// Copyright 2010 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package io type multiReader struct { readers []Reader } func (mr *multiReader) Read(p []byte) (n int, err error) { for len(mr.readers) > 0 { // Optimization to flatten nested multiReaders (Issue 13558) if len(mr.readers) == 1 { if r, ok := mr.readers[0].(*multiReader); ok { mr.readers = r.readers continue } } n, err = mr.readers[0].Read(p) if err == EOF { mr.readers = mr.readers[1:] } if n > 0 || err != EOF { if err == EOF && len(mr.readers) > 0 { // Don't return EOF yet. More readers remain. err = nil } return } } return 0, EOF } // MultiReader returns a Reader that's the logical concatenation of // the provided input readers. They're read sequentially. Once all // inputs have returned EOF, Read will return EOF. If any of the readers // return a non-nil, non-EOF error, Read will return that error. func MultiReader(readers ...Reader) Reader { r := make([]Reader, len(readers)) copy(r, readers) return &multiReader{r} } type multiWriter struct { writers []Writer } func (t *multiWriter) Write(p []byte) (n int, err error) { for _, w := range t.writers { n, err = w.Write(p) if err != nil { return } if n != len(p) { err = ErrShortWrite return } } return len(p), nil } var _ stringWriter = (*multiWriter)(nil) func (t *multiWriter) WriteString(s string) (n int, err error) { var p []byte // lazily initialized if/when needed for _, w := range t.writers { if sw, ok := w.(stringWriter); ok { n, err = sw.WriteString(s) } else { if p == nil { p = []byte(s) } n, err = w.Write(p) } if err != nil { return } if n != len(s) { err = ErrShortWrite return } } return len(s), nil } // MultiWriter creates a writer that duplicates its writes to all the // provided writers, similar to the Unix tee(1) command. func MultiWriter(writers ...Writer) Writer { w := make([]Writer, len(writers)) copy(w, writers) return &multiWriter{w} }