// Copyright 2009 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. //go:build ignore // Unicode table generator. // Data read from the web. package main import ( "flag" "fmt" "log" "os" "regexp" "sort" "strings" "unicode" "golang.org/x/text/internal/gen" "golang.org/x/text/internal/ucd" "golang.org/x/text/unicode/rangetable" ) func main() { flag.Parse() setupOutput() loadChars() // always needed loadCasefold() printCategories() printScriptOrProperty(false) printScriptOrProperty(true) printCases() printLatinProperties() printCasefold() printSizes() flushOutput() } func defaultVersion() string { if v := os.Getenv("UNICODE_VERSION"); v != "" { return v } return unicode.Version } var tablelist = flag.String("tables", "all", "comma-separated list of which tables to generate; can be letter") var scriptlist = flag.String("scripts", "all", "comma-separated list of which script tables to generate") var proplist = flag.String("props", "all", "comma-separated list of which property tables to generate") var cases = flag.Bool("cases", true, "generate case tables") var test = flag.Bool("test", false, "test existing tables; can be used to compare web data with package data") var scriptRe = regexp.MustCompile(`^([0-9A-F]+)(\.\.[0-9A-F]+)? *; ([A-Za-z_]+)$`) var logger = log.New(os.Stderr, "", log.Lshortfile) var output *gen.CodeWriter func setupOutput() { output = gen.NewCodeWriter() } func flushOutput() { output.WriteGoFile("tables.go", "unicode") } func printf(format string, args ...interface{}) { fmt.Fprintf(output, format, args...) } func print(args ...interface{}) { fmt.Fprint(output, args...) } func println(args ...interface{}) { fmt.Fprintln(output, args...) } var category = map[string]bool{ // Nd Lu etc. // We use one-character names to identify merged categories "L": true, // Lu Ll Lt Lm Lo "P": true, // Pc Pd Ps Pe Pu Pf Po "M": true, // Mn Mc Me "N": true, // Nd Nl No "S": true, // Sm Sc Sk So "Z": true, // Zs Zl Zp "C": true, // Cc Cf Cs Co Cn } // This contains only the properties we're interested in. type Char struct { codePoint rune // if zero, this index is not a valid code point. category string upperCase rune lowerCase rune titleCase rune foldCase rune // simple case folding caseOrbit rune // next in simple case folding orbit } const MaxChar = 0x10FFFF var chars = make([]Char, MaxChar+1) var scripts = make(map[string][]rune) var props = make(map[string][]rune) // a property looks like a script; can share the format func allCategories() []string { a := make([]string, 0, len(category)) for k := range category { a = append(a, k) } sort.Strings(a) return a } func all(scripts map[string][]rune) []string { a := make([]string, 0, len(scripts)) for k := range scripts { a = append(a, k) } sort.Strings(a) return a } func allCatFold(m map[string]map[rune]bool) []string { a := make([]string, 0, len(m)) for k := range m { a = append(a, k) } sort.Strings(a) return a } func categoryOp(code rune, class uint8) bool { category := chars[code].category return len(category) > 0 && category[0] == class } func loadChars() { ucd.Parse(gen.OpenUCDFile("UnicodeData.txt"), func(p *ucd.Parser) { c := Char{codePoint: p.Rune(0)} getRune := func(field int) rune { if p.String(field) == "" { return 0 } return p.Rune(field) } c.category = p.String(ucd.GeneralCategory) category[c.category] = true switch c.category { case "Nd": // Decimal digit p.Int(ucd.NumericValue) case "Lu": c.upperCase = getRune(ucd.CodePoint) c.lowerCase = getRune(ucd.SimpleLowercaseMapping) c.titleCase = getRune(ucd.SimpleTitlecaseMapping) case "Ll": c.upperCase = getRune(ucd.SimpleUppercaseMapping) c.lowerCase = getRune(ucd.CodePoint) c.titleCase = getRune(ucd.SimpleTitlecaseMapping) case "Lt": c.upperCase = getRune(ucd.SimpleUppercaseMapping) c.lowerCase = getRune(ucd.SimpleLowercaseMapping) c.titleCase = getRune(ucd.CodePoint) default: c.upperCase = getRune(ucd.SimpleUppercaseMapping) c.lowerCase = getRune(ucd.SimpleLowercaseMapping) c.titleCase = getRune(ucd.SimpleTitlecaseMapping) } chars[c.codePoint] = c }) } func loadCasefold() { ucd.Parse(gen.OpenUCDFile("CaseFolding.txt"), func(p *ucd.Parser) { kind := p.String(1) if kind != "C" && kind != "S" { // Only care about 'common' and 'simple' foldings. return } p1 := p.Rune(0) p2 := p.Rune(2) chars[p1].foldCase = rune(p2) }) } var categoryMapping = map[string]string{ "Lu": "Letter, uppercase", "Ll": "Letter, lowercase", "Lt": "Letter, titlecase", "Lm": "Letter, modifier", "Lo": "Letter, other", "Mn": "Mark, nonspacing", "Mc": "Mark, spacing combining", "Me": "Mark, enclosing", "Nd": "Number, decimal digit", "Nl": "Number, letter", "No": "Number, other", "Pc": "Punctuation, connector", "Pd": "Punctuation, dash", "Ps": "Punctuation, open", "Pe": "Punctuation, close", "Pi": "Punctuation, initial quote", "Pf": "Punctuation, final quote", "Po": "Punctuation, other", "Sm": "Symbol, math", "Sc": "Symbol, currency", "Sk": "Symbol, modifier", "So": "Symbol, other", "Zs": "Separator, space", "Zl": "Separator, line", "Zp": "Separator, paragraph", "Cc": "Other, control", "Cf": "Other, format", "Cs": "Other, surrogate", "Co": "Other, private use", "Cn": "Other, not assigned", } func printCategories() { if *tablelist == "" { return } // Find out which categories to dump list := strings.Split(*tablelist, ",") if *tablelist == "all" { list = allCategories() } if *test { fullCategoryTest(list) return } println("// Version is the Unicode edition from which the tables are derived.") printf("const Version = %q\n\n", gen.UnicodeVersion()) if *tablelist == "all" { println("// Categories is the set of Unicode category tables.") println("var Categories = map[string] *RangeTable {") for _, k := range allCategories() { printf("\t%q: %s,\n", k, k) } print("}\n\n") } decl := make(sort.StringSlice, len(list)) ndecl := 0 for _, name := range list { if _, ok := category[name]; !ok { logger.Fatal("unknown category", name) } // We generate an UpperCase name to serve as concise documentation and an _UnderScored // name to store the data. This stops godoc dumping all the tables but keeps them // available to clients. // Cases deserving special comments varDecl := "" switch name { case "C": varDecl = "\tOther = _C; // Other/C is the set of Unicode control and special characters, category C.\n" varDecl += "\tC = _C\n" case "L": varDecl = "\tLetter = _L; // Letter/L is the set of Unicode letters, category L.\n" varDecl += "\tL = _L\n" case "M": varDecl = "\tMark = _M; // Mark/M is the set of Unicode mark characters, category M.\n" varDecl += "\tM = _M\n" case "N": varDecl = "\tNumber = _N; // Number/N is the set of Unicode number characters, category N.\n" varDecl += "\tN = _N\n" case "P": varDecl = "\tPunct = _P; // Punct/P is the set of Unicode punctuation characters, category P.\n" varDecl += "\tP = _P\n" case "S": varDecl = "\tSymbol = _S; // Symbol/S is the set of Unicode symbol characters, category S.\n" varDecl += "\tS = _S\n" case "Z": varDecl = "\tSpace = _Z; // Space/Z is the set of Unicode space characters, category Z.\n" varDecl += "\tZ = _Z\n" case "Nd": varDecl = "\tDigit = _Nd; // Digit is the set of Unicode characters with the \"decimal digit\" property.\n" case "Lu": varDecl = "\tUpper = _Lu; // Upper is the set of Unicode upper case letters.\n" case "Ll": varDecl = "\tLower = _Ll; // Lower is the set of Unicode lower case letters.\n" case "Lt": varDecl = "\tTitle = _Lt; // Title is the set of Unicode title case letters.\n" } if len(name) > 1 { desc, ok := categoryMapping[name] if ok { varDecl += fmt.Sprintf( "\t%s = _%s; // %s is the set of Unicode characters in category %s (%s).\n", name, name, name, name, desc) } else { varDecl += fmt.Sprintf( "\t%s = _%s; // %s is the set of Unicode characters in category %s.