ceph-csi/vendor/golang.org/x/text/search/search.go
Serguei Bezverkhi 7b24313bd6 vendor files
2018-01-10 13:42:26 -05:00

238 lines
6.7 KiB
Go
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

// Copyright 2015 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:generate go run ../collate/maketables.go -cldr=23 -unicode=6.2.0 -types=search,searchjl -package=search
// Package search provides language-specific search and string matching.
//
// Natural language matching can be intricate. For example, Danish will insist
// "Århus" and "Aarhus" are the same name and Turkish will match I to ı (note
// the lack of a dot) in a case-insensitive match. This package handles such
// language-specific details.
//
// Text passed to any of the calls in this message does not need to be
// normalized.
package search // import "golang.org/x/text/search"
import (
"strings"
"golang.org/x/text/internal/colltab"
"golang.org/x/text/language"
)
// An Option configures a Matcher.
type Option func(*Matcher)
var (
// WholeWord restricts matches to complete words. The default is to match at
// the character level.
WholeWord Option = nil
// Exact requires that two strings are their exact equivalent. For example
// å would not match aa in Danish. It overrides any of the ignore options.
Exact Option = nil
// Loose causes case, diacritics and width to be ignored.
Loose Option = loose
// IgnoreCase enables case-insensitive search.
IgnoreCase Option = ignoreCase
// IgnoreDiacritics causes diacritics to be ignored ("ö" == "o").
IgnoreDiacritics Option = ignoreDiacritics
// IgnoreWidth equates narrow with wide variants.
IgnoreWidth Option = ignoreWidth
)
func ignoreDiacritics(m *Matcher) { m.ignoreDiacritics = true }
func ignoreCase(m *Matcher) { m.ignoreCase = true }
func ignoreWidth(m *Matcher) { m.ignoreWidth = true }
func loose(m *Matcher) {
ignoreDiacritics(m)
ignoreCase(m)
ignoreWidth(m)
}
var (
// Supported lists the languages for which search differs from its parent.
Supported language.Coverage
tags []language.Tag
)
func init() {
ids := strings.Split(availableLocales, ",")
tags = make([]language.Tag, len(ids))
for i, s := range ids {
tags[i] = language.Raw.MustParse(s)
}
Supported = language.NewCoverage(tags)
}
// New returns a new Matcher for the given language and options.
func New(t language.Tag, opts ...Option) *Matcher {
m := &Matcher{
w: getTable(locales[colltab.MatchLang(t, tags)]),
}
for _, f := range opts {
f(m)
}
return m
}
// A Matcher implements language-specific string matching.
type Matcher struct {
w colltab.Weighter
ignoreCase bool
ignoreWidth bool
ignoreDiacritics bool
}
// An IndexOption specifies how the Index methods of Pattern or Matcher should
// match the input.
type IndexOption byte
const (
// Anchor restricts the search to the start (or end for Backwards) of the
// text.
Anchor IndexOption = 1 << iota
// Backwards starts the search from the end of the text.
Backwards
anchorBackwards = Anchor | Backwards
)
// Index reports the start and end position of the first occurrence of pat in b
// or -1, -1 if pat is not present.
func (m *Matcher) Index(b, pat []byte, opts ...IndexOption) (start, end int) {
// TODO: implement optimized version that does not use a pattern.
return m.Compile(pat).Index(b, opts...)
}
// IndexString reports the start and end position of the first occurrence of pat
// in s or -1, -1 if pat is not present.
func (m *Matcher) IndexString(s, pat string, opts ...IndexOption) (start, end int) {
// TODO: implement optimized version that does not use a pattern.
return m.CompileString(pat).IndexString(s, opts...)
}
// Equal reports whether a and b are equivalent.
func (m *Matcher) Equal(a, b []byte) bool {
_, end := m.Index(a, b, Anchor)
return end == len(a)
}
// EqualString reports whether a and b are equivalent.
func (m *Matcher) EqualString(a, b string) bool {
_, end := m.IndexString(a, b, Anchor)
return end == len(a)
}
// Compile compiles and returns a pattern that can be used for faster searching.
func (m *Matcher) Compile(b []byte) *Pattern {
p := &Pattern{m: m}
iter := colltab.Iter{Weighter: m.w}
for iter.SetInput(b); iter.Next(); {
}
p.ce = iter.Elems
p.deleteEmptyElements()
return p
}
// CompileString compiles and returns a pattern that can be used for faster
// searching.
func (m *Matcher) CompileString(s string) *Pattern {
p := &Pattern{m: m}
iter := colltab.Iter{Weighter: m.w}
for iter.SetInputString(s); iter.Next(); {
}
p.ce = iter.Elems
p.deleteEmptyElements()
return p
}
// A Pattern is a compiled search string. It is safe for concurrent use.
type Pattern struct {
m *Matcher
ce []colltab.Elem
}
// Design note (TODO remove):
// The cost of retrieving collation elements for each rune, which is used for
// search as well, is not trivial. Also, algorithms like Boyer-Moore and
// Sunday require some additional precomputing.
// Index reports the start and end position of the first occurrence of p in b
// or -1, -1 if p is not present.
func (p *Pattern) Index(b []byte, opts ...IndexOption) (start, end int) {
// Pick a large enough buffer such that we likely do not need to allocate
// and small enough to not cause too much overhead initializing.
var buf [8]colltab.Elem
it := &colltab.Iter{
Weighter: p.m.w,
Elems: buf[:0],
}
it.SetInput(b)
var optMask IndexOption
for _, o := range opts {
optMask |= o
}
switch optMask {
case 0:
return p.forwardSearch(it)
case Anchor:
return p.anchoredForwardSearch(it)
case Backwards, anchorBackwards:
panic("TODO: implement")
default:
panic("unrecognized option")
}
}
// IndexString reports the start and end position of the first occurrence of p
// in s or -1, -1 if p is not present.
func (p *Pattern) IndexString(s string, opts ...IndexOption) (start, end int) {
// Pick a large enough buffer such that we likely do not need to allocate
// and small enough to not cause too much overhead initializing.
var buf [8]colltab.Elem
it := &colltab.Iter{
Weighter: p.m.w,
Elems: buf[:0],
}
it.SetInputString(s)
var optMask IndexOption
for _, o := range opts {
optMask |= o
}
switch optMask {
case 0:
return p.forwardSearch(it)
case Anchor:
return p.anchoredForwardSearch(it)
case Backwards, anchorBackwards:
panic("TODO: implement")
default:
panic("unrecognized option")
}
}
// TODO:
// - Maybe IndexAll methods (probably not necessary).
// - Some way to match patterns in a Reader (a bit tricky).
// - Some fold transformer that folds text to comparable text, based on the
// search options. This is a common technique, though very different from the
// collation-based design of this package. It has a somewhat different use
// case, so probably makes sense to support both. Should probably be in a
// different package, though, as it uses completely different kind of tables
// (based on norm, cases, width and range tables.)