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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
Rushmore75
d983995e8f solve failing test
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Test Rust project / test (ubuntu-latest, stable) (push) Successful in 53s
Details 
copy and pasting functions with ranges as arguments now works
 2026-02-06 11:31:41 -07:00
Rushmore75
045d1d6554 solve #36 by adding :fill command
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Test Rust project / test (ubuntu-latest, stable) (push) Failing after 53s
Details
2026-01-28 16:29:16 -07:00
Rushmore75
9691268d3d readme and create issue
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Test Rust project / test (ubuntu-latest, stable) (push) Failing after 38s
Details
2026-01-27 16:53:46 -07:00
Rushmore75
f3356c1398 fix #35, allows for strings to be returned from functions
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Test Rust project / test (ubuntu-latest, stable) (push) Successful in 44s
Details
2026-01-27 16:07:23 -07:00
Rushmore75
b3b2c59a36 fix #47
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Test Rust project / test (ubuntu-latest, stable) (push) Successful in 43s
Details
2026-01-27 14:50:05 -07:00
Rushmore75
077b53f6ff cleanup imports
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Test Rust project / test (ubuntu-latest, stable) (push) Failing after 41s
Details
2026-01-27 13:50:00 -07:00
Rushmore75
0c78e7834b fix #33 2026-01-27 13:49:46 -07:00
Rushmore75
052828c89c auto run test
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Test Rust project / test (ubuntu-latest, stable) (push) Failing after 57s
Details
2026-01-27 11:13:23 -07:00
Rushmore75
626b8ff4eb code cleanup 2026-01-27 10:52:18 -07:00
Rushmore75
69c7ebf24b make xlookup function like excel 2026-01-23 13:35:50 -07:00
Rushmore75
8d3f003427 center column titles 2026-01-23 12:13:25 -07:00
Rushmore75
1923bbe674 close #41 2026-01-23 11:37:13 -07:00
Rushmore75
2076c42c80 add new keybinds to readme 2026-01-23 11:22:07 -07:00
Rushmore75
91fb658f65 close #24 2026-01-23 11:17:43 -07:00
Rushmore75
d82a3d263e solve #22 2026-01-23 10:41:47 -07:00
Rushmore75
4452d3210e start on #47 2026-01-22 15:46:17 -07:00
Rushmore75
da5e4921d8 readme cleanup 2026-01-22 14:28:38 -07:00
Rushmore75
b5de08300a spelling 2026-01-22 14:20:32 -07:00
Rushmore75
4ae7aec66e cleanup gnuplot command 2026-01-22 14:11:02 -07:00
Rushmore75
3ff9e8683c fix #32 2026-01-22 13:52:10 -07:00
Rushmore75
0c2588a299 example 2 line graph 2025-11-19 13:49:30 -07:00
Rushmore75
0c527bb3cb add gnuplot plotting 2025-11-18 13:02:29 -07:00
Rushmore75
6ca21b407d close #36 2025-11-18 12:33:34 -07:00
Rushmore75
1323d15333 actually use the filetype 2025-11-18 10:11:01 -07:00
Rushmore75
d69966bc01 fix csv (again) - added tests this time. Started on #27, #36 2025-11-18 10:09:29 -07:00
Rushmore75
dae3b57f73 setup test for #33 2025-11-17 14:50:38 -07:00
Rushmore75
ee1cac0522 fix #46 2025-11-17 14:39:30 -07:00
Rushmore75
712d75b256 close #45 2025-11-17 13:42:17 -07:00
14 changed files with 1022 additions and 354 deletions
Expand all files Collapse all files

21
.gitea/workflows/test.yaml Normal file
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@@ -0,0 +1,21 @@
name: Test Rust project
on: [push]
jobs:
test:
runs-on: ${{ matrix.os }}
strategy:
matrix:
os: [ubuntu-latest]
rust: [stable]
steps:
- uses: https://git.oliveratkinson.net/Oliver/setup-rust-action@master
with:
rust-version: ${{ matrix.rust }}
- uses: actions/checkout@master
- name: Run tests
run: cargo test --verbose
- name: Clippy
run: cargo clippy

3
.gitignore vendored
View File

@@ -1,4 +1,5 @@
/target
/.vscode
/*.csv
/*.nscim
/*.nscim
/plot.png

39
README.md
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@@ -2,8 +2,12 @@
*New* Spreadsheet Calculator Improved
![Screenshot](readme/screenshot.png)
Based loosely off sc-im (spreadsheet calculator improvised), which has dumb keybinds and not many features.
