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5a1b06d7fd
* run latest vndr so as to collect more LICENSE files * remove unused packages * vendor github.com/philhofer/fwd with LICENSE.md (MIT) * vendor github.com/bsphere/le_go with LICENSE (MIT) Signed-off-by: Akihiro Suda <suda.akihiro@lab.ntt.co.jp>
379 lines
9.1 KiB
Go
379 lines
9.1 KiB
Go
// The `fwd` package provides a buffered reader
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// and writer. Each has methods that help improve
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// the encoding/decoding performance of some binary
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// protocols.
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//
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// The `fwd.Writer` and `fwd.Reader` type provide similar
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// functionality to their counterparts in `bufio`, plus
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// a few extra utility methods that simplify read-ahead
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// and write-ahead. I wrote this package to improve serialization
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// performance for http://github.com/tinylib/msgp,
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// where it provided about a 2x speedup over `bufio` for certain
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// workloads. However, care must be taken to understand the semantics of the
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// extra methods provided by this package, as they allow
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// the user to access and manipulate the buffer memory
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// directly.
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//
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// The extra methods for `fwd.Reader` are `Peek`, `Skip`
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// and `Next`. `(*fwd.Reader).Peek`, unlike `(*bufio.Reader).Peek`,
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// will re-allocate the read buffer in order to accommodate arbitrarily
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// large read-ahead. `(*fwd.Reader).Skip` skips the next `n` bytes
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// in the stream, and uses the `io.Seeker` interface if the underlying
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// stream implements it. `(*fwd.Reader).Next` returns a slice pointing
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// to the next `n` bytes in the read buffer (like `Peek`), but also
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// increments the read position. This allows users to process streams
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// in arbitrary block sizes without having to manage appropriately-sized
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// slices. Additionally, obviating the need to copy the data from the
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// buffer to another location in memory can improve performance dramatically
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// in CPU-bound applications.
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//
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// `fwd.Writer` only has one extra method, which is `(*fwd.Writer).Next`, which
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// returns a slice pointing to the next `n` bytes of the writer, and increments
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// the write position by the length of the returned slice. This allows users
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// to write directly to the end of the buffer.
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//
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package fwd
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import "io"
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const (
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// DefaultReaderSize is the default size of the read buffer
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DefaultReaderSize = 2048
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// minimum read buffer; straight from bufio
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minReaderSize = 16
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)
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// NewReader returns a new *Reader that reads from 'r'
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func NewReader(r io.Reader) *Reader {
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return NewReaderSize(r, DefaultReaderSize)
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}
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// NewReaderSize returns a new *Reader that
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// reads from 'r' and has a buffer size 'n'
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func NewReaderSize(r io.Reader, n int) *Reader {
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rd := &Reader{
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r: r,
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data: make([]byte, 0, max(minReaderSize, n)),
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}
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if s, ok := r.(io.Seeker); ok {
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rd.rs = s
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}
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return rd
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}
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// Reader is a buffered look-ahead reader
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type Reader struct {
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r io.Reader // underlying reader
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// data[n:len(data)] is buffered data; data[len(data):cap(data)] is free buffer space
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data []byte // data
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n int // read offset
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state error // last read error
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// if the reader past to NewReader was
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// also an io.Seeker, this is non-nil
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rs io.Seeker
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}
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// Reset resets the underlying reader
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// and the read buffer.
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func (r *Reader) Reset(rd io.Reader) {
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r.r = rd
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r.data = r.data[0:0]
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r.n = 0
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r.state = nil
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if s, ok := rd.(io.Seeker); ok {
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r.rs = s
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} else {
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r.rs = nil
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}
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}
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// more() does one read on the underlying reader
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func (r *Reader) more() {
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// move data backwards so that
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// the read offset is 0; this way
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// we can supply the maximum number of
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// bytes to the reader
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if r.n != 0 {
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if r.n < len(r.data) {
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r.data = r.data[:copy(r.data[0:], r.data[r.n:])]
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} else {
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r.data = r.data[:0]
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}
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r.n = 0
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}
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var a int
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a, r.state = r.r.Read(r.data[len(r.data):cap(r.data)])
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if a == 0 && r.state == nil {
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r.state = io.ErrNoProgress
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return
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}
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r.data = r.data[:len(r.data)+a]
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}
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// pop error
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func (r *Reader) err() (e error) {
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e, r.state = r.state, nil
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return
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}
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// pop error; EOF -> io.ErrUnexpectedEOF
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func (r *Reader) noEOF() (e error) {
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e, r.state = r.state, nil
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if e == io.EOF {
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e = io.ErrUnexpectedEOF
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}
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return
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}
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// buffered bytes
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func (r *Reader) buffered() int { return len(r.data) - r.n }
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// Buffered returns the number of bytes currently in the buffer
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func (r *Reader) Buffered() int { return len(r.data) - r.n }
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// BufferSize returns the total size of the buffer
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func (r *Reader) BufferSize() int { return cap(r.data) }
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// Peek returns the next 'n' buffered bytes,
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// reading from the underlying reader if necessary.
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// It will only return a slice shorter than 'n' bytes
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// if it also returns an error. Peek does not advance
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// the reader. EOF errors are *not* returned as
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// io.ErrUnexpectedEOF.
