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|
use std::cmp::max;
use std::mem;
use std::mem::MaybeUninit;
use std::ops::{Index, IndexMut};
#[cfg(feature = "serde")]
use serde::{Deserialize, Serialize};
use super::Row;
use crate::index::Line;
/// Maximum number of buffered lines outside of the grid for performance optimization.
const MAX_CACHE_SIZE: usize = 1_000;
/// A ring buffer for optimizing indexing and rotation.
///
/// The [`Storage::rotate`] and [`Storage::rotate_down`] functions are fast modular additions on
/// the internal [`zero`] field. As compared with [`slice::rotate_left`] which must rearrange items
/// in memory.
///
/// As a consequence, both [`Index`] and [`IndexMut`] are reimplemented for this type to account
/// for the zeroth element not always being at the start of the allocation.
///
/// Because certain [`Vec`] operations are no longer valid on this type, no [`Deref`]
/// implementation is provided. Anything from [`Vec`] that should be exposed must be done so
/// manually.
///
/// [`slice::rotate_left`]: https://doc.rust-lang.org/std/primitive.slice.html#method.rotate_left
/// [`Deref`]: std::ops::Deref
/// [`zero`]: #structfield.zero
#[derive(Clone, Debug)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub struct Storage<T> {
inner: Vec<Row<T>>,
/// Starting point for the storage of rows.
///
/// This value represents the starting line offset within the ring buffer. The value of this
/// offset may be larger than the `len` itself, and will wrap around to the start to form the
/// ring buffer. It represents the bottommost line of the terminal.
zero: usize,
/// Number of visible lines.
visible_lines: usize,
/// Total number of lines currently active in the terminal (scrollback + visible)
///
/// Shrinking this length allows reducing the number of lines in the scrollback buffer without
/// having to truncate the raw `inner` buffer.
/// As long as `len` is bigger than `inner`, it is also possible to grow the scrollback buffer
/// without any additional insertions.
len: usize,
}
impl<T: PartialEq> PartialEq for Storage<T> {
fn eq(&self, other: &Self) -> bool {
// Both storage buffers need to be truncated and zeroed.
assert_eq!(self.zero, 0);
assert_eq!(other.zero, 0);
self.inner == other.inner && self.len == other.len
}
}
impl<T> Storage<T> {
#[inline]
pub fn with_capacity(visible_lines: usize, columns: usize) -> Storage<T>
where
T: Clone + Default,
{
// Initialize visible lines; the scrollback buffer is initialized dynamically.
let mut inner = Vec::with_capacity(visible_lines);
inner.resize_with(visible_lines, || Row::new(columns));
Storage { inner, zero: 0, visible_lines, len: visible_lines }
}
/// Increase the number of lines in the buffer.
#[inline]
pub fn grow_visible_lines(&mut self, next: usize)
where
T: Clone + Default,
{
// Number of lines the buffer needs to grow.
let additional_lines = next - self.visible_lines;
let columns = self[Line(0)].len();
self.initialize(additional_lines, columns);
// Update visible lines.
self.visible_lines = next;
}
/// Decrease the number of lines in the buffer.
#[inline]
pub fn shrink_visible_lines(&mut self, next: usize) {
// Shrink the size without removing any lines.
let shrinkage = self.visible_lines - next;
self.shrink_lines(shrinkage);
// Update visible lines.
self.visible_lines = next;
}
/// Shrink the number of lines in the buffer.
#[inline]
pub fn shrink_lines(&mut self, shrinkage: usize) {
self.len -= shrinkage;
// Free memory.
if self.inner.len() > self.len + MAX_CACHE_SIZE {
self.truncate();
}
}
/// Truncate the invisible elements from the raw buffer.
#[inline]
pub fn truncate(&mut self) {
self.rezero();
self.inner.truncate(self.len);
}
/// Dynamically grow the storage buffer at runtime.
#[inline]
pub fn initialize(&mut self, additional_rows: usize, columns: usize)
where
T: Clone + Default,
{
if self.len + additional_rows > self.inner.len() {
self.rezero();
let realloc_size = self.inner.len() + max(additional_rows, MAX_CACHE_SIZE);
self.inner.resize_with(realloc_size, || Row::new(columns));
}
self.len += additional_rows;
}
#[inline]
pub fn len(&self) -> usize {
self.len
}
/// Swap implementation for Row<T>.
