840 lines
22 KiB
Go
840 lines
22 KiB
Go
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// Copyright 2014 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// +build ignore
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// This program generates the trie for casing operations. The Unicode casing
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// algorithm requires the lookup of various properties and mappings for each
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// rune. The table generated by this generator combines several of the most
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// frequently used of these into a single trie so that they can be accessed
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// with a single lookup.
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package main
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import (
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"bytes"
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"fmt"
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"io"
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"io/ioutil"
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"log"
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"reflect"
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"strconv"
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"strings"
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"unicode"
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"golang.org/x/text/internal/gen"
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"golang.org/x/text/internal/triegen"
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"golang.org/x/text/internal/ucd"
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"golang.org/x/text/unicode/norm"
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)
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func main() {
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gen.Init()
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genTables()
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genTablesTest()
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gen.Repackage("gen_trieval.go", "trieval.go", "cases")
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}
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// runeInfo contains all information for a rune that we care about for casing
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// operations.
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type runeInfo struct {
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Rune rune
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entry info // trie value for this rune.
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CaseMode info
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// Simple case mappings.
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Simple [1 + maxCaseMode][]rune
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// Special casing
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HasSpecial bool
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Conditional bool
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Special [1 + maxCaseMode][]rune
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// Folding
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FoldSimple rune
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FoldSpecial rune
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FoldFull []rune
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// TODO: FC_NFKC, or equivalent data.
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// Properties
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SoftDotted bool
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CaseIgnorable bool
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Cased bool
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DecomposeGreek bool
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BreakType string
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BreakCat breakCategory
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// We care mostly about 0, Above, and IotaSubscript.
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CCC byte
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}
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type breakCategory int
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const (
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breakBreak breakCategory = iota
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breakLetter
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breakMid
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)
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// mapping returns the case mapping for the given case type.
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func (r *runeInfo) mapping(c info) string {
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if r.HasSpecial {
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return string(r.Special[c])
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}
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if len(r.Simple[c]) != 0 {
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return string(r.Simple[c])
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}
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return string(r.Rune)
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}
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func parse(file string, f func(p *ucd.Parser)) {
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ucd.Parse(gen.OpenUCDFile(file), f)
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}
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func parseUCD() []runeInfo {
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chars := make([]runeInfo, unicode.MaxRune)
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get := func(r rune) *runeInfo {
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c := &chars[r]
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c.Rune = r
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return c
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}
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parse("UnicodeData.txt", func(p *ucd.Parser) {
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ri := get(p.Rune(0))
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ri.CCC = byte(p.Int(ucd.CanonicalCombiningClass))
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ri.Simple[cLower] = p.Runes(ucd.SimpleLowercaseMapping)
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ri.Simple[cUpper] = p.Runes(ucd.SimpleUppercaseMapping)
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ri.Simple[cTitle] = p.Runes(ucd.SimpleTitlecaseMapping)
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if p.String(ucd.GeneralCategory) == "Lt" {
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ri.CaseMode = cTitle
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}
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})
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// <code>; <property>
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parse("PropList.txt", func(p *ucd.Parser) {
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if p.String(1) == "Soft_Dotted" {
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chars[p.Rune(0)].SoftDotted = true
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}
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})
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// <code>; <word break type>
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parse("DerivedCoreProperties.txt", func(p *ucd.Parser) {
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ri := get(p.Rune(0))
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switch p.String(1) {
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case "Case_Ignorable":
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ri.CaseIgnorable = true
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case "Cased":
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ri.Cased = true
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case "Lowercase":
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ri.CaseMode = cLower
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case "Uppercase":
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ri.CaseMode = cUpper
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}
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})
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// <code>; <lower> ; <title> ; <upper> ; (<condition_list> ;)?
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parse("SpecialCasing.txt", func(p *ucd.Parser) {
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// We drop all conditional special casing and deal with them manually in
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// the language-specific case mappers. Rune 0x03A3 is the only one with
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// a conditional formatting that is not language-specific. However,
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// dealing with this letter is tricky, especially in a streaming
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// context, so we deal with it in the Caser for Greek specifically.
