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7 Commits
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Author SHA1 Message Date
Oliver
d5d58694bb redo
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Test Rust project / test (ubuntu-latest, stable) (push) Successful in 43s
Details 
Undo / Redo are currently bound to Pageup/down. This is ideally temporary, I just need to figure out ctrl+r for redo. "u" is also bound to undo as it should be
 2026-02-07 20:46:22 -07:00
Oliver
c2e0661a45 solve #29 2026-02-07 20:37:01 -07:00
Oliver
6ec7d90ac5 undo 2026-02-07 20:30:19 -07:00
Rushmore75
53dcf2ffc9 mock up history
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Test Rust project / test (ubuntu-latest, stable) (push) Successful in 56s
Details
2026-02-06 17:04:12 -07:00
Rushmore75
86756a94ef deprecate old function 2026-02-06 16:55:50 -07:00
Rushmore75
d242e1af21 apply api changes 2026-02-06 16:46:15 -07:00
Rushmore75
abffe6073f setup history of file 2026-02-06 15:55:27 -07:00
5 changed files with 327 additions and 267 deletions
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59
src/app/app.rs
View File

@@ -18,7 +18,10 @@ use ratatui::{
use crate::app::{
clipboard::Clipboard,
error_msg::StatusMessage,
logic::{calc::{Grid, get_header_size}, cell::CellType},
logic::{
calc::{Grid, get_header_size},
cell::CellType,
},
mode::Mode,
screen::ScreenSpace,
};
@@ -42,7 +45,7 @@ impl Widget for &App {
let (x_max, y_max) = self.screen.how_many_cells_fit_in(&area, &self.vars);
let is_selected = |x: usize, y: usize| -> bool {
if let Mode::Visual((mut x1, mut y1)) | Mode::VisualCmd((mut x1, mut y1), _)= self.mode {
if let Mode::Visual((mut x1, mut y1)) | Mode::VisualCmd((mut x1, mut y1), _) = self.mode {
let (mut x2, mut y2) = self.grid.cursor();
x1 += 1;
y1 += 1;
@@ -78,7 +81,7 @@ impl Widget for &App {
let mut x_idx: usize = 0;
let mut y_idx: usize = 0;
if x != 0 {
x_idx = x as usize -1 + self.screen.scroll_x();
x_idx = x as usize - 1 + self.screen.scroll_x();
}
if y != 0 {
y_idx = y as usize - 1 + self.screen.scroll_y();
@@ -93,9 +96,9 @@ impl Widget for &App {
/// Center the text "99 " -> " 99 "
fn center_text(text: &str, avaliable_space: i32) -> String {
let margin = avaliable_space - text.len() as i32;
let margin = margin/2;
let l_margin = (0..margin).into_iter().map(|_| ' ').collect::<String>();
let r_margin = (0..(margin-(l_margin.len() as i32))).into_iter().map(|_| ' ').collect::<String>();
let margin = margin / 2;
let l_margin = (0..margin).into_iter().map(|_| ' ').collect::<String>();
let r_margin = (0..(margin - (l_margin.len() as i32))).into_iter().map(|_| ' ').collect::<String>();
format!("{l_margin}{text}{r_margin}")
}
@@ -214,7 +217,7 @@ impl Widget for &App {
}
// If this is the row header column
let area = if x==0 && y != 0 {
let area = if x == 0 && y != 0 {
Rect::new(x_off, y_off, row_header_width, cell_height)
} else if let Some(suggestion) = suggest_upper_bound {
let max_available_width = area.width - x_off;
@@ -387,17 +390,20 @@ impl App {
event::KeyCode::Enter => {
let v = editor.as_string();
// try to insert as a float
if let Ok(v) = v.parse::<f64>() {
self.grid.set_cell_raw(self.grid.cursor(), Some(v));
} else {
// if you can't, then insert as a string