///
/// Exploits the known size of Row<T> to produce a slightly more efficient
/// swap than going through slice::swap.
///
/// The default implementation from swap generates 8 movups and 4 movaps
/// instructions. This implementation achieves the swap in only 8 movups
/// instructions.
pub fn swap(&mut self, a: Line, b: Line) {
debug_assert_eq!(mem::size_of::<Row<T>>(), mem::size_of::<usize>() * 4);
let a = self.compute_index(a);
let b = self.compute_index(b);
unsafe {
// Cast to a qword array to opt out of copy restrictions and avoid
// drop hazards. Byte array is no good here since for whatever
// reason LLVM won't optimized it.
let a_ptr = self.inner.as_mut_ptr().add(a) as *mut MaybeUninit<usize>;
let b_ptr = self.inner.as_mut_ptr().add(b) as *mut MaybeUninit<usize>;
// Copy 1 qword at a time.
//
// The optimizer unrolls this loop and vectorizes it.
let mut tmp: MaybeUninit<usize>;
for i in 0..4 {
tmp = *a_ptr.offset(i);
*a_ptr.offset(i) = *b_ptr.offset(i);
*b_ptr.offset(i) = tmp;
}
}
}
/// Rotate the grid, moving all lines up/down in history.
#[inline]
pub fn rotate(&mut self, count: isize) {
debug_assert!(count.unsigned_abs() <= self.inner.len());
let len = self.inner.len();
self.zero = (self.zero as isize + count + len as isize) as usize % len;
}
/// Rotate all existing lines down in history.
///
/// This is a faster, specialized version of [`rotate_left`].
///
/// [`rotate_left`]: https://doc.rust-lang.org/std/vec/struct.Vec.html#method.rotate_left
#[inline]
pub fn rotate_down(&mut self, count: usize) {
self.zero = (self.zero + count) % self.inner.len();
}
/// Update the raw storage buffer.
#[inline]
pub fn replace_inner(&mut self, vec: Vec<Row<T>>) {
self.len = vec.len();
self.inner = vec;
self.zero = 0;
}
/// Remove all rows from storage.
#[inline]
pub fn take_all(&mut self) -> Vec<Row<T>> {
self.truncate();
let mut buffer = Vec::new();
mem::swap(&mut buffer, &mut self.inner);
self.len = 0;
buffer
}
/// Compute actual index in underlying storage given the requested index.
#[inline]
fn compute_index(&self, requested: Line) -> usize {
debug_assert!(requested.0 < self.visible_lines as i32);
let positive = -(requested - self.visible_lines).0 as usize - 1;
debug_assert!(positive < self.len);
let zeroed = self.zero + positive;
// Use if/else instead of remainder here to improve performance.
//
// Requires `zeroed` to be smaller than `self.inner.len() * 2`,
// but both `self.zero` and `requested` are always smaller than `self.inner.len()`.
if zeroed >= self.inner.len() {
zeroed - self.inner.len()
} else {
zeroed
}
}
/// Rotate the ringbuffer to reset `self.zero` back to index `0`.