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ri := get(p.Rune(0))
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if p.String(4) == "" {
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ri.HasSpecial = true
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ri.Special[cLower] = p.Runes(1)
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ri.Special[cTitle] = p.Runes(2)
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ri.Special[cUpper] = p.Runes(3)
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} else {
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ri.Conditional = true
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}
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})
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// TODO: Use text breaking according to UAX #29.
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// <code>; <word break type>
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parse("auxiliary/WordBreakProperty.txt", func(p *ucd.Parser) {
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ri := get(p.Rune(0))
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ri.BreakType = p.String(1)
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// We collapse the word breaking properties onto the categories we need.
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switch p.String(1) { // TODO: officially we need to canonicalize.
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case "MidLetter", "MidNumLet", "Single_Quote":
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ri.BreakCat = breakMid
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if !ri.CaseIgnorable {
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// finalSigma relies on the fact that all breakMid runes are
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// also a Case_Ignorable. Revisit this code when this changes.
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log.Fatalf("Rune %U, which has a break category mid, is not a case ignorable", ri)
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}
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case "ALetter", "Hebrew_Letter", "Numeric", "Extend", "ExtendNumLet", "Format", "ZWJ":
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ri.BreakCat = breakLetter
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}
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})
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// <code>; <type>; <mapping>
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parse("CaseFolding.txt", func(p *ucd.Parser) {
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ri := get(p.Rune(0))
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switch p.String(1) {
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case "C":
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ri.FoldSimple = p.Rune(2)
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ri.FoldFull = p.Runes(2)
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case "S":
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ri.FoldSimple = p.Rune(2)
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case "T":
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ri.FoldSpecial = p.Rune(2)
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case "F":
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ri.FoldFull = p.Runes(2)
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default:
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log.Fatalf("%U: unknown type: %s", p.Rune(0), p.String(1))
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}
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})
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return chars
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}
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func genTables() {
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chars := parseUCD()
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verifyProperties(chars)
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t := triegen.NewTrie("case")
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for i := range chars {
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c := &chars[i]
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makeEntry(c)
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t.Insert(rune(i), uint64(c.entry))
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}
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w := gen.NewCodeWriter()
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defer w.WriteGoFile("tables.go", "cases")
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gen.WriteUnicodeVersion(w)
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// TODO: write CLDR version after adding a mechanism to detect that the
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// tables on which the manually created locale-sensitive casing code is
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// based hasn't changed.
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w.WriteVar("xorData", string(xorData))
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w.WriteVar("exceptions", string(exceptionData))
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sz, err := t.Gen(w, triegen.Compact(&sparseCompacter{}))
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if err != nil {
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log.Fatal(err)
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}
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w.Size += sz
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}
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func makeEntry(ri *runeInfo) {
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if ri.CaseIgnorable {
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if ri.Cased {
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ri.entry = cIgnorableCased
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} else {
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ri.entry = cIgnorableUncased
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}
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} else {
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ri.entry = ri.CaseMode
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}
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// TODO: handle soft-dotted.
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ccc := cccOther
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switch ri.CCC {
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case 0: // Not_Reordered
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ccc = cccZero
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case above: // Above
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ccc = cccAbove
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}
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switch ri.BreakCat {
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case breakBreak:
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ccc = cccBreak
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case breakMid:
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ri.entry |= isMidBit
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}
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ri.entry |= ccc
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if ri.CaseMode == cUncased {
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return
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}
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// Need to do something special.
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if ri.CaseMode == cTitle || ri.HasSpecial || ri.mapping(cTitle) != ri.mapping(cUpper) {
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makeException(ri)
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return
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}
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if f := string(ri.FoldFull); len(f) > 0 && f != ri.mapping(cUpper) && f != ri.mapping(cLower) {
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makeException(ri)
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return
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}
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// Rune is either lowercase or uppercase.