if !v.is_empty() {
self.grid.set_cell_raw(self.grid.cursor(), Some(v));
let cursor = self.grid.cursor();
self.grid.transact_on_grid(|grid| {
// try to insert as a float
if let Ok(v) = v.parse::<f64>() {
grid.set_cell_raw(cursor, Some(v));
} else {
self.grid.set_cell_raw::<CellType>(self.grid.cursor(), None);
// if you can't, then insert as a string
if !v.is_empty() {
grid.set_cell_raw(cursor, Some(v.to_owned()));
} else {
grid.set_cell_raw::<CellType>(cursor, None);
}
}
}
});
self.mode = Mode::Normal;
}
@@ -413,10 +419,23 @@ impl App {
},
Mode::Normal => match event::read()? {
event::Event::Key(key_event) => match key_event.code {
event::KeyCode::F(_) => todo!(),
event::KeyCode::Char(c) => {
Mode::process_key(self, c);
}
event::KeyCode::F(n) => {},
event::KeyCode::Char(c) => Mode::process_key(self, c),
// Pretend that the arrow keys are vim movement keys
event::KeyCode::Left => Mode::process_key(self, 'h'),
event::KeyCode::Right => Mode::process_key(self, 'l'),
event::KeyCode::Up => Mode::process_key(self, 'k'),
event::KeyCode::Down => Mode::process_key(self, 'j'),
// Getting ctrl to work isn't going will right now. Use page keys for the time being.
event::KeyCode::PageUp => self.grid.redo(),
event::KeyCode::PageDown => self.grid.undo(),
event::KeyCode::Modifier(modifier_key_code) => {
if let event::ModifierKeyCode::LeftControl | event::ModifierKeyCode::RightControl = modifier_key_code {
// TODO my terminal (alacritty) isn't showing me ctrl presses. I know
// that they work tho, since ctrl+r works here in neovim.
// panic!("heard ctrl");
}
},
_ => {}
},
_ => {}

60
src/app/clipboard.rs
View File

@@ -18,12 +18,7 @@ pub struct Clipboard {
impl Clipboard {
pub fn new() -> Self {
Self {
clipboard: Vec::new(),
last_paste_cell: (0, 0),
momentum: (0, 1),
source_cell: (0, 0),
}
Self { clipboard: Vec::new(), last_paste_cell: (0, 0), momentum: (0, 1), source_cell: (0, 0) }
}
/// Panics if clipboard is 0 length (if you call after you
@@ -49,25 +44,28 @@ impl Clipboard {
// cursor
let (cx, cy) = into.cursor();
// iterate thru the clipbaord's cells
for (x, row) in self.clipboard.iter().enumerate() {
for (y, cell) in row.iter().enumerate() {
let idx = (x + cx, y + cy);
let cursor = into.cursor();
into.transact_on_grid(|grid| {
// iterate thru the clipbaord's cells
for (x, row) in self.clipboard.iter().enumerate() {
for (y, cell) in row.iter().enumerate() {
let idx = (x + cx, y + cy);
if translate {
if let Some(cell) = cell {
let trans = cell.translate_cell(self.source_cell, into.cursor());
into.set_cell_raw(idx, Some(trans));
if translate {
if let Some(cell) = cell {
let trans = cell.translate_cell(self.source_cell, cursor);
grid.set_cell_raw(idx, Some(trans));
} else {
// The cell at this location doesn't exist (empty)
grid.set_cell_raw::<CellType>(idx, None);
}
} else {
// The cell at this location doesn't exist (empty)
into.set_cell_raw::<CellType>(idx, None);
// translate = false
grid.set_cell_raw::<CellType>(idx, cell.clone());
}
} else {
// translate = false
into.set_cell_raw::<CellType>(idx, cell.clone());
}
}
}
});
let (lx, ly) = self.last_paste_cell;
self.momentum = (cx as i32 - lx as i32, cy as i32 - ly as i32);
@@ -109,16 +107,19 @@ impl Clipboard {
// size the clipboard appropriately