#[inline]
fn rezero(&mut self) {
if self.zero == 0 {
return;
}
self.inner.rotate_left(self.zero);
self.zero = 0;
}
}
impl<T> Index<Line> for Storage<T> {
type Output = Row<T>;
#[inline]
fn index(&self, index: Line) -> &Self::Output {
let index = self.compute_index(index);
&self.inner[index]
}
}
impl<T> IndexMut<Line> for Storage<T> {
#[inline]
fn index_mut(&mut self, index: Line) -> &mut Self::Output {
let index = self.compute_index(index);
&mut self.inner[index]
}
}
#[cfg(test)]
mod tests {
use crate::grid::row::Row;
use crate::grid::storage::{Storage, MAX_CACHE_SIZE};
use crate::grid::GridCell;
use crate::index::{Column, Line};
use crate::term::cell::Flags;
impl GridCell for char {
fn is_empty(&self) -> bool {
*self == ' ' || *self == '\t'
}
fn reset(&mut self, template: &Self) {
*self = *template;
}
fn flags(&self) -> &Flags {
unimplemented!();
}
fn flags_mut(&mut self) -> &mut Flags {
unimplemented!();
}
}
#[test]
fn with_capacity() {
let storage = Storage::<char>::with_capacity(3, 1);
assert_eq!(storage.inner.len(), 3);
assert_eq!(storage.len, 3);
assert_eq!(storage.zero, 0);
assert_eq!(storage.visible_lines, 3);
}
#[test]
fn indexing() {
let mut storage = Storage::<char>::with_capacity(3, 1);
storage[Line(0)] = filled_row('0');
storage[Line(1)] = filled_row('1');
storage[Line(2)] = filled_row('2');
storage.zero += 1;
assert_eq!(storage[Line(0)], filled_row('2'));
assert_eq!(storage[Line(1)], filled_row('0'));
assert_eq!(storage[Line(2)], filled_row('1'));
}
#[test]
#[should_panic]
#[cfg(debug_assertions)]
fn indexing_above_inner_len() {
let storage = Storage::<char>::with_capacity(1, 1);
let _ = &storage[Line(-1)];
}
#[test]
fn rotate() {
let mut storage = Storage::<char>::with_capacity(3, 1);
storage.rotate(2);
assert_eq!(storage.zero, 2);
storage.shrink_lines(2);
assert_eq!(storage.len, 1);
assert_eq!(storage.inner.len(), 3);
assert_eq!(storage.zero, 2);
}
/// Grow the buffer one line at the end of the buffer.
///
/// Before:
/// 0: 0 <- Zero
/// 1: 1
/// 2: -
/// After:
/// 0: 0 <- Zero
/// 1: 1
/// 2: -
/// 3: \0
/// ...
/// MAX_CACHE_SIZE: \0
#[test]
fn grow_after_zero() {
// Setup storage area.
let mut storage: Storage<char> = Storage {
inner: vec![filled_row('0'), filled_row('1'), filled_row('-')],
zero: 0,
visible_lines: 3,
len: 3,
};
// Grow buffer.
storage.grow_visible_lines(4);
// Make sure the result is correct.
let mut expected = Storage {
inner: vec![filled_row('0'), filled_row('1'), filled_row('-')],
zero: 0,
visible_lines: 4,
len: 4,
};
expected.inner.append(&mut vec![filled_row('\0'); MAX_CACHE_SIZE]);
assert_eq!(storage.visible_lines, expected.visible_lines);
assert_eq!(storage.inner, expected.inner);
assert_eq!(storage.zero, expected.zero);
assert_eq!(storage.len, expected.len);
}
/// Grow the buffer one line at the start of the buffer.
///
/// Before:
/// 0: -
/// 1: 0 <- Zero
/// 2: 1
/// After:
/// 0: 0 <- Zero
/// 1: 1
/// 2: -
/// 3: \0
/// ...
/// MAX_CACHE_SIZE: \0
#[test]
fn grow_before_zero() {
// Setup storage area.
let mut storage: Storage<char> = Storage {
inner: vec![filled_row('-'), filled_row('0'), filled_row('1')],
zero: 1,
visible_lines: 3,
len: 3,
};
// Grow buffer.
storage.grow_visible_lines(4);
// Make sure the result is correct.
let mut expected = Storage {
inner: vec![filled_row('0'), filled_row('1'), filled_row('-')],
zero: 0,
visible_lines: 4,
len: 4,
};
expected.inner.append(&mut vec![filled_row('\0'); MAX_CACHE_SIZE]);
assert_eq!(storage.visible_lines, expected.visible_lines);
assert_eq!(storage.inner, expected.inner);
assert_eq!(storage.zero, expected.zero);
assert_eq!(storage.len, expected.len);
}
/// Shrink the buffer one line at the start of the buffer.
