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|
// Copyright 2012-2014 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
use core::cmp;
use crate::tables::grapheme::GraphemeCat;
/// External iterator for grapheme clusters and byte offsets.
///
/// This struct is created by the [`grapheme_indices`] method on the [`UnicodeSegmentation`]
/// trait. See its documentation for more.
///
/// [`grapheme_indices`]: trait.UnicodeSegmentation.html#tymethod.grapheme_indices
/// [`UnicodeSegmentation`]: trait.UnicodeSegmentation.html
#[derive(Clone)]
pub struct GraphemeIndices<'a> {
start_offset: usize,
iter: Graphemes<'a>,
}
impl<'a> GraphemeIndices<'a> {
#[inline]
/// View the underlying data (the part yet to be iterated) as a slice of the original string.
///
/// ```rust
/// # use unicode_segmentation::UnicodeSegmentation;
/// let mut iter = "abc".grapheme_indices(true);
/// assert_eq!(iter.as_str(), "abc");
/// iter.next();
/// assert_eq!(iter.as_str(), "bc");
/// iter.next();
/// iter.next();
/// assert_eq!(iter.as_str(), "");
/// ```
pub fn as_str(&self) -> &'a str {
self.iter.as_str()
}
}
impl<'a> Iterator for GraphemeIndices<'a> {
type Item = (usize, &'a str);
#[inline]
fn next(&mut self) -> Option<(usize, &'a str)> {
self.iter
.next()
.map(|s| (s.as_ptr() as usize - self.start_offset, s))
}
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
self.iter.size_hint()
}
}
impl<'a> DoubleEndedIterator for GraphemeIndices<'a> {
#[inline]
fn next_back(&mut self) -> Option<(usize, &'a str)> {
self.iter
.next_back()
.map(|s| (s.as_ptr() as usize - self.start_offset, s))
}
}
/// External iterator for a string's
/// [grapheme clusters](http://www.unicode.org/reports/tr29/#Grapheme_Cluster_Boundaries).
///
/// This struct is created by the [`graphemes`] method on the [`UnicodeSegmentation`] trait. See its
/// documentation for more.
///
/// [`graphemes`]: trait.UnicodeSegmentation.html#tymethod.graphemes
/// [`UnicodeSegmentation`]: trait.UnicodeSegmentation.html
#[derive(Clone, Debug)]
pub struct Graphemes<'a> {
string: &'a str,
cursor: GraphemeCursor,
cursor_back: GraphemeCursor,
}
impl<'a> Graphemes<'a> {
#[inline]
/// View the underlying data (the part yet to be iterated) as a slice of the original string.
///
/// ```rust
/// # use unicode_segmentation::UnicodeSegmentation;
/// let mut iter = "abc".graphemes(true);
/// assert_eq!(iter.as_str(), "abc");
/// iter.next();
/// assert_eq!(iter.as_str(), "bc");
/// iter.next();
/// iter.next();
/// assert_eq!(iter.as_str(), "");
/// ```
pub fn as_str(&self) -> &'a str {
&self.string[self.cursor.cur_cursor()..self.cursor_back.cur_cursor()]
}
}
impl<'a> Iterator for Graphemes<'a> {
type Item = &'a str;
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
let slen = self.cursor_back.cur_cursor() - self.cursor.cur_cursor();
(cmp::min(slen, 1), Some(slen))
}
#[inline]
fn next(&mut self) -> Option<&'a str> {
let start = self.cursor.cur_cursor();
if start == self.cursor_back.cur_cursor() {
return None;
}
let next = self.cursor.next_boundary(self.string, 0).unwrap().unwrap();
Some(&self.string[start..next])
}
}
impl<'a> DoubleEndedIterator for Graphemes<'a> {
#[inline]
fn next_back(&mut self) -> Option<&'a str> {
let end = self.cursor_back.cur_cursor();
if end == self.cursor.cur_cursor() {
return None;
}
let prev = self
.cursor_back
.prev_boundary(self.string, 0)
.unwrap()
.unwrap();
Some(&self.string[prev..end])
}
}
#[inline]
pub fn new_graphemes<'b>(s: &'b str, is_extended: bool) -> Graphemes<'b> {
let len = s.len();
Graphemes {
string: s,
cursor: GraphemeCursor::new(0, len, is_extended),
cursor_back: GraphemeCursor::new(len, len, is_extended),
}
}
#[inline]
pub fn new_grapheme_indices<'b>(s: &'b str, is_extended: bool) -> GraphemeIndices<'b> {
GraphemeIndices {
start_offset: s.as_ptr() as usize,
iter: new_graphemes(s, is_extended),
}
}
// maybe unify with PairResult?