[Checkout a demo file](readme/demo.nscim), download, then open with `neoscim demo.nscim`.
## Keybinds
### Normal mode
@@ -14,8 +18,13 @@ Based loosely off sc-im (spreadsheet calculator improvised), which has dumb keyb
| `k` | Move up |
| `h` | Move left |
| `l` | Move right |
| `0` | Go to beginning of row |
| `gg` | Go to beginning of column |
| `0` | Go to beginning of the row |
| `g0` | Go to beginning of the visual row |
| `$` | Go to end of the row |
| `g$` | Go to end of the visual row |
| `gg` | Go to beginning of the column |
| `G` | Go to end of column |
| `gG` | Go to end of the the visual column |
| `i`/`a` | Enter insert mode on current cell |
| `r` | Enter insert mode on current cell, deleting contents |
| `v` | Enter visual mode |
@@ -51,6 +60,16 @@ Based loosely off sc-im (spreadsheet calculator improvised), which has dumb keyb
| `:q` | Quit program |
| `:q!` | Quit program, even if the file isn't saved |
#### Visual mode commands
These commands operate on selections.
| Commmand | Description |
| - | - |
| `:plot` | Plots the current selection to `plot.png` using gnuplot |
| `:export <filename>` | Exports the current selection to a new file |
| `:fill <value>` | (Aliased as `f`) Fill the selection with `<value>`, special variables `x`,`y`,`xi`, and `yi` are avaliable. Variables `x` and `y` are the global coordinates of the cell, and `xi` and `yi` are the local coordinates of the selection. |
## Math / Functions
### Math
@@ -68,11 +87,11 @@ Based loosely off sc-im (spreadsheet calculator improvised), which has dumb keyb
| Identifier | Arg Qty | Argument Types | Description |
| - | - | - | - |
| `avg` | >= 1 | Numeric | Returns the average of the arguments |
| `sum` | >= 1 | Numbers | Returns the sum of the arguments |
| `xlookup` | 3 | Range, Number/String, Range | Searches for the number/string in the first range, returning the item at the same index in the second range |
| `min` | >= 1 | Numeric | Returns the minimum of the arguments |
| `max` | >= 1 | Numeric | Returns the maximum of the arguments |
| `avg` | 1 | Numeric | Returns the average of the arguments |
| `sum` | 1 | Numbers | Returns the sum of the arguments |
| `xlookup` | 3 | Number/String, Range, Range | Searches for the number/string in the first range, returning the item at the same index in the second range |
| `min` | 1 | Numeric | Returns the minimum of the arguments |
| `max` | 1 | Numeric | Returns the maximum of the arguments |
| `len` | 1 | String/Tuple | Returns the character length of a string, or the amount of elements in a tuple (not recursively) |
| `floor` | 1 | Numeric | Returns the largest integer less than or equal to a number |
| `round` | 1 | Numeric | Returns the nearest integer to a number. Rounds half-way cases away from 0.0 |
@@ -112,7 +131,7 @@ Based loosely off sc-im (spreadsheet calculator improvised), which has dumb keyb
| `str::to_lowercase` | 1 | String | Returns the lower-case version of the string |
| `str::to_uppercase` | 1 | String | Returns the upper-case version of the string |
| `str::trim` | 1 | String | Strips whitespace from the start and the end of the string |
| `str::from` | >= 0 | Any | Returns passed value as string |
| `str::from` | 0 | Any | Returns passed value as string |
| `str::substring` | 3 | String, Int, Int | Returns a substring of the first argument, starting at the second argument and ending at the third argument. If the last argument is omitted, the substring extends to the end of the string |
| `bitand` | 2 | Int | Computes the bitwise and of the given integers |
| `bitor` | 2 | Int | Computes the bitwise or of the given integers |