self.clipboard.clear();
// clone data into clipboard
for x in low_x..=hi_x {
let mut col = Vec::new();
for y in low_y..=hi_y {
let a = from.get_cell_raw(x, y);
col.push(a.clone());
from.set_cell_raw::<CellType>((x, y), None);
from.transact_on_grid(|grid| {
// clone data into clipboard
for x in low_x..=hi_x {
let mut col = Vec::new();
for y in low_y..=hi_y {
let a = grid.get_cell_raw(x, y);
col.push(a.clone());
grid.set_cell_raw::<CellType>((x, y), None);
}
self.clipboard.push(col);
}
self.clipboard.push(col);
}
});
self.last_paste_cell = (low_x, low_y);
}
}
@@ -394,5 +395,4 @@ fn copy_paste_range_in_function() {
let a = app.grid.get_cell("B1").as_ref().expect("Should've been set by paste");
assert_eq!(a.to_string(), "=sum(A:A)");
}

385
src/app/logic/calc.rs
View File

@@ -2,20 +2,21 @@ use std::{
cmp::{max, min},
fs::{self, File},
io::{Read, Write},
path::PathBuf
path::PathBuf,
};
use evalexpr::*;
use crate::app::{
logic::{
cell::{CSV_DELIMITER, CellType},
ctx,
}, mode::Mode,
use crate::app::logic::{
calc::internal::CellGrid,
cell::{CSV_DELIMITER, CellType},
ctx,
};
#[cfg(test)]
use crate::app::app::App;
#[cfg(test)]
use crate::app::mode::Mode;
pub fn get_header_size() -> usize {
let row_header_width = LEN.to_string().len();
@@ -26,13 +27,109 @@ pub const LEN: usize = 1001;
pub const CSV_EXT: &str = "csv";
pub const CUSTOM_EXT: &str = "nscim";
mod internal {
use crate::app::logic::{calc::LEN, cell::CellType};
#[derive(Clone)]
pub struct CellGrid {
// a b c ...
// 0
// 1
// 2
// ...
cells: Vec<Vec<Option<CellType>>>,
}
impl CellGrid {
pub fn new() -> Self {
let mut a = Vec::with_capacity(LEN);
for _ in 0..LEN {
let mut b = Vec::with_capacity(LEN);
for _ in 0..LEN {
b.push(None)
}
a.push(b)
}
Self { cells: a }
}
pub fn insert_row(&mut self, y: usize) {
for x in 0..LEN {
self.cells[x].insert(y, None);
self.cells[x].pop();
}
}
pub fn insert_column(&mut self, x: usize) {
let mut v = Vec::with_capacity(LEN);
for _ in 0..LEN {
v.push(None);
}
// let clone = self.grid_history[self.current_grid].clone();
self.cells.insert(x, v);
// keep the grid LEN
self.cells.pop();
}
pub fn get_cell_raw(&self, x: usize, y: usize) -> &Option<CellType> {
if x >= LEN || y >= LEN {
return &None;
}
&self.cells[x][y]
}
pub fn set_cell_raw<T: Into<CellType>>(&mut self, (x, y): (usize, usize), val: Option<T>) {
// TODO check oob
self.cells[x][y] = val.map(|v| v.into());
}
/// Iterate over the entire grid and see where
/// the farthest modified cell is.
#[must_use]
pub fn max(&self) -> (usize, usize) {
let mut max_x = 0;
let mut max_y = 0;
for (xi, x) in self.cells.iter().enumerate() {
for (yi, cell) in x.iter().enumerate() {
if cell.is_some() {
if yi > max_y {
max_y = yi
}
if xi > max_x {
max_x = xi
}
}
}
}
(max_x, max_y)
}
#[must_use]
pub fn max_y_at_x(&self, x: usize) -> usize {
let mut max_y = 0;
if let Some(col) = self.cells.get(x) {
// we could do fancy things like .take_while(not null) but then
// we would have to deal with empty cells and stuff, which sounds
// boring. This will be fast "enough", considering the grid is
// probably only like 1k cells
for (yi, cell) in col.iter().enumerate() {
if cell.is_some() {
if yi > max_y {
max_y = yi
}
}
}
}
max_y
}
}
}
pub struct Grid {
// a b c ...
