tile38/vendor/golang.org/x/text/search/pattern.go

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// 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.
package search
import (
"golang.org/x/text/internal/colltab"
)
// TODO: handle variable primary weights?
func (p *Pattern) deleteEmptyElements() {
k := 0
for _, e := range p.ce {
if !isIgnorable(p.m, e) {
p.ce[k] = e
k++
}
}
p.ce = p.ce[:k]
}
func isIgnorable(m *Matcher, e colltab.Elem) bool {
if e.Primary() > 0 {
return false
}
if e.Secondary() > 0 {
if !m.ignoreDiacritics {
return false
}
// Primary value is 0 and ignoreDiacritics is true. In this case we
// ignore the tertiary element, as it only pertains to the modifier.
return true
}
// TODO: further distinguish once we have the new implementation.
if !(m.ignoreWidth || m.ignoreCase) && e.Tertiary() > 0 {
return false
}
// TODO: we ignore the Quaternary level for now.
return true
}
// TODO: Use a Boyer-Moore-like algorithm (probably Sunday) for searching.
func (p *Pattern) forwardSearch(it *colltab.Iter) (start, end int) {
for start := 0; it.Next(); it.Reset(start) {
nextStart := it.End()
if end := p.searchOnce(it); end != -1 {
return start, end
}
start = nextStart
}
return -1, -1
}
func (p *Pattern) anchoredForwardSearch(it *colltab.Iter) (start, end int) {
if it.Next() {
if end := p.searchOnce(it); end != -1 {
return 0, end
}
}
return -1, -1
}
// next advances to the next weight in a pattern. f must return one of the
// weights of a collation element. next will advance to the first non-zero
// weight and return this weight and true if it exists, or 0, false otherwise.
func (p *Pattern) next(i *int, f func(colltab.Elem) int) (weight int, ok bool) {
for *i < len(p.ce) {
v := f(p.ce[*i])
*i++
if v != 0 {
// Skip successive ignorable values.
for ; *i < len(p.ce) && f(p.ce[*i]) == 0; *i++ {
}
return v, true
}
}
return 0, false
}
// TODO: remove this function once Elem is internal and Tertiary returns int.
func tertiary(e colltab.Elem) int {
return int(e.Tertiary())
}
// searchOnce tries to match the pattern s.p at the text position i. s.buf needs
// to be filled with collation elements of the first segment, where n is the
// number of source bytes consumed for this segment. It will return the end
// position of the match or -1.
func (p *Pattern) searchOnce(it *colltab.Iter) (end int) {
var pLevel [4]int
m := p.m
for {
k := 0
for ; k < it.N; k++ {
if v := it.Elems[k].Primary(); v > 0 {
if w, ok := p.next(&pLevel[0], colltab.Elem.Primary); !ok || v != w {
return -1
}
}
if !m.ignoreDiacritics {
if v := it.Elems[k].Secondary(); v > 0 {
if w, ok := p.next(&pLevel[1], colltab.Elem.Secondary); !ok || v != w {
return -1
}
}
} else if it.Elems[k].Primary() == 0 {
// We ignore tertiary values of collation elements of the
// secondary level.
continue
}
// TODO: distinguish between case and width. This will be easier to
// implement after we moved to the new collation implementation.
if !m.ignoreWidth && !m.ignoreCase {
if v := it.Elems[k].Tertiary(); v > 0 {
if w, ok := p.next(&pLevel[2], tertiary); !ok || int(v) != w {
return -1
}
}
}
// TODO: check quaternary weight
}
it.Discard() // Remove the current segment from the buffer.
// Check for completion.
switch {
// If any of these cases match, we are not at the end.
case pLevel[0] < len(p.ce):
case !m.ignoreDiacritics && pLevel[1] < len(p.ce):
case !(m.ignoreWidth || m.ignoreCase) && pLevel[2] < len(p.ce):
default:
// At this point, both the segment and pattern has matched fully.
// However, the segment may still be have trailing modifiers.
// This can be verified by another call to next.
end = it.End()
if it.Next() && it.Elems[0].Primary() == 0 {
if !m.ignoreDiacritics {
return -1
}
end = it.End()
}
return end
}
// Fill the buffer with the next batch of collation elements.
if !it.Next() {
return -1
}
}
}