// An enum describing information about a potential boundary.
#[derive(PartialEq, Eq, Clone, Debug)]
enum GraphemeState {
// No information is known.
Unknown,
// It is known to not be a boundary.
NotBreak,
// It is known to be a boundary.
Break,
// The codepoint after is a Regional Indicator Symbol, so a boundary iff
// it is preceded by an even number of RIS codepoints. (GB12, GB13)
Regional,
// The codepoint after is Extended_Pictographic,
// so whether it's a boundary depends on pre-context according to GB11.
Emoji,
}
/// Cursor-based segmenter for grapheme clusters.
///
/// This allows working with ropes and other datastructures where the string is not contiguous or
/// fully known at initialization time.
#[derive(Clone, Debug)]
pub struct GraphemeCursor {
// Current cursor position.
offset: usize,
// Total length of the string.
len: usize,
// A config flag indicating whether this cursor computes legacy or extended
// grapheme cluster boundaries (enables GB9a and GB9b if set).
is_extended: bool,
// Information about the potential boundary at `offset`
state: GraphemeState,
// Category of codepoint immediately preceding cursor, if known.
cat_before: Option<GraphemeCat>,
// Category of codepoint immediately after cursor, if known.
cat_after: Option<GraphemeCat>,
// If set, at least one more codepoint immediately preceding this offset
// is needed to resolve whether there's a boundary at `offset`.
pre_context_offset: Option<usize>,
// The number of RIS codepoints preceding `offset`. If `pre_context_offset`
// is set, then counts the number of RIS between that and `offset`, otherwise
// is an accurate count relative to the string.
ris_count: Option<usize>,
// Set if a call to `prev_boundary` or `next_boundary` was suspended due
// to needing more input.
resuming: bool,
// Cached grapheme category and associated scalar value range.
grapheme_cat_cache: (u32, u32, GraphemeCat),
}
/// An error return indicating that not enough content was available in the
/// provided chunk to satisfy the query, and that more content must be provided.
#[derive(PartialEq, Eq, Debug)]
pub enum GraphemeIncomplete {
/// More pre-context is needed. The caller should call `provide_context`
/// with a chunk ending at the offset given, then retry the query. This
/// will only be returned if the `chunk_start` parameter is nonzero.
PreContext(usize),
/// When requesting `prev_boundary`, the cursor is moving past the beginning
/// of the current chunk, so the chunk before that is requested. This will
/// only be returned if the `chunk_start` parameter is nonzero.
PrevChunk,
/// When requesting `next_boundary`, the cursor is moving past the end of the
/// current chunk, so the chunk after that is requested. This will only be
/// returned if the chunk ends before the `len` parameter provided on
/// creation of the cursor.
NextChunk, // requesting chunk following the one given
/// An error returned when the chunk given does not contain the cursor position.
InvalidOffset,
}
// An enum describing the result from lookup of a pair of categories.
