package quicktemplate import ( "fmt" "io" "strconv" "sync" ) // Writer implements auxiliary writer used by quicktemplate functions. // // Use AcquireWriter for creating new writers. type Writer struct { e QWriter n QWriter } // W returns the underlying writer passed to AcquireWriter. func (qw *Writer) W() io.Writer { return qw.n.w } // E returns QWriter with enabled html escaping. func (qw *Writer) E() *QWriter { return &qw.e } // N returns QWriter without html escaping. func (qw *Writer) N() *QWriter { return &qw.n } // AcquireWriter returns new writer from the pool. // // Return unneeded writer to the pool by calling ReleaseWriter // in order to reduce memory allocations. func AcquireWriter(w io.Writer) *Writer { v := writerPool.Get() if v == nil { qw := &Writer{} qw.e.w = &htmlEscapeWriter{} v = qw } qw := v.(*Writer) qw.e.w.(*htmlEscapeWriter).w = w qw.n.w = w return qw } // ReleaseWriter returns the writer to the pool. // // Do not access released writer, otherwise data races may occur. func ReleaseWriter(qw *Writer) { hw := qw.e.w.(*htmlEscapeWriter) hw.w = nil qw.e.Reset() qw.e.w = hw qw.n.Reset() writerPool.Put(qw) } var writerPool sync.Pool // QWriter is auxiliary writer used by Writer. type QWriter struct { w io.Writer err error b []byte } // Write implements io.Writer. func (w *QWriter) Write(p []byte) (int, error) { if w.err != nil { return 0, w.err } n, err := w.w.Write(p) if err != nil { w.err = err } return n, err } // Reset resets QWriter to the original state. func (w *QWriter) Reset() { w.w = nil w.err = nil } // S writes s to w. func (w *QWriter) S(s string) { w.Write(unsafeStrToBytes(s)) } // Z writes z to w. func (w *QWriter) Z(z []byte) { w.Write(z) } // SZ is a synonym to Z. func (w *QWriter) SZ(z []byte) { w.Write(z) } // D writes n to w. func (w *QWriter) D(n int) { bb, ok := w.w.(*ByteBuffer) if ok { bb.B = strconv.AppendInt(bb.B, int64(n), 10) } else { w.b = strconv.AppendInt(w.b[:0], int64(n), 10) w.Write(w.b) } } // DL writes n to w func (w *QWriter) DL(n int64) { bb, ok := w.w.(*ByteBuffer) if ok { bb.B = strconv.AppendInt(bb.B, n, 10) } else { w.b = strconv.AppendInt(w.b[:0], n, 10) w.Write(w.b) } } // F writes f to w. func (w *QWriter) F(f float64) { n := int(f) if float64(n) == f { // Fast path - just int. w.D(n) return } // Slow path. w.FPrec(f, -1) } // FPrec writes f to w using the given floating point precision. func (w *QWriter) FPrec(f float64, prec int) { bb, ok := w.w.(*ByteBuffer) if ok { bb.B = strconv.AppendFloat(bb.B, f, 'f', prec, 64) } else { w.b = strconv.AppendFloat(w.b[:0], f, 'f', prec, 64) w.Write(w.b) } } // Q writes quoted json-safe s to w. func (w *QWriter) Q(s string) { bb, ok := w.w.(*ByteBuffer) if ok { bb.B = appendJSONString(bb.B, s, true) } else { w.b = appendJSONString(w.b[:0], s, true) w.Write(w.b) } } var strQuote = []byte(`"`) // QZ writes quoted json-safe z to w. func (w *QWriter) QZ(z []byte) { w.Q(unsafeBytesToStr(z)) } // J writes json-safe s to w. // // Unlike Q it doesn't qoute resulting s. func (w *QWriter) J(s string) { bb, ok := w.w.(*ByteBuffer) if ok { bb.B = appendJSONString(bb.B, s, false) } else { w.b = appendJSONString(w.b[:0], s, false) w.Write(w.b) } } // JZ writes json-safe z to w. // // Unlike Q it doesn't qoute resulting z. func (w *QWriter) JZ(z []byte) { w.J(unsafeBytesToStr(z)) } // V writes v to w. func (w *QWriter) V(v interface{}) { fmt.Fprintf(w, "%v", v) } // U writes url-encoded s to w. func (w *QWriter) U(s string) { bb, ok := w.w.(*ByteBuffer) if ok { bb.B = appendURLEncode(bb.B, s) } else { w.b = appendURLEncode(w.b[:0], s) w.Write(w.b) } } // UZ writes url-encoded z to w. func (w *QWriter) UZ(z []byte) { w.U(unsafeBytesToStr(z)) }