publicsuffix/gen.go - platform/tools/external/go/src/golang.org/x/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.

 // +build ignore

 package main

 // This program generates table.go and table_test.go.
 // Invoke as:
 //
 //	go run gen.go -version "xxx"       >table.go
 //	go run gen.go -version "xxx" -test >table_test.go
 //
 // The version is derived from information found at
 // https://github.com/publicsuffix/list/commits/master/public_suffix_list.dat
 //
 // To fetch a particular git revision, such as 5c70ccd250, pass
 // -url "https://raw.githubusercontent.com/publicsuffix/list/5c70ccd250/public_suffix_list.dat"

 import (
 	"bufio"
 	"bytes"
 	"flag"
 	"fmt"
 	"go/format"
 	"io"
 	"net/http"
 	"os"
 	"regexp"
 	"sort"
 	"strings"

 	"golang.org/x/net/idna"
 )

 const (
 	nodesBitsChildren   = 9
 	nodesBitsICANN      = 1
 	nodesBitsTextOffset = 15
 	nodesBitsTextLength = 6

 	childrenBitsWildcard = 1
 	childrenBitsNodeType = 2
 	childrenBitsHi       = 14
 	childrenBitsLo       = 14
 )

 var (
 	maxChildren   int
 	maxTextOffset int
 	maxTextLength int
 	maxHi         uint32
 	maxLo         uint32
 )

 func max(a, b int) int {
 	if a < b {
 		return b
 	}
 	return a
 }

 func u32max(a, b uint32) uint32 {
 	if a < b {
 		return b
 	}
 	return a
 }

 const (
 	nodeTypeNormal     = 0
 	nodeTypeException  = 1
 	nodeTypeParentOnly = 2
 	numNodeType        = 3
 )

 func nodeTypeStr(n int) string {
 	switch n {
 	case nodeTypeNormal:
 		return "+"
 	case nodeTypeException:
 		return "!"
 	case nodeTypeParentOnly:
 		return "o"
 	}
 	panic("unreachable")
 }

 var (
 	labelEncoding = map[string]uint32{}
 	labelsList    = []string{}
 	labelsMap     = map[string]bool{}
 	rules         = []string{}

 	// validSuffix is used to check that the entries in the public suffix list
 	// are in canonical form (after Punycode encoding). Specifically, capital
 	// letters are not allowed.
 	validSuffix = regexp.MustCompile(`^[a-z0-9_\!\*\-\.]+$`)

 	crush  = flag.Bool("crush", true, "make the generated node text as small as possible")
 	subset = flag.Bool("subset", false, "generate only a subset of the full table, for debugging")
 	url    = flag.String("url",
 		"https://publicsuffix.org/list/effective_tld_names.dat",
 		"URL of the publicsuffix.org list. If empty, stdin is read instead")
 	v       = flag.Bool("v", false, "verbose output (to stderr)")
 	version = flag.String("version", "", "the effective_tld_names.dat version")
 	test    = flag.Bool("test", false, "generate table_test.go")
 )

 func main() {
 	if err := main1(); err != nil {
 		fmt.Fprintln(os.Stderr, err)
 		os.Exit(1)
 	}
 }

 func main1() error {
 	flag.Parse()
 	if nodesBitsTextLength+nodesBitsTextOffset+nodesBitsICANN+nodesBitsChildren > 32 {
 		return fmt.Errorf("not enough bits to encode the nodes table")
 	}
 	if childrenBitsLo+childrenBitsHi+childrenBitsNodeType+childrenBitsWildcard > 32 {
 		return fmt.Errorf("not enough bits to encode the children table")
 	}
 	if *version == "" {
 		return fmt.Errorf("-version was not specified")
 	}
 	var r io.Reader = os.Stdin
 	if *url != "" {
 		res, err := http.Get(*url)
 		if err != nil {
 			return err
 		}
 		if res.StatusCode != http.StatusOK {
 			return fmt.Errorf("bad GET status for %s: %d", *url, res.Status)
 		}
 		r = res.Body
 		defer res.Body.Close()
 	}

 	var root node
 	icann := false
 	buf := new(bytes.Buffer)
 	br := bufio.NewReader(r)
 	for {
 		s, err := br.ReadString('\n')
 		if err != nil {
 			if err == io.EOF {
 				break
 			}
 			return err
 		}
 		s = strings.TrimSpace(s)
 		if strings.Contains(s, "BEGIN ICANN DOMAINS") {
 			icann = true
 			continue
 		}
 		if strings.Contains(s, "END ICANN DOMAINS") {
 			icann = false
 			continue
 		}
 		if s == "" || strings.HasPrefix(s, "//") {
 			continue
 		}
 		s, err = idna.ToASCII(s)
 		if err != nil {
 			return err
 		}
 		if !validSuffix.MatchString(s) {
 			return fmt.Errorf("bad publicsuffix.org list data: %q", s)
 		}