\n", name, name, name, name) } } decl[ndecl] = varDecl ndecl++ if len(name) == 1 { // unified categories dumpRange( "_"+name, func(code rune) bool { return categoryOp(code, name[0]) }) continue } dumpRange("_"+name, func(code rune) bool { return chars[code].category == name }) } decl.Sort() println("// These variables have type *RangeTable.") println("var (") for _, d := range decl { print(d) } print(")\n\n") } type Op func(code rune) bool func dumpRange(name string, inCategory Op) { runes := []rune{} for i := range chars { r := rune(i) if inCategory(r) { runes = append(runes, r) } } printRangeTable(name, runes) } func printRangeTable(name string, runes []rune) { rt := rangetable.New(runes...) printf("var %s = &RangeTable{\n", name) println("\tR16: []Range16{") for _, r := range rt.R16 { printf("\t\t{%#04x, %#04x, %d},\n", r.Lo, r.Hi, r.Stride) range16Count++ } println("\t},") if len(rt.R32) > 0 { println("\tR32: []Range32{") for _, r := range rt.R32 { printf("\t\t{%#x, %#x, %d},\n", r.Lo, r.Hi, r.Stride) range32Count++ } println("\t},") } if rt.LatinOffset > 0 { printf("\tLatinOffset: %d,\n", rt.LatinOffset) } printf("}\n\n") } func fullCategoryTest(list []string) { for _, name := range list { if _, ok := category[name]; !ok { logger.Fatal("unknown category", name) } r, ok := unicode.Categories[name] if !ok && len(name) > 1 { logger.Fatalf("unknown table %q", name) } if len(name) == 1 { verifyRange(name, func(code rune) bool { return categoryOp(code, name[0]) }, r) } else { verifyRange( name, func(code rune) bool { return chars[code].category == name }, r) } } } func verifyRange(name string, inCategory Op, table *unicode.RangeTable) { count := 0 for j := range chars { i := rune(j) web := inCategory(i) pkg := unicode.Is(table, i) if web != pkg { fmt.Fprintf(os.Stderr, "%s: %U: web=%t pkg=%t\n", name, i, web, pkg) count++ if count > 10 { break } } } } func fullScriptTest(list []string, installed map[string]*unicode.RangeTable, scripts map[string][]rune) { for _, name := range list { if _, ok := scripts[name]; !ok { logger.Fatal("unknown script", name) } _, ok := installed[name] if !ok { logger.Fatal("unknown table", name) } for _, r := range scripts[name] { if !unicode.Is(installed[name], rune(r)) { fmt.Fprintf(os.Stderr, "%U: not in script %s\n", r, name) } } } } var deprecatedAliases = map[string]string{ "Sentence_Terminal": "STerm", } // PropList.txt has the same format as Scripts.txt so we can share its parser. func printScriptOrProperty(doProps bool) { flaglist := *scriptlist file := "Scripts.txt" table := scripts installed := unicode.Scripts if doProps { flaglist = *proplist file = "PropList.txt" table = props installed = unicode.Properties } if flaglist == "" { return } ucd.Parse(gen.OpenUCDFile(file), func(p *ucd.Parser) { name := p.String(1) table[name] = append(table[name], p.Rune(0)) }) // Find out which scripts to dump list := strings.Split(flaglist, ",") if flaglist == "all" { list = all(table) } if *test { fullScriptTest(list, installed, table) return } if flaglist == "all" { if doProps { println("// Properties is the set of Unicode property tables.") println("var Properties = map[string] *RangeTable{") } else { println("// Scripts is the set of Unicode script tables.") println("var Scripts = map[string] *RangeTable{") } for _, k := range all(table) { printf("\t%q: %s,\n", k, k) if alias, ok := deprecatedAliases[k]; ok { printf("\t%q: %s,\n", alias, k) } } print("}\n\n") } decl := make(sort.StringSlice, len(list)+len(deprecatedAliases)) ndecl := 0 for _, name := range list { if doProps { decl[ndecl] = fmt.Sprintf( "\t%s = _%s;\t// %s is the set of Unicode characters with property %s.\n", name, name, name, name) } else { decl[ndecl] = fmt.Sprintf( "\t%s = _%s;\t// %s is the set of Unicode characters in script %s.\n", name, name, name, name) } ndecl++ if alias, ok := deprecatedAliases[name]; ok { decl[ndecl] = fmt.Sprintf( "\t%[1]s = _%[2]s;\t// %[1]s is an alias for %[2]s.