cursive/src/views/text_view.rs

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Rust
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use Printer;
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use With;
use XY;
use align::*;
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use direction::Direction;
use event::*;
use owning_ref::{ArcRef, OwningHandle};
use std::ops::Deref;
use std::sync::{Mutex, MutexGuard};
use std::sync::Arc;
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use theme::Effect;
use unicode_width::UnicodeWidthStr;
use utils::lines::spans::{LinesIterator, Row};
use utils::markup::StyledString;
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use vec::Vec2;
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use view::{ScrollBase, ScrollStrategy, SizeCache, View};
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/// Provides access to the content of a [`TextView`].
///
/// Cloning this object will still point to the same content.
///
/// [`TextView`]: struct.TextView.html
///
/// # Examples
///
/// ```rust
/// # use cursive::views::{TextView, TextContent};
/// let mut content = TextContent::new("content");
/// let view = TextView::new_with_content(content.clone());
///
/// // Later, possibly in a different thread
/// content.set_content("new content");
/// assert!(content.get_content().source().contains("new"));
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/// ```
#[derive(Clone)]
pub struct TextContent {
content: Arc<Mutex<TextContentInner>>,
}
impl TextContent {
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/// Creates a new text content around the given value.
///
/// Parses the given value.
pub fn new<S>(content: S) -> Self
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where
S: Into<StyledString>,
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{
let content = content.into();
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TextContent {
content: Arc::new(Mutex::new(TextContentInner {
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content,
size_cache: None,
})),
}
}
}
/// A reference to the text content.
///
/// This can be deref'ed into a [`StyledString`].
///
/// [`StyledString`]: ../utils/markup/type.StyledString.html
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///
/// This keeps the content locked. Do not store this!
pub struct TextContentRef {
handle: OwningHandle<
ArcRef<Mutex<TextContentInner>>,
MutexGuard<'static, TextContentInner>,
>,
}
impl Deref for TextContentRef {
type Target = StyledString;
fn deref(&self) -> &StyledString {
&self.handle.content
}
}
impl TextContent {
/// Replaces the content with the given value.
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pub fn set_content<S>(&mut self, content: S)
where
S: Into<StyledString>,
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{
self.with_content(|c| *c = content.into());
}
/// Append `content` to the end of a `TextView`.
pub fn append<S>(&mut self, content: S)
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where
S: Into<StyledString>,
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{
self.with_content(|c| c.append(content))
}
/// Returns a reference to the content.
///
/// This locks the data while the returned value is alive,
/// so don't keep it too long.
pub fn get_content(&self) -> TextContentRef {
TextContentInner::get_content(&self.content)
}
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fn with_content<F, O>(&mut self, f: F) -> O
where
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F: FnOnce(&mut StyledString) -> O,
{
let mut lock = self.content.lock().unwrap();
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let out = f(&mut lock.content);
lock.size_cache = None;
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out
}
}
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/// Internel representation of the content for a `TextView`.
///
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/// This is mostly just a `StyledString`.
///
/// Can be shared (through a `Arc<Mutex>`).
struct TextContentInner {
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// content: String,
content: StyledString,
// We keep the cache here so it can be busted when we change the content.
size_cache: Option<XY<SizeCache>>,
}
impl TextContentInner {
/// From a shareable content (Arc + Mutex), return a
fn get_content(content: &Arc<Mutex<TextContentInner>>) -> TextContentRef {
let arc_ref: ArcRef<Mutex<TextContentInner>> =
ArcRef::new(Arc::clone(content));
TextContentRef {
handle: OwningHandle::new_with_fn(arc_ref, |mutex| unsafe {
(*mutex).lock().unwrap()
}),
}
}
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fn is_cache_valid(&self, size: Vec2) -> bool {
match self.size_cache {
None => false,
Some(ref last) => last.x.accept(size.x) && last.y.accept(size.y),
}
}
}
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/// A simple view showing a fixed text.
///
/// # Examples
///
/// ```rust,no_run
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/// # use cursive::Cursive;
/// # use cursive::views::TextView;
/// let mut siv = Cursive::new();
///
/// siv.add_layer(TextView::new("Hello world!"));
/// ```
pub struct TextView {
// content: String,
content: Arc<Mutex<TextContentInner>>,
rows: Vec<Row>,
align: Align,
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effect: Effect,
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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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scroll_strategy: ScrollStrategy,
last_size: Vec2,
width: Option<usize>,
}
impl TextView {
/// Creates a new TextView with the given content.
