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409 lines
13 KiB
Go
409 lines
13 KiB
Go
// Copyright 2013 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package bufio
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import (
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"bytes"
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"errors"
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"io"
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"unicode/utf8"
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)
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// Scanner provides a convenient interface for reading data such as
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// a file of newline-delimited lines of text. Successive calls to
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// the Scan method will step through the 'tokens' of a file, skipping
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// the bytes between the tokens. The specification of a token is
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// defined by a split function of type SplitFunc; the default split
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// function breaks the input into lines with line termination stripped. Split
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// functions are defined in this package for scanning a file into
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// lines, bytes, UTF-8-encoded runes, and space-delimited words. The
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// client may instead provide a custom split function.
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//
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// Scanning stops unrecoverably at EOF, the first I/O error, or a token too
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// large to fit in the buffer. When a scan stops, the reader may have
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// advanced arbitrarily far past the last token. Programs that need more
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// control over error handling or large tokens, or must run sequential scans
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// on a reader, should use bufio.Reader instead.
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//
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type Scanner struct {
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r io.Reader // The reader provided by the client.
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split SplitFunc // The function to split the tokens.
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maxTokenSize int // Maximum size of a token; modified by tests.
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token []byte // Last token returned by split.
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buf []byte // Buffer used as argument to split.
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start int // First non-processed byte in buf.
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end int // End of data in buf.
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err error // Sticky error.
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empties int // Count of successive empty tokens.
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scanCalled bool // Scan has been called; buffer is in use.
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done bool // Scan has finished.
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}
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// SplitFunc is the signature of the split function used to tokenize the
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// input. The arguments are an initial substring of the remaining unprocessed
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// data and a flag, atEOF, that reports whether the Reader has no more data
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// to give. The return values are the number of bytes to advance the input
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// and the next token to return to the user, plus an error, if any. If the
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// data does not yet hold a complete token, for instance if it has no newline
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// while scanning lines, SplitFunc can return (0, nil, nil) to signal the
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// Scanner to read more data into the slice and try again with a longer slice
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// starting at the same point in the input.
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//
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// If the returned error is non-nil, scanning stops and the error
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// is returned to the client.
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//
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// The function is never called with an empty data slice unless atEOF
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// is true. If atEOF is true, however, data may be non-empty and,
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// as always, holds unprocessed text.
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type SplitFunc func(data []byte, atEOF bool) (advance int, token []byte, err error)
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// Errors returned by Scanner.
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var (
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ErrTooLong = errors.New("bufio.Scanner: token too long")
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ErrNegativeAdvance = errors.New("bufio.Scanner: SplitFunc returns negative advance count")
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ErrAdvanceTooFar = errors.New("bufio.Scanner: SplitFunc returns advance count beyond input")
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)
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const (
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// MaxScanTokenSize is the maximum size used to buffer a token
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// unless the user provides an explicit buffer with Scan.Buffer.
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// The actual maximum token size may be smaller as the buffer
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// may need to include, for instance, a newline.
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MaxScanTokenSize = 64 * 1024
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startBufSize = 4096 // Size of initial allocation for buffer.
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)
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// NewScanner returns a new Scanner to read from r.
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// The split function defaults to ScanLines.
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func NewScanner(r io.Reader) *Scanner {
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return &Scanner{
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r: r,
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split: ScanLines,
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maxTokenSize: MaxScanTokenSize,
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}
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}
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// Err returns the first non-EOF error that was encountered by the Scanner.
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func (s *Scanner) Err() error {
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if s.err == io.EOF {
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return nil
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}
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return s.err
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}
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// Bytes returns the most recent token generated by a call to Scan.
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// The underlying array may point to data that will be overwritten
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// by a subsequent call to Scan. It does no allocation.
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func (s *Scanner) Bytes() []byte {
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return s.token
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}
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// Text returns the most recent token generated by a call to Scan
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// as a newly allocated string holding its bytes.
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func (s *Scanner) Text() string {
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return string(s.token)
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}
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// ErrFinalToken is a special sentinel error value. It is intended to be
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// returned by a Split function to indicate that the token being delivered
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// with the error is the last token and scanning should stop after this one.
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// After ErrFinalToken is received by Scan, scanning stops with no error.
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// The value is useful to stop processing early or when it is necessary to
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// deliver a final empty token. One could achieve the same behavior
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// with a custom error value but providing one here is tidier.
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// See the emptyFinalToken example for a use of this value.
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var ErrFinalToken = errors.New("final token")
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// Scan advances the Scanner to the next token, which will then be
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// available through the Bytes or Text method. It returns false when the
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// scan stops, either by reaching the end of the input or an error.