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orig := string(ri.Rune)
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mapped := ""
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if ri.CaseMode == cUpper {
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mapped = ri.mapping(cLower)
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} else {
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mapped = ri.mapping(cUpper)
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}
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if len(orig) != len(mapped) {
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makeException(ri)
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return
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}
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if string(ri.FoldFull) == ri.mapping(cUpper) {
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ri.entry |= inverseFoldBit
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}
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n := len(orig)
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// Create per-byte XOR mask.
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var b []byte
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for i := 0; i < n; i++ {
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b = append(b, orig[i]^mapped[i])
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}
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// Remove leading 0 bytes, but keep at least one byte.
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for ; len(b) > 1 && b[0] == 0; b = b[1:] {
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}
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if len(b) == 1 && b[0]&0xc0 == 0 {
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ri.entry |= info(b[0]) << xorShift
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return
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}
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key := string(b)
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x, ok := xorCache[key]
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if !ok {
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xorData = append(xorData, 0) // for detecting start of sequence
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xorData = append(xorData, b...)
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x = len(xorData) - 1
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xorCache[key] = x
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}
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ri.entry |= info(x<<xorShift) | xorIndexBit
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}
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var xorCache = map[string]int{}
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// xorData contains byte-wise XOR data for the least significant bytes of a
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// UTF-8 encoded rune. An index points to the last byte. The sequence starts
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// with a zero terminator.
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var xorData = []byte{}
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// See the comments in gen_trieval.go re "the exceptions slice".
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var exceptionData = []byte{0}
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// makeException encodes case mappings that cannot be expressed in a simple
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// XOR diff.
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func makeException(ri *runeInfo) {
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ccc := ri.entry & cccMask
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// Set exception bit and retain case type.
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ri.entry &= 0x0007
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ri.entry |= exceptionBit
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if len(exceptionData) >= 1<<numExceptionBits {
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log.Fatalf("%U:exceptionData too large %x > %d bits", ri.Rune, len(exceptionData), numExceptionBits)
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}
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// Set the offset in the exceptionData array.
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ri.entry |= info(len(exceptionData) << exceptionShift)
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orig := string(ri.Rune)
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tc := ri.mapping(cTitle)
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uc := ri.mapping(cUpper)
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lc := ri.mapping(cLower)
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ff := string(ri.FoldFull)
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// addString sets the length of a string and adds it to the expansions array.
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addString := func(s string, b *byte) {
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if len(s) == 0 {
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// Zero-length mappings exist, but only for conditional casing,
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// which we are representing outside of this table.
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log.Fatalf("%U: has zero-length mapping.", ri.Rune)
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}
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*b <<= 3
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if s != orig {
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n := len(s)
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if n > 7 {
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log.Fatalf("%U: mapping larger than 7 (%d)", ri.Rune, n)
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}
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*b |= byte(n)
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exceptionData = append(exceptionData, s...)
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}
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}
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// byte 0:
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exceptionData = append(exceptionData, byte(ccc)|byte(len(ff)))
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// byte 1:
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p := len(exceptionData)
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exceptionData = append(exceptionData, 0)
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if len(ff) > 7 { // May be zero-length.
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log.Fatalf("%U: fold string larger than 7 (%d)", ri.Rune, len(ff))
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}
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exceptionData = append(exceptionData, ff...)
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ct := ri.CaseMode
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if ct != cLower {
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addString(lc, &exceptionData[p])
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}
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if ct != cUpper {
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addString(uc, &exceptionData[p])
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}
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if ct != cTitle {
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// If title is the same as upper, we set it to the original string so
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// that it will be marked as not present. This implies title case is
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// the same as upper case.
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if tc == uc {
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tc = orig
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}
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addString(tc, &exceptionData[p])
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}
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}
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// sparseCompacter is a trie value block Compacter. There are many cases where
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// successive runes alternate between lower- and upper-case. This Compacter
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// exploits this by adding a special case type where the case value is obtained
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// from or-ing it with the least-significant bit of the rune, creating large
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// ranges of equal case values that compress well.
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type sparseCompacter struct {
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sparseBlocks [][]uint16
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sparseOffsets []uint16
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sparseCount int
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}
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// makeSparse returns the number of elements that compact block would contain
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// as well as the modified values.
