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a0bca42a7a
* Update vendored libs * Fix slack api changes
360 lines
10 KiB
Go
360 lines
10 KiB
Go
// Copyright 2015 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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//go:generate go run gen.go gen_trieval.go gen_ranges.go
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// Package bidi contains functionality for bidirectional text support.
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//
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// See https://www.unicode.org/reports/tr9.
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//
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// NOTE: UNDER CONSTRUCTION. This API may change in backwards incompatible ways
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// and without notice.
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package bidi // import "golang.org/x/text/unicode/bidi"
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// TODO
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// - Transformer for reordering?
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// - Transformer (validator, really) for Bidi Rule.
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import (
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"bytes"
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)
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// This API tries to avoid dealing with embedding levels for now. Under the hood
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// these will be computed, but the question is to which extent the user should
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// know they exist. We should at some point allow the user to specify an
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// embedding hierarchy, though.
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// A Direction indicates the overall flow of text.
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type Direction int
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const (
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// LeftToRight indicates the text contains no right-to-left characters and
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// that either there are some left-to-right characters or the option
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// DefaultDirection(LeftToRight) was passed.
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LeftToRight Direction = iota
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// RightToLeft indicates the text contains no left-to-right characters and
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// that either there are some right-to-left characters or the option
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// DefaultDirection(RightToLeft) was passed.
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RightToLeft
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// Mixed indicates text contains both left-to-right and right-to-left
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// characters.
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Mixed
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// Neutral means that text contains no left-to-right and right-to-left
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// characters and that no default direction has been set.
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Neutral
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)
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type options struct {
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defaultDirection Direction
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}
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// An Option is an option for Bidi processing.
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type Option func(*options)
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// ICU allows the user to define embedding levels. This may be used, for example,
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// to use hierarchical structure of markup languages to define embeddings.
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// The following option may be a way to expose this functionality in this API.
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// // LevelFunc sets a function that associates nesting levels with the given text.
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// // The levels function will be called with monotonically increasing values for p.
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// func LevelFunc(levels func(p int) int) Option {
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// panic("unimplemented")
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// }
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// DefaultDirection sets the default direction for a Paragraph. The direction is
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// overridden if the text contains directional characters.
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func DefaultDirection(d Direction) Option {
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return func(opts *options) {
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opts.defaultDirection = d
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}
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}
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// A Paragraph holds a single Paragraph for Bidi processing.
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type Paragraph struct {
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p []byte
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o Ordering
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opts []Option
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types []Class
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pairTypes []bracketType
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pairValues []rune
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runes []rune
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options options
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}
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// Initialize the p.pairTypes, p.pairValues and p.types from the input previously
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// set by p.SetBytes() or p.SetString(). Also limit the input up to (and including) a paragraph
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// separator (bidi class B).
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//
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// The function p.Order() needs these values to be set, so this preparation could be postponed.
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// But since the SetBytes and SetStrings functions return the length of the input up to the paragraph
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// separator, the whole input needs to be processed anyway and should not be done twice.
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//
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// The function has the same return values as SetBytes() / SetString()
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func (p *Paragraph) prepareInput() (n int, err error) {
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p.runes = bytes.Runes(p.p)
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bytecount := 0
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// clear slices from previous SetString or SetBytes
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p.pairTypes = nil
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p.pairValues = nil
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p.types = nil
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for _, r := range p.runes {
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props, i := LookupRune(r)
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bytecount += i
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cls := props.Class()
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if cls == B {
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return bytecount, nil
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}
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p.types = append(p.types, cls)
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if props.IsOpeningBracket() {
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p.pairTypes = append(p.pairTypes, bpOpen)
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p.pairValues = append(p.pairValues, r)
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} else if props.IsBracket() {
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// this must be a closing bracket,
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// since IsOpeningBracket is not true
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p.pairTypes = append(p.pairTypes, bpClose)
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p.pairValues = append(p.pairValues, r)
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} else {
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p.pairTypes = append(p.pairTypes, bpNone)
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p.pairValues = append(p.pairValues, 0)
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}
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}
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return bytecount, nil
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}
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// SetBytes configures p for the given paragraph text. It replaces text
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// previously set by SetBytes or SetString. If b contains a paragraph separator
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// it will only process the first paragraph and report the number of bytes
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// consumed from b including this separator. Error may be non-nil if options are
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// given.
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func (p *Paragraph) SetBytes(b []byte, opts ...Option) (n int, err error) {
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p.p = b
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p.opts = opts
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return p.prepareInput()
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}
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// SetString configures s for the given paragraph text. It replaces text
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// previously set by SetBytes or SetString. If s contains a paragraph separator
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// it will only process the first paragraph and report the number of bytes
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// consumed from s including this separator. Error may be non-nil if options are
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// given.
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func (p *Paragraph) SetString(s string, opts ...Option) (n int, err error) {
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p.p = []byte(s)
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p.opts = opts
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return p.prepareInput()
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}
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// IsLeftToRight reports whether the principle direction of rendering for this
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// paragraphs is left-to-right. If this returns false, the principle direction
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// of rendering is right-to-left.
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func (p *Paragraph) IsLeftToRight() bool {
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return p.Direction() == LeftToRight
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}
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// Direction returns the direction of the text of this paragraph.
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//
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// The direction may be LeftToRight, RightToLeft, Mixed, or Neutral.
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func (p *Paragraph) Direction() Direction {
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return p.o.Direction()
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}
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// TODO: what happens if the position is > len(input)? This should return an error.
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// RunAt reports the Run at the given position of the input text.