 		if *subset {
 			switch {
 			case s == "ac.jp" || strings.HasSuffix(s, ".ac.jp"):
 			case s == "ak.us" || strings.HasSuffix(s, ".ak.us"):
 			case s == "ao" || strings.HasSuffix(s, ".ao"):
 			case s == "ar" || strings.HasSuffix(s, ".ar"):
 			case s == "arpa" || strings.HasSuffix(s, ".arpa"):
 			case s == "cy" || strings.HasSuffix(s, ".cy"):
 			case s == "dyndns.org" || strings.HasSuffix(s, ".dyndns.org"):
 			case s == "jp":
 			case s == "kobe.jp" || strings.HasSuffix(s, ".kobe.jp"):
 			case s == "kyoto.jp" || strings.HasSuffix(s, ".kyoto.jp"):
 			case s == "om" || strings.HasSuffix(s, ".om"):
 			case s == "uk" || strings.HasSuffix(s, ".uk"):
 			case s == "uk.com" || strings.HasSuffix(s, ".uk.com"):
 			case s == "tw" || strings.HasSuffix(s, ".tw"):
 			case s == "zw" || strings.HasSuffix(s, ".zw"):
 			case s == "xn--p1ai" || strings.HasSuffix(s, ".xn--p1ai"):
 				// xn--p1ai is Russian-Cyrillic "рф".
 			default:
 				continue
 			}
 		}

 		rules = append(rules, s)

 		nt, wildcard := nodeTypeNormal, false
 		switch {
 		case strings.HasPrefix(s, "*."):
 			s, nt = s[2:], nodeTypeParentOnly
 			wildcard = true
 		case strings.HasPrefix(s, "!"):
 			s, nt = s[1:], nodeTypeException
 		}
 		labels := strings.Split(s, ".")
 		for n, i := &root, len(labels)-1; i >= 0; i-- {
 			label := labels[i]
 			n = n.child(label)
 			if i == 0 {
 				if nt != nodeTypeParentOnly && n.nodeType == nodeTypeParentOnly {
 					n.nodeType = nt
 				}
 				n.icann = n.icann && icann
 				n.wildcard = n.wildcard || wildcard
 			}
 			labelsMap[label] = true
 		}
 	}
 	labelsList = make([]string, 0, len(labelsMap))
 	for label := range labelsMap {
 		labelsList = append(labelsList, label)
 	}
 	sort.Strings(labelsList)

 	p := printReal
 	if *test {
 		p = printTest
 	}
 	if err := p(buf, &root); err != nil {
 		return err
 	}

 	b, err := format.Source(buf.Bytes())
 	if err != nil {
 		return err
 	}
 	_, err = os.Stdout.Write(b)
 	return err
 }

 func printTest(w io.Writer, n *node) error {
 	fmt.Fprintf(w, "// generated by go run gen.go; DO NOT EDIT\n\n")
 	fmt.Fprintf(w, "package publicsuffix\n\nvar rules = [...]string{\n")
 	for _, rule := range rules {
 		fmt.Fprintf(w, "%q,\n", rule)
 	}
 	fmt.Fprintf(w, "}\n\nvar nodeLabels = [...]string{\n")
 	if err := n.walk(w, printNodeLabel); err != nil {
 		return err
 	}
 	fmt.Fprintf(w, "}\n")
 	return nil
 }

 func printReal(w io.Writer, n *node) error {
 	const header = `// generated by go run gen.go; DO NOT EDIT

 package publicsuffix

 const version = %q

 const (
 	nodesBitsChildren   = %d
 	nodesBitsICANN      = %d
 	nodesBitsTextOffset = %d
 	nodesBitsTextLength = %d

 	childrenBitsWildcard = %d
 	childrenBitsNodeType = %d
 	childrenBitsHi       = %d
 	childrenBitsLo       = %d
 )

 const (
 	nodeTypeNormal     = %d
 	nodeTypeException  = %d
 	nodeTypeParentOnly = %d
 )

 // numTLD is the number of top level domains.
 const numTLD = %d

 `
 	fmt.Fprintf(w, header, *version,
 		nodesBitsChildren, nodesBitsICANN, nodesBitsTextOffset, nodesBitsTextLength,
 		childrenBitsWildcard, childrenBitsNodeType, childrenBitsHi, childrenBitsLo,
 		nodeTypeNormal, nodeTypeException, nodeTypeParentOnly, len(n.children))

 	text := makeText()
 	if text == "" {
 		return fmt.Errorf("internal error: makeText returned no text")
 	}
 	for _, label := range labelsList {
 		offset, length := strings.Index(text, label), len(label)
 		if offset < 0 {
 			return fmt.Errorf("internal error: could not find %q in text %q", label, text)
 		}
 		maxTextOffset, maxTextLength = max(maxTextOffset, offset), max(maxTextLength, length)
 		if offset >= 1<<nodesBitsTextOffset || length >= 1<<nodesBitsTextLength {
 			return fmt.Errorf("text offset/length is too large: %d/%d", offset, length)
 		}
 		labelEncoding[label] = uint32(offset)<<nodesBitsTextLength | uint32(length)
 	}
 	fmt.Fprintf(w, "// Text is the combined text of all labels.\nconst text = ")
 	for len(text) > 0 {
 		n, plus := len(text), ""
 		if n > 64 {
 			n, plus = 64, " +"
 		}
 		fmt.Fprintf(w, "%q%s\n", text[:n], plus)
 		text = text[n:]
 	}

 	n.walk(w, assignIndexes)

