cursive/src/view/text_view.rs

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8.6 KiB
Rust
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use XY;
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use With;
use direction::Direction;
use vec::Vec2;
use view::View;
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use view::SizeCache;
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use Printer;
use align::*;
use event::*;
use super::scroll::ScrollBase;
use utils::head_bytes;
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use unicode_width::UnicodeWidthStr;
use unicode_segmentation::UnicodeSegmentation;
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/// A simple view showing a fixed text
pub struct TextView {
content: String,
rows: Vec<Row>,
align: Align,
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// If `false`, disable scrolling.
scrollable: bool,
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// ScrollBase make many scrolling-related things easier
scrollbase: ScrollBase,
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last_size: Option<XY<SizeCache>>,
width: Option<usize>,
}
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// Subset of the main content representing a row on the display.
struct Row {
start: usize,
end: usize,
width: usize,
}
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// If the last character is a newline, strip it.
fn strip_last_newline(content: &str) -> &str {
if !content.is_empty() && content.chars().last().unwrap() == '\n' {
&content[..content.len() - 1]
} else {
content
}
}
impl TextView {
/// Creates a new TextView with the given content.
pub fn new(content: &str) -> Self {
let content = strip_last_newline(content);
TextView {
content: content.to_string(),
rows: Vec::new(),
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scrollable: true,
scrollbase: ScrollBase::new(),
align: Align::top_left(),
last_size: None,
width: None,
}
}
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/// Enable or disable the view's scrolling capabilities.
///
/// When disabled, the view will never attempt to scroll
/// (and will always ask for the full height).
pub fn set_scrollable(&mut self, scrollable: bool) {
self.scrollable = scrollable;
}
/// Enable or disable the view's scrolling capabilities.
///
/// When disabled, the view will never attempt to scroll
/// (and will always ask for the full height).
///
/// Chainable variant.
pub fn scrollable(self, scrollable: bool) -> Self {
self.with(|s| s.set_scrollable(scrollable))
}
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/// Sets the horizontal alignment for this view.
pub fn h_align(mut self, h: HAlign) -> Self {
self.align.h = h;
self
}
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/// Sets the vertical alignment for this view.
pub fn v_align(mut self, v: VAlign) -> Self {
self.align.v = v;
self
}
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/// Sets the alignment for this view.
pub fn align(mut self, a: Align) -> Self {
self.align = a;
self
}
/// Center the text horizontally and vertically inside the view.
pub fn center(mut self) -> Self {
self.align = Align::center();
self
}
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/// Replace the text in this view.
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pub fn set_content(&mut self, content: &str) {
let content = strip_last_newline(content);
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self.content = content.to_string();
self.invalidate();
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}
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/// Returns the current text in this view.
pub fn get_content(&self) -> &str {
&self.content
}
fn is_cache_valid(&self, size: Vec2) -> bool {
match self.last_size {
None => false,
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Some(ref last) => last.x.accept(size.x) && last.y.accept(size.y),
}
}
fn compute_rows(&mut self, size: Vec2) {
if !self.is_cache_valid(size) {
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self.last_size = None;
// Recompute
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if size.x == 0 {
// Nothing we can do at this poing.
return;
}
self.rows = LinesIterator::new(&self.content, size.x).collect();
let mut scrollbar = 0;
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if self.scrollable && self.rows.len() > size.y {
scrollbar = 2;
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if size.x < scrollbar {
// Again, this is a lost cause.
return;
}
// If we're too high, include a scrollbar
self.rows = LinesIterator::new(&self.content,
size.x - scrollbar)
.collect();
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if self.rows.is_empty() && !self.content.is_empty() {
return;
}
}
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// Desired width, including the scrollbar.
self.width = self.rows
.iter()
.map(|row| row.width)
.max()
.map(|w| w + scrollbar);
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// Our resulting size.
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// We can't go lower, width-wise.
let mut my_size = Vec2::new(self.width.unwrap_or(0),
self.rows.len());
if self.scrollable && my_size.y > size.y {
my_size.y = size.y;
}
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// println_stderr!("my: {:?} | si: {:?}", my_size, size);
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self.last_size = Some(SizeCache::build(my_size, size));
}
}
// Invalidates the cache, so next call will recompute everything.
fn invalidate(&mut self) {
self.last_size = None;
}
}
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// Given a multiline string, and a given maximum width,
// iterates on the computed rows.
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struct LinesIterator<'a> {
content: &'a str,
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start: usize,
width: usize,
}
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impl<'a> LinesIterator<'a> {
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// Start an iterator on the given content.
fn new(content: &'a str, width: usize) -> Self {
LinesIterator {
content: content,
width: width,
start: 0,
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}
}
}
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impl<'a> Iterator for LinesIterator<'a> {
type Item = Row;
fn next(&mut self) -> Option<Row> {
if self.start >= self.content.len() {
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// This is the end.
return None;
}
let start = self.start;
let content = &self.content[self.start..];
let next = content.find('\n').unwrap_or(content.len());
let content = &content[..next];
let line_width = content.width();
if line_width <= self.width {
// We found a newline before the allowed limit.
// Break early.
self.start += next + 1;
return Some(Row {
start: start,
end: next + start,
width: line_width,
});
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}
// Keep adding indivisible tokens
let head_bytes =
match head_bytes(content.split(' '), self.width, " ") {
0 => head_bytes(content.graphemes(true), self.width, ""),
other => {
self.start += 1;
other
}
};
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if head_bytes == 0 {
// This mean we can't even get a single char?
// Sucks. Let's bail.
return None;
}
self.start += head_bytes;
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Some(Row {
start: start,
end: start + head_bytes,
width: self.width,
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})
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}
}
impl View for TextView {
fn draw(&self, printer: &Printer) {
let h = self.rows.len();
let offset = self.align.v.get_offset(h, printer.size.y);
let printer =
&printer.sub_printer(Vec2::new(0, offset), printer.size, true);
self.scrollbase.draw(printer, |printer, i| {
let row = &self.rows[i];
let text = &self.content[row.start..row.end];
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let l = text.width();
let x = self.align.h.get_offset(l, printer.size.x);
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printer.print((x, 0), text);
});
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}
fn on_event(&mut self, event: Event) -> EventResult {
if !self.scrollbase.scrollable() {
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return EventResult::Ignored;
}
match event {
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Event::Key(Key::Home) => self.scrollbase.scroll_top(),
Event::Key(Key::End) => self.scrollbase.scroll_bottom(),
Event::Key(Key::Up) if self.scrollbase.can_scroll_up() => {
self.scrollbase.scroll_up(1)
}
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Event::Key(Key::Down) if self.scrollbase
.can_scroll_down() => self.scrollbase.scroll_down(1),
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Event::Key(Key::PageDown) => self.scrollbase.scroll_down(10),
Event::Key(Key::PageUp) => self.scrollbase.scroll_up(10),
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_ => return EventResult::Ignored,
}
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EventResult::Consumed(None)
}
fn needs_relayout(&self) -> bool {
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self.last_size.is_none()
}
fn get_min_size(&mut self, size: Vec2) -> Vec2 {
self.compute_rows(size);
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// This is what we'd like
let mut ideal = Vec2::new(self.width.unwrap_or(0), self.rows.len());
if self.scrollable && ideal.y > size.y {
ideal.y = size.y;
}
ideal
}
fn take_focus(&mut self, _: Direction) -> bool {
self.scrollbase.scrollable()
}
fn layout(&mut self, size: Vec2) {
// Compute the text rows.
self.compute_rows(size);
self.scrollbase.set_heights(size.y, self.rows.len());
}
}