// 0
// 1
// 2
// ...
cells: Vec<Vec<Option<CellType>>>,
/// Which grid in history are we currently on
current_grid: usize,
/// An array of grids, thru history
grid_history: Vec<CellGrid>,
/// (X, Y)
selected_cell: (usize, usize),
/// Have unsaved modifications been made?
@@ -47,20 +144,9 @@ impl std::fmt::Debug for Grid {
impl Grid {
pub fn new() -> Self {
let mut a = Vec::with_capacity(LEN);
for _ in 0..LEN {
let mut b = Vec::with_capacity(LEN);
for _ in 0..LEN {
b.push(None)
}
a.push(b)
}
let x = CellGrid::new();
Self {
cells: a,
selected_cell: (0, 0),
dirty: false,
}
Self { current_grid: 0, grid_history: vec![x], selected_cell: (0, 0), dirty: false }
}
pub fn new_from_file(file: &mut File) -> std::io::Result<Self> {
@@ -68,14 +154,17 @@ impl Grid {
let mut buf = String::new();
file.read_to_string(&mut buf)?;
for (yi, line) in buf.lines().enumerate() {
let cells = Self::parse_csv_line(line);
for (xi, cell) in cells.into_iter().enumerate() {
// This gets automatically duck-typed
grid.set_cell_raw((xi, yi), cell);
grid.transact_on_grid(|grid| {
for (yi, line) in buf.lines().enumerate() {
let cells = Self::parse_csv_line(line);
for (xi, cell) in cells.into_iter().enumerate() {
// This gets automatically duck-typed
grid.set_cell_raw((xi, yi), cell);
}
}
}
});
// force dirty back off, we just read the data so it's gtg
grid.dirty = false;
@@ -112,19 +201,15 @@ impl Grid {
}
let mut f = fs::OpenOptions::new().write(true).append(false).truncate(true).create(true).open(path)?;
let (mx, my) = self.max();
let (mx, my) = self.get_grid().max();
for y in 0..=my {
for x in 0..=mx {
let cell = &self.cells[x][y];
let cell = &self.get_grid().get_cell_raw(x, y);
// newline after the cell, because it's end of line.
// else, just put a comma after the cell.
let is_last = x==mx;
let delim = if is_last {
'\n'
} else {
CSV_DELIMITER
};
let is_last = x == mx;
let delim = if is_last { '\n' } else { CSV_DELIMITER };
let data = if let Some(cell) = cell {
if let Ok(val) = self.evaluate(&cell.to_string())
@@ -146,6 +231,40 @@ impl Grid {
Ok(())
}
pub fn get_grid<'a>(&'a self) -> &'a CellGrid {
&self.grid_history[self.current_grid]
}
fn get_grid_mut<'a>(&'a mut self) -> &'a mut CellGrid {
&mut self.grid_history[self.current_grid]
}
pub fn undo(&mut self) {
self.current_grid = self.current_grid.saturating_sub(1);
}
pub fn redo(&mut self) {
self.current_grid = min(self.grid_history.len() - 1, self.current_grid + 1);
}
pub fn transact_on_grid<F>(&mut self, mut action: F)
where
F: FnMut(&mut CellGrid) -> (),
{
// push on a new reality
let new = self.get_grid().clone();
self.grid_history.push(new);
self.current_grid += 1;
// delete the other fork of the history
for i in self.current_grid + 1..self.grid_history.len() {
self.grid_history.remove(i);
