mirror of
https://github.com/Luzifer/vault-openvpn.git
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702 lines
20 KiB
Go
702 lines
20 KiB
Go
// Copyright 2012 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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package build // import "golang.org/x/text/collate/build"
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import (
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"fmt"
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"io"
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"log"
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"sort"
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"strings"
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"unicode/utf8"
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"golang.org/x/text/internal/colltab"
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"golang.org/x/text/language"
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"golang.org/x/text/unicode/norm"
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)
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// TODO: optimizations:
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// - expandElem is currently 20K. By putting unique colElems in a separate
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// table and having a byte array of indexes into this table, we can reduce
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// the total size to about 7K. By also factoring out the length bytes, we
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// can reduce this to about 6K.
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// - trie valueBlocks are currently 100K. There are a lot of sparse blocks
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// and many consecutive values with the same stride. This can be further
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// compacted.
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// - Compress secondary weights into 8 bits.
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// - Some LDML specs specify a context element. Currently we simply concatenate
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// those. Context can be implemented using the contraction trie. If Builder
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// could analyze and detect when using a context makes sense, there is no
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// need to expose this construct in the API.
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// A Builder builds a root collation table. The user must specify the
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// collation elements for each entry. A common use will be to base the weights
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// on those specified in the allkeys* file as provided by the UCA or CLDR.
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type Builder struct {
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index *trieBuilder
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root ordering
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locale []*Tailoring
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t *table
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err error
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built bool
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minNonVar int // lowest primary recorded for a variable
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varTop int // highest primary recorded for a non-variable
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// indexes used for reusing expansions and contractions
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expIndex map[string]int // positions of expansions keyed by their string representation
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ctHandle map[string]ctHandle // contraction handles keyed by a concatenation of the suffixes
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ctElem map[string]int // contraction elements keyed by their string representation
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}
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// A Tailoring builds a collation table based on another collation table.
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// The table is defined by specifying tailorings to the underlying table.
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// See http://unicode.org/reports/tr35/ for an overview of tailoring
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// collation tables. The CLDR contains pre-defined tailorings for a variety
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// of languages (See http://www.unicode.org/Public/cldr/<version>/core.zip.)
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type Tailoring struct {
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id string
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builder *Builder
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index *ordering
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anchor *entry
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before bool
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}
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// NewBuilder returns a new Builder.
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func NewBuilder() *Builder {
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return &Builder{
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index: newTrieBuilder(),
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root: makeRootOrdering(),
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expIndex: make(map[string]int),
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ctHandle: make(map[string]ctHandle),
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ctElem: make(map[string]int),
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}
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}
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// Tailoring returns a Tailoring for the given locale. One should
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// have completed all calls to Add before calling Tailoring.
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func (b *Builder) Tailoring(loc language.Tag) *Tailoring {
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t := &Tailoring{
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id: loc.String(),
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builder: b,
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index: b.root.clone(),
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}
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t.index.id = t.id
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b.locale = append(b.locale, t)
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return t
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}
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// Add adds an entry to the collation element table, mapping
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// a slice of runes to a sequence of collation elements.
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// A collation element is specified as list of weights: []int{primary, secondary, ...}.
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// The entries are typically obtained from a collation element table
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// as defined in http://www.unicode.org/reports/tr10/#Data_Table_Format.
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// Note that the collation elements specified by colelems are only used
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// as a guide. The actual weights generated by Builder may differ.
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// The argument variables is a list of indices into colelems that should contain
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// a value for each colelem that is a variable. (See the reference above.)
