open
      if (opts.destroy) this._destroy = opts.destroy
      if (opts.predestroy) this._predestroy = opts.predestroy
      if (opts.signal) {
        opts.signal.addEventListener('abort', abort.bind(this))
      }
    }

    this.on('newListener', newListener)
  }

  _open (cb) {
    cb(null)
  }

  _destroy (cb) {
    cb(null)
  }

  _predestroy () {
    // does nothing
  }

  get readable () {
    return this._readableState !== null ? true : undefined
  }

  get writable () {
    return this._writableState !== null ? true : undefined
  }

  get destroyed () {
    return (this._duplexState & DESTROYED) !== 0
  }

  get destroying () {
    return (this._duplexState & DESTROY_STATUS) !== 0
  }

  destroy (err) {
    if ((this._duplexState & DESTROY_STATUS) === 0) {
      if (!err) err = STREAM_DESTROYED
      this._duplexState = (this._duplexState | DESTROYING) & NON_PRIMARY

      if (this._readableState !== null) {
        this._readableState.highWaterMark = 0
        this._readableState.error = err
      }
      if (this._writableState !== null) {
        this._writableState.highWaterMark = 0
        this._writableState.error = err
      }

      this._duplexState |= PREDESTROYING
      this._predestroy()
      this._duplexState &= NOT_PREDESTROYING

      if (this._readableState !== null) this._readableState.updateNextTick()
      if (this._writableState !== null) this._writableState.updateNextTick()
    }
  }
}

class Readable extends Stream {
  constructor (opts) {
    super(opts)

    this._duplexState |= OPENING | WRITE_DONE | READ_READ_AHEAD
    this._readableState = new ReadableState(this, opts)

    if (opts) {
      if (this._readableState.readAhead === false) this._duplexState &= READ_NO_READ_AHEAD
      if (opts.read) this._read = opts.read
      if (opts.eagerOpen) this._readableState.updateNextTick()
      if (opts.encoding) this.setEncoding(opts.encoding)
    }
  }

  setEncoding (encoding) {
    const dec = new TextDecoder(encoding)
    const map = this._readableState.map || echo
    this._readableState.map = mapOrSkip
    return this

    function mapOrSkip (data) {
      const next = dec.push(data)
      return next === '' && (data.byteLength !== 0 || dec.remaining > 0) ? null : map(next)
    }
  }

  _read (cb) {
    cb(null)
  }

  pipe (dest, cb) {
    this._readableState.updateNextTick()
    this._readableState.pipe(dest, cb)
    return dest
  }

  read () {
    this._readableState.updateNextTick()
    return this._readableState.read()
  }

  push (data) {
    this._readableState.updateNextTickIfOpen()
    return this._readableState.push(data)
  }

  unshift (data) {
    this._readableState.updateNextTickIfOpen()
    return this._readableState.unshift(data)
  }

  resume () {
    this._duplexState |= READ_RESUMED_READ_AHEAD
    this._readableState.updateNextTick()
    return this
  }

  pause () {
    this._duplexState &= (this._readableState.readAhead === false ? READ_PAUSED_NO_READ_AHEAD : READ_PAUSED)
    return this
  }

  static _fromAsyncIterator (ite, opts) {
    let destroy

    const rs = new Readable({
      ...opts,
      read (cb) {
        ite.next().then(push).then(cb.bind(null, null)).catch(cb)
      },
      predestroy () {
        destroy = ite.return()
      },
      destroy (cb) {
        if (!destroy) return cb(null)
        destroy.then(cb.bind(null, null)).catch(cb)
      }
    })

    return rs

    function push (data) {
      if (data.done) rs.push(null)
      else rs.push(data.value)
    }
  }

  static from (data, opts) {
    if (isReadStreamx(data)) return data
    if (data[asyncIterator]) return this._fromAsyncIterator(data[asyncIterator](), opts)
    if (!Array.isArray(data)) data = data === undefined ? [] : [data]

    let i = 0
    return new Readable({
      ...opts,
      read (cb) {
        this.push(i === data.length ? null : data[i++])
        cb(null)
      }
    })
  }

  static isBackpressured (rs) {
    return (rs._duplexState & READ_BACKPRESSURE_STATUS) !== 0 || rs._readableState.buffered >= rs._readableState.highWaterMark
  }

