html/atom/atom.go - net - Git at Google

 // Copyright 2012 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 atom provides integer codes (also known as atoms) for a fixed set of
 // frequently occurring HTML strings: tag names and attribute keys such as "p"
 // and "id".
 //
 // Sharing an atom's name between all elements with the same tag can result in
 // fewer string allocations when tokenizing and parsing HTML. Integer
 // comparisons are also generally faster than string comparisons.
 //
 // The value of an atom's particular code is not guaranteed to stay the same
 // between versions of this package. Neither is any ordering guaranteed:
 // whether atom.H1 < atom.H2 may also change. The codes are not guaranteed to
 // be dense. The only guarantees are that e.g. looking up "div" will yield
 // atom.Div, calling atom.Div.String will return "div", and atom.Div != 0.
 package atom // import "golang.org/x/net/html/atom"

 // Atom is an integer code for a string. The zero value maps to "".
 type Atom uint32

 // String returns the atom's name.
 func (a Atom) String() string {
 	start := uint32(a >> 8)
 	n := uint32(a & 0xff)
 	if start+n > uint32(len(atomText)) {
 		return ""
 	}
 	return atomText[start : start+n]
 }

 func (a Atom) string() string {
 	return atomText[a>>8 : a>>8+a&0xff]
 }

 // fnv computes the FNV hash with an arbitrary starting value h.
 func fnv(h uint32, s []byte) uint32 {
 	for i := range s {
 		h ^= uint32(s[i])
 		h *= 16777619
 	}
 	return h
 }

 func match(s string, t []byte) bool {
 	for i, c := range t {
 		if s[i] != c {
 			return false
 		}
 	}
 	return true
 }

 // Lookup returns the atom whose name is s. It returns zero if there is no
 // such atom. The lookup is case sensitive.
 func Lookup(s []byte) Atom {
 	if len(s) == 0 || len(s) > maxAtomLen {
 		return 0
 	}
 	h := fnv(hash0, s)
 	if a := table[h&uint32(len(table)-1)]; int(a&0xff) == len(s) && match(a.string(), s) {
 		return a
 	}
 	if a := table[(h>>16)&uint32(len(table)-1)]; int(a&0xff) == len(s) && match(a.string(), s) {
 		return a
 	}
 	return 0
 }

 // String returns a string whose contents are equal to s. In that sense, it is
 // equivalent to string(s) but may be more efficient.
 func String(s []byte) string {
 	if a := Lookup(s); a != 0 {
 		return a.String()
 	}
 	return string(s)
 }
	// Copyright 2012 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 atom provides integer codes (also known as atoms) for a fixed set of
	// frequently occurring HTML strings: tag names and attribute keys such as "p"
	// and "id".
	//
	// Sharing an atom's name between all elements with the same tag can result in
	// fewer string allocations when tokenizing and parsing HTML. Integer
	// comparisons are also generally faster than string comparisons.
	//
	// The value of an atom's particular code is not guaranteed to stay the same
	// between versions of this package. Neither is any ordering guaranteed:
	// whether atom.H1 < atom.H2 may also change. The codes are not guaranteed to
	// be dense. The only guarantees are that e.g. looking up "div" will yield
	// atom.Div, calling atom.Div.String will return "div", and atom.Div != 0.
	package atom // import "golang.org/x/net/html/atom"

	// Atom is an integer code for a string. The zero value maps to "".
	type Atom uint32

	// String returns the atom's name.
	func (a Atom) String() string {
	start := uint32(a >> 8)
	n := uint32(a & 0xff)
	if start+n > uint32(len(atomText)) {
	return ""
	}
	return atomText[start : start+n]
	}

	func (a Atom) string() string {
	return atomText[a>>8 : a>>8+a&0xff]
	}

	// fnv computes the FNV hash with an arbitrary starting value h.
	func fnv(h uint32, s []byte) uint32 {
	for i := range s {
	h ^= uint32(s[i])
	h *= 16777619
	}
	return h
	}

	func match(s string, t []byte) bool {
	for i, c := range t {
	if s[i] != c {
	return false
	}
	}
	return true
	}

	// Lookup returns the atom whose name is s. It returns zero if there is no
	// such atom. The lookup is case sensitive.
	func Lookup(s []byte) Atom {
	if len(s) == 0 \|\| len(s) > maxAtomLen {
	return 0
	}
	h := fnv(hash0, s)
	if a := table[h&uint32(len(table)-1)]; int(a&0xff) == len(s) && match(a.string(), s) {
	return a
	}
	if a := table[(h>>16)&uint32(len(table)-1)]; int(a&0xff) == len(s) && match(a.string(), s) {
	return a
	}
	return 0
	}

	// String returns a string whose contents are equal to s. In that sense, it is
	// equivalent to string(s) but may be more efficient.
	func String(s []byte) string {
	if a := Lookup(s); a != 0 {
	return a.String()
	}
	return string(s)
	}