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func (b *Builder) Add(runes []rune, colelems [][]int, variables []int) error {
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str := string(runes)
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elems := make([]rawCE, len(colelems))
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for i, ce := range colelems {
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if len(ce) == 0 {
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break
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}
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elems[i] = makeRawCE(ce, 0)
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if len(ce) == 1 {
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elems[i].w[1] = defaultSecondary
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}
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if len(ce) <= 2 {
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elems[i].w[2] = defaultTertiary
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}
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if len(ce) <= 3 {
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elems[i].w[3] = ce[0]
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}
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}
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for i, ce := range elems {
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p := ce.w[0]
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isvar := false
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for _, j := range variables {
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if i == j {
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isvar = true
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}
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}
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if isvar {
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if p >= b.minNonVar && b.minNonVar > 0 {
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return fmt.Errorf("primary value %X of variable is larger than the smallest non-variable %X", p, b.minNonVar)
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}
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if p > b.varTop {
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b.varTop = p
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}
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} else if p > 1 { // 1 is a special primary value reserved for FFFE
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if p <= b.varTop {
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return fmt.Errorf("primary value %X of non-variable is smaller than the highest variable %X", p, b.varTop)
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}
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if b.minNonVar == 0 || p < b.minNonVar {
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b.minNonVar = p
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}
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}
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}
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elems, err := convertLargeWeights(elems)
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if err != nil {
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return err
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}
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cccs := []uint8{}
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nfd := norm.NFD.String(str)
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for i := range nfd {
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cccs = append(cccs, norm.NFD.PropertiesString(nfd[i:]).CCC())
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}
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if len(cccs) < len(elems) {
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if len(cccs) > 2 {
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return fmt.Errorf("number of decomposed characters should be greater or equal to the number of collation elements for len(colelems) > 3 (%d < %d)", len(cccs), len(elems))
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}
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p := len(elems) - 1
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for ; p > 0 && elems[p].w[0] == 0; p-- {
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elems[p].ccc = cccs[len(cccs)-1]
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}
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for ; p >= 0; p-- {
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elems[p].ccc = cccs[0]
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}
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} else {
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for i := range elems {
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elems[i].ccc = cccs[i]
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}
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}
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// doNorm in collate.go assumes that the following conditions hold.
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if len(elems) > 1 && len(cccs) > 1 && cccs[0] != 0 && cccs[0] != cccs[len(cccs)-1] {
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return fmt.Errorf("incompatible CCC values for expansion %X (%d)", runes, cccs)
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}
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b.root.newEntry(str, elems)
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return nil
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}
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func (t *Tailoring) setAnchor(anchor string) error {
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anchor = norm.NFC.String(anchor)
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a := t.index.find(anchor)
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if a == nil {
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a = t.index.newEntry(anchor, nil)
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a.implicit = true
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a.modified = true
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for _, r := range []rune(anchor) {
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e := t.index.find(string(r))
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e.lock = true
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}
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}
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t.anchor = a
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return nil
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}
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// SetAnchor sets the point after which elements passed in subsequent calls to
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// Insert will be inserted. It is equivalent to the reset directive in an LDML
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// specification. See Insert for an example.
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// SetAnchor supports the following logical reset positions:
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// <first_tertiary_ignorable/>, <last_teriary_ignorable/>, <first_primary_ignorable/>,
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// and <last_non_ignorable/>.
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func (t *Tailoring) SetAnchor(anchor string) error {
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if err := t.setAnchor(anchor); err != nil {
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return err
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}
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t.before = false
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return nil
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}
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// SetAnchorBefore is similar to SetAnchor, except that subsequent calls to
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// Insert will insert entries before the anchor.
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func (t *Tailoring) SetAnchorBefore(anchor string) error {
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if err := t.setAnchor(anchor); err != nil {
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return err
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}
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t.before = true
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return nil
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}
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// Insert sets the ordering of str relative to the entry set by the previous
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// call to SetAnchor or Insert. The argument extend corresponds
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// to the extend elements as defined in LDML. A non-empty value for extend
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// will cause the collation elements corresponding to extend to be appended
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// to the collation elements generated for the entry added by Insert.
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// This has the same net effect as sorting str after the string anchor+extend.
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// See http://www.unicode.org/reports/tr10/#Tailoring_Example for details
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// on parametric tailoring and http://unicode.org/reports/tr35/#Collation_Elements
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// for full details on LDML.