  static isPaused (rs) {
    return (rs._duplexState & READ_RESUMED) === 0
  }

  [asyncIterator] () {
    const stream = this

    let error = null
    let promiseResolve = null
    let promiseReject = null

    this.on('error', (err) => { error = err })
    this.on('readable', onreadable)
    this.on('close', onclose)

    return {
      [asyncIterator] () {
        return this
      },
      next () {
        return new Promise(function (resolve, reject) {
          promiseResolve = resolve
          promiseReject = reject
          const data = stream.read()
          if (data !== null) ondata(data)
          else if ((stream._duplexState & DESTROYED) !== 0) ondata(null)
        })
      },
      return () {
        return destroy(null)
      },
      throw (err) {
        return destroy(err)
      }
    }

    function onreadable () {
      if (promiseResolve !== null) ondata(stream.read())
    }

    function onclose () {
      if (promiseResolve !== null) ondata(null)
    }

    function ondata (data) {
      if (promiseReject === null) return
      if (error) promiseReject(error)
      else if (data === null && (stream._duplexState & READ_DONE) === 0) promiseReject(STREAM_DESTROYED)
      else promiseResolve({ value: data, done: data === null })
      promiseReject = promiseResolve = null
    }

    function destroy (err) {
      stream.destroy(err)
      return new Promise((resolve, reject) => {
        if (stream._duplexState & DESTROYED) return resolve({ value: undefined, done: true })
        stream.once('close', function () {
          if (err) reject(err)
          else resolve({ value: undefined, done: true })
        })
      })
    }
  }
}

class Writable extends Stream {
  constructor (opts) {
    super(opts)

    this._duplexState |= OPENING | READ_DONE
    this._writableState = new WritableState(this, opts)

    if (opts) {
      if (opts.writev) this._writev = opts.writev
      if (opts.write) this._write = opts.write
      if (opts.final) this._final = opts.final
      if (opts.eagerOpen) this._writableState.updateNextTick()
    }
  }

  cork () {
    this._duplexState |= WRITE_CORKED
  }

  uncork () {
    this._duplexState &= WRITE_NOT_CORKED
    this._writableState.updateNextTick()
  }

  _writev (batch, cb) {
    cb(null)
  }

  _write (data, cb) {
    this._writableState.autoBatch(data, cb)
  }

  _final (cb) {
    cb(null)
  }

  static isBackpressured (ws) {
    return (ws._duplexState & WRITE_BACKPRESSURE_STATUS) !== 0
  }

  static drained (ws) {
    if (ws.destroyed) return Promise.resolve(false)
    const state = ws._writableState
    const pending = (isWritev(ws) ? Math.min(1, state.queue.length) : state.queue.length)
    const writes = pending + ((ws._duplexState & WRITE_WRITING) ? 1 : 0)
    if (writes === 0) return Promise.resolve(true)
    if (state.drains === null) state.drains = []
    return new Promise((resolve) => {
      state.drains.push({ writes, resolve })
    })
  }

  write (data) {
    this._writableState.updateNextTick()
    return this._writableState.push(data)
  }

  end (data) {
    this._writableState.updateNextTick()
    this._writableState.end(data)
    return this
  }
}

class Duplex extends Readable { // and Writable
  constructor (opts) {
    super(opts)

    this._duplexState = OPENING | (this._duplexState & READ_READ_AHEAD)
    this._writableState = new WritableState(this, opts)

    if (opts) {
      if (opts.writev) this._writev = opts.writev
      if (opts.write) this._write = opts.write
      if (opts.final) this._final = opts.final
    }
  }

  cork () {
    this._duplexState |= WRITE_CORKED
  }

  uncork () {
    this._duplexState &= WRITE_NOT_CORKED
    this._writableState.updateNextTick()
  }

  _writev (batch, cb) {
    cb(null)
  }

  _write (data, cb) {
    this._writableState.autoBatch(data, cb)
  }

  _final (cb) {
    cb(null)
  }

  write (data) {
    this._writableState.updateNextTick()
    return this._writableState.push(data)
  }

  end (data) {
    this._writableState.updateNextTick()
    this._writableState.end(data)
    return this
  }
}

class Transform extends Duplex {
  constructor (opts) {
    super(opts)
    this._transformState = new TransformState(this)

    if (opts) {
      if (opts.transform) this._transform = opts.transform
      if (opts.flush) this._flush = opts.flush
    }
  }

  _write (data, cb) {
    if (this._readableState.buffered >= this._readableState.highWaterMark) {
      this._transformState.data = data
    } else {
      this._transform(data, this._transformState.afterTransform)
    }
  }