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func makeSparse(vals []uint64) ([]uint16, int) {
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// Copy the values.
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values := make([]uint16, len(vals))
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for i, v := range vals {
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values[i] = uint16(v)
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}
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alt := func(i int, v uint16) uint16 {
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if cm := info(v & fullCasedMask); cm == cUpper || cm == cLower {
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// Convert cLower or cUpper to cXORCase value, which has the form 11x.
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xor := v
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xor &^= 1
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xor |= uint16(i&1) ^ (v & 1)
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xor |= 0x4
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return xor
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}
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return v
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}
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var count int
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var previous uint16
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for i, v := range values {
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if v != 0 {
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// Try if the unmodified value is equal to the previous.
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if v == previous {
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continue
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}
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// Try if the xor-ed value is equal to the previous value.
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a := alt(i, v)
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if a == previous {
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values[i] = a
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continue
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}
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// This is a new value.
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count++
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// Use the xor-ed value if it will be identical to the next value.
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if p := i + 1; p < len(values) && alt(p, values[p]) == a {
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values[i] = a
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v = a
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}
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}
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previous = v
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}
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return values, count
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}
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func (s *sparseCompacter) Size(v []uint64) (int, bool) {
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_, n := makeSparse(v)
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|
||
|
// We limit using this method to having 16 entries.
|
||
|
if n > 16 {
|
||
|
return 0, false
|
||
|
}
|
||
|
|
||
|
return 2 + int(reflect.TypeOf(valueRange{}).Size())*n, true
|
||
|
}
|
||
|
|
||
|
func (s *sparseCompacter) Store(v []uint64) uint32 {
|
||
|
h := uint32(len(s.sparseOffsets))
|
||
|
values, sz := makeSparse(v)
|
||
|
s.sparseBlocks = append(s.sparseBlocks, values)
|
||
|
s.sparseOffsets = append(s.sparseOffsets, uint16(s.sparseCount))
|
||
|
s.sparseCount += sz
|
||
|
return h
|
||
|
}
|
||
|
|
||
|
func (s *sparseCompacter) Handler() string {
|
||
|
// The sparse global variable and its lookup method is defined in gen_trieval.go.
|
||
|
return "sparse.lookup"
|
||
|
}
|
||
|
|
||
|
func (s *sparseCompacter) Print(w io.Writer) (retErr error) {
|
||
|
p := func(format string, args ...interface{}) {
|
||
|
_, err := fmt.Fprintf(w, format, args...)
|
||
|
if retErr == nil && err != nil {
|
||
|
retErr = err
|
||
|
}
|
||
|
}
|
||
|
|
||
|
ls := len(s.sparseBlocks)
|
||
|
if ls == len(s.sparseOffsets) {
|
||
|
s.sparseOffsets = append(s.sparseOffsets, uint16(s.sparseCount))
|
||
|
}
|
||
|
p("// sparseOffsets: %d entries, %d bytes\n", ls+1, (ls+1)*2)
|
||
|
p("var sparseOffsets = %#v\n\n", s.sparseOffsets)
|
||
|
|
||
|
ns := s.sparseCount
|
||
|
p("// sparseValues: %d entries, %d bytes\n", ns, ns*4)
|
||
|
p("var sparseValues = [%d]valueRange {", ns)
|
||
|
for i, values := range s.sparseBlocks {
|
||
|
p("\n// Block %#x, offset %#x", i, s.sparseOffsets[i])
|
||
|
var v uint16
|
||
|
for i, nv := range values {
|
||
|
if nv != v {
|
||
|
if v != 0 {
|
||
|
p(",hi:%#02x},", 0x80+i-1)
|
||
|
}
|
||
|
if nv != 0 {
|
||
|
p("\n{value:%#04x,lo:%#02x", nv, 0x80+i)
|
||
|
}
|
||
|
}
|
||
|
v = nv
|
||
|
}
|
||
|
if v != 0 {
|
||
|
p(",hi:%#02x},", 0x80+len(values)-1)
|
||
|
}
|
||
|
}
|
||
|
p("\n}\n\n")
|
||
|
return
|
||
|
}
|
||
|
|
||
|
// verifyProperties that properties of the runes that are relied upon in the
|
||
|
// implementation. Each property is marked with an identifier that is referred
|
||
|
// to in the places where it is used.