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//
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// Examples: create a tailoring for Swedish, where "ä" is ordered after "z"
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// at the primary sorting level:
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// t := b.Tailoring("se")
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// t.SetAnchor("z")
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// t.Insert(colltab.Primary, "ä", "")
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// Order "ü" after "ue" at the secondary sorting level:
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// t.SetAnchor("ue")
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// t.Insert(colltab.Secondary, "ü","")
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// or
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// t.SetAnchor("u")
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// t.Insert(colltab.Secondary, "ü", "e")
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// Order "q" afer "ab" at the secondary level and "Q" after "q"
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// at the tertiary level:
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// t.SetAnchor("ab")
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// t.Insert(colltab.Secondary, "q", "")
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// t.Insert(colltab.Tertiary, "Q", "")
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// Order "b" before "a":
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// t.SetAnchorBefore("a")
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// t.Insert(colltab.Primary, "b", "")
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// Order "0" after the last primary ignorable:
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// t.SetAnchor("<last_primary_ignorable/>")
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// t.Insert(colltab.Primary, "0", "")
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func (t *Tailoring) Insert(level colltab.Level, str, extend string) error {
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if t.anchor == nil {
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return fmt.Errorf("%s:Insert: no anchor point set for tailoring of %s", t.id, str)
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}
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str = norm.NFC.String(str)
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e := t.index.find(str)
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if e == nil {
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e = t.index.newEntry(str, nil)
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} else if e.logical != noAnchor {
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return fmt.Errorf("%s:Insert: cannot reinsert logical reset position %q", t.id, e.str)
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}
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if e.lock {
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return fmt.Errorf("%s:Insert: cannot reinsert element %q", t.id, e.str)
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}
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a := t.anchor
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// Find the first element after the anchor which differs at a level smaller or
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// equal to the given level. Then insert at this position.
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// See http://unicode.org/reports/tr35/#Collation_Elements, Section 5.14.5 for details.
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e.before = t.before
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if t.before {
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t.before = false
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if a.prev == nil {
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a.insertBefore(e)
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} else {
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for a = a.prev; a.level > level; a = a.prev {
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}
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a.insertAfter(e)
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}
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e.level = level
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} else {
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for ; a.level > level; a = a.next {
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}
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e.level = a.level
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if a != e {
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a.insertAfter(e)
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a.level = level
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} else {
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// We don't set a to prev itself. This has the effect of the entry
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// getting new collation elements that are an increment of itself.
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// This is intentional.
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a.prev.level = level
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}
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}
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e.extend = norm.NFD.String(extend)
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e.exclude = false
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e.modified = true
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e.elems = nil
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t.anchor = e
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return nil
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}
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func (o *ordering) getWeight(e *entry) []rawCE {
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if len(e.elems) == 0 && e.logical == noAnchor {
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if e.implicit {
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for _, r := range e.runes {
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e.elems = append(e.elems, o.getWeight(o.find(string(r)))...)
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}
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} else if e.before {
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count := [colltab.Identity + 1]int{}
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a := e
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for ; a.elems == nil && !a.implicit; a = a.next {
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count[a.level]++
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}
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e.elems = []rawCE{makeRawCE(a.elems[0].w, a.elems[0].ccc)}
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for i := colltab.Primary; i < colltab.Quaternary; i++ {
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if count[i] != 0 {
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e.elems[0].w[i] -= count[i]
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break
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}
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}
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if e.prev != nil {
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o.verifyWeights(e.prev, e, e.prev.level)
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}
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} else {
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prev := e.prev
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e.elems = nextWeight(prev.level, o.getWeight(prev))
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o.verifyWeights(e, e.next, e.level)
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}
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}
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return e.elems
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}
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func (o *ordering) addExtension(e *entry) {
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if ex := o.find(e.extend); ex != nil {
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e.elems = append(e.elems, ex.elems...)
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} else {
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for _, r := range []rune(e.extend) {
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e.elems = append(e.elems, o.find(string(r)).elems...)
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}
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}
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e.extend = ""
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}
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func (o *ordering) verifyWeights(a, b *entry, level colltab.Level) error {
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if level == colltab.Identity || b == nil || b.elems == nil || a.elems == nil {
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return nil
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}
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for i := colltab.Primary; i < level; i++ {
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if a.elems[0].w[i] < b.elems[0].w[i] {
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return nil
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}
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}
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if a.elems[0].w[level] >= b.elems[0].w[level] {
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err := fmt.Errorf("%s:overflow: collation elements of %q (%X) overflows those of %q (%X) at level %d (%X >= %X)", o.id, a.str, a.runes, b.str, b.runes, level, a.elems, b.elems)
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log.Println(err)
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// TODO: return the error instead, or better, fix the conflicting entry by making room.