 	fmt.Fprintf(w, `

 // nodes is the list of nodes. Each node is represented as a uint32, which
 // encodes the node's children, wildcard bit and node type (as an index into
 // the children array), ICANN bit and text.
 //
 // In the //-comment after each node's data, the nodes indexes of the children
 // are formatted as (n0x1234-n0x1256), with * denoting the wildcard bit. The
 // nodeType is printed as + for normal, ! for exception, and o for parent-only
 // nodes that have children but don't match a domain label in their own right.
 // An I denotes an ICANN domain.
 //
 // The layout within the uint32, from MSB to LSB, is:
 //	[%2d bits] unused
 //	[%2d bits] children index
 //	[%2d bits] ICANN bit
 //	[%2d bits] text index
 //	[%2d bits] text length
 var nodes = [...]uint32{
 `,
 		32-nodesBitsChildren-nodesBitsICANN-nodesBitsTextOffset-nodesBitsTextLength,
 		nodesBitsChildren, nodesBitsICANN, nodesBitsTextOffset, nodesBitsTextLength)
 	if err := n.walk(w, printNode); err != nil {
 		return err
 	}
 	fmt.Fprintf(w, `}

 // children is the list of nodes' children, the parent's wildcard bit and the
 // parent's node type. If a node has no children then their children index
 // will be in the range [0, 6), depending on the wildcard bit and node type.
 //
 // The layout within the uint32, from MSB to LSB, is:
 //	[%2d bits] unused
 //	[%2d bits] wildcard bit
 //	[%2d bits] node type
 //	[%2d bits] high nodes index (exclusive) of children
 //	[%2d bits] low nodes index (inclusive) of children
 var children=[...]uint32{
 `,
 		32-childrenBitsWildcard-childrenBitsNodeType-childrenBitsHi-childrenBitsLo,
 		childrenBitsWildcard, childrenBitsNodeType, childrenBitsHi, childrenBitsLo)
 	for i, c := range childrenEncoding {
 		s := "---------------"
 		lo := c & (1<<childrenBitsLo - 1)
 		hi := (c >> childrenBitsLo) & (1<<childrenBitsHi - 1)
 		if lo != hi {
 			s = fmt.Sprintf("n0x%04x-n0x%04x", lo, hi)
 		}
 		nodeType := int(c>>(childrenBitsLo+childrenBitsHi)) & (1<<childrenBitsNodeType - 1)
 		wildcard := c>>(childrenBitsLo+childrenBitsHi+childrenBitsNodeType) != 0
 		fmt.Fprintf(w, "0x%08x, // c0x%04x (%s)%s %s\n",
 			c, i, s, wildcardStr(wildcard), nodeTypeStr(nodeType))
 	}
 	fmt.Fprintf(w, "}\n\n")
 	fmt.Fprintf(w, "// max children %d (capacity %d)\n", maxChildren, 1<<nodesBitsChildren-1)
 	fmt.Fprintf(w, "// max text offset %d (capacity %d)\n", maxTextOffset, 1<<nodesBitsTextOffset-1)
 	fmt.Fprintf(w, "// max text length %d (capacity %d)\n", maxTextLength, 1<<nodesBitsTextLength-1)
 	fmt.Fprintf(w, "// max hi %d (capacity %d)\n", maxHi, 1<<childrenBitsHi-1)
 	fmt.Fprintf(w, "// max lo %d (capacity %d)\n", maxLo, 1<<childrenBitsLo-1)
 	return nil
 }

 type node struct {
 	label    string
 	nodeType int
 	icann    bool
 	wildcard bool
 	// nodesIndex and childrenIndex are the index of this node in the nodes
 	// and the index of its children offset/length in the children arrays.
 	nodesIndex, childrenIndex int
 	// firstChild is the index of this node's first child, or zero if this
 	// node has no children.
 	firstChild int
 	// children are the node's children, in strictly increasing node label order.
 	children []*node
 }

 func (n *node) walk(w io.Writer, f func(w1 io.Writer, n1 *node) error) error {
 	if err := f(w, n); err != nil {
 		return err
 	}
 	for _, c := range n.children {
 		if err := c.walk(w, f); err != nil {
 			return err
 		}
 	}
 	return nil
 }

 // child returns the child of n with the given label. The child is created if
 // it did not exist beforehand.
 func (n *node) child(label string) *node {
 	for _, c := range n.children {
 		if c.label == label {
 			return c
 		}
 	}
 	c := &node{
 		label:    label,
 		nodeType: nodeTypeParentOnly,
 		icann:    true,
 	}
 	n.children = append(n.children, c)
 	sort.Sort(byLabel(n.children))
 	return c
 }

 type byLabel []*node

 func (b byLabel) Len() int           { return len(b) }
 func (b byLabel) Swap(i, j int)      { b[i], b[j] = b[j], b[i] }
 func (b byLabel) Less(i, j int) bool { return b[i].label < b[j].label }