|
||
|
func verifyProperties(chars []runeInfo) {
|
||
|
for i, c := range chars {
|
||
|
r := rune(i)
|
||
|
|
||
|
// Rune properties.
|
||
|
|
||
|
// A.1: modifier never changes on lowercase. [ltLower]
|
||
|
if c.CCC > 0 && unicode.ToLower(r) != r {
|
||
|
log.Fatalf("%U: non-starter changes when lowercased", r)
|
||
|
}
|
||
|
|
||
|
// A.2: properties of decompositions starting with I or J. [ltLower]
|
||
|
d := norm.NFD.PropertiesString(string(r)).Decomposition()
|
||
|
if len(d) > 0 {
|
||
|
if d[0] == 'I' || d[0] == 'J' {
|
||
|
// A.2.1: we expect at least an ASCII character and a modifier.
|
||
|
if len(d) < 3 {
|
||
|
log.Fatalf("%U: length of decomposition was %d; want >= 3", r, len(d))
|
||
|
}
|
||
|
|
||
|
// All subsequent runes are modifiers and all have the same CCC.
|
||
|
runes := []rune(string(d[1:]))
|
||
|
ccc := chars[runes[0]].CCC
|
||
|
|
||
|
for _, mr := range runes[1:] {
|
||
|
mc := chars[mr]
|
||
|
|
||
|
// A.2.2: all modifiers have a CCC of Above or less.
|
||
|
if ccc == 0 || ccc > above {
|
||
|
log.Fatalf("%U: CCC of successive rune (%U) was %d; want (0,230]", r, mr, ccc)
|
||
|
}
|
||
|
|
||
|
// A.2.3: a sequence of modifiers all have the same CCC.
|
||
|
if mc.CCC != ccc {
|
||
|
log.Fatalf("%U: CCC of follow-up modifier (%U) was %d; want %d", r, mr, mc.CCC, ccc)
|
||
|
}
|
||
|
|
||
|
// A.2.4: for each trailing r, r in [0x300, 0x311] <=> CCC == Above.
|
||
|
if (ccc == above) != (0x300 <= mr && mr <= 0x311) {
|
||
|
log.Fatalf("%U: modifier %U in [U+0300, U+0311] != ccc(%U) == 230", r, mr, mr)
|
||
|
}
|
||
|
|
||
|
if i += len(string(mr)); i >= len(d) {
|
||
|
break
|
||
|
}
|
||
|
}
|
||
|
}
|
||
|
}
|
||
|
|
||
|
// A.3: no U+0307 in decomposition of Soft-Dotted rune. [ltUpper]
|
||
|
if unicode.Is(unicode.Soft_Dotted, r) && strings.Contains(string(d), "\u0307") {
|
||
|
log.Fatalf("%U: decomposition of soft-dotted rune may not contain U+0307", r)
|
||
|
}
|
||
|
|
||
|
// A.4: only rune U+0345 may be of CCC Iota_Subscript. [elUpper]
|
||
|
if c.CCC == iotaSubscript && r != 0x0345 {
|
||
|
log.Fatalf("%U: only rune U+0345 may have CCC Iota_Subscript", r)
|
||
|
}
|
||
|
|
||
|
// A.5: soft-dotted runes do not have exceptions.
|
||
|
if c.SoftDotted && c.entry&exceptionBit != 0 {
|
||
|
log.Fatalf("%U: soft-dotted has exception", r)
|
||
|
}
|
||
|
|
||
|
// A.6: Greek decomposition. [elUpper]
|
||
|
if unicode.Is(unicode.Greek, r) {
|
||
|
if b := norm.NFD.PropertiesString(string(r)).Decomposition(); b != nil {
|
||
|
runes := []rune(string(b))
|
||
|
// A.6.1: If a Greek rune decomposes and the first rune of the
|
||
|
// decomposition is greater than U+00FF, the rune is always
|
||
|
// great and not a modifier.