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func (r *Reader) Peek(n int) ([]byte, error) {
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// in the degenerate case,
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// we may need to realloc
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// (the caller asked for more
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// bytes than the size of the buffer)
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if cap(r.data) < n {
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old := r.data[r.n:]
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r.data = make([]byte, n+r.buffered())
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r.data = r.data[:copy(r.data, old)]
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r.n = 0
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}
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// keep filling until
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// we hit an error or
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// read enough bytes
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for r.buffered() < n && r.state == nil {
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r.more()
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}
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// we must have hit an error
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if r.buffered() < n {
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return r.data[r.n:], r.err()
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}
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return r.data[r.n : r.n+n], nil
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}
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// Skip moves the reader forward 'n' bytes.
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// Returns the number of bytes skipped and any
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// errors encountered. It is analogous to Seek(n, 1).
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// If the underlying reader implements io.Seeker, then
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// that method will be used to skip forward.
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//
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// If the reader encounters
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// an EOF before skipping 'n' bytes, it
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// returns io.ErrUnexpectedEOF. If the
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// underlying reader implements io.Seeker, then
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// those rules apply instead. (Many implementations
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// will not return `io.EOF` until the next call
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// to Read.)
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func (r *Reader) Skip(n int) (int, error) {
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// fast path
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if r.buffered() >= n {
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r.n += n
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return n, nil
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}
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// use seeker implementation
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// if we can
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if r.rs != nil {
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return r.skipSeek(n)
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}
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// loop on filling
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// and then erasing
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o := n
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for r.buffered() < n && r.state == nil {
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r.more()
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// we can skip forward
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// up to r.buffered() bytes
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step := min(r.buffered(), n)
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r.n += step
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n -= step
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}
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// at this point, n should be
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// 0 if everything went smoothly
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return o - n, r.noEOF()
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}
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// Next returns the next 'n' bytes in the stream.
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// Unlike Peek, Next advances the reader position.
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// The returned bytes point to the same
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// data as the buffer, so the slice is
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// only valid until the next reader method call.
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// An EOF is considered an unexpected error.
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// If an the returned slice is less than the
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// length asked for, an error will be returned,
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// and the reader position will not be incremented.
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func (r *Reader) Next(n int) ([]byte, error) {
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// in case the buffer is too small
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if cap(r.data) < n {
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old := r.data[r.n:]
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r.data = make([]byte, n+r.buffered())
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r.data = r.data[:copy(r.data, old)]
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r.n = 0
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}
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// fill at least 'n' bytes
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for r.buffered() < n && r.state == nil {
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r.more()
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}
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if r.buffered() < n {
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return r.data[r.n:], r.noEOF()
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}
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out := r.data[r.n : r.n+n]
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r.n += n
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return out, nil
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}
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// skipSeek uses the io.Seeker to seek forward.
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// only call this function when n > r.buffered()
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func (r *Reader) skipSeek(n int) (int, error) {
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o := r.buffered()
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// first, clear buffer
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n -= o
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r.n = 0
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r.data = r.data[:0]
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// then seek forward remaning bytes
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i, err := r.rs.Seek(int64(n), 1)
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return int(i) + o, err
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}
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// Read implements `io.Reader`
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func (r *Reader) Read(b []byte) (int, error) {
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// if we have data in the buffer, just
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// return that.
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if r.buffered() != 0 {
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x := copy(b, r.data[r.n:])
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r.n += x
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return x, nil
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}
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var n int
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// we have no buffered data; determine
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// whether or not to buffer or call
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// the underlying reader directly
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if len(b) >= cap(r.data) {
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n, r.state = r.r.Read(b)
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} else {
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r.more()
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n = copy(b, r.data)
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r.n = n
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}
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if n == 0 {
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return 0, r.err()
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}
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return n, nil
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}
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// ReadFull attempts to read len(b) bytes into
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// 'b'. It returns the number of bytes read into
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// 'b', and an error if it does not return len(b).
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// EOF is considered an unexpected error.
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func (r *Reader) ReadFull(b []byte) (int, error) {
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var n int // read into b
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var nn int // scratch
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l := len(b)
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// either read buffered data,
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// or read directly for the underlying
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// buffer, or fetch more buffered data.
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for n < l && r.state == nil {
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if r.buffered() != 0 {
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nn = copy(b[n:], r.data[r.n:])
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n += nn
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r.n += nn
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} else if l-n > cap(r.data) {
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nn, r.state = r.r.Read(b[n:])
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n += nn
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} else {
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r.more()
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}
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}
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if n < l {
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return n, r.noEOF()
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}
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return n, nil
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}
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// ReadByte implements `io.ByteReader`
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func (r *Reader) ReadByte() (byte, error) {
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for r.buffered() < 1 && r.state == nil {
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r.more()
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}
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if r.buffered() < 1 {
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return 0, r.err()
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}
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b := r.data[r.n]
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r.n++
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return b, nil
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}
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// WriteTo implements `io.WriterTo`
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func (r *Reader) WriteTo(w io.Writer) (int64, error) {
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var (
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i int64
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ii int
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err error
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)
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// first, clear buffer
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if r.buffered() > 0 {
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ii, err = w.Write(r.data[r.n:])
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i += int64(ii)
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if err != nil {
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return i, err
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}
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r.data = r.data[0:0]
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r.n = 0
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}
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for r.state == nil {
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// here we just do
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// 1:1 reads and writes
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r.more()
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if r.buffered() > 0 {
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ii, err = w.Write(r.data)
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i += int64(ii)
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if err != nil {
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return i, err
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}
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r.data = r.data[0:0]
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r.n = 0
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}
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}
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if r.state != io.EOF {
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return i, r.err()
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}
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return i, nil
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}
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func min(a int, b int) int {
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if a < b {
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return a
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}
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return b
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}
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func max(a int, b int) int {
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if a < b {
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return b
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}
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return a
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}
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