 var nextNodesIndex int

 // childrenEncoding are the encoded entries in the generated children array.
 // All these pre-defined entries have no children.
 var childrenEncoding = []uint32{
 	0 << (childrenBitsLo + childrenBitsHi), // Without wildcard bit, nodeTypeNormal.
 	1 << (childrenBitsLo + childrenBitsHi), // Without wildcard bit, nodeTypeException.
 	2 << (childrenBitsLo + childrenBitsHi), // Without wildcard bit, nodeTypeParentOnly.
 	4 << (childrenBitsLo + childrenBitsHi), // With wildcard bit, nodeTypeNormal.
 	5 << (childrenBitsLo + childrenBitsHi), // With wildcard bit, nodeTypeException.
 	6 << (childrenBitsLo + childrenBitsHi), // With wildcard bit, nodeTypeParentOnly.
 }

 var firstCallToAssignIndexes = true

 func assignIndexes(w io.Writer, n *node) error {
 	if len(n.children) != 0 {
 		// Assign nodesIndex.
 		n.firstChild = nextNodesIndex
 		for _, c := range n.children {
 			c.nodesIndex = nextNodesIndex
 			nextNodesIndex++
 		}

 		// The root node's children is implicit.
 		if firstCallToAssignIndexes {
 			firstCallToAssignIndexes = false
 			return nil
 		}

 		// Assign childrenIndex.
 		maxChildren = max(maxChildren, len(childrenEncoding))
 		if len(childrenEncoding) >= 1<<nodesBitsChildren {
 			return fmt.Errorf("children table is too large")
 		}
 		n.childrenIndex = len(childrenEncoding)
 		lo := uint32(n.firstChild)
 		hi := lo + uint32(len(n.children))
 		maxLo, maxHi = u32max(maxLo, lo), u32max(maxHi, hi)
 		if lo >= 1<<childrenBitsLo || hi >= 1<<childrenBitsHi {
 			return fmt.Errorf("children lo/hi is too large: %d/%d", lo, hi)
 		}
 		enc := hi<<childrenBitsLo | lo
 		enc |= uint32(n.nodeType) << (childrenBitsLo + childrenBitsHi)
 		if n.wildcard {
 			enc |= 1 << (childrenBitsLo + childrenBitsHi + childrenBitsNodeType)
 		}
 		childrenEncoding = append(childrenEncoding, enc)
 	} else {
 		n.childrenIndex = n.nodeType
 		if n.wildcard {
 			n.childrenIndex += numNodeType
 		}
 	}
 	return nil
 }

 func printNode(w io.Writer, n *node) error {
 	for _, c := range n.children {
 		s := "---------------"
 		if len(c.children) != 0 {
 			s = fmt.Sprintf("n0x%04x-n0x%04x", c.firstChild, c.firstChild+len(c.children))
 		}
 		encoding := labelEncoding[c.label]
 		if c.icann {
 			encoding |= 1 << (nodesBitsTextLength + nodesBitsTextOffset)
 		}
 		encoding |= uint32(c.childrenIndex) << (nodesBitsTextLength + nodesBitsTextOffset + nodesBitsICANN)
 		fmt.Fprintf(w, "0x%08x, // n0x%04x c0x%04x (%s)%s %s %s %s\n",
 			encoding, c.nodesIndex, c.childrenIndex, s, wildcardStr(c.wildcard),
 			nodeTypeStr(c.nodeType), icannStr(c.icann), c.label,
 		)
 	}
 	return nil
 }

 func printNodeLabel(w io.Writer, n *node) error {
 	for _, c := range n.children {
 		fmt.Fprintf(w, "%q,\n", c.label)
 	}
 	return nil
 }

 func icannStr(icann bool) string {
 	if icann {
 		return "I"
 	}
 	return " "
 }

 func wildcardStr(wildcard bool) string {
 	if wildcard {
 		return "*"
 	}
 	return " "
 }

 // makeText combines all the strings in labelsList to form one giant string.
 // If the crush flag is true, then overlapping strings will be merged: "arpa"
 // and "parliament" could yield "arparliament".
 func makeText() string {
 	if !*crush {
 		return strings.Join(labelsList, "")
 	}

 	beforeLength := 0
 	for _, s := range labelsList {
 		beforeLength += len(s)
 	}

 	// Make a copy of labelsList.
 	ss := append(make([]string, 0, len(labelsList)), labelsList...)

 	// Remove strings that are substrings of other strings.
 	for changed := true; changed; {
 		changed = false
 		for i, s := range ss {
 			if s == "" {
 				continue
 			}
 			for j, t := range ss {
 				if i != j && t != "" && strings.Contains(s, t) {
 					changed = true
 					ss[j] = ""
 				}
 			}
 		}
 	}

 	// Remove the empty strings.
 	sort.Strings(ss)
 	for len(ss) > 0 && ss[0] == "" {
 		ss = ss[1:]
 	}

 	// Join strings where one suffix matches another prefix.
 	for {
 		// Find best i, j, k such that ss[i][len-k:] == ss[j][:k],
 		// maximizing overlap length k.
 		besti := -1
 		bestj := -1
 		bestk := 0
 		for i, s := range ss {
 			if s == "" {
 				continue
 			}
 			for j, t := range ss {
 				if i == j {
 					continue
 				}
 				for k := bestk + 1; k <= len(s) && k <= len(t); k++ {
 					if s[len(s)-k:] == t[:k] {
 						besti = i
 						bestj = j
 						bestk = k
 					}
 				}
 			}
 		}
 		if bestk > 0 {
 			if *v {
 				fmt.Fprintf(os.Stderr, "%d-length overlap at (%4d,%4d) out of (%4d,%4d): %q and %q\n",
 					bestk, besti, bestj, len(ss), len(ss), ss[besti], ss[bestj])
 			}
 			ss[besti] += ss[bestj][bestk:]
 			ss[bestj] = ""
 			continue
 		}
 		break
 	}

 	text := strings.Join(ss, "")
 	if *v {
 		fmt.Fprintf(os.Stderr, "crushed %d bytes to become %d bytes\n", beforeLength, len(text))
 	}
 	return text
 }
	// 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.