@@ -132,8 +151,8 @@ If the cell can be a number (parsed into a float) it will be, if not, then if th
* Cell references move with copy / paste
* =A0: Will translate
* =$A0: Will translate Y only
* =$A0: Will translate X only
* =$A0: Will translate Y only (numbers)
* =A$0: Will translate X only (letters)
* =$A$0: No translation
* Keybinds are closer to vim keying (i/a start inserting into a cell)

10
bash_complitions Normal file
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@@ -0,0 +1,10 @@
# This is only WIP, idk how to make it only take
# 1 argument yet
_complete() {
local cur="${COMP_WORDS[COMP_CWORD]}"
# Only suggest *.csv and *.neoscim
COMPREPLY=($(compgen -f -X '!*.@(csv|nscim)' -- "$cur"))
}
complete -F _complete sc

21
readme/demo.nscim Normal file
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@@ -0,0 +1,21 @@
,,,
Most of vim's movement works here as well,,,
,,,
,i,,
j,Movement,l,
,j,,
,,,
,"insert text with r, i, or a",,
,,,
1,,,
1,Text can overflow cells,,
1,But may get cut off if it's too long,,10
1,,,If it reaches another cell
1,,,
Total:,=sum(A:A),Sum A:A,
,=math::log2(B14),Do math on the output of another function,
,,,
,,,
,,11,Number.
,,=C18+1,Referencing the number and adding 1
,,,Copying the cell down will translate the reference

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137
src/app/app.rs
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@@ -1,5 +1,9 @@
use std::{
cmp::{max, min}, collections::HashMap, fs, io, path::PathBuf, time::SystemTime
cmp::{max, min},
collections::HashMap,
fs, io,
path::PathBuf,
time::SystemTime,
};
use ratatui::{
@@ -14,7 +18,10 @@ use ratatui::{
use crate::app::{
clipboard::Clipboard,
error_msg::StatusMessage,
logic::{calc::Grid, cell::CellType},
logic::{
calc::{Grid, get_header_size},
cell::CellType,
},
mode::Mode,
screen::ScreenSpace,
};
@@ -38,7 +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)) = 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;
@@ -59,8 +66,12 @@ impl Widget for &App {
for x in 0..x_max {
for y in 0..y_max {
let mut display = String::new();
let mut style = Style::new().fg(Color::White);
let mut style = Style::new();
// Custom width for the header of each row
let row_header_width = get_header_size() as u16;
// ^^ Feels like it oculd be static but evaluating string lens doesn't work at
// compile time. Thus cannot be static.
let cell_width = self.screen.get_cell_width(&self.vars) as u16;
let cell_height = self.screen.get_cell_height(&self.vars) as u16;
@@ -76,16 +87,21 @@ impl Widget for &App {
y_idx = y as usize - 1 + self.screen.scroll_y();
}
if is_selected(x.into(), y.into()) {
style = style.fg(Color::LightMagenta).bg(Color::Blue);
}
const ORANGE1: Color = Color::Rgb(200, 160, 0);
const ORANGE2: Color = Color::Rgb(180, 130, 0);
let mut should_render = true;
let mut suggest_upper_bound = None;
/// 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>();
format!("{l_margin}{text}{r_margin}")
}
match (x == 0, y == 0) {
// 0,0 vi mode
(true, true) => {
@@ -94,7 +110,7 @@ impl Widget for &App {
}
// row names
(true, false) => {
display = y_idx.to_string();
display = center_text(&y_idx.to_string(), row_header_width as i32);
let bg = if y_idx == self.grid.cursor().1 {
Color::DarkGray
@@ -107,7 +123,7 @@ impl Widget for &App {
}
// column names
(false, true) => {
display = Grid::num_to_char(x_idx);
display = center_text(&Grid::num_to_char(x_idx), cell_width as i32);
let bg = if x_idx == self.grid.cursor().0 {
Color::DarkGray
@@ -123,14 +139,21 @@ impl Widget for &App {
(false, false) => {
match self.grid.get_cell_raw(x_idx, y_idx) {
Some(cell) => {