///
/// Before:
/// 0: 2
/// 1: 0 <- Zero
/// 2: 1
/// After:
/// 0: 2 <- Hidden
/// 0: 0 <- Zero
/// 1: 1
#[test]
fn shrink_before_zero() {
// Setup storage area.
let mut storage: Storage<char> = Storage {
inner: vec![filled_row('2'), filled_row('0'), filled_row('1')],
zero: 1,
visible_lines: 3,
len: 3,
};
// Shrink buffer.
storage.shrink_visible_lines(2);
// Make sure the result is correct.
let expected = Storage {
inner: vec![filled_row('2'), filled_row('0'), filled_row('1')],
zero: 1,
visible_lines: 2,
len: 2,
};
assert_eq!(storage.visible_lines, expected.visible_lines);
assert_eq!(storage.inner, expected.inner);
assert_eq!(storage.zero, expected.zero);
assert_eq!(storage.len, expected.len);
}
/// Shrink the buffer one line at the end of the buffer.
///
/// Before:
/// 0: 0 <- Zero
/// 1: 1
/// 2: 2
/// After:
/// 0: 0 <- Zero
/// 1: 1
/// 2: 2 <- Hidden
#[test]
fn shrink_after_zero() {
// Setup storage area.
let mut storage: Storage<char> = Storage {
inner: vec![filled_row('0'), filled_row('1'), filled_row('2')],
zero: 0,
visible_lines: 3,
len: 3,
};
// Shrink buffer.
storage.shrink_visible_lines(2);
// Make sure the result is correct.
let expected = Storage {
inner: vec![filled_row('0'), filled_row('1'), filled_row('2')],
zero: 0,
visible_lines: 2,
len: 2,
};
assert_eq!(storage.visible_lines, expected.visible_lines);
assert_eq!(storage.inner, expected.inner);
assert_eq!(storage.zero, expected.zero);
assert_eq!(storage.len, expected.len);
}
/// Shrink the buffer at the start and end of the buffer.
///
/// Before:
/// 0: 4
/// 1: 5
/// 2: 0 <- Zero
/// 3: 1
/// 4: 2
/// 5: 3
/// After:
/// 0: 4 <- Hidden
/// 1: 5 <- Hidden
/// 2: 0 <- Zero
/// 3: 1
/// 4: 2 <- Hidden
/// 5: 3 <- Hidden
#[test]
fn shrink_before_and_after_zero() {
// Setup storage area.
let mut storage: Storage<char> = Storage {
inner: vec![
filled_row('4'),
filled_row('5'),
filled_row('0'),
filled_row('1'),
filled_row('2'),
filled_row('3'),
],
zero: 2,
visible_lines: 6,
len: 6,
};
// Shrink buffer.
storage.shrink_visible_lines(2);
// Make sure the result is correct.
let expected = Storage {
inner: vec![
filled_row('4'),
filled_row('5'),
filled_row('0'),
filled_row('1'),
filled_row('2'),
filled_row('3'),
],
zero: 2,
visible_lines: 2,
len: 2,
};
assert_eq!(storage.visible_lines, expected.visible_lines);
assert_eq!(storage.inner, expected.inner);
assert_eq!(storage.zero, expected.zero);
assert_eq!(storage.len, expected.len);
}
/// Check that when truncating all hidden lines are removed from the raw buffer.
///
/// Before:
/// 0: 4 <- Hidden
/// 1: 5 <- Hidden
/// 2: 0 <- Zero
/// 3: 1
/// 4: 2 <- Hidden
/// 5: 3 <- Hidden
/// After:
/// 0: 0 <- Zero
/// 1: 1
#[test]
fn truncate_invisible_lines() {
// Setup storage area.
let mut storage: Storage<char> = Storage {
inner: vec![
filled_row('4'),
filled_row('5'),
filled_row('0'),
filled_row('1'),
filled_row('2'),
filled_row('3'),
],
zero: 2,
visible_lines: 1,
len: 2,
};
// Truncate buffer.
storage.truncate();
// Make sure the result is correct.
let expected = Storage {
inner: vec![filled_row('0'), filled_row('1')],
zero: 0,
visible_lines: 1,
len: 2,
};
assert_eq!(storage.visible_lines, expected.visible_lines);
assert_eq!(storage.inner, expected.inner);
assert_eq!(storage.zero, expected.zero);
assert_eq!(storage.len, expected.len);
}
/// Truncate buffer only at the beginning.