	// +build ignore

	package main

	// This program generates table.go and table_test.go.
	// Invoke as:
	//
	// go run gen.go -version "xxx" >table.go
	// go run gen.go -version "xxx" -test >table_test.go
	//
	// The version is derived from information found at
	// https://github.com/publicsuffix/list/commits/master/public_suffix_list.dat
	//
	// To fetch a particular git revision, such as 5c70ccd250, pass
	// -url "https://raw.githubusercontent.com/publicsuffix/list/5c70ccd250/public_suffix_list.dat"

	import (
	"bufio"
	"bytes"
	"flag"
	"fmt"
	"go/format"
	"io"
	"net/http"
	"os"
	"regexp"
	"sort"
	"strings"

	"golang.org/x/net/idna"
	)

	const (
	nodesBitsChildren = 9
	nodesBitsICANN = 1
	nodesBitsTextOffset = 15
	nodesBitsTextLength = 6

	childrenBitsWildcard = 1
	childrenBitsNodeType = 2
	childrenBitsHi = 14
	childrenBitsLo = 14
	)

	var (
	maxChildren int
	maxTextOffset int
	maxTextLength int
	maxHi uint32
	maxLo uint32
	)

	func max(a, b int) int {
	if a < b {
	return b
	}
	return a
	}

	func u32max(a, b uint32) uint32 {
	if a < b {
	return b
	}
	return a
	}

	const (
	nodeTypeNormal = 0
	nodeTypeException = 1
	nodeTypeParentOnly = 2
	numNodeType = 3
	)

	func nodeTypeStr(n int) string {
	switch n {
	case nodeTypeNormal:
	return "+"
	case nodeTypeException:
	return "!"
	case nodeTypeParentOnly:
	return "o"
	}
	panic("unreachable")
	}

	var (
	labelEncoding = map[string]uint32{}
	labelsList = []string{}
	labelsMap = map[string]bool{}
	rules = []string{}

	// validSuffix is used to check that the entries in the public suffix list
	// are in canonical form (after Punycode encoding). Specifically, capital
	// letters are not allowed.
	validSuffix = regexp.MustCompile(`^[a-z0-9_\!\*\-\.]+$`)

	crush = flag.Bool("crush", true, "make the generated node text as small as possible")
	subset = flag.Bool("subset", false, "generate only a subset of the full table, for debugging")
	url = flag.String("url",
	"https://publicsuffix.org/list/effective_tld_names.dat",
	"URL of the publicsuffix.org list. If empty, stdin is read instead")
	v = flag.Bool("v", false, "verbose output (to stderr)")
	version = flag.String("version", "", "the effective_tld_names.dat version")
	test = flag.Bool("test", false, "generate table_test.go")
	)

	func main() {
	if err := main1(); err != nil {
	fmt.Fprintln(os.Stderr, err)
	os.Exit(1)
	}
	}

	func main1() error {
	flag.Parse()
	if nodesBitsTextLength+nodesBitsTextOffset+nodesBitsICANN+nodesBitsChildren > 32 {
	return fmt.Errorf("not enough bits to encode the nodes table")
	}
	if childrenBitsLo+childrenBitsHi+childrenBitsNodeType+childrenBitsWildcard > 32 {
	return fmt.Errorf("not enough bits to encode the children table")
	}
	if *version == "" {
	return fmt.Errorf("-version was not specified")
	}
	var r io.Reader = os.Stdin
	if *url != "" {
	res, err := http.Get(*url)
	if err != nil {
	return err
	}
	if res.StatusCode != http.StatusOK {
	return fmt.Errorf("bad GET status for %s: %d", *url, res.Status)
	}
	r = res.Body
	defer res.Body.Close()
	}

	var root node
	icann := false
	buf := new(bytes.Buffer)
	br := bufio.NewReader(r)
	for {
	s, err := br.ReadString('\n')
	if err != nil {
	if err == io.EOF {
	break
	}
	return err
	}
	s = strings.TrimSpace(s)
	if strings.Contains(s, "BEGIN ICANN DOMAINS") {
	icann = true
	continue
	}
	if strings.Contains(s, "END ICANN DOMAINS") {
	icann = false
	continue
	}
	if s == "" \|\| strings.HasPrefix(s, "//") {
	continue
	}
	s, err = idna.ToASCII(s)
	if err != nil {
	return err
	}
	if !validSuffix.MatchString(s) {
	return fmt.Errorf("bad publicsuffix.org list data: %q", s)
	}