}
action(&mut self.grid_history[self.current_grid]);
self.dirty = true;
}
pub fn needs_to_be_saved(&self) -> bool {
self.dirty
}
@@ -252,101 +371,55 @@ impl Grid {
}
pub fn insert_row_above(&mut self, (_x, insertion_y): (usize, usize)) {
for x in 0..LEN {
self.cells[x].insert(insertion_y, None);
self.cells[x].pop();
for y in 0..LEN {
if let Some(cell) = self.get_cell_raw(x, y).as_ref().map(|f| {
f.custom_translate_cell((0, 0), (0, 1), |rolling, old, new| {
if let Some((_, arg_y)) = Grid::parse_to_idx(old) {
if arg_y < insertion_y { rolling.to_owned() } else { rolling.replace(old, new) }
} else {
unimplemented!("Invalid variable wanted to be translated")
}
self.transact_on_grid(|grid: &mut CellGrid| {
grid.insert_row(insertion_y);
for x in 0..LEN {
for y in 0..LEN {
if let Some(cell) = grid.get_cell_raw(x, y).as_ref().map(|f| {
f.custom_translate_cell((0, 0), (0, 1), |rolling, old, new| {
if let Some((_, arg_y)) = Grid::parse_to_idx(old) {
if arg_y < insertion_y { rolling.to_owned() } else { rolling.replace(old, new) }
} else {
unimplemented!("Invalid variable wanted to be translated")
}
})
}) {
grid.set_cell_raw((x, y), Some(cell));
}
)}) {
self.set_cell_raw((x,y), Some(cell));
}
}
}
}
});
}
pub fn insert_row_below(&mut self, (x, y): (usize, usize)) {
self.insert_row_above((x,y+1));
self.insert_row_above((x, y + 1));
}
pub fn insert_column_before(&mut self, (insertion_x, _y): (usize, usize)) {
let mut v = Vec::with_capacity(LEN);
for _ in 0..LEN {
v.push(None);
}
self.cells.insert(insertion_x, v);
// keep the grid LEN
self.cells.pop();
for x in 0..LEN {
for y in 0..LEN {
if let Some(cell) = self.get_cell_raw(x, y).as_ref().map(|f| {
f.custom_translate_cell((0, 0), (1, 0), |rolling, old, new| {
if let Some((arg_x, _)) = Grid::parse_to_idx(old) {
// add 1 because of the insertion
if arg_x < insertion_x { rolling.to_owned() } else { rolling.replace(old, new) }
} else {
// FIXME could be a range
unimplemented!("Invalid variable wanted to be translated")
}
})
}) {
self.set_cell_raw((x, y), Some(cell));
self.transact_on_grid(|grid| {
grid.insert_column(insertion_x);
for x in 0..LEN {
for y in 0..LEN {
if let Some(cell) = grid.get_cell_raw(x, y).as_ref().map(|f| {
f.custom_translate_cell((0, 0), (1, 0), |rolling, old, new| {
if let Some((arg_x, _)) = Grid::parse_to_idx(old) {
// add 1 because of the insertion
if arg_x < insertion_x { rolling.to_owned() } else { rolling.replace(old, new) }
} else {
unimplemented!("Invalid variable wanted to be translated")
}
})
}) {
grid.set_cell_raw((x, y), Some(cell));
}
}
}
}
});
}
pub fn insert_column_after(&mut self, (x, y): (usize, usize)) {
self.insert_column_before((x + 1, y));
}
/// Iterate over the entire grid and see where
/// the farthest modified cell is.