#[derive(PartialEq, Eq)]
enum PairResult {
NotBreak, // definitely not a break
Break, // definitely a break
Extended, // a break iff not in extended mode
Regional, // a break if preceded by an even number of RIS
Emoji, // a break if preceded by emoji base and (Extend)*
}
#[inline]
fn check_pair(before: GraphemeCat, after: GraphemeCat) -> PairResult {
use self::PairResult::*;
use crate::tables::grapheme::GraphemeCat::*;
match (before, after) {
(GC_CR, GC_LF) => NotBreak, // GB3
(GC_Control, _) => Break, // GB4
(GC_CR, _) => Break, // GB4
(GC_LF, _) => Break, // GB4
(_, GC_Control) => Break, // GB5
(_, GC_CR) => Break, // GB5
(_, GC_LF) => Break, // GB5
(GC_L, GC_L) => NotBreak, // GB6
(GC_L, GC_V) => NotBreak, // GB6
(GC_L, GC_LV) => NotBreak, // GB6
(GC_L, GC_LVT) => NotBreak, // GB6
(GC_LV, GC_V) => NotBreak, // GB7
(GC_LV, GC_T) => NotBreak, // GB7
(GC_V, GC_V) => NotBreak, // GB7
(GC_V, GC_T) => NotBreak, // GB7
(GC_LVT, GC_T) => NotBreak, // GB8
(GC_T, GC_T) => NotBreak, // GB8
(_, GC_Extend) => NotBreak, // GB9
(_, GC_ZWJ) => NotBreak, // GB9
(_, GC_SpacingMark) => Extended, // GB9a
(GC_Prepend, _) => Extended, // GB9b
(GC_ZWJ, GC_Extended_Pictographic) => Emoji, // GB11
(GC_Regional_Indicator, GC_Regional_Indicator) => Regional, // GB12, GB13
(_, _) => Break, // GB999
}
}
impl GraphemeCursor {
/// Create a new cursor. The string and initial offset are given at creation
/// time, but the contents of the string are not. The `is_extended` parameter
/// controls whether extended grapheme clusters are selected.
///
/// The `offset` parameter must be on a codepoint boundary.
///
/// ```rust
/// # use unicode_segmentation::GraphemeCursor;
/// let s = "हिन्दी";
/// let mut legacy = GraphemeCursor::new(0, s.len(), false);
/// assert_eq!(legacy.next_boundary(s, 0), Ok(Some("ह".len())));
/// let mut extended = GraphemeCursor::new(0, s.len(), true);
/// assert_eq!(extended.next_boundary(s, 0), Ok(Some("हि".len())));
/// ```
pub fn new(offset: usize, len: usize, is_extended: bool) -> GraphemeCursor {
let state = if offset == 0 || offset == len {
GraphemeState::Break
} else {
GraphemeState::Unknown
};
GraphemeCursor {
offset: offset,
len: len,
state: state,
is_extended: is_extended,
cat_before: None,
cat_after: None,
pre_context_offset: None,
ris_count: None,
resuming: false,
grapheme_cat_cache: (0, 0, GraphemeCat::GC_Control),
}
}
fn grapheme_category(&mut self, ch: char) -> GraphemeCat {
use crate::tables::grapheme as gr;
use crate::tables::grapheme::GraphemeCat::*;
if ch <= '\u{7e}' {
// Special-case optimization for ascii, except U+007F. This
// improves performance even for many primarily non-ascii texts,
// due to use of punctuation and white space characters from the
// ascii range.
if ch >= '\u{20}' {
GC_Any
} else if ch == '\n' {
GC_LF
} else if ch == '\r' {
GC_CR
} else {
GC_Control
}
} else {
// If this char isn't within the cached range, update the cache to the
// range that includes it.
if (ch as u32) < self.grapheme_cat_cache.0 || (ch as u32) > self.grapheme_cat_cache.1 {
self.grapheme_cat_cache = gr::grapheme_category(ch);
}
self.grapheme_cat_cache.2
}
}
// Not sure I'm gonna keep this, the advantage over new() seems thin.
/// Set the cursor to a new location in the same string.
///
/// ```rust
/// # use unicode_segmentation::GraphemeCursor;
/// let s = "abcd";
/// let mut cursor = GraphemeCursor::new(0, s.len(), false);
/// assert_eq!(cursor.cur_cursor(), 0);
/// cursor.set_cursor(2);
/// assert_eq!(cursor.cur_cursor(), 2);
/// ```
pub fn set_cursor(&mut self, offset: usize) {
if offset != self.offset {
self.offset = offset;
self.state = if offset == 0 || offset == self.len {
GraphemeState::Break
} else {
GraphemeState::Unknown
};
// reset state derived from text around cursor
self.cat_before = None;
self.cat_after = None;
self.ris_count = None;
}
}
#[inline]
/// The current offset of the cursor. Equal to the last value provided to
/// `new()` or `set_cursor()`, or returned from `next_boundary()` or
/// `prev_boundary()`.