// Render in different colors based on type of contents
match cell {
CellType::Number(c) => display = c.to_string(),
CellType::String(s) => display = s.to_owned(),
CellType::String(s) => {
display = s.to_owned();
style = Style::new().fg(Color::LightMagenta)
}
CellType::Equation(e) => {
match self.grid.evaluate(e) {
Ok(val) => {
display = val.to_string();
style = Style::new()
.fg(Color::White)
// TODO This breaks dumb terminals like the windows
// terminal
.underline_color(Color::DarkGray)
.add_modifier(Modifier::UNDERLINED);
}
@@ -146,6 +169,7 @@ impl Widget for &App {
}
}
// Allow for text in one cell to visually overflow into empty cells
suggest_upper_bound = Some(display.len() as u16);
// check for cells to the right, see if we should truncate the cell width
for i in 1..(display.len() as f32 / cell_width as f32).ceil() as usize {
@@ -162,8 +186,15 @@ impl Widget for &App {
}
}
}
// Don't render blank cells
None => should_render = false,
}
if is_selected(x.into(), y.into()) {
style = style.bg(Color::Blue);
// Make it so that cells render when selected. This fixes issue #32
should_render = true;
}
if (x_idx, y_idx) == self.grid.cursor() {
should_render = true;
style = Style::new().fg(Color::Black).bg(Color::White);
@@ -174,11 +205,21 @@ impl Widget for &App {
}
}
}
if should_render {
let x_off = area.x + (x * cell_width);
let mut x_off = area.x + (x * cell_width);
let y_off = area.y + (y * cell_height);
let area = if let Some(suggestion) = suggest_upper_bound {
// Adjust for the fact that the first column
// is smaller, since it is just headers
if x > 0 {
x_off = x_off - (cell_width - row_header_width);
}
// If this is the row header column
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;
// draw the biggest cell possible, without going OOB off the screen
let width = min(max_available_width, suggestion as u16);
@@ -312,6 +353,21 @@ impl App {
fn handle_events(&mut self) -> io::Result<()> {
match &mut self.mode {
Mode::VisualCmd(pos, chord) => match event::read()? {
event::Event::Key(key) => match key.code {
event::KeyCode::Esc => self.mode = Mode::Visual(*pos),
event::KeyCode::Backspace => chord.backspace(),
event::KeyCode::Char(c) => chord.add_char(c),
event::KeyCode::Enter => {
// tmp is to get around reference issues.
let tmp = pos.clone();
Mode::process_cmd(self);
self.mode = Mode::Visual(tmp)
}
_ => {}
},
_ => {}
},
Mode::Chord(chord) => match event::read()? {
event::Event::Key(key) => match key.code {
event::KeyCode::Esc => self.mode = Mode::Normal,
@@ -334,17 +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;
}
@@ -360,10 +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");
}
},
_ => {}
},
_ => {}
@@ -381,20 +453,13 @@ impl App {
}
Mode::Command(editor) => match event::read()? {
event::Event::Key(key) => match key.code {
event::KeyCode::Esc => {
// just cancel the operation
self.mode = Mode::Normal;
}
event::KeyCode::Esc => self.mode = Mode::Normal,
event::KeyCode::Backspace => editor.backspace(),
event::KeyCode::Char(c) => editor.add_char(c),
event::KeyCode::Enter => {
Mode::process_cmd(self);
self.mode = Mode::Normal;
}
event::KeyCode::Backspace => {
editor.backspace();
}
event::KeyCode::Char(c) => {
editor.add_char(c);
}
_ => {}
},
_ => {}

104
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
@@ -49,24 +44,28 @@ impl Clipboard {
// cursor
let (cx, cy) = into.cursor();
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 {
// cell doesn't exist, no need to translate
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);
@@ -108,16 +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);
}
}
@@ -349,4 +351,48 @@ fn copy_paste_y_locked_var() {