\n", alias, name) ndecl++ } printRangeTable("_"+name, table[name]) } decl.Sort() println("// These variables have type *RangeTable.") println("var (") for _, d := range decl { print(d) } print(")\n\n") } const ( CaseUpper = 1 << iota CaseLower CaseTitle CaseNone = 0 // must be zero CaseMissing = -1 // character not present; not a valid case state ) type caseState struct { point rune _case int deltaToUpper rune deltaToLower rune deltaToTitle rune } // Is d a continuation of the state of c? func (c *caseState) adjacent(d *caseState) bool { if d.point < c.point { c, d = d, c } switch { case d.point != c.point+1: // code points not adjacent (shouldn't happen) return false case d._case != c._case: // different cases return c.upperLowerAdjacent(d) case c._case == CaseNone: return false case c._case == CaseMissing: return false case d.deltaToUpper != c.deltaToUpper: return false case d.deltaToLower != c.deltaToLower: return false case d.deltaToTitle != c.deltaToTitle: return false } return true } // Is d the same as c, but opposite in upper/lower case? this would make it // an element of an UpperLower sequence. func (c *caseState) upperLowerAdjacent(d *caseState) bool { // check they're a matched case pair. we know they have adjacent values switch { case c._case == CaseUpper && d._case != CaseLower: return false case c._case == CaseLower && d._case != CaseUpper: return false } // matched pair (at least in upper/lower). make the order Upper Lower if c._case == CaseLower { c, d = d, c } // for an Upper Lower sequence the deltas have to be in order // c: 0 1 0 // d: -1 0 -1 switch { case c.deltaToUpper != 0: return false case c.deltaToLower != 1: return false case c.deltaToTitle != 0: return false case d.deltaToUpper != -1: return false case d.deltaToLower != 0: return false case d.deltaToTitle != -1: return false } return true } // Does this character start an UpperLower sequence? func (c *caseState) isUpperLower() bool { // for an Upper Lower sequence the deltas have to be in order // c: 0 1 0 switch { case c.deltaToUpper != 0: return false case c.deltaToLower != 1: return false case c.deltaToTitle != 0: return false } return true } // Does this character start a LowerUpper sequence? func (c *caseState) isLowerUpper() bool { // for an Upper Lower sequence the deltas have to be in order // c: -1 0 -1 switch { case c.deltaToUpper != -1: return false case c.deltaToLower != 0: return false case c.deltaToTitle != -1: return false } return true } func getCaseState(i rune) (c *caseState) { c = &caseState{point: i, _case: CaseNone} ch := &chars[i] switch ch.codePoint { case 0: c._case = CaseMissing // Will get NUL wrong but that doesn't matter return case ch.upperCase: c._case = CaseUpper case ch.lowerCase: c._case = CaseLower case ch.titleCase: c._case = CaseTitle } // Some things such as roman numeral U+2161 don't describe themselves // as upper case, but have a lower case. Second-guess them. if c._case == CaseNone && ch.lowerCase != 0 { c._case = CaseUpper } // Same in the other direction. if c._case == CaseNone && ch.upperCase != 0 { c._case = CaseLower } if ch.upperCase != 0 { c.deltaToUpper = ch.upperCase - i } if ch.lowerCase != 0 { c.deltaToLower = ch.lowerCase - i } if ch.titleCase != 0 { c.deltaToTitle = ch.titleCase - i } return } func printCases() { if *test { fullCaseTest() return } printf( "// CaseRanges is the table describing case mappings for all letters with\n" + "// non-self mappings.\n" + "var CaseRanges = _CaseRanges\n" + "var _CaseRanges = []CaseRange {\n") var startState *caseState // the start of a run; nil for not active var prevState = &caseState{} // the state of the previous character for i := range chars { state := getCaseState(rune(i)) if state.adjacent(prevState) { prevState = state continue } // end of run (possibly) printCaseRange(startState, prevState) startState = nil if state._case != CaseMissing && state._case != CaseNone { startState = state } prevState = state } print("}\n") } func printCaseRange(lo, hi *caseState) { if lo == nil { return } if lo.deltaToUpper == 0 && lo.deltaToLower == 0 && lo.deltaToTitle == 0 { // character represents itself in all cases - no need to mention it return } switch { case hi.point > lo.point && lo.isUpperLower(): printf("\t{0x%04X, 0x%04X, d{UpperLower, UpperLower, UpperLower}},\n", lo.point, hi.point) case hi.point > lo.point && lo.isLowerUpper(): logger.Fatalf("LowerUpper