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}
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return nil
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}
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func (b *Builder) error(e error) {
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if e != nil {
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b.err = e
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}
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}
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func (b *Builder) errorID(locale string, e error) {
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if e != nil {
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b.err = fmt.Errorf("%s:%v", locale, e)
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}
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}
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// patchNorm ensures that NFC and NFD counterparts are consistent.
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func (o *ordering) patchNorm() {
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// Insert the NFD counterparts, if necessary.
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for _, e := range o.ordered {
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nfd := norm.NFD.String(e.str)
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if nfd != e.str {
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if e0 := o.find(nfd); e0 != nil && !e0.modified {
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e0.elems = e.elems
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} else if e.modified && !equalCEArrays(o.genColElems(nfd), e.elems) {
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e := o.newEntry(nfd, e.elems)
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e.modified = true
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}
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}
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}
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// Update unchanged composed forms if one of their parts changed.
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for _, e := range o.ordered {
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nfd := norm.NFD.String(e.str)
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if e.modified || nfd == e.str {
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continue
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}
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if e0 := o.find(nfd); e0 != nil {
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e.elems = e0.elems
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} else {
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e.elems = o.genColElems(nfd)
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if norm.NFD.LastBoundary([]byte(nfd)) == 0 {
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r := []rune(nfd)
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head := string(r[0])
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tail := ""
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for i := 1; i < len(r); i++ {
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s := norm.NFC.String(head + string(r[i]))
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if e0 := o.find(s); e0 != nil && e0.modified {
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head = s
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} else {
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tail += string(r[i])
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}
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}
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e.elems = append(o.genColElems(head), o.genColElems(tail)...)
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}
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}
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}
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// Exclude entries for which the individual runes generate the same collation elements.
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for _, e := range o.ordered {
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if len(e.runes) > 1 && equalCEArrays(o.genColElems(e.str), e.elems) {
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e.exclude = true
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}
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}
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}
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func (b *Builder) buildOrdering(o *ordering) {
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for _, e := range o.ordered {
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o.getWeight(e)
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}
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for _, e := range o.ordered {
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o.addExtension(e)
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}
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o.patchNorm()
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o.sort()
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simplify(o)
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b.processExpansions(o) // requires simplify
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b.processContractions(o) // requires simplify
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t := newNode()
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for e := o.front(); e != nil; e, _ = e.nextIndexed() {
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if !e.skip() {
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ce, err := e.encode()
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b.errorID(o.id, err)
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t.insert(e.runes[0], ce)
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}
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}
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o.handle = b.index.addTrie(t)
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}
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func (b *Builder) build() (*table, error) {
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if b.built {
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return b.t, b.err
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}
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b.built = true
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b.t = &table{
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Table: colltab.Table{
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MaxContractLen: utf8.UTFMax,
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VariableTop: uint32(b.varTop),
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},
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}
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b.buildOrdering(&b.root)
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b.t.root = b.root.handle
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for _, t := range b.locale {
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b.buildOrdering(t.index)
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if b.err != nil {
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break
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}
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}
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i, err := b.index.generate()
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b.t.trie = *i
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b.t.Index = colltab.Trie{
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Index: i.index,
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Values: i.values,
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Index0: i.index[blockSize*b.t.root.lookupStart:],
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Values0: i.values[blockSize*b.t.root.valueStart:],
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}
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b.error(err)
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return b.t, b.err
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}
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// Build builds the root Collator.
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func (b *Builder) Build() (colltab.Weighter, error) {
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table, err := b.build()
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if err != nil {
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return nil, err
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}
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return table, nil
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}
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// Build builds a Collator for Tailoring t.
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func (t *Tailoring) Build() (colltab.Weighter, error) {
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// TODO: implement.