#[must_use]
fn max(&self) -> (usize, usize) {
let mut max_x = 0;
let mut max_y = 0;
for (xi, x) in self.cells.iter().enumerate() {
for (yi, cell) in x.iter().enumerate() {
if cell.is_some() {
if yi > max_y {
max_y = yi
}
if xi > max_x {
max_x = xi
}
}
}
}
(max_x, max_y)
}
#[must_use]
pub fn max_y_at_x(&self, x: usize) -> usize {
let mut max_y = 0;
if let Some(col) = self.cells.get(x) {
// we could do fancy things like .take_while(not null) but then
// we would have to deal with empty cells and stuff, which sounds
// boring. This will be fast "enough", considering the grid is
// probably only like 1k cells
for (yi, cell) in col.iter().enumerate() {
if cell.is_some() {
if yi > max_y {
max_y = yi
}
}
}
}
max_y
}
/// Only evaluates equations, such as `=10` or `=A1/C2`, not
/// strings or numbers.
@@ -385,10 +458,7 @@ impl Grid {
EvalexprError::VariableIdentifierNotFound(var_not_found) => {
return Err(format!("\"{var_not_found}\" is not a variable"));
}
EvalexprError::TypeError {
expected: e,
actual: a,
} => {
EvalexprError::TypeError { expected: e, actual: a } => {
// IE: You put a string into a function that wants a float
return Err(format!("Wanted {e:?}, got {a}"));
}
@@ -397,22 +467,8 @@ impl Grid {
}
}
pub fn range_as_indices(range: &str) -> Option<(usize, usize)> {
let v = range.split(':').collect::<Vec<&str>>();
if v.len() == 2 {
let start_col = v[0];
let end_col = v[1];
let start_idx = Grid::char_to_idx(start_col);
let end_idx = Grid::char_to_idx(end_col);
return Some((start_idx, end_idx))
}
None
}
pub fn char_to_idx(i: &str) -> usize {
let x_idx = i
let x_idx = i
.chars()
.filter(|f| f.is_alphabetic())
.enumerate()
@@ -447,15 +503,13 @@ impl Grid {
/// Helper for tests
#[cfg(test)]
/// Don't ever remove this from being just a test-helper.
/// This function doesn't correctly use the undo/redo api, which would require doing
/// transactions on the grid instead of direct access.
pub fn set_cell<T: Into<CellType>>(&mut self, cell_id: &str, val: T) {
if let Some(loc) = Self::parse_to_idx(cell_id) {
self.set_cell_raw(loc, Some(val));
self.get_grid_mut().set_cell_raw(loc, Some(val))
}
}
pub fn set_cell_raw<T: Into<CellType>>(&mut self, (x, y): (usize, usize), val: Option<T>) {
// TODO check oob
self.cells[x][y] = val.map(|v| v.into());
self.dirty = true;
}
@@ -474,7 +528,7 @@ impl Grid {
if x >= LEN || y >= LEN {
return &None;
}
&self.cells[x][y]
&self.get_grid().get_cell_raw(x, y)
}
pub fn num_to_char(idx: usize) -> String {
@@ -592,7 +646,7 @@ fn saving_neoscim() {
fn cell_strings() {
let mut grid = Grid::new();
assert!(&grid.cells[0][0].is_none());
assert!(&grid.get_grid().get_cell_raw(0, 0).is_none());
grid.set_cell("A0", "Hello".to_string());
assert!(grid.get_cell("A0").is_some());
@@ -729,17 +783,17 @@ fn grid_max() {
let mut grid = Grid::new();
grid.set_cell("A0", 1.);
let (mx, my) = grid.max();
let (mx, my) = grid.get_grid().max();
assert_eq!(mx, 0);
assert_eq!(my, 0);
grid.set_cell("B0", 1.);
let (mx, my) = grid.max();
let (mx, my) = grid.get_grid().max();
assert_eq!(mx, 1);
assert_eq!(my, 0);
grid.set_cell("B5", 1.);
let (mx, my) = grid.max();
let (mx, my) = grid.get_grid().max();
assert_eq!(mx, 1);
assert_eq!(my, 5);
}
@@ -1024,36 +1078,6 @@ fn insert_col_before_3() {
assert_eq!(cell.to_string(), "=B0*B1");
}
#[test]
fn insert_col_before_static_range() {
let mut grid = Grid::new();
grid.set_cell("A0", 2.);
grid.set_cell("A1", 2.);