	if *subset {
	switch {
	case s == "ac.jp" \|\| strings.HasSuffix(s, ".ac.jp"):
	case s == "ak.us" \|\| strings.HasSuffix(s, ".ak.us"):
	case s == "ao" \|\| strings.HasSuffix(s, ".ao"):
	case s == "ar" \|\| strings.HasSuffix(s, ".ar"):
	case s == "arpa" \|\| strings.HasSuffix(s, ".arpa"):
	case s == "cy" \|\| strings.HasSuffix(s, ".cy"):
	case s == "dyndns.org" \|\| strings.HasSuffix(s, ".dyndns.org"):
	case s == "jp":
	case s == "kobe.jp" \|\| strings.HasSuffix(s, ".kobe.jp"):
	case s == "kyoto.jp" \|\| strings.HasSuffix(s, ".kyoto.jp"):
	case s == "om" \|\| strings.HasSuffix(s, ".om"):
	case s == "uk" \|\| strings.HasSuffix(s, ".uk"):
	case s == "uk.com" \|\| strings.HasSuffix(s, ".uk.com"):
	case s == "tw" \|\| strings.HasSuffix(s, ".tw"):
	case s == "zw" \|\| strings.HasSuffix(s, ".zw"):
	case s == "xn--p1ai" \|\| strings.HasSuffix(s, ".xn--p1ai"):
	// xn--p1ai is Russian-Cyrillic "рф".
	default:
	continue
	}
	}

	rules = append(rules, s)

	nt, wildcard := nodeTypeNormal, false
	switch {
	case strings.HasPrefix(s, "*."):
	s, nt = s[2:], nodeTypeParentOnly
	wildcard = true
	case strings.HasPrefix(s, "!"):
	s, nt = s[1:], nodeTypeException
	}
	labels := strings.Split(s, ".")
	for n, i := &root, len(labels)-1; i >= 0; i-- {
	label := labels[i]
	n = n.child(label)
	if i == 0 {
	if nt != nodeTypeParentOnly && n.nodeType == nodeTypeParentOnly {
	n.nodeType = nt
	}
	n.icann = n.icann && icann
	n.wildcard = n.wildcard \|\| wildcard
	}
	labelsMap[label] = true
	}
	}
	labelsList = make([]string, 0, len(labelsMap))
	for label := range labelsMap {
	labelsList = append(labelsList, label)
	}
	sort.Strings(labelsList)

	p := printReal
	if *test {
	p = printTest
	}
	if err := p(buf, &root); err != nil {
	return err
	}

	b, err := format.Source(buf.Bytes())
	if err != nil {
	return err
	}
	_, err = os.Stdout.Write(b)
	return err
	}

	func printTest(w io.Writer, n *node) error {
	fmt.Fprintf(w, "// generated by go run gen.go; DO NOT EDIT\n\n")
	fmt.Fprintf(w, "package publicsuffix\n\nvar rules = [...]string{\n")
	for _, rule := range rules {
	fmt.Fprintf(w, "%q,\n", rule)
	}
	fmt.Fprintf(w, "}\n\nvar nodeLabels = [...]string{\n")
	if err := n.walk(w, printNodeLabel); err != nil {
	return err
	}
	fmt.Fprintf(w, "}\n")
	return nil
	}

	func printReal(w io.Writer, n *node) error {
	const header = `// generated by go run gen.go; DO NOT EDIT

	package publicsuffix

	const version = %q

	const (
	nodesBitsChildren = %d
	nodesBitsICANN = %d
	nodesBitsTextOffset = %d
	nodesBitsTextLength = %d

	childrenBitsWildcard = %d
	childrenBitsNodeType = %d
	childrenBitsHi = %d
	childrenBitsLo = %d
	)

	const (
	nodeTypeNormal = %d
	nodeTypeException = %d
	nodeTypeParentOnly = %d
	)

	// numTLD is the number of top level domains.
	const numTLD = %d

	`
	fmt.Fprintf(w, header, *version,
	nodesBitsChildren, nodesBitsICANN, nodesBitsTextOffset, nodesBitsTextLength,
	childrenBitsWildcard, childrenBitsNodeType, childrenBitsHi, childrenBitsLo,
	nodeTypeNormal, nodeTypeException, nodeTypeParentOnly, len(n.children))

	text := makeText()
	if text == "" {
	return fmt.Errorf("internal error: makeText returned no text")
	}
	for _, label := range labelsList {
	offset, length := strings.Index(text, label), len(label)
	if offset < 0 {
	return fmt.Errorf("internal error: could not find %q in text %q", label, text)
	}
	maxTextOffset, maxTextLength = max(maxTextOffset, offset), max(maxTextLength, length)
	if offset >= 1<<nodesBitsTextOffset \|\| length >= 1<<nodesBitsTextLength {
	return fmt.Errorf("text offset/length is too large: %d/%d", offset, length)
	}
	labelEncoding[label] = uint32(offset)<<nodesBitsTextLength \| uint32(length)
	}
	fmt.Fprintf(w, "// Text is the combined text of all labels.\nconst text = ")
	for len(text) > 0 {
	n, plus := len(text), ""
	if n > 64 {
	n, plus = 64, " +"
	}
	fmt.Fprintf(w, "%q%s\n", text[:n], plus)
	text = text[n:]
	}

	n.walk(w, assignIndexes)