///
/// Before:
/// 0: 1
/// 1: 2 <- Hidden
/// 2: 0 <- Zero
/// After:
/// 0: 1
/// 0: 0 <- Zero
#[test]
fn truncate_invisible_lines_beginning() {
// Setup storage area.
let mut storage: Storage<char> = Storage {
inner: vec![filled_row('1'), filled_row('2'), filled_row('0')],
zero: 2,
visible_lines: 1,
len: 2,
};
// Truncate buffer.
storage.truncate();
// Make sure the result is correct.
let expected = Storage {
inner: vec![filled_row('0'), filled_row('1')],
zero: 0,
visible_lines: 1,
len: 2,
};
assert_eq!(storage.visible_lines, expected.visible_lines);
assert_eq!(storage.inner, expected.inner);
assert_eq!(storage.zero, expected.zero);
assert_eq!(storage.len, expected.len);
}
/// First shrink the buffer and then grow it again.
///
/// Before:
/// 0: 4
/// 1: 5
/// 2: 0 <- Zero
/// 3: 1
/// 4: 2
/// 5: 3
/// After Shrinking:
/// 0: 4 <- Hidden
/// 1: 5 <- Hidden
/// 2: 0 <- Zero
/// 3: 1
/// 4: 2
/// 5: 3 <- Hidden
/// After Growing:
/// 0: 4
/// 1: 5
/// 2: -
/// 3: 0 <- Zero
/// 4: 1
/// 5: 2
/// 6: 3
#[test]
fn shrink_then_grow() {
// Setup storage area.
let mut storage: Storage<char> = Storage {
inner: vec![
filled_row('4'),
filled_row('5'),
filled_row('0'),
filled_row('1'),
filled_row('2'),
filled_row('3'),
],
zero: 2,
visible_lines: 0,
len: 6,
};
// Shrink buffer.
storage.shrink_lines(3);
// Make sure the result after shrinking is correct.
let shrinking_expected = Storage {
inner: vec![
filled_row('4'),
filled_row('5'),
filled_row('0'),
filled_row('1'),
filled_row('2'),
filled_row('3'),
],
zero: 2,
visible_lines: 0,
len: 3,
};
assert_eq!(storage.inner, shrinking_expected.inner);
assert_eq!(storage.zero, shrinking_expected.zero);
assert_eq!(storage.len, shrinking_expected.len);
// Grow buffer.
storage.initialize(1, 1);
// Make sure the previously freed elements are reused.
let growing_expected = Storage {
inner: vec![
filled_row('4'),
filled_row('5'),
filled_row('0'),
filled_row('1'),
filled_row('2'),
filled_row('3'),
],
zero: 2,
visible_lines: 0,
len: 4,
};
assert_eq!(storage.inner, growing_expected.inner);
assert_eq!(storage.zero, growing_expected.zero);
assert_eq!(storage.len, growing_expected.len);
}
#[test]
fn initialize() {
// Setup storage area.
let mut storage: Storage<char> = Storage {
inner: vec![
filled_row('4'),
filled_row('5'),
filled_row('0'),
filled_row('1'),
filled_row('2'),
filled_row('3'),
],
zero: 2,
visible_lines: 0,
len: 6,
};
// Initialize additional lines.
let init_size = 3;
storage.initialize(init_size, 1);
// Generate expected grid.
let mut expected_inner = vec![
filled_row('0'),
filled_row('1'),
filled_row('2'),
filled_row('3'),
filled_row('4'),
filled_row('5'),
];
let expected_init_size = std::cmp::max(init_size, MAX_CACHE_SIZE);
expected_inner.append(&mut vec![filled_row('\0'); expected_init_size]);
let expected_storage = Storage { inner: expected_inner, zero: 0, visible_lines: 0, len: 9 };
assert_eq!(storage.len, expected_storage.len);
assert_eq!(storage.zero, expected_storage.zero);
assert_eq!(storage.inner, expected_storage.inner);
}
#[test]
fn rotate_wrap_zero() {
let mut storage: Storage<char> = Storage {
inner: vec![filled_row('-'), filled_row('-'), filled_row('-')],
zero: 2,
visible_lines: 0,
len: 3,
};
storage.rotate(2);
assert!(storage.zero < storage.inner.len());
}
fn filled_row(content: char) -> Row<char> {
let mut row = Row::new(1);
row[Column(0)] = content;
row
}
}
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