///
/// ```rust
/// # use unicode_segmentation::GraphemeCursor;
/// // Two flags (🇷🇸🇮🇴), each flag is two RIS codepoints, each RIS is 4 bytes.
/// let flags = "\u{1F1F7}\u{1F1F8}\u{1F1EE}\u{1F1F4}";
/// let mut cursor = GraphemeCursor::new(4, flags.len(), false);
/// assert_eq!(cursor.cur_cursor(), 4);
/// assert_eq!(cursor.next_boundary(flags, 0), Ok(Some(8)));
/// assert_eq!(cursor.cur_cursor(), 8);
/// ```
pub fn cur_cursor(&self) -> usize {
self.offset
}
/// Provide additional pre-context when it is needed to decide a boundary.
/// The end of the chunk must coincide with the value given in the
/// `GraphemeIncomplete::PreContext` request.
///
/// ```rust
/// # use unicode_segmentation::{GraphemeCursor, GraphemeIncomplete};
/// let flags = "\u{1F1F7}\u{1F1F8}\u{1F1EE}\u{1F1F4}";
/// let mut cursor = GraphemeCursor::new(8, flags.len(), false);
/// // Not enough pre-context to decide if there's a boundary between the two flags.
/// assert_eq!(cursor.is_boundary(&flags[8..], 8), Err(GraphemeIncomplete::PreContext(8)));
/// // Provide one more Regional Indicator Symbol of pre-context
/// cursor.provide_context(&flags[4..8], 4);
/// // Still not enough context to decide.
/// assert_eq!(cursor.is_boundary(&flags[8..], 8), Err(GraphemeIncomplete::PreContext(4)));
/// // Provide additional requested context.
/// cursor.provide_context(&flags[0..4], 0);
/// // That's enough to decide (it always is when context goes to the start of the string)
/// assert_eq!(cursor.is_boundary(&flags[8..], 8), Ok(true));
/// ```
pub fn provide_context(&mut self, chunk: &str, chunk_start: usize) {
use crate::tables::grapheme as gr;
assert!(chunk_start + chunk.len() == self.pre_context_offset.unwrap());
self.pre_context_offset = None;
if self.is_extended && chunk_start + chunk.len() == self.offset {
let ch = chunk.chars().rev().next().unwrap();
if self.grapheme_category(ch) == gr::GC_Prepend {
self.decide(false); // GB9b
return;
}
}
match self.state {
GraphemeState::Regional => self.handle_regional(chunk, chunk_start),
GraphemeState::Emoji => self.handle_emoji(chunk, chunk_start),
_ => {
if self.cat_before.is_none() && self.offset == chunk.len() + chunk_start {
let ch = chunk.chars().rev().next().unwrap();
self.cat_before = Some(self.grapheme_category(ch));
}
}
}
}
#[inline]
fn decide(&mut self, is_break: bool) {
self.state = if is_break {
GraphemeState::Break
} else {
GraphemeState::NotBreak
};
}
#[inline]
fn decision(&mut self, is_break: bool) -> Result<bool, GraphemeIncomplete> {
self.decide(is_break);
Ok(is_break)
}
#[inline]
fn is_boundary_result(&self) -> Result<bool, GraphemeIncomplete> {
if self.state == GraphemeState::Break {
Ok(true)
} else if self.state == GraphemeState::NotBreak {
Ok(false)
} else if let Some(pre_context_offset) = self.pre_context_offset {
Err(GraphemeIncomplete::PreContext(pre_context_offset))
} else {
unreachable!("inconsistent state");
}
}
#[inline]
fn handle_regional(&mut self, chunk: &str, chunk_start: usize) {
use crate::tables::grapheme as gr;
let mut ris_count = self.ris_count.unwrap_or(0);
for ch in chunk.chars().rev() {
if self.grapheme_category(ch) != gr::GC_Regional_Indicator {
self.ris_count = Some(ris_count);
self.decide((ris_count % 2) == 0);
return;
}
ris_count += 1;
}
self.ris_count = Some(ris_count);
if chunk_start == 0 {
self.decide((ris_count % 2) == 0);
return;
}
self.pre_context_offset = Some(chunk_start);
self.state = GraphemeState::Regional;
}
#[inline]
fn handle_emoji(&mut self, chunk: &str, chunk_start: usize) {
use crate::tables::grapheme as gr;
let mut iter = chunk.chars().rev();
if let Some(ch) = iter.next() {
if self.grapheme_category(ch) != gr::GC_ZWJ {
self.decide(true);
return;
}
}
for ch in iter {
match self.grapheme_category(ch) {
gr::GC_Extend => (),
gr::GC_Extended_Pictographic => {
self.decide(false);
return;
}
_ => {
self.decide(true);
return;
}
}
}
if chunk_start == 0 {
self.decide(true);
return;
}
self.pre_context_offset = Some(chunk_start);
self.state = GraphemeState::Emoji;
}
#[inline]
/// Determine whether the current cursor location is a grapheme cluster boundary.