Mode::process_key(&mut app, 'p');
let c = app.grid.get_cell("B2").as_ref().expect("Just set it");
assert_eq!(c.to_string(), "=B$0");
}
}
#[test]
fn copy_paste_var_in_function() {
let mut app = App::new();
app.grid.set_cell("A0", 4.to_string());
Mode::process_key(&mut app, 'j');
app.grid.set_cell("A1", "=math::log2(A0)".to_string());
app.mode = super::mode::Mode::Chord(Chord::new('y'));
Mode::process_key(&mut app, 'y');
Mode::process_key(&mut app, 'j');
Mode::process_key(&mut app, 'p');
let a = app.grid.get_cell("A2").as_ref().expect("Should've been set by paste");
assert_eq!(a.to_string(), "=math::log2(A1)");
}
#[test]
fn copy_paste_range_in_function() {
let mut app = App::new();
app.grid.set_cell("A0", 1.to_string());
app.grid.set_cell("A1", 1.to_string());
app.grid.set_cell("A2", 1.to_string());
app.grid.set_cell("B0", "=sum(A:A)".to_string());
app.grid.mv_cursor_to(1, 0);
app.mode = super::mode::Mode::Chord(Chord::new('y'));
Mode::process_key(&mut app, 'y');
Mode::process_key(&mut app, 'l');
Mode::process_key(&mut app, 'p');
let a = app.grid.get_cell("C0").as_ref().expect("Should've been set by paste");
assert_eq!(a.to_string(), "=sum(B:B)");
// now copy the range the other direction
app.grid.mv_cursor_to(2, 0);
app.mode = super::mode::Mode::Chord(Chord::new('y'));
Mode::process_key(&mut app, 'y');
app.grid.mv_cursor_to(1, 1);
Mode::process_key(&mut app, 'p');
let a = app.grid.get_cell("B1").as_ref().expect("Should've been set by paste");
assert_eq!(a.to_string(), "=sum(A:A)");
}

588
src/app/logic/calc.rs
View File

@@ -2,32 +2,134 @@ 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,
},
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 const LEN: usize = 1000;
pub fn get_header_size() -> usize {
let row_header_width = LEN.to_string().len();
row_header_width
}
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?
@@ -42,20 +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> {
@@ -63,14 +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;
@@ -81,7 +175,7 @@ impl Grid {
/// Save file to `path` as a csv. Path with have `csv` appended to it if it
/// does not already have the extension.
pub fn save_to(&mut self, path: impl Into<PathBuf>) -> std::io::Result<()> {
let path = path.into();
let mut path = path.into();
let resolve_values;
@@ -91,40 +185,45 @@ impl Grid {
resolve_values = true;
}
Some(CUSTOM_EXT) => {
resolve_values = true;
resolve_values = false;
}
_ => {
resolve_values = false;
// path.add_extension(CUSTOM_EXT);
// File as an extension but isn't ours.
// Save as csv-like
resolve_values = true;
}
},
None => {
// File has no extension. Save it as our file type
resolve_values = false;
// path.add_extension(CUSTOM_EXT);
path.add_extension(CUSTOM_EXT);
}
}
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 data = if let Some(cell) = cell {
if let Ok(val) = self.evaluate(&cell.to_string())
&& resolve_values
{
val.to_string()
format!("{}{}", val.to_string(), delim)
} else {
cell.escaped_csv_string()
format!("{}{}", cell.escaped_csv_string(), delim)
}
} else {
CSV_DELIMITER.to_string()
delim.to_string()
};
write!(f, "{data}")?;
}
write!(f, "\n")?;
}
f.flush()?;
@@ -132,6 +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
}
@@ -238,101 +371,59 @@ 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));
}
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 {
unimplemented!("Invalid variable wanted to be translated")
}
})
}) {
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));
}
pub fn insert_column_before(&mut self, (insertion_x, _y): (usize, usize)) {
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.