grid.set_cell("B0", "=sum(A:A)".to_string());
grid.mv_cursor_to(0, 1);
grid.insert_column_before(grid.cursor());
let cell = grid.get_cell("C0").as_ref().expect("Just set it");
assert_eq!(cell.to_string(), "=sum(A:A)");
}
#[test]
fn insert_col_before_move_range() {
let mut grid = Grid::new();
grid.set_cell("B0", 2.);
grid.set_cell("B1", 2.);
grid.set_cell("A0", "=sum(B:B)".to_string());
grid.mv_cursor_to(0, 0);
grid.insert_column_after(grid.cursor());
let cell = grid.get_cell("A0").as_ref().expect("Just set it");
assert_eq!(cell.to_string(), "=sum(C:C)");
}
#[test]
fn insert_row_above_1() {
let mut grid = Grid::new();
@@ -1120,7 +1144,7 @@ fn insert_row_above_3() {
#[test]
fn cell_eval_depth() {
use crate::app::mode::*;
let mut app= App::new();
let mut app = App::new();
app.grid.set_cell("A0", 1.);
app.grid.set_cell("A1", "=A0+$A$0".to_string());
@@ -1170,4 +1194,3 @@ fn return_string_from_fn() {
}
}
}

22
src/app/logic/ctx.rs
View File

@@ -16,12 +16,26 @@ pub struct CallbackContext<'a> {
impl<'a> CallbackContext<'a> {
fn expand_range(&self, range: &str) -> Option<Vec<&CellType>> {
if let Some((start, end)) = Grid::range_as_indices(range) {
let v = range.split(':').collect::<Vec<&str>>();
if v.len() == 2 {
let start_col = v[0];
let end_col = v[1];
let as_index = |s: &str| {
s.char_indices()
// .filter(|f| f.1 as u8 >= 97) // prevent sub with overflow errors
.map(|(idx, c)| ((c.to_ascii_lowercase() as usize).saturating_sub(97)) + (26 * idx))
.fold(0, |a, b| a + b)
};
let start_idx = as_index(start_col);
let end_idx = as_index(end_col);
let mut buf = Vec::new();
for x in start..=end {
for y in 0..=self.variables.max_y_at_x(x) {
if let Some(s) = self.variables.get_cell_raw(x, y) {
for x in start_idx..=end_idx {
for y in 0..=self.variables.get_grid().max_y_at_x(x) {
if let Some(s) = self.variables.get_grid().get_cell_raw(x, y) {
buf.push(s);
}
}

68
src/app/mode.rs
View File

@@ -2,7 +2,8 @@ use std::{
cmp::{max, min},
fmt::Display,
fs,
path::PathBuf, process::Command,
path::PathBuf,
process::Command,
};
use ratatui::{
@@ -153,11 +154,13 @@ impl Mode {
let mut save_range = |to: &str| {
let mut g = Grid::new();
for (i, x) in (low_x..=hi_x).enumerate() {
for (j, y) in (low_y..=hi_y).enumerate() {
g.set_cell_raw((i, j), app.grid.get_cell_raw(x, y).clone());
g.transact_on_grid(|grid| {
for (i, x) in (low_x..=hi_x).enumerate() {
for (j, y) in (low_y..=hi_y).enumerate() {
grid.set_cell_raw((i, j), grid.get_cell_raw(x, y).clone());
}
}
}
});
if let Err(_e) = g.save_to(to) {
app.msg = StatusMessage::error("Failed to save file");
}
@@ -171,22 +174,24 @@ impl Mode {
}
}
}
return "unknown"
return "unknown";
};
match args[0] {
"f" | "fill" => {
for (i, x) in (low_x..=hi_x).enumerate() {
for (j, y) in (low_y..=hi_y).enumerate() {
let arg = args.get(1)
.map(|s| s.replace("xi", &i.to_string()))
.map(|s| s.replace("yi", &j.to_string()))
.map(|s| s.replace("x", &x.to_string()))
.map(|s| s.replace("y", &y.to_string()))
;
app.grid.set_cell_raw((x,y), arg);
app.grid.transact_on_grid(|grid| {
for (i, x) in (low_x..=hi_x).enumerate() {
for (j, y) in (low_y..=hi_y).enumerate() {
let arg = args
.get(1)
.map(|s| s.replace("xi", &i.to_string()))
.map(|s| s.replace("yi", &j.to_string()))
.map(|s| s.replace("x", &x.to_string()))
.map(|s| s.replace("y", &y.to_string()));
grid.set_cell_raw((x, y), arg);
}
}
}
});
app.mode = Mode::Normal
}
@@ -202,11 +207,7 @@ impl Mode {
// Use gnuplot to plot the selected data.
