Smarter TextArea row computation

Only re-compute damaged areas.
This commit is contained in:
Alexandre Bury 2016-08-02 21:09:01 -07:00
parent bd78418083
commit e4bc129f4b
2 changed files with 128 additions and 31 deletions

View File

@ -1,6 +1,7 @@
use unicode_width::UnicodeWidthStr; use unicode_width::UnicodeWidthStr;
use unicode_segmentation::UnicodeSegmentation; use unicode_segmentation::UnicodeSegmentation;
use With;
use utils::prefix_length; use utils::prefix_length;
/// Generates rows of text in constrained width. /// Generates rows of text in constrained width.
@ -59,10 +60,22 @@ pub struct Row {
impl Row { impl Row {
/// Shift a row start and end by `offset`. /// Shift a row start and end by `offset`.
pub fn shift(mut self, offset: usize) -> Self { pub fn shift(&mut self, offset: usize) {
self.start += offset; self.start += offset;
self.end += offset; self.end += offset;
self }
/// Shift a row start and end by `offset`.
///
/// Chainable variant;
pub fn shifted(self, offset: usize) -> Self {
self.with(|s| s.shift(offset))
}
/// Shift back a row start and end by `offset`.
pub fn rev_shift(&mut self, offset: usize) {
self.start -= offset;
self.end -= offset;
} }
} }