pub fn evaluate(&self, mut eq: &str) -> Result<f64, String> {
pub fn evaluate(&self, mut eq: &str) -> Result<CellType, String> {
if eq.starts_with('=') {
eq = &eq[1..];
} else {
@@ -346,11 +437,15 @@ impl Grid {
if v.is_number() {
if v.is_float() {
let val = v.as_float().expect("Value lied about being a float");
return Ok(val);
return Ok(CellType::Number(val));
} else if v.is_int() {
let i = v.as_int().expect("Value lied about being an int");
return Ok(i as f64);
let val = v.as_int().expect("Value lied about being an int");
return Ok(CellType::Number(val as f64));
}
} else if v.is_string() {
// ^^ This allows for functions to return a string
let s = v.as_string().expect("Value lied about being a String");
return Ok(CellType::String(s));
}
return Err("Result is NaN".to_string());
};
@@ -363,10 +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}"));
}
@@ -375,12 +467,22 @@ impl Grid {
}
}
pub fn char_to_idx(i: &str) -> usize {
let x_idx = i
.chars()
.filter(|f| f.is_alphabetic())
.enumerate()
.map(|(idx, c)| ((c.to_ascii_lowercase() as usize).saturating_sub(97)) + (26 * idx))
.fold(0, |a, b| a + b);
x_idx
}
/// Parse values in the format of A0, C10 ZZ99, etc, and
/// turn them into an X,Y index.
pub fn parse_to_idx(i: &str) -> Option<(usize, usize)> {
let i = i.replace('$', "");
let chars = i.chars().take_while(|c| c.is_alphabetic()).collect::<Vec<char>>();
let chars = i.chars().take_while(|c| c.is_alphabetic()).collect::<String>();
let nums = i.chars().skip(chars.len()).take_while(|c| c.is_numeric()).collect::<String>();
// At least half the arguments are gone
@@ -389,11 +491,7 @@ impl Grid {
}
// get the x index from the chars
let x_idx = chars
.iter()
.enumerate()
.map(|(idx, c)| (c.to_ascii_lowercase() as usize - 97) + (26 * idx))
.fold(0, |a, b| a + b);
let x_idx = Self::char_to_idx(&chars);
// get the y index from the numbers
if let Ok(y_idx) = nums.parse::<usize>() {
@@ -405,15 +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;
}
@@ -432,7 +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 {
@@ -459,12 +555,98 @@ impl Default for Grid {
}
}
#[test]
fn saving_csv() {
// setup grid
// This should be 1..10 in the A column, then
// 1^2..10^2 in the B column.
let mut app = App::new();
app.grid.set_cell("A0", 1.);
app.grid.set_cell("B0", "=A0^2".to_string());
app.grid.set_cell("A1", "=A0+A$0".to_string());
app.grid.set_cell("B1", "=A1^2".to_string());
app.grid.mv_cursor_to(0, 1);
app.mode = Mode::Visual(app.grid.cursor());
Mode::process_key(&mut app, 'l');
Mode::process_key(&mut app, 'y');
app.mode = Mode::Normal;
app.grid.mv_cursor_to(0, 2);
for _ in 0..10 {
Mode::process_key(&mut app, 'p');
}
// setup done
// insure that the cells are there
let cell = app.grid.get_cell_raw(0, 10).as_ref().expect("Should've been set");
let res = app.grid.evaluate(&cell.to_string()).expect("Should evaluate");
assert_eq!(res, (11.0).into());
assert_eq!(cell.escaped_csv_string(), "=A9+A$0");
let cell = app.grid.get_cell_raw(1, 10).as_ref().expect("Should've been set");
let res = app.grid.evaluate(&cell.to_string()).expect("Should evaluate");
assert_eq!(res, (121.0).into());
assert_eq!(cell.escaped_csv_string(), "=A10^2");
// set saving the file
let filename = "/tmp/file.csv";
app.grid.save_to(filename).expect("This will only work on linux systems");
let mut file = fs::OpenOptions::new().read(true).open(filename).expect("Just wrote the file");
let mut buf = String::new();
file.read_to_string(&mut buf).expect("Just opened the file");
let line = buf.lines().skip(10).next();
assert_eq!(line, Some("11,121"));
}
#[test]
fn saving_neoscim() {
// setup grid
// This should be 1..10 in the A column, then
// 1^2..10^2 in the B column.
