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//! Lines type for collections of Text lines.
use std::ops::{Index, IndexMut};
use crate::console::Console;
use super::{JustifyMethod, OverflowMethod, Span, Text};
/// A collection of [`Text`] lines, typically produced by wrapping or splitting.
#[derive(Clone, Debug, Default)]
pub struct Lines {
/// The individual text lines.
pub lines: Vec<Text>,
}
impl Lines {
/// Create a new `Lines` collection from a vector of [`Text`] objects.
pub fn new(lines: Vec<Text>) -> Self {
Lines { lines }
}
/// Return the number of lines.
pub fn len(&self) -> usize {
self.lines.len()
}
/// Return `true` if there are no lines.
pub fn is_empty(&self) -> bool {
self.lines.is_empty()
}
/// Append a [`Text`] line to the end.
pub fn push(&mut self, text: Text) {
self.lines.push(text);
}
/// Extend the collection with lines from an iterator.
pub fn extend(&mut self, other: impl IntoIterator<Item = Text>) {
self.lines.extend(other);
}
/// Remove and return the last line, or `None` if empty.
pub fn pop(&mut self) -> Option<Text> {
self.lines.pop()
}
/// Return an iterator over the lines.
pub fn iter(&self) -> impl Iterator<Item = &Text> {
self.lines.iter()
}
/// Return a mutable iterator over the lines.
pub fn iter_mut(&mut self) -> impl Iterator<Item = &mut Text> {
self.lines.iter_mut()
}
/// Justify every line according to the given method, truncating or padding to `width`.
///
/// `Full` justification distributes extra space between words on all lines
/// except the last, which is left-justified. The `console` parameter is
/// used to resolve the inter-word space style from the adjacent word's
/// style (matching rich's `Lines.justify`).
pub fn justify(
&mut self,
console: &Console,
width: usize,
justify: JustifyMethod,
overflow: OverflowMethod,
) {
match justify {
JustifyMethod::Default | JustifyMethod::Left => {
for line in &mut self.lines {
line.truncate(width, Some(overflow), true);
}
}
JustifyMethod::Center => {
for line in &mut self.lines {
line.rstrip();
line.truncate(width, Some(overflow), false);
let line_width = line.cell_len();
if line_width < width {
let left_pad = (width - line_width) / 2;
let right_pad = width - line_width - left_pad;
line.pad_left(left_pad, ' ');
line.pad_right(right_pad, ' ');
}
}
}
JustifyMethod::Right => {
for line in &mut self.lines {
line.rstrip();
line.truncate(width, Some(overflow), false);
let line_width = line.cell_len();
if line_width < width {
line.pad_left(width - line_width, ' ');
}
}
}
JustifyMethod::Full => {
let line_count = self.lines.len();
for (i, line) in self.lines.iter_mut().enumerate() {
if i == line_count - 1 {
// Last line: left justify
line.truncate(width, Some(overflow), true);
continue;
}
let plain = line.plain().to_string();
let words: Vec<&str> = plain.split(' ').collect();
if words.len() <= 1 {
line.truncate(width, Some(overflow), true);
continue;
}
let text_width = line.cell_len();
if text_width >= width {
line.truncate(width, Some(overflow), false);
continue;
}
let extra_spaces = width - text_width;
let gaps = words.len() - 1;
let per_gap = extra_spaces / gaps;
let mut remainder = extra_spaces % gaps;
// Build new text with distributed spaces
let plain_chars: Vec<char> = plain.chars().collect();
let mut new_text = String::new();
let mut space_adjustments: Vec<(usize, usize)> = Vec::new(); // (char_pos, extra_spaces)
// Find space positions and compute extra spaces for each
let mut space_positions = Vec::new();
for (ci, ch) in plain_chars.iter().enumerate() {
if *ch == ' ' {
space_positions.push(ci);
}
}
// Distribute right-to-left
let mut extras_per_space = vec![per_gap; space_positions.len()];
for j in (0..space_positions.len()).rev() {
if remainder == 0 {
break;
}
extras_per_space[j] += 1;
remainder -= 1;
}
// Build new string and track shift amounts
let mut space_idx = 0;
for (ci, ch) in plain_chars.iter().enumerate() {
new_text.push(*ch);
if *ch == ' ' && space_idx < extras_per_space.len() {
let extra = extras_per_space[space_idx];
for _ in 0..extra {
new_text.push(' ');
}
space_adjustments.push((ci, extra));
space_idx += 1;
}
}
// Adjust existing spans for the new offsets.
let mut new_spans = Vec::with_capacity(line.spans().len() + gaps);
for span in line.spans() {
let mut new_start = span.start;
let mut new_end = span.end;
let mut shift_start = 0usize;
let mut shift_end = 0usize;
for (sp_pos, extra) in &space_adjustments {
// For start: shift by cumulative extras of spaces before start
if *sp_pos < span.start {
shift_start += extra;
}
// For end: shift by cumulative extras of spaces before end
if *sp_pos < span.end {
shift_end += extra;
}
}
new_start += shift_start;
new_end += shift_end;
// Preserve `style_name` and `meta` from the source span
// — `Span::new(..)` would reset both to `None`,
// silently dropping deferred theme tokens (e.g.
// `[repr.number]`) and meta spans (e.g. `[@click]`).
new_spans.push(Span {
start: new_start,
end: new_end,
style: span.style.clone(),
meta: span.meta.clone(),
style_name: span.style_name.clone(),
});
}
// Insert gap spans (rich's `Lines.justify(Full)` resolves the
// inter-word space style from the adjacent word's style via
// `console`; if the two sides differ, fall back to the line's
// root style).
let line_style = line.style().clone();
let mut running_shift: usize = 0;
for (sp_pos, extra) in &space_adjustments {
let prev_offset = sp_pos.saturating_sub(1);
let next_offset = sp_pos + 1;
let prev_style = line.get_style_at_offset_themed(console, prev_offset);
let next_style = line.get_style_at_offset_themed(console, next_offset);
let gap_style = if prev_style == next_style {
prev_style
} else {
line_style.clone()
};
let gap_len = 1 + extra;
let gap_start = sp_pos + running_shift;
let gap_end = gap_start + gap_len;
new_spans.push(Span::new(gap_start, gap_end, gap_style));
running_shift += extra;
}
line.set_plain(&new_text);
*line.spans_mut() = new_spans;
}
}
}
}
}
impl Index<usize> for Lines {
type Output = Text;
fn index(&self, index: usize) -> &Self::Output {
&self.lines[index]
}
}
impl IndexMut<usize> for Lines {
fn index_mut(&mut self, index: usize) -> &mut Self::Output {
&mut self.lines[index]
}
}