	fmt.Fprintf(w, `

	// nodes is the list of nodes. Each node is represented as a uint32, which
	// encodes the node's children, wildcard bit and node type (as an index into
	// the children array), ICANN bit and text.
	//
	// In the //-comment after each node's data, the nodes indexes of the children
	// are formatted as (n0x1234-n0x1256), with * denoting the wildcard bit. The
	// nodeType is printed as + for normal, ! for exception, and o for parent-only
	// nodes that have children but don't match a domain label in their own right.
	// An I denotes an ICANN domain.
	//
	// The layout within the uint32, from MSB to LSB, is:
	// [%2d bits] unused
	// [%2d bits] children index
	// [%2d bits] ICANN bit
	// [%2d bits] text index
	// [%2d bits] text length
	var nodes = [...]uint32{
	`,
	32-nodesBitsChildren-nodesBitsICANN-nodesBitsTextOffset-nodesBitsTextLength,
	nodesBitsChildren, nodesBitsICANN, nodesBitsTextOffset, nodesBitsTextLength)
	if err := n.walk(w, printNode); err != nil {
	return err
	}
	fmt.Fprintf(w, `}

	// children is the list of nodes' children, the parent's wildcard bit and the
	// parent's node type. If a node has no children then their children index
	// will be in the range [0, 6), depending on the wildcard bit and node type.
	//
	// The layout within the uint32, from MSB to LSB, is:
	// [%2d bits] unused
	// [%2d bits] wildcard bit
	// [%2d bits] node type
	// [%2d bits] high nodes index (exclusive) of children
	// [%2d bits] low nodes index (inclusive) of children
	var children=[...]uint32{
	`,
	32-childrenBitsWildcard-childrenBitsNodeType-childrenBitsHi-childrenBitsLo,
	childrenBitsWildcard, childrenBitsNodeType, childrenBitsHi, childrenBitsLo)
	for i, c := range childrenEncoding {
	s := "---------------"
	lo := c & (1<<childrenBitsLo - 1)
	hi := (c >> childrenBitsLo) & (1<<childrenBitsHi - 1)
	if lo != hi {
	s = fmt.Sprintf("n0x%04x-n0x%04x", lo, hi)
	}
	nodeType := int(c>>(childrenBitsLo+childrenBitsHi)) & (1<<childrenBitsNodeType - 1)
	wildcard := c>>(childrenBitsLo+childrenBitsHi+childrenBitsNodeType) != 0
	fmt.Fprintf(w, "0x%08x, // c0x%04x (%s)%s %s\n",
	c, i, s, wildcardStr(wildcard), nodeTypeStr(nodeType))
	}
	fmt.Fprintf(w, "}\n\n")
	fmt.Fprintf(w, "// max children %d (capacity %d)\n", maxChildren, 1<<nodesBitsChildren-1)
	fmt.Fprintf(w, "// max text offset %d (capacity %d)\n", maxTextOffset, 1<<nodesBitsTextOffset-1)
	fmt.Fprintf(w, "// max text length %d (capacity %d)\n", maxTextLength, 1<<nodesBitsTextLength-1)
	fmt.Fprintf(w, "// max hi %d (capacity %d)\n", maxHi, 1<<childrenBitsHi-1)
	fmt.Fprintf(w, "// max lo %d (capacity %d)\n", maxLo, 1<<childrenBitsLo-1)
	return nil
	}

	type node struct {
	label string
	nodeType int
	icann bool
	wildcard bool
	// nodesIndex and childrenIndex are the index of this node in the nodes
	// and the index of its children offset/length in the children arrays.
	nodesIndex, childrenIndex int
	// firstChild is the index of this node's first child, or zero if this
	// node has no children.
	firstChild int
	// children are the node's children, in strictly increasing node label order.
	children []*node
	}

	func (n node) walk(w io.Writer, f func(w1 io.Writer, n1 node) error) error {
	if err := f(w, n); err != nil {
	return err
	}
	for _, c := range n.children {
	if err := c.walk(w, f); err != nil {
	return err
	}
	}
	return nil
	}

	// child returns the child of n with the given label. The child is created if
	// it did not exist beforehand.
	func (n node) child(label string) node {
	for _, c := range n.children {
	if c.label == label {
	return c
	}
	}
	c := &node{
	label: label,
	nodeType: nodeTypeParentOnly,
	icann: true,
	}
	n.children = append(n.children, c)
	sort.Sort(byLabel(n.children))
	return c
	}

	type byLabel []*node

	func (b byLabel) Len() int { return len(b) }
	func (b byLabel) Swap(i, j int) { b[i], b[j] = b[j], b[i] }
	func (b byLabel) Less(i, j int) bool { return b[i].label < b[j].label }

	var nextNodesIndex int

	// childrenEncoding are the encoded entries in the generated children array.
	// All these pre-defined entries have no children.
	var childrenEncoding = []uint32{
	0 << (childrenBitsLo + childrenBitsHi), // Without wildcard bit, nodeTypeNormal.
	1 << (childrenBitsLo + childrenBitsHi), // Without wildcard bit, nodeTypeException.
	2 << (childrenBitsLo + childrenBitsHi), // Without wildcard bit, nodeTypeParentOnly.
	4 << (childrenBitsLo + childrenBitsHi), // With wildcard bit, nodeTypeNormal.
	5 << (childrenBitsLo + childrenBitsHi), // With wildcard bit, nodeTypeException.
	6 << (childrenBitsLo + childrenBitsHi), // With wildcard bit, nodeTypeParentOnly.
	}

	var firstCallToAssignIndexes = true

	func assignIndexes(w io.Writer, n *node) error {
	if len(n.children) != 0 {
	// Assign nodesIndex.
	n.firstChild = nextNodesIndex
	for _, c := range n.children {
	c.nodesIndex = nextNodesIndex
	nextNodesIndex++
	}