|
||
|
if f := runes[0]; unicode.IsMark(f) || f > 0xFF && !unicode.Is(unicode.Greek, f) {
|
||
|
log.Fatalf("%U: expeced first rune of Greek decomposition to be letter, found %U", r, f)
|
||
|
}
|
||
|
// A.6.2: Any follow-up rune in a Greek decomposition is a
|
||
|
// modifier of which the first should be gobbled in
|
||
|
// decomposition.
|
||
|
for _, m := range runes[1:] {
|
||
|
switch m {
|
||
|
case 0x0313, 0x0314, 0x0301, 0x0300, 0x0306, 0x0342, 0x0308, 0x0304, 0x345:
|
||
|
default:
|
||
|
log.Fatalf("%U: modifier %U is outside of expeced Greek modifier set", r, m)
|
||
|
}
|
||
|
}
|
||
|
}
|
||
|
}
|
||
|
|
||
|
// Breaking properties.
|
||
|
|
||
|
// B.1: all runes with CCC > 0 are of break type Extend.
|
||
|
if c.CCC > 0 && c.BreakType != "Extend" {
|
||
|
log.Fatalf("%U: CCC == %d, but got break type %s; want Extend", r, c.CCC, c.BreakType)
|
||
|
}
|
||
|
|
||
|
// B.2: all cased runes with c.CCC == 0 are of break type ALetter.
|
||
|
if c.CCC == 0 && c.Cased && c.BreakType != "ALetter" {
|
||
|
log.Fatalf("%U: cased, but got break type %s; want ALetter", r, c.BreakType)
|
||
|
}
|
||
|
|
||
|
// B.3: letter category.
|
||
|
if c.CCC == 0 && c.BreakCat != breakBreak && !c.CaseIgnorable {
|
||
|
if c.BreakCat != breakLetter {
|
||
|
log.Fatalf("%U: check for letter break type gave %d; want %d", r, c.BreakCat, breakLetter)
|
||
|
}
|
||
|
}
|
||
|
}
|
||
|
}
|
||
|
|
||
|
func genTablesTest() {
|
||
|
w := &bytes.Buffer{}
|
||
|
|
||
|
fmt.Fprintln(w, "var (")
|
||
|
printProperties(w, "DerivedCoreProperties.txt", "Case_Ignorable", verifyIgnore)
|
||
|
|
||
|
// We discard the output as we know we have perfect functions. We run them
|
||
|
// just to verify the properties are correct.
|
||
|
n := printProperties(ioutil.Discard, "DerivedCoreProperties.txt", "Cased", verifyCased)
|
||
|
n += printProperties(ioutil.Discard, "DerivedCoreProperties.txt", "Lowercase", verifyLower)
|
||
|
n += printProperties(ioutil.Discard, "DerivedCoreProperties.txt", "Uppercase", verifyUpper)
|
||
|
if n > 0 {
|
||
|
log.Fatalf("One of the discarded properties does not have a perfect filter.")
|
||
|
}
|
||
|
|
||
|
// <code>; <lower> ; <title> ; <upper> ; (<condition_list> ;)?
|
||
|
fmt.Fprintln(w, "\tspecial = map[rune]struct{ toLower, toTitle, toUpper string }{")
|
||
|
parse("SpecialCasing.txt", func(p *ucd.Parser) {
|
||
|
// Skip conditional entries.