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return nil, nil
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}
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|
|
// Print prints the tables for b and all its Tailorings as a Go file
|
|
// that can be included in the Collate package.
|
|
func (b *Builder) Print(w io.Writer) (n int, err error) {
|
|
p := func(nn int, e error) {
|
|
n += nn
|
|
if err == nil {
|
|
err = e
|
|
}
|
|
}
|
|
t, err := b.build()
|
|
if err != nil {
|
|
return 0, err
|
|
}
|
|
p(fmt.Fprintf(w, `var availableLocales = "und`))
|
|
for _, loc := range b.locale {
|
|
if loc.id != "und" {
|
|
p(fmt.Fprintf(w, ",%s", loc.id))
|
|
}
|
|
}
|
|
p(fmt.Fprint(w, "\"\n\n"))
|
|
p(fmt.Fprintf(w, "const varTop = 0x%x\n\n", b.varTop))
|
|
p(fmt.Fprintln(w, "var locales = [...]tableIndex{"))
|
|
for _, loc := range b.locale {
|
|
if loc.id == "und" {
|
|
p(t.fprintIndex(w, loc.index.handle, loc.id))
|
|
}
|
|
}
|
|
for _, loc := range b.locale {
|
|
if loc.id != "und" {
|
|
p(t.fprintIndex(w, loc.index.handle, loc.id))
|
|
}
|
|
}
|
|
p(fmt.Fprint(w, "}\n\n"))
|
|
n, _, err = t.fprint(w, "main")
|
|
return
|
|
}
|
|
|
|
// reproducibleFromNFKD checks whether the given expansion could be generated
|
|
// from an NFKD expansion.
|
|
func reproducibleFromNFKD(e *entry, exp, nfkd []rawCE) bool {
|
|
// Length must be equal.
|
|
if len(exp) != len(nfkd) {
|
|
return false
|
|
}
|
|
for i, ce := range exp {
|
|
// Primary and secondary values should be equal.
|
|
if ce.w[0] != nfkd[i].w[0] || ce.w[1] != nfkd[i].w[1] {
|
|
return false
|
|
}
|
|
// Tertiary values should be equal to maxTertiary for third element onwards.
|
|
// TODO: there seem to be a lot of cases in CLDR (e.g. ㏭ in zh.xml) that can
|
|
// simply be dropped. Try this out by dropping the following code.
|
|
if i >= 2 && ce.w[2] != maxTertiary {
|
|
return false
|
|
}
|
|
if _, err := makeCE(ce); err != nil {
|
|
// Simply return false. The error will be caught elsewhere.
|
|
return false
|
|
}
|
|
}
|
|
return true
|
|
}
|
|
|
|
func simplify(o *ordering) {
|
|
// Runes that are a starter of a contraction should not be removed.
|
|
// (To date, there is only Kannada character 0CCA.)
|
|
keep := make(map[rune]bool)
|
|
for e := o.front(); e != nil; e, _ = e.nextIndexed() {
|
|
if len(e.runes) > 1 {
|
|
keep[e.runes[0]] = true
|
|
}
|
|
}
|
|
// Tag entries for which the runes NFKD decompose to identical values.
|
|
for e := o.front(); e != nil; e, _ = e.nextIndexed() {
|
|
s := e.str
|
|
nfkd := norm.NFKD.String(s)
|
|
nfd := norm.NFD.String(s)
|
|
if e.decompose || len(e.runes) > 1 || len(e.elems) == 1 || keep[e.runes[0]] || nfkd == nfd {
|
|
continue
|
|
}
|
|
if reproducibleFromNFKD(e, e.elems, o.genColElems(nfkd)) {
|
|
e.decompose = true
|
|
}
|
|
}
|
|
}
|
|
|
|
// appendExpansion converts the given collation sequence to
|
|
// collation elements and adds them to the expansion table.
|
|
// It returns an index to the expansion table.
|
|
func (b *Builder) appendExpansion(e *entry) int {
|
|
t := b.t
|
|
i := len(t.ExpandElem)
|
|
ce := uint32(len(e.elems))
|
|
t.ExpandElem = append(t.ExpandElem, ce)
|
|
for _, w := range e.elems {
|
|
ce, err := makeCE(w)
|
|
if err != nil {
|
|
b.error(err)
|
|
return -1
|
|
}
|
|
t.ExpandElem = append(t.ExpandElem, ce)
|
|
}
|
|
return i
|
|
}
|
|
|
|
// processExpansions extracts data necessary to generate
|
|
// the extraction tables.