  _read (cb) {
    if (this._transformState.data !== null) {
      const data = this._transformState.data
      this._transformState.data = null
      cb(null)
      this._transform(data, this._transformState.afterTransform)
    } else {
      cb(null)
    }
  }

  destroy (err) {
    super.destroy(err)
    if (this._transformState.data !== null) {
      this._transformState.data = null
      this._transformState.afterTransform()
    }
  }

  _transform (data, cb) {
    cb(null, data)
  }

  _flush (cb) {
    cb(null)
  }

  _final (cb) {
    this._transformState.afterFinal = cb
    this._flush(transformAfterFlush.bind(this))
  }
}

class PassThrough extends Transform {}

function transformAfterFlush (err, data) {
  const cb = this._transformState.afterFinal
  if (err) return cb(err)
  if (data !== null && data !== undefined) this.push(data)
  this.push(null)
  cb(null)
}

function pipelinePromise (...streams) {
  return new Promise((resolve, reject) => {
    return pipeline(...streams, (err) => {
      if (err) return reject(err)
      resolve()
    })
  })
}

function pipeline (stream, ...streams) {
  const all = Array.isArray(stream) ? [...stream, ...streams] : [stream, ...streams]
  const done = (all.length && typeof all[all.length - 1] === 'function') ? all.pop() : null

  if (all.length < 2) throw new Error('Pipeline requires at least 2 streams')

  let src = all[0]
  let dest = null
  let error = null

  for (let i = 1; i < all.length; i++) {
    dest = all[i]

    if (isStreamx(src)) {
      src.pipe(dest, onerror)
    } else {
      errorHandle(src, true, i > 1, onerror)
      src.pipe(dest)
    }

    src = dest
  }

  if (done) {
    let fin = false

    const autoDestroy = isStreamx(dest) || !!(dest._writableState && dest._writableState.autoDestroy)

    dest.on('error', (err) => {
      if (error === null) error = err
    })

    dest.on('finish', () => {
      fin = true
      if (!autoDestroy) done(error)
    })

    if (autoDestroy) {
      dest.on('close', () => done(error || (fin ? null : PREMATURE_CLOSE)))
    }
  }

  return dest

  function errorHandle (s, rd, wr, onerror) {
    s.on('error', onerror)
    s.on('close', onclose)

    function onclose () {
      if (rd && s._readableState && !s._readableState.ended) return onerror(PREMATURE_CLOSE)
      if (wr && s._writableState && !s._writableState.ended) return onerror(PREMATURE_CLOSE)
    }
  }

  function onerror (err) {
    if (!err || error) return
    error = err

    for (const s of all) {
      s.destroy(err)
    }
  }
}

function echo (s) {
  return s
}

function isStream (stream) {
  return !!stream._readableState || !!stream._writableState
}

function isStreamx (stream) {
  return typeof stream._duplexState === 'number' && isStream(stream)
}

function isEnded (stream) {
  return !!stream._readableState && stream._readableState.ended
}

function isFinished (stream) {
  return !!stream._writableState && stream._writableState.ended
}

function getStreamError (stream, opts = {}) {
  const err = (stream._readableState && stream._readableState.error) || (stream._writableState && stream._writableState.error)

  // avoid implicit errors by default
  return (!opts.all && err === STREAM_DESTROYED) ? null : err
}

function isReadStreamx (stream) {
  return isStreamx(stream) && stream.readable
}

function isDisturbed (stream) {
  return (stream._duplexState & OPENING) !== OPENING || (stream._duplexState & ACTIVE_OR_TICKING) !== 0
}

function isTypedArray (data) {
  return typeof data === 'object' && data !== null && typeof data.byteLength === 'number'
}

function defaultByteLength (data) {
  return isTypedArray(data) ? data.byteLength : 1024
}

function noop () {}

function abort () {
  this.destroy(new Error('Stream aborted.'))
}

function isWritev (s) {
  return s._writev !== Writable.prototype._writev && s._writev !== Duplex.prototype._writev
}

module.exports = {
  pipeline,
  pipelinePromise,
  isStream,
  isStreamx,
  isEnded,
  isFinished,
  isDisturbed,
  getStreamError,
  Stream,
  Writable,
  Readable,
  Duplex,
  Transform,
  // Export PassThrough for compatibility with Node.js core's stream module
  PassThrough
}