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//
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// This method can be used for computing line breaks on paragraphs.
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func (p *Paragraph) RunAt(pos int) Run {
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c := 0
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runNumber := 0
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for i, r := range p.o.runes {
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c += len(r)
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if pos < c {
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runNumber = i
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}
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}
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return p.o.Run(runNumber)
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}
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func calculateOrdering(levels []level, runes []rune) Ordering {
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var curDir Direction
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prevDir := Neutral
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prevI := 0
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o := Ordering{}
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// lvl = 0,2,4,...: left to right
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// lvl = 1,3,5,...: right to left
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for i, lvl := range levels {
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if lvl%2 == 0 {
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curDir = LeftToRight
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} else {
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curDir = RightToLeft
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}
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if curDir != prevDir {
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if i > 0 {
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o.runes = append(o.runes, runes[prevI:i])
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o.directions = append(o.directions, prevDir)
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o.startpos = append(o.startpos, prevI)
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}
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prevI = i
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prevDir = curDir
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}
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}
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o.runes = append(o.runes, runes[prevI:])
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o.directions = append(o.directions, prevDir)
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o.startpos = append(o.startpos, prevI)
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return o
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}
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// Order computes the visual ordering of all the runs in a Paragraph.
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func (p *Paragraph) Order() (Ordering, error) {
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if len(p.types) == 0 {
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return Ordering{}, nil
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}
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for _, fn := range p.opts {
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fn(&p.options)
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}
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lvl := level(-1)
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if p.options.defaultDirection == RightToLeft {
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lvl = 1
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}
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para, err := newParagraph(p.types, p.pairTypes, p.pairValues, lvl)
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if err != nil {
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return Ordering{}, err
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}
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levels := para.getLevels([]int{len(p.types)})
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p.o = calculateOrdering(levels, p.runes)
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return p.o, nil
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}
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// Line computes the visual ordering of runs for a single line starting and
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// ending at the given positions in the original text.
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func (p *Paragraph) Line(start, end int) (Ordering, error) {
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lineTypes := p.types[start:end]
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para, err := newParagraph(lineTypes, p.pairTypes[start:end], p.pairValues[start:end], -1)
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if err != nil {
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return Ordering{}, err
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}
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levels := para.getLevels([]int{len(lineTypes)})
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o := calculateOrdering(levels, p.runes[start:end])
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return o, nil
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}
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// An Ordering holds the computed visual order of runs of a Paragraph. Calling
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// SetBytes or SetString on the originating Paragraph invalidates an Ordering.
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// The methods of an Ordering should only be called by one goroutine at a time.
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type Ordering struct {
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runes [][]rune
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directions []Direction
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startpos []int
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}
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// Direction reports the directionality of the runs.
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//
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// The direction may be LeftToRight, RightToLeft, Mixed, or Neutral.
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func (o *Ordering) Direction() Direction {
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return o.directions[0]
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}
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// NumRuns returns the number of runs.
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func (o *Ordering) NumRuns() int {
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return len(o.runes)
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}
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// Run returns the ith run within the ordering.
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func (o *Ordering) Run(i int) Run {
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r := Run{
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runes: o.runes[i],
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direction: o.directions[i],
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startpos: o.startpos[i],
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}
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return r
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}
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// TODO: perhaps with options.
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// // Reorder creates a reader that reads the runes in visual order per character.
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// // Modifiers remain after the runes they modify.
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// func (l *Runs) Reorder() io.Reader {
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// panic("unimplemented")
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// }
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// A Run is a continuous sequence of characters of a single direction.
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type Run struct {
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runes []rune
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direction Direction
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startpos int
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}
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// String returns the text of the run in its original order.
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func (r *Run) String() string {
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return string(r.runes)
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}
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// Bytes returns the text of the run in its original order.
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func (r *Run) Bytes() []byte {
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return []byte(r.String())
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}
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// TODO: methods for
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// - Display order
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// - headers and footers
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// - bracket replacement.
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// Direction reports the direction of the run.
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func (r *Run) Direction() Direction {
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return r.direction
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}
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// Pos returns the position of the Run within the text passed to SetBytes or SetString of the
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// originating Paragraph value.
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func (r *Run) Pos() (start, end int) {
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return r.startpos, r.startpos + len(r.runes) - 1
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}
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// AppendReverse reverses the order of characters of in, appends them to out,
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// and returns the result. Modifiers will still follow the runes they modify.
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// Brackets are replaced with their counterparts.
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func AppendReverse(out, in []byte) []byte {
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ret := make([]byte, len(in)+len(out))
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copy(ret, out)
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inRunes := bytes.Runes(in)
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for i, r := range inRunes {
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prop, _ := LookupRune(r)
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if prop.IsBracket() {
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inRunes[i] = prop.reverseBracket(r)
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}
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}
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for i, j := 0, len(inRunes)-1; i < j; i, j = i+1, j-1 {
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inRunes[i], inRunes[j] = inRunes[j], inRunes[i]
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}
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copy(ret[len(out):], string(inRunes))
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return ret
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}
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// ReverseString reverses the order of characters in s and returns a new string.
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// Modifiers will still follow the runes they modify. Brackets are replaced with
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// their counterparts.
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func ReverseString(s string) string {
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input := []rune(s)
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li := len(input)
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ret := make([]rune, li)
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for i, r := range input {
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prop, _ := LookupRune(r)
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if prop.IsBracket() {
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ret[li-i-1] = prop.reverseBracket(r)
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} else {
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ret[li-i-1] = r
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}
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}
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return string(ret)
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}
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