// * Temp data will be stored in /tmp/
// * Output will either be plot.png or a name that you pass in
let output_filename = if let Some(arg1) = args.get(1) {
arg1
} else {
"plot.png"
};
let output_filename = if let Some(arg1) = args.get(1) { arg1 } else { "plot.png" };
save_range("/tmp/plot.csv");
let plot = include_str!("../../template.gnuplot");
@@ -217,10 +218,12 @@ impl Mode {
let s = s.replace("$OUTPUT", "/tmp/output.png");
let _ = fs::write("/tmp/plot.p", s);
let cmd_res= Command::new("gnuplot").arg("/tmp/plot.p").output();
let cmd_res = Command::new("gnuplot").arg("/tmp/plot.p").output();
if let Err(err) = cmd_res {
match err.kind() {
std::io::ErrorKind::NotFound => app.msg = StatusMessage::error("Error - Is gnuplot installed?"),
std::io::ErrorKind::NotFound => {
app.msg = StatusMessage::error("Error - Is gnuplot installed?")
}
_ => app.msg = StatusMessage::error(format!("{err}")),
};
} else {
@@ -276,7 +279,7 @@ impl Mode {
// Go to bottom of column
'G' => {
let (x, _) = app.grid.cursor();
app.grid.mv_cursor_to(x, super::logic::calc::LEN,);
app.grid.mv_cursor_to(x, super::logic::calc::LEN);
return;
}
// edit cell
@@ -319,6 +322,11 @@ impl Mode {
app.mode = Mode::Command(Chord::new(':'))
}
}
// undo
'u' => {
app.grid.undo();
}
// paste
'p' => {
app.clipboard.paste(&mut app.grid, true);
app.grid.apply_momentum(app.clipboard.momentum());
@@ -398,7 +406,7 @@ impl Mode {
let (_, y_height) = app.screen.get_screen_size(&app.vars);
let y_origin = app.screen.scroll_y();
app.grid.mv_cursor_to(x, y_origin+y_height);
app.grid.mv_cursor_to(x, y_origin + y_height);
app.mode = Mode::Normal;
return;
}
@@ -408,7 +416,7 @@ impl Mode {
let (x_width, _) = app.screen.get_screen_size(&app.vars);
let x_origin = app.screen.scroll_x();
app.grid.mv_cursor_to(x_origin+x_width, y);
app.grid.mv_cursor_to(x_origin + x_width, y);
app.mode = Mode::Normal;
}
// Go to the left edge of the current window
@@ -508,9 +516,7 @@ pub struct Chord {
impl From<String> for Chord {
fn from(value: String) -> Self {
let b = value.as_bytes().iter().map(|f| *f as char).collect();
Chord {
buf: b,
}
Chord { buf: b }
}
}
@@ -519,9 +525,7 @@ impl Chord {
let mut buf = Vec::new();
buf.push(inital);
Self {
buf,
}
Self { buf }
}
pub fn backspace(&mut self) {