|
|
func (b *Builder) processExpansions(o *ordering) {
|
|
for e := o.front(); e != nil; e, _ = e.nextIndexed() {
|
|
if !e.expansion() {
|
|
continue
|
|
}
|
|
key := fmt.Sprintf("%v", e.elems)
|
|
i, ok := b.expIndex[key]
|
|
if !ok {
|
|
i = b.appendExpansion(e)
|
|
b.expIndex[key] = i
|
|
}
|
|
e.expansionIndex = i
|
|
}
|
|
}
|
|
|
|
func (b *Builder) processContractions(o *ordering) {
|
|
// Collate contractions per starter rune.
|
|
starters := []rune{}
|
|
cm := make(map[rune][]*entry)
|
|
for e := o.front(); e != nil; e, _ = e.nextIndexed() {
|
|
if e.contraction() {
|
|
if len(e.str) > b.t.MaxContractLen {
|
|
b.t.MaxContractLen = len(e.str)
|
|
}
|
|
r := e.runes[0]
|
|
if _, ok := cm[r]; !ok {
|
|
starters = append(starters, r)
|
|
}
|
|
cm[r] = append(cm[r], e)
|
|
}
|
|
}
|
|
// Add entries of single runes that are at a start of a contraction.
|
|
for e := o.front(); e != nil; e, _ = e.nextIndexed() {
|
|
if !e.contraction() {
|
|
r := e.runes[0]
|
|
if _, ok := cm[r]; ok {
|
|
cm[r] = append(cm[r], e)
|
|
}
|
|
}
|
|
}
|
|
// Build the tries for the contractions.
|
|
t := b.t
|
|
for _, r := range starters {
|
|
l := cm[r]
|
|
// Compute suffix strings. There are 31 different contraction suffix
|
|
// sets for 715 contractions and 82 contraction starter runes as of
|
|
// version 6.0.0.
|
|
sufx := []string{}
|
|
hasSingle := false
|
|
for _, e := range l {
|
|
if len(e.runes) > 1 {
|
|
sufx = append(sufx, string(e.runes[1:]))
|
|
} else {
|
|
hasSingle = true
|
|
}
|
|
}
|
|
if !hasSingle {
|
|
b.error(fmt.Errorf("no single entry for starter rune %U found", r))
|
|
continue
|
|
}
|
|
// Unique the suffix set.
|
|
sort.Strings(sufx)
|
|
key := strings.Join(sufx, "\n")
|
|
handle, ok := b.ctHandle[key]
|
|
if !ok {
|
|
var err error
|
|
handle, err = appendTrie(&t.ContractTries, sufx)
|
|
if err != nil {
|
|
b.error(err)
|
|
}
|
|
b.ctHandle[key] = handle
|
|
}
|
|
// Bucket sort entries in index order.
|
|
es := make([]*entry, len(l))
|
|
for _, e := range l {
|
|
var p, sn int
|
|
if len(e.runes) > 1 {
|
|
str := []byte(string(e.runes[1:]))
|
|
p, sn = lookup(&t.ContractTries, handle, str)
|
|
if sn != len(str) {
|
|
log.Fatalf("%s: processContractions: unexpected length for '%X'; len=%d; want %d", o.id, e.runes, sn, len(str))
|
|
}
|
|
}
|
|
if es[p] != nil {
|
|
log.Fatalf("%s: multiple contractions for position %d for rune %U", o.id, p, e.runes[0])
|
|
}
|
|
es[p] = e
|
|
}
|
|
// Create collation elements for contractions.
|
|
elems := []uint32{}
|
|
for _, e := range es {
|
|
ce, err := e.encodeBase()
|
|
b.errorID(o.id, err)
|
|
elems = append(elems, ce)
|
|
}
|
|
key = fmt.Sprintf("%v", elems)
|
|
i, ok := b.ctElem[key]
|
|
if !ok {
|
|
i = len(t.ContractElem)
|
|
b.ctElem[key] = i
|
|
t.ContractElem = append(t.ContractElem, elems...)
|
|
}
|
|
// Store info in entry for starter rune.
|
|
es[0].contractionIndex = i
|
|
es[0].contractionHandle = handle
|
|
}
|
|
}
|