	// The root node's children is implicit.
	if firstCallToAssignIndexes {
	firstCallToAssignIndexes = false
	return nil
	}

	// Assign childrenIndex.
	maxChildren = max(maxChildren, len(childrenEncoding))
	if len(childrenEncoding) >= 1<<nodesBitsChildren {
	return fmt.Errorf("children table is too large")
	}
	n.childrenIndex = len(childrenEncoding)
	lo := uint32(n.firstChild)
	hi := lo + uint32(len(n.children))
	maxLo, maxHi = u32max(maxLo, lo), u32max(maxHi, hi)
	if lo >= 1<<childrenBitsLo \|\| hi >= 1<<childrenBitsHi {
	return fmt.Errorf("children lo/hi is too large: %d/%d", lo, hi)
	}
	enc := hi<<childrenBitsLo \| lo
	enc \|= uint32(n.nodeType) << (childrenBitsLo + childrenBitsHi)
	if n.wildcard {
	enc \|= 1 << (childrenBitsLo + childrenBitsHi + childrenBitsNodeType)
	}
	childrenEncoding = append(childrenEncoding, enc)
	} else {
	n.childrenIndex = n.nodeType
	if n.wildcard {
	n.childrenIndex += numNodeType
	}
	}
	return nil
	}

	func printNode(w io.Writer, n *node) error {
	for _, c := range n.children {
	s := "---------------"
	if len(c.children) != 0 {
	s = fmt.Sprintf("n0x%04x-n0x%04x", c.firstChild, c.firstChild+len(c.children))
	}
	encoding := labelEncoding[c.label]
	if c.icann {
	encoding \|= 1 << (nodesBitsTextLength + nodesBitsTextOffset)
	}
	encoding \|= uint32(c.childrenIndex) << (nodesBitsTextLength + nodesBitsTextOffset + nodesBitsICANN)
	fmt.Fprintf(w, "0x%08x, // n0x%04x c0x%04x (%s)%s %s %s %s\n",
	encoding, c.nodesIndex, c.childrenIndex, s, wildcardStr(c.wildcard),
	nodeTypeStr(c.nodeType), icannStr(c.icann), c.label,
	)
	}
	return nil
	}

	func printNodeLabel(w io.Writer, n *node) error {
	for _, c := range n.children {
	fmt.Fprintf(w, "%q,\n", c.label)
	}
	return nil
	}

	func icannStr(icann bool) string {
	if icann {
	return "I"
	}
	return " "
	}

	func wildcardStr(wildcard bool) string {
	if wildcard {
	return "*"
	}
	return " "
	}

	// makeText combines all the strings in labelsList to form one giant string.
	// If the crush flag is true, then overlapping strings will be merged: "arpa"
	// and "parliament" could yield "arparliament".
	func makeText() string {
	if !*crush {
	return strings.Join(labelsList, "")
	}

	beforeLength := 0
	for _, s := range labelsList {
	beforeLength += len(s)
	}

	// Make a copy of labelsList.
	ss := append(make([]string, 0, len(labelsList)), labelsList...)

	// Remove strings that are substrings of other strings.
	for changed := true; changed; {
	changed = false
	for i, s := range ss {
	if s == "" {
	continue
	}
	for j, t := range ss {
	if i != j && t != "" && strings.Contains(s, t) {
	changed = true
	ss[j] = ""
	}
	}
	}
	}

	// Remove the empty strings.
	sort.Strings(ss)
	for len(ss) > 0 && ss[0] == "" {
	ss = ss[1:]
	}

	// Join strings where one suffix matches another prefix.
	for {
	// Find best i, j, k such that ss[i][len-k:] == ss[j][:k],
	// maximizing overlap length k.
	besti := -1
	bestj := -1
	bestk := 0
	for i, s := range ss {
	if s == "" {
	continue
	}
	for j, t := range ss {
	if i == j {
	continue
	}
	for k := bestk + 1; k <= len(s) && k <= len(t); k++ {
	if s[len(s)-k:] == t[:k] {
	besti = i
	bestj = j
	bestk = k
	}
	}
	}
	}
	if bestk > 0 {
	if *v {
	fmt.Fprintf(os.Stderr, "%d-length overlap at (%4d,%4d) out of (%4d,%4d): %q and %q\n",
	bestk, besti, bestj, len(ss), len(ss), ss[besti], ss[bestj])
	}
	ss[besti] += ss[bestj][bestk:]
	ss[bestj] = ""
	continue
	}
	break
	}

	text := strings.Join(ss, "")
	if *v {
	fmt.Fprintf(os.Stderr, "crushed %d bytes to become %d bytes\n", beforeLength, len(text))
	}
	return text
	}