/// Only a part of the string need be supplied. If `chunk_start` is nonzero or
/// the length of `chunk` is not equal to `len` on creation, then this method
/// may return `GraphemeIncomplete::PreContext`. The caller should then
/// call `provide_context` with the requested chunk, then retry calling this
/// method.
///
/// For partial chunks, if the cursor is not at the beginning or end of the
/// string, the chunk should contain at least the codepoint following the cursor.
/// If the string is nonempty, the chunk must be nonempty.
///
/// All calls should have consistent chunk contents (ie, if a chunk provides
/// content for a given slice, all further chunks covering that slice must have
/// the same content for it).
///
/// ```rust
/// # use unicode_segmentation::GraphemeCursor;
/// let flags = "\u{1F1F7}\u{1F1F8}\u{1F1EE}\u{1F1F4}";
/// let mut cursor = GraphemeCursor::new(8, flags.len(), false);
/// assert_eq!(cursor.is_boundary(flags, 0), Ok(true));
/// cursor.set_cursor(12);
/// assert_eq!(cursor.is_boundary(flags, 0), Ok(false));
/// ```
pub fn is_boundary(
&mut self,
chunk: &str,
chunk_start: usize,
) -> Result<bool, GraphemeIncomplete> {
use crate::tables::grapheme as gr;
if self.state == GraphemeState::Break {
return Ok(true);
}
if self.state == GraphemeState::NotBreak {
return Ok(false);
}
if self.offset < chunk_start || self.offset >= chunk_start + chunk.len() {
if self.offset > chunk_start + chunk.len() || self.cat_after.is_none() {
return Err(GraphemeIncomplete::InvalidOffset);
}
}
if let Some(pre_context_offset) = self.pre_context_offset {
return Err(GraphemeIncomplete::PreContext(pre_context_offset));
}
let offset_in_chunk = self.offset - chunk_start;
if self.cat_after.is_none() {
let ch = chunk[offset_in_chunk..].chars().next().unwrap();
self.cat_after = Some(self.grapheme_category(ch));
}
if self.offset == chunk_start {
let mut need_pre_context = true;
match self.cat_after.unwrap() {
gr::GC_Regional_Indicator => self.state = GraphemeState::Regional,
gr::GC_Extended_Pictographic => self.state = GraphemeState::Emoji,
_ => need_pre_context = self.cat_before.is_none(),
}
if need_pre_context {
self.pre_context_offset = Some(chunk_start);
return Err(GraphemeIncomplete::PreContext(chunk_start));
}
}
if self.cat_before.is_none() {
let ch = chunk[..offset_in_chunk].chars().rev().next().unwrap();
self.cat_before = Some(self.grapheme_category(ch));
}
match check_pair(self.cat_before.unwrap(), self.cat_after.unwrap()) {
PairResult::NotBreak => return self.decision(false),
PairResult::Break => return self.decision(true),
PairResult::Extended => {
let is_extended = self.is_extended;
return self.decision(!is_extended);
}
PairResult::Regional => {
if let Some(ris_count) = self.ris_count {
return self.decision((ris_count % 2) == 0);
}
self.handle_regional(&chunk[..offset_in_chunk], chunk_start);
self.is_boundary_result()
}
PairResult::Emoji => {
self.handle_emoji(&chunk[..offset_in_chunk], chunk_start);
self.is_boundary_result()
}
}
}
#[inline]
/// Find the next boundary after the current cursor position. Only a part of
/// the string need be supplied. If the chunk is incomplete, then this
/// method might return `GraphemeIncomplete::PreContext` or
/// `GraphemeIncomplete::NextChunk`. In the former case, the caller should
/// call `provide_context` with the requested chunk, then retry. In the
/// latter case, the caller should provide the chunk following the one
/// given, then retry.