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pub fn new<S>(content: S) -> Self
where
S: Into<StyledString>,
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{
Self::new_with_content(TextContent::new(content))
}
/// Creates a new TextView using the given `Arc<Mutex<String>>`.
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///
/// If you kept a clone of the given content, you'll be able to update it
/// remotely.
///
/// # Examples
///
/// ```rust
/// # use cursive::views::{TextView, TextContent};
/// let mut content = TextContent::new("content");
/// let view = TextView::new_with_content(content.clone());
///
/// // Later, possibly in a different thread
/// content.set_content("new content");
/// assert!(content.get_content().source().contains("new"));
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/// ```
pub fn new_with_content(content: TextContent) -> Self {
TextView {
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content: content.content,
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effect: Effect::Simple,
rows: Vec::new(),
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scrollable: true,
scrollbase: ScrollBase::new(),
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scroll_strategy: ScrollStrategy::KeepRow,
align: Align::top_left(),
last_size: Vec2::zero(),
width: None,
}
}
/// Creates a new empty `TextView`.
pub fn empty() -> Self {
TextView::new("")
}
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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 effect for the entire content.
pub fn set_effect(&mut self, effect: Effect) {
self.effect = effect;
}
/// Sets the effect for the entire content.
///
/// Chainable variant.
pub fn effect(self, effect: Effect) -> Self {
self.with(|s| s.set_effect(effect))
}
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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
}
/// Replace the text in this view.
///
/// Chainable variant.
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pub fn content<S>(self, content: S) -> Self
where
S: Into<StyledString>,
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{
self.with(|s| s.set_content(content))
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}
/// Replace the text in this view.
pub fn set_content<S>(&mut self, content: S)
where
S: Into<StyledString>,
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{
self.content.lock().unwrap().content = content.into();
self.invalidate();
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}
/// Append `content` to the end of a `TextView`.
pub fn append<S>(&mut self, content: S)
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where
S: Into<StyledString>,
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{
self.content.lock().unwrap().content.append(content.into());
self.invalidate();
}
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/// Returns the current text in this view.
pub fn get_content(&self) -> TextContentRef {
TextContentInner::get_content(&self.content)
}
/// Returns a shared reference to the content, allowing content mutation.
pub fn get_shared_content(&mut self) -> TextContent {
// We take &mut here without really needing it,
// because it sort of "makes sense".
TextContent {
content: Arc::clone(&self.content),
}
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}
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/// Defines the way scrolling is adjusted on content or size change.
///
/// The scroll strategy defines how the scrolling position is adjusted
/// when the size of the view or the content change.
///
/// It is reset to `ScrollStrategy::KeepRow` whenever the user scrolls
/// manually.
pub fn set_scroll_strategy(&mut self, strategy: ScrollStrategy) {
self.scroll_strategy = strategy;
self.adjust_scroll();
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}
/// Defines the way scrolling is adjusted on content or size change.
///
/// Chainable variant.
pub fn scroll_strategy(self, strategy: ScrollStrategy) -> Self {
self.with(|s| s.set_scroll_strategy(strategy))
}
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/// Scroll up by `n` lines.
pub fn scroll_up(&mut self, n: usize) {
self.scrollbase.scroll_up(n);
}
/// Scroll down by `n` lines.
pub fn scroll_down(&mut self, n: usize) {
self.scrollbase.scroll_down(n);
}
/// Scroll to the bottom of the content.
pub fn scroll_bottom(&mut self) {
self.scrollbase.scroll_bottom();
}
/// Scroll to the top of the view.
pub fn scroll_top(&mut self) {
self.scrollbase.scroll_top();
}
/// Apply the scrolling strategy to the current scroll position.
///
/// Called when computing rows and when applying a new strategy.