let mut app = App::new();
app.grid.set_cell("A0", 1.);
app.grid.set_cell("B0", "=A0^2".to_string());
app.grid.set_cell("A1", "=A0+A$0".to_string());
app.grid.set_cell("B1", "=A1^2".to_string());
app.grid.mv_cursor_to(0, 1);
app.mode = Mode::Visual(app.grid.cursor());
Mode::process_key(&mut app, 'l');
Mode::process_key(&mut app, 'y');
app.mode = Mode::Normal;
app.grid.mv_cursor_to(0, 2);
for _ in 0..10 {
Mode::process_key(&mut app, 'p');
}
// setup done
// insure that the cells are there
let cell = app.grid.get_cell_raw(0, 10).as_ref().expect("Should've been set");
let res = app.grid.evaluate(&cell.to_string()).expect("Should evaluate");
assert_eq!(res, (11.0).into());
assert_eq!(cell.escaped_csv_string(), "=A9+A$0");
let cell = app.grid.get_cell_raw(1, 10).as_ref().expect("Should've been set");
let res = app.grid.evaluate(&cell.to_string()).expect("Should evaluate");
assert_eq!(res, (121.0).into());
assert_eq!(cell.escaped_csv_string(), "=A10^2");
// set saving the file
let filename = format!("/tmp/file.{CUSTOM_EXT}");
app.grid.save_to(&filename).expect("This will only work on linux systems");
let mut file = fs::OpenOptions::new().read(true).open(filename).expect("Just wrote the file");
let mut buf = String::new();
file.read_to_string(&mut buf).expect("Just opened the file");
let line = buf.lines().skip(10).next();
assert_eq!(line, Some("=A9+A$0,=A10^2"));
}
// Do cells hold strings?
#[test]
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());
@@ -487,6 +669,7 @@ fn alphanumeric_indexing() {
assert_eq!(Grid::parse_to_idx("A"), None);
assert_eq!(Grid::parse_to_idx(":"), None);
assert_eq!(Grid::parse_to_idx("="), None);
assert_eq!(Grid::parse_to_idx("A:A"), None);
assert_eq!(Grid::num_to_char(0).trim(), "A");
assert_eq!(Grid::num_to_char(25).trim(), "Z");
@@ -507,31 +690,31 @@ fn valid_equations() {
// cell math
let cell = grid.get_cell("C0").as_ref().expect("Just set it");
let res = grid.evaluate(&cell.to_string()).expect("Should evaluate.");
assert_eq!(res, 3.);
assert_eq!(res, (3.).into());
// divide floats
grid.set_cell("D0", "=5./2.".to_string());
let cell = grid.get_cell("D0").as_ref().expect("I just set this");
let res = grid.evaluate(&cell.to_string()).expect("Should be ok");
assert_eq!(res, 2.5);
assert_eq!(res, (2.5).into());
// Float / Int mix
grid.set_cell("D0", "=5./2".to_string());
let cell = grid.get_cell("D0").as_ref().expect("I just set this");
let res = grid.evaluate(&cell.to_string()).expect("Should be ok");
assert_eq!(res, 2.5);
assert_eq!(res, (2.5).into());
// divide "ints" (should become floats)
grid.set_cell("D0", "=5/2".to_string());
let cell = grid.get_cell("D0").as_ref().expect("I just set this");
let res = grid.evaluate(&cell.to_string()).expect("Should be ok");
assert_eq!(res, 2.5);
assert_eq!(res, (2.5).into());
// Non-equation that should still be valid
grid.set_cell("D0", "=10".to_string());
let cell = grid.get_cell("D0").as_ref().expect("I just set this");
let res = grid.evaluate(&cell.to_string()).expect("Should be ok");
assert_eq!(res, 10.);
assert_eq!(res, (10.).into());
}
// Cell = output of Cell = value of Cells.