///
/// See `is_boundary` for expectations on the provided chunk.
///
/// ```rust
/// # use unicode_segmentation::GraphemeCursor;
/// let flags = "\u{1F1F7}\u{1F1F8}\u{1F1EE}\u{1F1F4}";
/// let mut cursor = GraphemeCursor::new(4, flags.len(), false);
/// assert_eq!(cursor.next_boundary(flags, 0), Ok(Some(8)));
/// assert_eq!(cursor.next_boundary(flags, 0), Ok(Some(16)));
/// assert_eq!(cursor.next_boundary(flags, 0), Ok(None));
/// ```
///
/// And an example that uses partial strings:
///
/// ```rust
/// # use unicode_segmentation::{GraphemeCursor, GraphemeIncomplete};
/// let s = "abcd";
/// let mut cursor = GraphemeCursor::new(0, s.len(), false);
/// assert_eq!(cursor.next_boundary(&s[..2], 0), Ok(Some(1)));
/// assert_eq!(cursor.next_boundary(&s[..2], 0), Err(GraphemeIncomplete::NextChunk));
/// assert_eq!(cursor.next_boundary(&s[2..4], 2), Ok(Some(2)));
/// assert_eq!(cursor.next_boundary(&s[2..4], 2), Ok(Some(3)));
/// assert_eq!(cursor.next_boundary(&s[2..4], 2), Ok(Some(4)));
/// assert_eq!(cursor.next_boundary(&s[2..4], 2), Ok(None));
/// ```
pub fn next_boundary(
&mut self,
chunk: &str,
chunk_start: usize,
) -> Result<Option<usize>, GraphemeIncomplete> {
if self.offset == self.len {
return Ok(None);
}
let mut iter = chunk[self.offset - chunk_start..].chars();
let mut ch = iter.next().unwrap();
loop {
if self.resuming {
if self.cat_after.is_none() {
self.cat_after = Some(self.grapheme_category(ch));
}
} else {
self.offset += ch.len_utf8();
self.state = GraphemeState::Unknown;
self.cat_before = self.cat_after.take();
if self.cat_before.is_none() {
self.cat_before = Some(self.grapheme_category(ch));
}
if self.cat_before.unwrap() == GraphemeCat::GC_Regional_Indicator {
self.ris_count = self.ris_count.map(|c| c + 1);
} else {
self.ris_count = Some(0);
}
if let Some(next_ch) = iter.next() {
ch = next_ch;
self.cat_after = Some(self.grapheme_category(ch));
} else if self.offset == self.len {
self.decide(true);
} else {
self.resuming = true;
return Err(GraphemeIncomplete::NextChunk);
}
}
self.resuming = true;
if self.is_boundary(chunk, chunk_start)? {
self.resuming = false;
return Ok(Some(self.offset));
}
self.resuming = false;
}
}
/// Find the previous boundary after the current cursor position. Only a part
/// of the string need be supplied. If the chunk is incomplete, then this
/// method might return `GraphemeIncomplete::PreContext` or
/// `GraphemeIncomplete::PrevChunk`. In the former case, the caller should
/// call `provide_context` with the requested chunk, then retry. In the
/// latter case, the caller should provide the chunk preceding the one
/// given, then retry.
///
/// See `is_boundary` for expectations on the provided chunk.