|
||
|
if p.String(4) != "" {
|
||
|
return
|
||
|
}
|
||
|
r := p.Rune(0)
|
||
|
fmt.Fprintf(w, "\t\t0x%04x: {%q, %q, %q},\n",
|
||
|
r, string(p.Runes(1)), string(p.Runes(2)), string(p.Runes(3)))
|
||
|
})
|
||
|
fmt.Fprint(w, "\t}\n\n")
|
||
|
|
||
|
// <code>; <type>; <runes>
|
||
|
table := map[rune]struct{ simple, full, special string }{}
|
||
|
parse("CaseFolding.txt", func(p *ucd.Parser) {
|
||
|
r := p.Rune(0)
|
||
|
t := p.String(1)
|
||
|
v := string(p.Runes(2))
|
||
|
if t != "T" && v == string(unicode.ToLower(r)) {
|
||
|
return
|
||
|
}
|
||
|
x := table[r]
|
||
|
switch t {
|
||
|
case "C":
|
||
|
x.full = v
|
||
|
x.simple = v
|
||
|
case "S":
|
||
|
x.simple = v
|
||
|
case "F":
|
||
|
x.full = v
|
||
|
case "T":
|
||
|
x.special = v
|
||
|
}
|
||
|
table[r] = x
|
||
|
})
|
||
|
fmt.Fprintln(w, "\tfoldMap = map[rune]struct{ simple, full, special string }{")
|
||
|
for r := rune(0); r < 0x10FFFF; r++ {
|
||
|
x, ok := table[r]
|
||
|
if !ok {
|
||
|
continue
|
||
|
}
|
||
|
fmt.Fprintf(w, "\t\t0x%04x: {%q, %q, %q},\n", r, x.simple, x.full, x.special)
|
||
|
}
|
||
|
fmt.Fprint(w, "\t}\n\n")
|
||
|
|
||
|
// Break property
|
||
|
notBreak := map[rune]bool{}
|
||
|
parse("auxiliary/WordBreakProperty.txt", func(p *ucd.Parser) {
|
||
|
switch p.String(1) {
|
||
|
case "Extend", "Format", "MidLetter", "MidNumLet", "Single_Quote",
|
||
|
"ALetter", "Hebrew_Letter", "Numeric", "ExtendNumLet", "ZWJ":
|
||
|
notBreak[p.Rune(0)] = true
|
||
|
}
|
||
|
})
|
||
|
|
||
|
fmt.Fprintln(w, "\tbreakProp = []struct{ lo, hi rune }{")
|
||
|
inBreak := false
|
||
|
for r := rune(0); r <= lastRuneForTesting; r++ {
|
||
|
if isBreak := !notBreak[r]; isBreak != inBreak {
|
||
|
if isBreak {
|
||
|
fmt.Fprintf(w, "\t\t{0x%x, ", r)
|
||
|
} else {
|
||
|
fmt.Fprintf(w, "0x%x},\n", r-1)
|
||
|
}
|
||
|
inBreak = isBreak
|
||
|
}
|
||
|
}
|
||
|
if inBreak {
|
||
|
fmt.Fprintf(w, "0x%x},\n", lastRuneForTesting)
|
||
|
}
|
||
|
fmt.Fprint(w, "\t}\n\n")
|
||
|
|
||
|
// Word break test
|
||
|
// Filter out all samples that do not contain cased characters.
|
||
|
cased := map[rune]bool{}
|
||
|
parse("DerivedCoreProperties.txt", func(p *ucd.Parser) {
|
||
|
if p.String(1) == "Cased" {
|
||
|
cased[p.Rune(0)] = true
|
||
|
}
|
||
|
})
|
||
|
|
||
|
fmt.Fprintln(w, "\tbreakTest = []string{")
|
||
|
parse("auxiliary/WordBreakTest.txt", func(p *ucd.Parser) {
|
||
|
c := strings.Split(p.String(0), " ")
|
||
|
|
||
|
const sep = '|'
|
||
|
numCased := 0
|
||
|
test := ""
|
||
|
for ; len(c) >= 2; c = c[2:] {
|
||
|
if c[0] == "÷" && test != "" {
|
||
|
test += string(sep)
|
||
|
}
|
||
|
i, err := strconv.ParseUint(c[1], 16, 32)
|
||
|
r := rune(i)
|
||
|
if err != nil {
|
||
|
log.Fatalf("Invalid rune %q.", c[1])
|
||
|
}
|
||
|
if r == sep {
|
||
|
log.Fatalf("Separator %q not allowed in test data. Pick another one.", sep)
|
||
|
}
|
||
|
if cased[r] {
|
||
|
numCased++
|
||
|
}
|
||
|
test += string(r)
|
||
|
}
|
||
|
if numCased > 1 {
|
||
|
fmt.Fprintf(w, "\t\t%q,\n", test)
|
||
|
}
|
||
|
})
|
||
|
fmt.Fprintln(w, "\t}")
|
||
|
|
||
|
fmt.Fprintln(w, ")")
|
||
|
|
||
|
gen.WriteGoFile("tables_test.go", "cases", w.Bytes())
|
||
|
}
|
||
|
|
||
|
// These functions are just used for verification that their definition have not
|
||
|
// changed in the Unicode Standard.