sequence: should not happen: %U. If it's real, need to fix To()", lo.point) printf("\t{0x%04X, 0x%04X, d{LowerUpper, LowerUpper, LowerUpper}},\n", lo.point, hi.point) default: printf("\t{0x%04X, 0x%04X, d{%d, %d, %d}},\n", lo.point, hi.point, lo.deltaToUpper, lo.deltaToLower, lo.deltaToTitle) } } // If the cased value in the Char is 0, it means use the rune itself. func caseIt(r, cased rune) rune { if cased == 0 { return r } return cased } func fullCaseTest() { for j, c := range chars { i := rune(j) lower := unicode.ToLower(i) want := caseIt(i, c.lowerCase) if lower != want { fmt.Fprintf(os.Stderr, "lower %U should be %U is %U\n", i, want, lower) } upper := unicode.ToUpper(i) want = caseIt(i, c.upperCase) if upper != want { fmt.Fprintf(os.Stderr, "upper %U should be %U is %U\n", i, want, upper) } title := unicode.ToTitle(i) want = caseIt(i, c.titleCase) if title != want { fmt.Fprintf(os.Stderr, "title %U should be %U is %U\n", i, want, title) } } } func printLatinProperties() { if *test { return } println("var properties = [MaxLatin1+1]uint8{") for code := 0; code <= unicode.MaxLatin1; code++ { var property string switch chars[code].category { case "Cc", "": // NUL has no category. property = "pC" case "Cf": // soft hyphen, unique category, not printable. property = "0" case "Ll": property = "pLl | pp" case "Lo": property = "pLo | pp" case "Lu": property = "pLu | pp" case "Nd", "No": property = "pN | pp" case "Pc", "Pd", "Pe", "Pf", "Pi", "Po", "Ps": property = "pP | pp" case "Sc", "Sk", "Sm", "So": property = "pS | pp" case "Zs": property = "pZ" default: logger.Fatalf("%U has unknown category %q", code, chars[code].category) } // Special case if code == ' ' { property = "pZ | pp" } printf("\t0x%02X: %s, // %q\n", code, property, code) } printf("}\n\n") } func printCasefold() { // Build list of case-folding groups attached to each canonical folded char (typically lower case). var caseOrbit = make([][]rune, MaxChar+1) for j := range chars { i := rune(j) c := &chars[i] if c.foldCase == 0 { continue } orb := caseOrbit[c.foldCase] if orb == nil { orb = append(orb, c.foldCase) } caseOrbit[c.foldCase] = append(orb, i) } // Insert explicit 1-element groups when assuming [lower, upper] would be wrong. for j := range chars { i := rune(j) c := &chars[i] f := c.foldCase if f == 0 { f = i } orb := caseOrbit[f] if orb == nil && (c.upperCase != 0 && c.upperCase != i || c.lowerCase != 0 && c.lowerCase != i) { // Default assumption of [upper, lower] is wrong. caseOrbit[i] = []rune{i} } } // Delete the groups for which assuming [lower, upper] or [upper, lower] is right. for i, orb := range caseOrbit { if len(orb) == 2 && chars[orb[0]].upperCase == orb[1] && chars[orb[1]].lowerCase == orb[0] { caseOrbit[i] = nil } if len(orb) == 2 && chars[orb[1]].upperCase == orb[0] && chars[orb[0]].lowerCase == orb[1] { caseOrbit[i] = nil } } // Record orbit information in chars. for _, orb := range caseOrbit { if orb == nil { continue } sort.Slice(orb, func(i, j int) bool { return orb[i] < orb[j] }) c := orb[len(orb)-1] for _, d := range orb { chars[c].caseOrbit = d c = d } } printAsciiFold() printCaseOrbit() // Tables of category and script folding exceptions: code points // that must be added when interpreting a particular category/script // in a case-folding context. cat := make(map[string]map[rune]bool) for name := range category { if x := foldExceptions(inCategory(name)); len(x) > 0 { cat[name] = x } } scr := make(map[string]map[rune]bool) for name := range scripts { if x := foldExceptions(scripts[name]); len(x) > 0 { scr[name] = x } } printCatFold("FoldCategory", cat) printCatFold("FoldScript", scr) } // inCategory returns a list of all the runes in the category. func inCategory(name string) []rune { var x []rune for j := range chars { i := rune(j) c := &chars[i] if c.category == name || len(name) == 1 && len(c.category) > 1 && c.category[0] == name[0] { x = append(x, i) } } return x } // foldExceptions returns a list of all the runes fold-equivalent // to runes in class but not in class themselves. func foldExceptions(class []rune) map[rune]bool { // Create map containing class and all fold-equivalent chars. m := make(map[rune]bool) for _, r := range class { c := &chars[r] if c.caseOrbit == 0 { // Just upper and lower. if u := c.upperCase; u != 0 { m[u] = true } if l := c.lowerCase; l != 0 { m[l] = true } m[r] = true continue } // Otherwise walk orbit. r0 := r for { m[r] = true r = chars[r].caseOrbit if r == r0 { break } } } // Remove class itself. for _, r := range class { delete(m, r) } // What's left is the exceptions. return m } var comment = map[string]string{ "FoldCategory": "// FoldCategory maps a category name to a table of\n" + "// code points outside the category that are equivalent under\n" + "// simple case folding to code points inside the category.\n" + "// If there is no entry for a category name, there are no such points.\n", "FoldScript": "// FoldScript maps a script name to a table of\n" + "// code points outside the script that are equivalent under\n" + "// simple case folding to code points inside the script.\n" + "// If there is no entry for a script name, there are no such points.\n", } func printAsciiFold() { printf("var asciiFold = [MaxASCII + 1]uint16{\n") for i := rune(0); i <= unicode.MaxASCII; i++ { c := chars[i] f := c.caseOrbit if f == 0 { if c.lowerCase != i && c.lowerCase != 0 { f = c.lowerCase } else if c.upperCase != i && c.upperCase != 0 { f = c.upperCase } else { f = i } } printf("\t0x%04X,\n", f) } printf("}\n\n") } func printCaseOrbit() { if *test { for j := range chars { i := rune(j) c := &chars[i] f := c.caseOrbit if f == 0 { if c.lowerCase != i && c.lowerCase != 0 { f = c.lowerCase } else if c.upperCase != i && c.upperCase != 0 { f = c.upperCase } else { f = i } } if g := unicode.SimpleFold(i); g != f { fmt.Fprintf(os.Stderr, "unicode.SimpleFold(%#U) = %#U, want %#U\n", i, g, f) } } return } printf("var caseOrbit = []foldPair{\n") for i := range chars { c := &chars[i] if c.caseOrbit != 0 { printf("\t{0x%04X, 0x%04X},\n", i, c.caseOrbit) foldPairCount++ } } printf("}\n\n") } func printCatFold(name string, m map[string]map[rune]bool) { if *test { var pkgMap map[string]*unicode.RangeTable if name == "FoldCategory" { pkgMap = unicode.FoldCategory } else { pkgMap = unicode.FoldScript } if len(pkgMap) != len(m) { fmt.Fprintf(os.Stderr, "unicode.%s has %d elements, want %d\n", name, len(pkgMap), len(m)) return } for k, v := range m { t, ok := pkgMap[k] if !ok { fmt.Fprintf(os.Stderr, "unicode.%s[%q] missing\n", name, k) continue } n := 0 for _, r := range t.R16 { for c := rune(r.Lo); c <= rune(r.Hi); c += rune(r.Stride) { if !v[c] { fmt.Fprintf(os.Stderr, "unicode.%s[%q] contains %#U, should not\n", name, k, c) } n++ } } for _, r := range t.R32 { for c := rune(r.Lo); c <= rune(r.Hi); c += rune(r.Stride) { if !v[c] { fmt.Fprintf(os.Stderr, "unicode.%s[%q] contains %#U, should not\n", name, k, c) } n++ } } if n != len(v) { fmt.Fprintf(os.Stderr, "unicode.%s[%q] has %d code points, want %d\n", name, k, n, len(v)) } } return } print(comment[name]) printf("var %s = map[string]*RangeTable{\n", name) for _, name := range allCatFold(m) { printf("\t%q: fold%s,\n", name, name) } printf("}\n\n") for _, name := range allCatFold(m) { class := m[name] dumpRange("fold"+name, func(code rune) bool { return class[code] }) } } var range16Count = 0 // Number of entries in the 16-bit range tables. var range32Count = 0 // Number of entries in the 32-bit range tables. var foldPairCount = 0 // Number of fold pairs in the exception tables. func printSizes() { if *test { return } println() printf("// Range entries: %d 16-bit, %d 32-bit, %d total.\n", range16Count, range32Count, range16Count+range32Count) range16Bytes := range16Count * 3 * 2 range32Bytes := range32Count * 3 * 4 printf("// Range bytes: %d 16-bit, %d 32-bit, %d total.\n", range16Bytes, range32Bytes, range16Bytes+range32Bytes) println() printf("// Fold orbit bytes: %d pairs, %d bytes\n", foldPairCount, foldPairCount*2*2) }