///
/// ```rust
/// # use unicode_segmentation::GraphemeCursor;
/// let flags = "\u{1F1F7}\u{1F1F8}\u{1F1EE}\u{1F1F4}";
/// let mut cursor = GraphemeCursor::new(12, flags.len(), false);
/// assert_eq!(cursor.prev_boundary(flags, 0), Ok(Some(8)));
/// assert_eq!(cursor.prev_boundary(flags, 0), Ok(Some(0)));
/// assert_eq!(cursor.prev_boundary(flags, 0), Ok(None));
/// ```
///
/// And an example that uses partial strings (note the exact return is not
/// guaranteed, and may be `PrevChunk` or `PreContext` arbitrarily):
///
/// ```rust
/// # use unicode_segmentation::{GraphemeCursor, GraphemeIncomplete};
/// let s = "abcd";
/// let mut cursor = GraphemeCursor::new(4, s.len(), false);
/// assert_eq!(cursor.prev_boundary(&s[2..4], 2), Ok(Some(3)));
/// assert_eq!(cursor.prev_boundary(&s[2..4], 2), Err(GraphemeIncomplete::PrevChunk));
/// assert_eq!(cursor.prev_boundary(&s[0..2], 0), Ok(Some(2)));
/// assert_eq!(cursor.prev_boundary(&s[0..2], 0), Ok(Some(1)));
/// assert_eq!(cursor.prev_boundary(&s[0..2], 0), Ok(Some(0)));
/// assert_eq!(cursor.prev_boundary(&s[0..2], 0), Ok(None));
/// ```
pub fn prev_boundary(
&mut self,
chunk: &str,
chunk_start: usize,
) -> Result<Option<usize>, GraphemeIncomplete> {
if self.offset == 0 {
return Ok(None);
}
if self.offset == chunk_start {
return Err(GraphemeIncomplete::PrevChunk);
}
let mut iter = chunk[..self.offset - chunk_start].chars().rev();
let mut ch = iter.next().unwrap();
loop {
if self.offset == chunk_start {
self.resuming = true;
return Err(GraphemeIncomplete::PrevChunk);
}
if self.resuming {
self.cat_before = Some(self.grapheme_category(ch));
} else {
self.offset -= ch.len_utf8();
self.cat_after = self.cat_before.take();
self.state = GraphemeState::Unknown;
if let Some(ris_count) = self.ris_count {
self.ris_count = if ris_count > 0 {
Some(ris_count - 1)
} else {
None
};
}
if let Some(prev_ch) = iter.next() {
ch = prev_ch;
self.cat_before = Some(self.grapheme_category(ch));
} else if self.offset == 0 {
self.decide(true);
} else {
self.resuming = true;
self.cat_after = Some(self.grapheme_category(ch));
return Err(GraphemeIncomplete::PrevChunk);
}
}
self.resuming = true;
if self.is_boundary(chunk, chunk_start)? {
self.resuming = false;
return Ok(Some(self.offset));
}
self.resuming = false;
}
}
}
#[test]
fn test_grapheme_cursor_ris_precontext() {
let s = "\u{1f1fa}\u{1f1f8}\u{1f1fa}\u{1f1f8}\u{1f1fa}\u{1f1f8}";
let mut c = GraphemeCursor::new(8, s.len(), true);
assert_eq!(
c.is_boundary(&s[4..], 4),
Err(GraphemeIncomplete::PreContext(4))
);
c.provide_context(&s[..4], 0);
assert_eq!(c.is_boundary(&s[4..], 4), Ok(true));
}
#[test]
fn test_grapheme_cursor_chunk_start_require_precontext() {
let s = "\r\n";
let mut c = GraphemeCursor::new(1, s.len(), true);
assert_eq!(
c.is_boundary(&s[1..], 1),
Err(GraphemeIncomplete::PreContext(1))
);
c.provide_context(&s[..1], 0);
assert_eq!(c.is_boundary(&s[1..], 1), Ok(false));
}
#[test]
fn test_grapheme_cursor_prev_boundary() {
let s = "abcd";
let mut c = GraphemeCursor::new(3, s.len(), true);
assert_eq!(
c.prev_boundary(&s[2..], 2),
Err(GraphemeIncomplete::PrevChunk)
);
assert_eq!(c.prev_boundary(&s[..2], 0), Ok(Some(2)));
}
#[test]
fn test_grapheme_cursor_prev_boundary_chunk_start() {
let s = "abcd";
let mut c = GraphemeCursor::new(2, s.len(), true);
assert_eq!(
c.prev_boundary(&s[2..], 2),
Err(GraphemeIncomplete::PrevChunk)
);
assert_eq!(c.prev_boundary(&s[..2], 0), Ok(Some(1)));
}
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