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// After Scan returns false, the Err method will return any error that
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// occurred during scanning, except that if it was io.EOF, Err
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// will return nil.
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// Scan panics if the split function returns 100 empty tokens without
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// advancing the input. This is a common error mode for scanners.
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func (s *Scanner) Scan() bool {
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if s.done {
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return false
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}
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s.scanCalled = true
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// Loop until we have a token.
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for {
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// See if we can get a token with what we already have.
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// If we've run out of data but have an error, give the split function
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// a chance to recover any remaining, possibly empty token.
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if s.end > s.start || s.err != nil {
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advance, token, err := s.split(s.buf[s.start:s.end], s.err != nil)
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if err != nil {
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if err == ErrFinalToken {
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s.token = token
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s.done = true
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return true
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}
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s.setErr(err)
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return false
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}
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if !s.advance(advance) {
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return false
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}
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s.token = token
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if token != nil {
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if s.err == nil || advance > 0 {
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s.empties = 0
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} else {
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// Returning tokens not advancing input at EOF.
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s.empties++
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if s.empties > 100 {
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panic("bufio.Scan: 100 empty tokens without progressing")
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}
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}
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return true
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}
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}
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// We cannot generate a token with what we are holding.
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// If we've already hit EOF or an I/O error, we are done.
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if s.err != nil {
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// Shut it down.
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s.start = 0
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s.end = 0
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return false
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}
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// Must read more data.
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// First, shift data to beginning of buffer if there's lots of empty space
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// or space is needed.
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if s.start > 0 && (s.end == len(s.buf) || s.start > len(s.buf)/2) {
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copy(s.buf, s.buf[s.start:s.end])
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s.end -= s.start
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s.start = 0
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}
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// Is the buffer full? If so, resize.
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if s.end == len(s.buf) {
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// Guarantee no overflow in the multiplication below.
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const maxInt = int(^uint(0) >> 1)
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if len(s.buf) >= s.maxTokenSize || len(s.buf) > maxInt/2 {
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s.setErr(ErrTooLong)
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return false
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}
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newSize := len(s.buf) * 2
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if newSize == 0 {
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newSize = startBufSize
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}
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if newSize > s.maxTokenSize {
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newSize = s.maxTokenSize
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}
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newBuf := make([]byte, newSize)
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copy(newBuf, s.buf[s.start:s.end])
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s.buf = newBuf
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s.end -= s.start
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s.start = 0
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}
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// Finally we can read some input. Make sure we don't get stuck with
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// a misbehaving Reader. Officially we don't need to do this, but let's
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// be extra careful: Scanner is for safe, simple jobs.
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for loop := 0; ; {
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n, err := s.r.Read(s.buf[s.end:len(s.buf)])
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s.end += n
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if err != nil {
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s.setErr(err)
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break
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}
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if n > 0 {
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s.empties = 0
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break
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}
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loop++
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if loop > maxConsecutiveEmptyReads {
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s.setErr(io.ErrNoProgress)
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break
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}
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}
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}
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}
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// advance consumes n bytes of the buffer. It reports whether the advance was legal.
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func (s *Scanner) advance(n int) bool {
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if n < 0 {
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s.setErr(ErrNegativeAdvance)
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return false
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}
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if n > s.end-s.start {
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s.setErr(ErrAdvanceTooFar)
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return false
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}
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s.start += n
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return true
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}
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// setErr records the first error encountered.
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func (s *Scanner) setErr(err error) {
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if s.err == nil || s.err == io.EOF {
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s.err = err
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}
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}
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// Buffer sets the initial buffer to use when scanning and the maximum
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// size of buffer that may be allocated during scanning. The maximum
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// token size is the larger of max and cap(buf). If max <= cap(buf),
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// Scan will use this buffer only and do no allocation.
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//
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// By default, Scan uses an internal buffer and sets the
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// maximum token size to MaxScanTokenSize.
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//
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// Buffer panics if it is called after scanning has started.
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func (s *Scanner) Buffer(buf []byte, max int) {
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if s.scanCalled {
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panic("Buffer called after Scan")
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}
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s.buf = buf[0:cap(buf)]
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s.maxTokenSize = max
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}
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// Split sets the split function for the Scanner.
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// The default split function is ScanLines.
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//
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// Split panics if it is called after scanning has started.
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func (s *Scanner) Split(split SplitFunc) {
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if s.scanCalled {
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panic("Split called after Scan")
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}
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s.split = split
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}
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// Split functions
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// ScanBytes is a split function for a Scanner that returns each byte as a token.
