Add `Range` methods for various kinds of validation.

imgbot
Nathan Vegdahl 4 years ago
parent c1b0a71975
commit d07074740b

@ -123,14 +123,24 @@ pub fn next_grapheme_boundary(slice: RopeSlice, char_idx: usize) -> usize {
/// Returns the passed char index if it's already a grapheme boundary,
/// or the next grapheme boundary char index if not.
pub fn ensure_grapheme_boundary(slice: RopeSlice, char_idx: usize) -> usize {
pub fn ensure_grapheme_boundary_next(slice: RopeSlice, char_idx: usize) -> usize {
if char_idx == 0 {
0
char_idx
} else {
next_grapheme_boundary(slice, char_idx - 1)
}
}
/// Returns the passed char index if it's already a grapheme boundary,
/// or the prev grapheme boundary char index if not.
pub fn ensure_grapheme_boundary_prev(slice: RopeSlice, char_idx: usize) -> usize {
if char_idx == slice.len_chars() {
char_idx
} else {
prev_grapheme_boundary(slice, char_idx + 1)
}
}
/// Returns whether the given char position is a grapheme boundary.
pub fn is_grapheme_boundary(slice: RopeSlice, char_idx: usize) -> bool {
// Bounds check

@ -2,7 +2,12 @@
//! defined as a single empty or 1-wide selection range.
//!
//! All positioning is done via `char` offsets into the buffer.
use crate::{Assoc, ChangeSet, Rope, RopeSlice};
use crate::{
graphemes::{
ensure_grapheme_boundary_next, ensure_grapheme_boundary_prev, next_grapheme_boundary,
},
Assoc, ChangeSet, Rope, RopeSlice,
};
use smallvec::{smallvec, SmallVec};
use std::borrow::Cow;
@ -132,6 +137,61 @@ impl Range {
}
}
/// Compute the ends of the range, shifted (if needed) to align with
/// grapheme boundaries.
///
/// This should generally be used for cursor validation.
///
/// Always succeeds.
#[must_use]
pub fn aligned_range(&self, slice: RopeSlice) -> (usize, usize) {
if self.anchor == self.head {
let pos = ensure_grapheme_boundary_prev(slice, self.anchor);
(pos, pos)
} else {
(
ensure_grapheme_boundary_prev(slice, self.from()),
ensure_grapheme_boundary_next(slice, self.to()),
)
}
}
/// Same as `ensure_grapheme_validity()` + attempts to ensure a minimum
/// char width in the direction of the head.
///
/// This should generally be used as a pre-pass for operations that
/// require a minimum selection width to achieve their intended behavior.
///
/// This will fail at ensuring the minimum width only if the passed
/// `RopeSlice` is too short in the direction of the head, in which
/// case the range will fill the available length in that direction.
///
/// Ensuring grapheme-boundary alignment always succeeds.
#[must_use]
pub fn min_width_range(&self, slice: RopeSlice, min_char_width: usize) -> (usize, usize) {
if min_char_width == 0 {
return self.aligned_range(slice);
}
if self.anchor <= self.head {
let anchor = ensure_grapheme_boundary_prev(slice, self.anchor);
let head = ensure_grapheme_boundary_next(
slice,
self.head
.max(anchor + min_char_width)
.min(slice.len_chars()),
);
(anchor, head)
} else {
let anchor = ensure_grapheme_boundary_next(slice, self.anchor);
let head = ensure_grapheme_boundary_prev(
slice,
self.head.min(anchor.saturating_sub(min_char_width)),
);
(head, anchor)
}
}
// groupAt
#[inline]
@ -556,6 +616,54 @@ mod test {
assert!(Range::new(1, 1).overlaps(&Range::new(1, 1)));
}
#[test]