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fn adjust_scroll(&mut self) {
match self.scroll_strategy {
ScrollStrategy::StickToTop => self.scrollbase.scroll_top(),
ScrollStrategy::StickToBottom => self.scrollbase.scroll_bottom(),
ScrollStrategy::KeepRow => (),
};
}
// This must be non-destructive, as it may be called
// multiple times during layout.
fn compute_rows(&mut self, size: Vec2) {
let mut content = self.content.lock().unwrap();
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if content.is_cache_valid(size) {
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return;
}
// Completely bust the cache
// Just in case we fail, we don't want to leave a bad cache.
content.size_cache = None;
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if size.x == 0 {
// Nothing we can do at this point.
return;
}
// First attempt: naively hope that we won't need a scrollbar_width
// (This means we try to use the entire available width for text).
self.rows = LinesIterator::new(&content.content, size.x).collect();
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// Width taken by the scrollbar. Without a scrollbar, it's 0.
let mut scrollbar_width = 0;
if self.scrollable && self.rows.len() > size.y {
// We take 1 column for the bar itself + 1 spacing column
scrollbar_width = 2;
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// If we're too high, include a scrollbar_width
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let available = match size.x.checked_sub(scrollbar_width) {
Some(s) => s,
None => return,
};
self.rows =
LinesIterator::new(&content.content, available).collect();
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if self.rows.is_empty() && !content.content.is_empty() {
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// We have some content, we we didn't find any row for it?
// This probably means we couldn't even make a single row
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// (for instance we only have 1 column and we have a wide
// character).
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return;
}
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}
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// Desired width, including the scrollbar_width.
self.width = self.rows
.iter()
.map(|row| row.width)
.max()
.map(|w| w + scrollbar_width);
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// The entire "virtual" size (includes all rows)
let mut my_size = Vec2::new(self.width.unwrap_or(0), self.rows.len());
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// If we're scrolling, cap the the available size.
if self.scrollable && my_size.y > size.y {
my_size.y = size.y;
}
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// Build a fresh cache.
content.size_cache = Some(SizeCache::build(my_size, size));
}
// Invalidates the cache, so next call will recompute everything.
fn invalidate(&mut self) {
let mut content = self.content.lock().unwrap();
content.size_cache = None;
}
}
impl View for TextView {
fn draw(&self, printer: &Printer) {
let h = self.rows.len();
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// If the content is smaller than the view, align it somewhere.
let offset = self.align.v.get_offset(h, printer.size.y);
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let printer = &printer.offset((0, offset), true);
let content = self.content.lock().unwrap();
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printer.with_effect(self.effect, |printer| {
self.scrollbase.draw(printer, |printer, i| {
let row = &self.rows[i];
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let l = row.width;
let mut x = self.align.h.get_offset(l, printer.size.x);
for span in row.resolve(content.content.as_spanned_str()) {
printer.with_style(*span.attr, |printer| {
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printer.print((x, 0), span.content);
x += span.content.width();
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});
}
// let text = &content.content[row.start..row.end];
// printer.print((x, 0), text);
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});
});
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}
fn on_event(&mut self, event: Event) -> EventResult {
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if !self.scrollable || !self.scrollbase.scrollable() {
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return EventResult::Ignored;
}
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// We have a scrollbar, otherwise the event would just be 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)
}
Event::Mouse {
event: MouseEvent::WheelDown,
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..
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} if self.scrollbase.can_scroll_down() =>
{
self.scrollbase.scroll_down(5);
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}
Event::Mouse {
event: MouseEvent::WheelUp,
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..
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} if self.scrollbase.can_scroll_up() =>
{
self.scrollbase.scroll_up(5);
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}
Event::Mouse {
event: MouseEvent::Press(MouseButton::Left),
position,
offset,
} if position
.checked_sub(offset)
.map(|position| {
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self.scrollbase.start_drag(position, self.last_size.x)
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})
.unwrap_or(false) =>
{
// Only consume the event if the mouse hits the scrollbar.
// Start scroll drag at the given position.
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}
Event::Mouse {
event: MouseEvent::Hold(MouseButton::Left),
position,
offset,
} => {
// If the mouse is dragged, we always consume the event.
let position = position.saturating_sub(offset);
self.scrollbase.drag(position);
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}
Event::Mouse {
event: MouseEvent::Release(MouseButton::Left),
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..
} => {
self.scrollbase.release_grab();
}
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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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// We just scrolled manually, so reset the scroll strategy.
self.scroll_strategy = ScrollStrategy::KeepRow;
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EventResult::Consumed(None)
}
fn needs_relayout(&self) -> bool {
let content = self.content.lock().unwrap();
content.size_cache.is_none()
}
fn required_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.last_size = size;
self.compute_rows(size);
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// Adjust scrolling, in case we're sticking to the bottom or something
let available_height = if self.scrollable {
size.y
} else {
self.rows.len()
};
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self.scrollbase
.set_heights(available_height, self.rows.len());
self.adjust_scroll();
}
}