|
||
|
|
||
|
func verifyCased(r rune) bool {
|
||
|
return verifyLower(r) || verifyUpper(r) || unicode.IsTitle(r)
|
||
|
}
|
||
|
|
||
|
func verifyLower(r rune) bool {
|
||
|
return unicode.IsLower(r) || unicode.Is(unicode.Other_Lowercase, r)
|
||
|
}
|
||
|
|
||
|
func verifyUpper(r rune) bool {
|
||
|
return unicode.IsUpper(r) || unicode.Is(unicode.Other_Uppercase, r)
|
||
|
}
|
||
|
|
||
|
// verifyIgnore is an approximation of the Case_Ignorable property using the
|
||
|
// core unicode package. It is used to reduce the size of the test data.
|
||
|
func verifyIgnore(r rune) bool {
|
||
|
props := []*unicode.RangeTable{
|
||
|
unicode.Mn,
|
||
|
unicode.Me,
|
||
|
unicode.Cf,
|
||
|
unicode.Lm,
|
||
|
unicode.Sk,
|
||
|
}
|
||
|
for _, p := range props {
|
||
|
if unicode.Is(p, r) {
|
||
|
return true
|
||
|
}
|
||
|
}
|
||
|
return false
|
||
|
}
|
||
|
|
||
|
// printProperties prints tables of rune properties from the given UCD file.
|
||
|
// A filter func f can be given to exclude certain values. A rune r will have
|
||
|
// the indicated property if it is in the generated table or if f(r).
|
||
|
func printProperties(w io.Writer, file, property string, f func(r rune) bool) int {
|
||
|
verify := map[rune]bool{}
|
||
|
n := 0
|
||
|
varNameParts := strings.Split(property, "_")
|
||
|
varNameParts[0] = strings.ToLower(varNameParts[0])
|
||
|
fmt.Fprintf(w, "\t%s = map[rune]bool{\n", strings.Join(varNameParts, ""))
|
||
|
parse(file, func(p *ucd.Parser) {
|
||
|
if p.String(1) == property {
|
||
|
r := p.Rune(0)
|
||
|
verify[r] = true
|
||
|
if !f(r) {
|
||
|
n++
|
||
|
fmt.Fprintf(w, "\t\t0x%.4x: true,\n", r)
|
||
|
}
|
||
|
}
|
||
|
})
|
||
|
fmt.Fprint(w, "\t}\n\n")
|
||
|
|
||
|
// Verify that f is correct, that is, it represents a subset of the property.
|
||
|
for r := rune(0); r <= lastRuneForTesting; r++ {
|
||
|
if !verify[r] && f(r) {
|
||
|
log.Fatalf("Incorrect filter func for property %q.", property)
|
||
|
}
|
||
|
}
|
||
|
return n
|
||
|
}
|
||
|
|
||
|
// The newCaseTrie, sparseValues and sparseOffsets definitions below are
|
||
|
// placeholders referred to by gen_trieval.go. The real definitions are
|
||
|
// generated by this program and written to tables.go.
|
||
|
|
||
|
func newCaseTrie(int) int { return 0 }
|
||
|
|
||
|
var (
|
||
|
sparseValues [0]valueRange
|
||
|
sparseOffsets [0]uint16
|
||
|
)
|