// Copyright (c) 2012-2020 Ugorji Nwoke. All rights reserved. // Use of this source code is governed by a MIT license found in the LICENSE file. package codec import "io" // encWriter abstracts writing to a byte array or to an io.Writer. type encWriter interface { writeb([]byte) writestr(string) writeqstr(string) // write string wrapped in quotes ie "..." writen1(byte) // add convenience functions for writing 2,4 writen2(byte, byte) writen4([4]byte) writen8([8]byte) end() } // --------------------------------------------- type bufioEncWriter struct { w io.Writer buf []byte n int b [16]byte // scratch buffer and padding (cache-aligned) } func (z *bufioEncWriter) reset(w io.Writer, bufsize int, blist *bytesFreelist) { z.w = w z.n = 0 if bufsize <= 0 { bufsize = defEncByteBufSize } // bufsize must be >= 8, to accomodate writen methods (where n <= 8) if bufsize <= 8 { bufsize = 8 } if cap(z.buf) < bufsize { if len(z.buf) > 0 && &z.buf[0] != &z.b[0] { blist.put(z.buf) } if len(z.b) > bufsize { z.buf = z.b[:] } else { z.buf = blist.get(bufsize) } } z.buf = z.buf[:cap(z.buf)] } func (z *bufioEncWriter) flushErr() (err error) { n, err := z.w.Write(z.buf[:z.n]) z.n -= n if z.n > 0 { if err == nil { err = io.ErrShortWrite } if n > 0 { copy(z.buf, z.buf[n:z.n+n]) } } return err } func (z *bufioEncWriter) flush() { halt.onerror(z.flushErr()) } func (z *bufioEncWriter) writeb(s []byte) { LOOP: a := len(z.buf) - z.n if len(s) > a { z.n += copy(z.buf[z.n:], s[:a]) s = s[a:] z.flush() goto LOOP } z.n += copy(z.buf[z.n:], s) } func (z *bufioEncWriter) writestr(s string) { // z.writeb(bytesView(s)) // inlined below LOOP: a := len(z.buf) - z.n if len(s) > a { z.n += copy(z.buf[z.n:], s[:a]) s = s[a:] z.flush() goto LOOP } z.n += copy(z.buf[z.n:], s) } func (z *bufioEncWriter) writeqstr(s string) { // z.writen1('"') // z.writestr(s) // z.writen1('"') if z.n+len(s)+2 > len(z.buf) { z.flush() } z.buf[z.n] = '"' z.n++ LOOP: a := len(z.buf) - z.n if len(s)+1 > a { z.n += copy(z.buf[z.n:], s[:a]) s = s[a:] z.flush() goto LOOP } z.n += copy(z.buf[z.n:], s) z.buf[z.n] = '"' z.n++ } func (z *bufioEncWriter) writen1(b1 byte) { if 1 > len(z.buf)-z.n { z.flush() } z.buf[z.n] = b1 z.n++ } func (z *bufioEncWriter) writen2(b1, b2 byte) { if 2 > len(z.buf)-z.n { z.flush() } z.buf[z.n+1] = b2 z.buf[z.n] = b1 z.n += 2 } func (z *bufioEncWriter) writen4(b [4]byte) { if 4 > len(z.buf)-z.n { z.flush() } copy(z.buf[z.n:], b[:]) z.n += 4 } func (z *bufioEncWriter) writen8(b [8]byte) { if 8 > len(z.buf)-z.n { z.flush() } copy(z.buf[z.n:], b[:]) z.n += 8 } func (z *bufioEncWriter) endErr() (err error) { if z.n > 0 { err = z.flushErr() } return } // --------------------------------------------- // bytesEncAppender implements encWriter and can write to an byte slice. type bytesEncAppender struct { b []byte out *[]byte } func (z *bytesEncAppender) writeb(s []byte) { z.b = append(z.b, s...) } func (z *bytesEncAppender) writestr(s string) { z.b = append(z.b, s...) } func (z *bytesEncAppender) writeqstr(s string) { z.b = append(append(append(z.b, '"'), s...), '"') // z.b = append(z.b, '"') // z.b = append(z.b, s...) // z.b = append(z.b, '"') } func (z *bytesEncAppender) writen1(b1 byte) { z.b = append(z.b, b1) } func (z *bytesEncAppender) writen2(b1, b2 byte) { z.b = append(z.b, b1, b2) } func (z *bytesEncAppender) writen4(b [4]byte) { z.b = append(z.b, b[:]...) // z.b = append(z.b, b[0], b[1], b[2], b[3]) // prevents inlining encWr.writen4 } func (z *bytesEncAppender) writen8(b [8]byte) { z.b = append(z.b, b[:]...) // z.b = append(z.b, b[0], b[1], b[2], b[3], b[4], b[5], b[6], b[7]) // prevents inlining encWr.writen4 } func (z *bytesEncAppender) endErr() error { *(z.out) = z.b return nil } func (z *bytesEncAppender) reset(in []byte, out *[]byte) { z.b = in[:0] z.out = out } // -------------------------------------------------- type encWr struct { bytes bool // encoding to []byte js bool // is json encoder? be bool // is binary encoder? c containerState calls uint16 seq uint16 // sequencer (e.g. used by binc for symbols, etc) wb bytesEncAppender wf *bufioEncWriter } // MARKER: manually inline bytesEncAppender.writenx/writeqstr methods, // as calling them causes encWr.writenx/writeqstr methods to not be inlined (cost > 80). // // i.e. e.g. instead of writing z.wb.writen2(b1, b2), use z.wb.b = append(z.wb.b, b1, b2) func (z *encWr) writeb(s []byte) { if z.bytes { z.wb.writeb(s) } else { z.wf.writeb(s) } } func (z *encWr) writeqstr(s string) { if z.bytes { // MARKER: z.wb.writeqstr(s) z.wb.b = append(append(append(z.wb.b, '"'), s...), '"') } else { z.wf.writeqstr(s) } } func (z *encWr) writestr(s string) { if z.bytes { z.wb.writestr(s) } else { z.wf.writestr(s) } } func (z *encWr) writen1(b1 byte) { if z.bytes { z.wb.writen1(b1) } else { z.wf.writen1(b1) } } func (z *encWr) writen2(b1, b2 byte) { if z.bytes { // MARKER: z.wb.writen2(b1, b2) z.wb.b = append(z.wb.b, b1, b2) } else { z.wf.writen2(b1, b2) } } func (z *encWr) writen4(b [4]byte) { if z.bytes { z.wb.writen4(b) } else { z.wf.writen4(b) } } func (z *encWr) writen8(b [8]byte) { if z.bytes { z.wb.writen8(b) } else { z.wf.writen8(b) } } func (z *encWr) endErr() error { if z.bytes { return z.wb.endErr() } return z.wf.endErr() } func (z *encWr) end() { halt.onerror(z.endErr()) } var _ encWriter = (*encWr)(nil)