fn test_aligned_range() {
let r = Rope::from_str("\r\nHi\r\n");
let s = r.slice(..);
assert_eq!(Range::new(0, 0).aligned_range(s), (0, 0));
assert_eq!(Range::new(0, 1).aligned_range(s), (0, 2));
assert_eq!(Range::new(1, 1).aligned_range(s), (0, 0));
assert_eq!(Range::new(1, 2).aligned_range(s), (0, 2));
assert_eq!(Range::new(2, 2).aligned_range(s), (2, 2));
assert_eq!(Range::new(2, 3).aligned_range(s), (2, 3));
assert_eq!(Range::new(1, 3).aligned_range(s), (0, 3));
assert_eq!(Range::new(3, 5).aligned_range(s), (3, 6));
assert_eq!(Range::new(4, 5).aligned_range(s), (4, 6));
assert_eq!(Range::new(5, 5).aligned_range(s), (4, 4));
assert_eq!(Range::new(6, 6).aligned_range(s), (6, 6));
}
#[test]
fn test_min_width_range() {
let r = Rope::from_str("\r\nHi\r\n");
let s = r.slice(..);
assert_eq!(Range::new(0, 0).min_width_range(s, 1), (0, 2));
assert_eq!(Range::new(0, 1).min_width_range(s, 1), (0, 2));
assert_eq!(Range::new(1, 1).min_width_range(s, 1), (0, 2));
assert_eq!(Range::new(1, 2).min_width_range(s, 1), (0, 2));
assert_eq!(Range::new(2, 2).min_width_range(s, 1), (2, 3));
assert_eq!(Range::new(2, 3).min_width_range(s, 1), (2, 3));
assert_eq!(Range::new(1, 3).min_width_range(s, 1), (0, 3));
assert_eq!(Range::new(3, 5).min_width_range(s, 1), (3, 6));
assert_eq!(Range::new(4, 5).min_width_range(s, 1), (4, 6));
assert_eq!(Range::new(5, 5).min_width_range(s, 1), (4, 6));
assert_eq!(Range::new(6, 6).min_width_range(s, 1), (6, 6));
assert_eq!(Range::new(1, 0).min_width_range(s, 1), (0, 2));
assert_eq!(Range::new(2, 1).min_width_range(s, 1), (0, 2));
assert_eq!(Range::new(3, 2).min_width_range(s, 1), (2, 3));
assert_eq!(Range::new(3, 1).min_width_range(s, 1), (0, 3));
assert_eq!(Range::new(5, 3).min_width_range(s, 1), (3, 6));
assert_eq!(Range::new(5, 4).min_width_range(s, 1), (4, 6));
assert_eq!(Range::new(3, 4).min_width_range(s, 3), (3, 6));
assert_eq!(Range::new(4, 3).min_width_range(s, 3), (0, 4));
assert_eq!(Range::new(3, 4).min_width_range(s, 20), (3, 6));
assert_eq!(Range::new(4, 3).min_width_range(s, 20), (0, 4));
}
#[test]
fn test_split_on_matches() {
use crate::regex::Regex;
@ -569,6 +677,9 @@ mod test {
assert_eq!(
result.ranges(),
&[
// TODO: rather than this behavior, maybe we want it
// to be based on which side is the anchor?
//
// We get a leading zero-width range when there's
// a leading match because ranges are inclusive on
// the left. Imagine, for example, if the entire

@ -8,7 +8,7 @@ use crate::{
use helix_core::{
coords_at_pos,
graphemes::ensure_grapheme_boundary,
graphemes::ensure_grapheme_boundary_next,
syntax::{self, Highlight, HighlightEvent},
LineEnding, Position, Range,
};
@ -144,8 +144,8 @@ impl EditorView {
let highlights = highlights.into_iter().map(|event| match event.unwrap() {
// convert byte offsets to char offset
HighlightEvent::Source { start, end } => {
let start = ensure_grapheme_boundary(text, text.byte_to_char(start));
let end = ensure_grapheme_boundary(text, text.byte_to_char(end));
let start = ensure_grapheme_boundary_next(text, text.byte_to_char(start));
let end = ensure_grapheme_boundary_next(text, text.byte_to_char(end));
HighlightEvent::Source { start, end }
}
event => event,

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