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func ScanBytes(data []byte, atEOF bool) (advance int, token []byte, err error) {
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if atEOF && len(data) == 0 {
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return 0, nil, nil
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}
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return 1, data[0:1], nil
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}
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var errorRune = []byte(string(utf8.RuneError))
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// ScanRunes is a split function for a Scanner that returns each
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// UTF-8-encoded rune as a token. The sequence of runes returned is
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// equivalent to that from a range loop over the input as a string, which
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// means that erroneous UTF-8 encodings translate to U+FFFD = "\xef\xbf\xbd".
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// Because of the Scan interface, this makes it impossible for the client to
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// distinguish correctly encoded replacement runes from encoding errors.
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func ScanRunes(data []byte, atEOF bool) (advance int, token []byte, err error) {
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if atEOF && len(data) == 0 {
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return 0, nil, nil
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}
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// Fast path 1: ASCII.
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if data[0] < utf8.RuneSelf {
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return 1, data[0:1], nil
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}
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// Fast path 2: Correct UTF-8 decode without error.
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_, width := utf8.DecodeRune(data)
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if width > 1 {
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// It's a valid encoding. Width cannot be one for a correctly encoded
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// non-ASCII rune.
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return width, data[0:width], nil
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}
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// We know it's an error: we have width==1 and implicitly r==utf8.RuneError.
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// Is the error because there wasn't a full rune to be decoded?
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// FullRune distinguishes correctly between erroneous and incomplete encodings.
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if !atEOF && !utf8.FullRune(data) {
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// Incomplete; get more bytes.
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return 0, nil, nil
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}
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// We have a real UTF-8 encoding error. Return a properly encoded error rune
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// but advance only one byte. This matches the behavior of a range loop over
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// an incorrectly encoded string.
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return 1, errorRune, nil
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}
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// dropCR drops a terminal \r from the data.
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func dropCR(data []byte) []byte {
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if len(data) > 0 && data[len(data)-1] == '\r' {
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return data[0 : len(data)-1]
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}
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return data
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}
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// ScanLines is a split function for a Scanner that returns each line of
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// text, stripped of any trailing end-of-line marker. The returned line may
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// be empty. The end-of-line marker is one optional carriage return followed
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// by one mandatory newline. In regular expression notation, it is `\r?\n`.
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// The last non-empty line of input will be returned even if it has no
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// newline.
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func ScanLines(data []byte, atEOF bool) (advance int, token []byte, err error) {
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if atEOF && len(data) == 0 {
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return 0, nil, nil
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}
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if i := bytes.IndexByte(data, '\n'); i >= 0 {
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// We have a full newline-terminated line.
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return i + 1, dropCR(data[0:i]), nil
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}
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// If we're at EOF, we have a final, non-terminated line. Return it.
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if atEOF {
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return len(data), dropCR(data), nil
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}
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// Request more data.
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return 0, nil, nil
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}
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// isSpace reports whether the character is a Unicode white space character.
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// We avoid dependency on the unicode package, but check validity of the implementation
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// in the tests.
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func isSpace(r rune) bool {
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if r <= '\u00FF' {
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// Obvious ASCII ones: \t through \r plus space. Plus two Latin-1 oddballs.
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switch r {
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case ' ', '\t', '\n', '\v', '\f', '\r':
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return true
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case '\u0085', '\u00A0':
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return true
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}
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return false
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}
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// High-valued ones.
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if '\u2000' <= r && r <= '\u200a' {
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return true
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}
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switch r {
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case '\u1680', '\u2028', '\u2029', '\u202f', '\u205f', '\u3000':
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return true
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}
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return false
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}
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// ScanWords is a split function for a Scanner that returns each
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// space-separated word of text, with surrounding spaces deleted. It will
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// never return an empty string. The definition of space is set by
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// unicode.IsSpace.
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func ScanWords(data []byte, atEOF bool) (advance int, token []byte, err error) {
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// Skip leading spaces.
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start := 0
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for width := 0; start < len(data); start += width {
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var r rune
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r, width = utf8.DecodeRune(data[start:])
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if !isSpace(r) {
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break
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}
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}
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// Scan until space, marking end of word.
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for width, i := 0, start; i < len(data); i += width {
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var r rune
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r, width = utf8.DecodeRune(data[i:])
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if isSpace(r) {
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return i + width, data[start:i], nil
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}
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}
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// If we're at EOF, we have a final, non-empty, non-terminated word. Return it.
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if atEOF && len(data) > start {
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return len(data), data[start:], nil
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}
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// Request more data.
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return start, nil, nil
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}
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