View File

@ -65,6 +65,7 @@ impl TextArea {
/// Finds the row containing the grapheme at the given offset /// Finds the row containing the grapheme at the given offset
fn row_at(&self, offset: usize) -> usize { fn row_at(&self, offset: usize) -> usize {
// println_stderr!("Offset: {}", offset);
self.rows self.rows
.iter() .iter()
.enumerate() .enumerate()
@ -74,6 +75,13 @@ impl TextArea {
.unwrap() .unwrap()
} }
fn col_at(&self, offset: usize) -> usize {
let row_id = self.row_at(offset);
let row = self.rows[row_id];
// Number of cells to the left of the cursor
self.content[row.start..offset].width()
}
/// Finds the row containing the cursor /// Finds the row containing the cursor
fn selected_row(&self) -> usize { fn selected_row(&self) -> usize {
self.row_at(self.cursor) self.row_at(self.cursor)
@ -97,9 +105,8 @@ impl TextArea {
return; return;
} }
let row = self.rows[row_id];
// Number of cells to the left of the cursor // Number of cells to the left of the cursor
let x = self.content[row.start..self.cursor].width(); let x = self.col_at(self.cursor);
let prev_row = self.rows[row_id - 1]; let prev_row = self.rows[row_id - 1];
let prev_text = &self.content[prev_row.start..prev_row.end]; let prev_text = &self.content[prev_row.start..prev_row.end];
@ -112,9 +119,7 @@ impl TextArea {
if row_id + 1 == self.rows.len() { if row_id + 1 == self.rows.len() {
return; return;
} }
let row = self.rows[row_id]; let x = self.col_at(self.cursor);
// Number of cells to the left of the cursor
let x = self.content[row.start..self.cursor].width();
let next_row = self.rows[row_id + 1]; let next_row = self.rows[row_id + 1];
let next_text = &self.content[next_row.start..next_row.end]; let next_text = &self.content[next_row.start..next_row.end];
@ -159,26 +164,30 @@ impl TextArea {
false false
} }
fn fix_ghost_row(&mut self) {
if self.rows.is_empty() ||
self.rows.last().unwrap().end != self.content.len() {
// Add a fake, empty row at the end.
self.rows.push(Row {
start: self.content.len(),
end: self.content.len(),
width: 0,
});
}
}
fn compute_rows(&mut self, size: Vec2) { fn compute_rows(&mut self, size: Vec2) {
let mut available = size.x; let mut available = size.x;
let content = format!("{} ", self.content); self.rows = make_rows(&self.content, available);
self.rows = make_rows(&content, available); self.fix_ghost_row();
if self.rows.len() > size.y { if self.rows.len() > size.y {
available -= 1; available -= 1;
// Doh :( // Doh :(
self.rows = make_rows(&content, available); self.rows = make_rows(&self.content, available);
self.fix_ghost_row();
} }
if !self.rows.is_empty() { if !self.rows.is_empty() {
// The last row probably contains a fake whitespace.
// Unless... the whitespace was used as an implicit newline.
// This means the last row ends in a newline-d whitespace.
// How do we detect that?
// By checking if the last row takes all the available width.
if self.rows.last().unwrap().width != available {
self.rows.last_mut().unwrap().end -= 1;
}
self.last_size = Some(SizeCache::build(size, size)); self.last_size = Some(SizeCache::build(size, size));
} }
} }
@ -200,28 +209,102 @@ impl TextArea {
let end = self.cursor + len; let end = self.cursor + len;
for _ in self.content.drain(start..end) {} for _ in self.content.drain(start..end) {}
let size = self.last_size.unwrap().map(|s| s.value); let selected_row = self.selected_row();
self.compute_rows(size); if self.cursor == self.rows[selected_row].end {
// We're removing an (implicit) newline.
// This means merging two rows.
} else {
self.rows[selected_row].end -= len;
}
// update all the rows downstream
for row in &mut self.rows.iter_mut().skip(1 + selected_row) {
row.rev_shift(len);
}
self.fix_damages(true);
} }
fn insert(&mut self, ch: char) { fn insert(&mut self, ch: char) {
let cursor = self.cursor;
self.content.insert(cursor, ch);
// First, we inject the data, but keep the cursor unmoved
// (So the cursor is to the left of the injected char)
self.content.insert(self.cursor, ch);
// Then, we shift the indexes of every row after this one.
let shift = ch.len_utf8(); let shift = ch.len_utf8();
// The current row grows, every other is just shifted.
let selected_row = self.selected_row(); let selected_row = self.selected_row();
self.rows[selected_row].end += shift; self.rows[selected_row].end += shift;
if selected_row < self.rows.len() { for row in &mut self.rows.iter_mut().skip(1 + selected_row) {
for row in &mut self.rows[1 + selected_row..] { row.shift(shift);
row.start += shift;
row.end += shift;
} }
self.cursor += shift;
// Finally, rows may not have the correct width anymore, so fix them.
self.fix_damages(false);
} }
/// Fix a damage located at the cursor.
///
/// The only damages are assumed to have occured around the cursor.
fn fix_damages(&mut self, delete: bool) {
let size = self.last_size.unwrap().map(|s| s.value); let size = self.last_size.unwrap().map(|s| s.value);
// Find affected text.
let first_row = self.selected_row();
let start = self.rows[first_row].start;
// We don't need to go beyond a newline.
// If we don't find one, end of the text it is.
// println_stderr!("Cursor: {}", self.cursor);
let end = self.content[self.cursor..]
.find('\n')
.map(|i| i + self.cursor)
.unwrap_or(self.content.len());
// println_stderr!("Content: `{}` (len={})", self.content, self.content.len());
// println_stderr!("start/end: {}/{}", start, end);
let last_row = self.row_at(end);
// Do we have access to the entire width?...
let mut available = size.x;
let scrollable = self.rows.len() > size.y;
if scrollable {
// ... not if a scrollbar is there
available -= 1;
}
// First attempt, if scrollbase status didn't change.
// println_stderr!("Rows: {:?}", self.rows);
let mut new_rows = make_rows(&self.content[start..end], available);
// How much did this add?
let new_row_count = if delete {
let delta = (1 + last_row - first_row) - new_rows.len();
self.rows.len() - delta
} else {
let delta = new_rows.len() - (1 + last_row - first_row);
self.rows.len() + delta
};
if !scrollable && new_row_count > size.y {
// We just changed scrollable status.
// This changes everything.
// TODO: compute_rows() currently makes a scroll-less attempt.
// Here, we know it's just no gonna happen.
self.compute_rows(size); self.compute_rows(size);
self.cursor += shift; return;
}
// Otherwise, replace stuff.
let affected_rows = first_row..(1 + last_row);
let replacement_rows = new_rows.into_iter()
.map(|row| row.shifted(start));
self.rows.splice(affected_rows, replacement_rows);
self.fix_ghost_row();
} }
} }
@ -304,6 +387,7 @@ impl View for TextArea {
_ => return EventResult::Ignored, _ => return EventResult::Ignored,
} }
// println_stderr!("Rows: {:?}", self.rows);
let focus = self.selected_row(); let focus = self.selected_row();
self.scrollbase.scroll_to(focus); self.scrollbase.scroll_to(focus);