@@ -548,7 +731,7 @@ fn fn_of_fn() {
let res = grid.evaluate(&cell.to_string());
assert!(res.is_ok());
assert_eq!(res.unwrap(), 6.);
assert_eq!(res.unwrap(), (6.).into());
return;
}
panic!("Cell not found");
@@ -584,7 +767,7 @@ fn invalid_equations() {
let cell = grid.get_cell("B0").as_ref().expect("Just set the cell");
let res = grid.evaluate(&cell.to_string());
assert!(res.is_ok());
assert!(res.is_ok_and(|v| v == 10.));
assert!(res.is_ok_and(|v| v == (10.).into()));
// Trailing comma in function call
grid.set_cell("A0", 5.);
@@ -592,7 +775,7 @@ fn invalid_equations() {
grid.set_cell("B0", "=avg(A0,A1,)".to_string());
let cell = grid.get_cell("B0").as_ref().expect("Just set the cell");
let res = grid.evaluate(&cell.to_string());
assert_eq!(res.unwrap(), 7.5);
assert_eq!(res.unwrap(), (7.5).into());
}
#[test]
@@ -600,17 +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);
}
@@ -623,19 +806,19 @@ fn avg_function() {
let cell = grid.get_cell("A0").as_ref().expect("Just set the cell");
let res = grid.evaluate(&cell.to_string());
assert!(res.is_ok());
assert_eq!(res.unwrap(), 5.);
assert_eq!(res.unwrap(), (5.).into());
grid.set_cell("A0", "=avg(5,10)".to_string());
let cell = grid.get_cell("A0").as_ref().expect("Just set the cell");
let res = grid.evaluate(&cell.to_string());
assert!(res.is_ok());
assert_eq!(res.unwrap(), 7.5);
assert_eq!(res.unwrap(), (7.5).into());
grid.set_cell("A0", "=avg(5,10,15)".to_string());
let cell = grid.get_cell("A0").as_ref().expect("Just set the cell");
let res = grid.evaluate(&cell.to_string());
assert!(res.is_ok());
assert_eq!(res.unwrap(), 10.);
assert_eq!(res.unwrap(), (10.).into());
grid.set_cell("A0", "=avg(foo)".to_string());
let cell = grid.get_cell("A0").as_ref().expect("Just set the cell");
@@ -661,13 +844,13 @@ fn sum_function() {
let cell = grid.get_cell("A0").as_ref().expect("Just set the cell");
let res = grid.evaluate(&cell.to_string());
assert!(res.is_ok());
assert_eq!(res.unwrap(), 5.);
assert_eq!(res.unwrap(), (5.).into());
grid.set_cell("A0", "=sum(5,10)".to_string());
let cell = grid.get_cell("A0").as_ref().expect("Just set the cell");
let res = grid.evaluate(&cell.to_string());
assert!(res.is_ok());
assert_eq!(res.unwrap(), 15.);
assert_eq!(res.unwrap(), (15.).into());
grid.set_cell("A0", "=sum(foo)".to_string());
let cell = grid.get_cell("A0").as_ref().expect("Just set the cell");
@@ -693,11 +876,11 @@ fn xlookup_function() {
grid.set_cell("A1", "Sarah".to_string());
grid.set_cell("C0", 31.);
grid.set_cell("C1", 41.);
grid.set_cell("B0", "=xlookup(A:A,\"Bobby\",C:C)".to_string());
grid.set_cell("B0", "=xlookup(\"Bobby\",A:A,C:C)".to_string());
let cell = grid.get_cell("B0").as_ref().expect("Just set the cell");
let res = grid.evaluate(&cell.to_string());
assert!(res.is_ok());
assert_eq!(res.unwrap(), 31.);
assert_eq!(res.unwrap(), (31.).into());
}
#[test]
@@ -751,6 +934,19 @@ fn parse_csv() {
);
}
#[test]
fn invalid_ranges() {
let mut grid = Grid::new();
grid.set_cell("A0", 2.);
grid.set_cell("A1", 1.);
// ASCII to number conversion needs to not overflow
grid.set_cell("B0", "=sum($:A)".to_string());
let cell = grid.get_cell("B0").as_ref().expect("Just set it");
let _ = grid.evaluate(&cell.to_string()).expect("Should evaluate.");
}
#[test]
fn ranges() {
let mut grid = Grid::new();
@@ -762,13 +958,13 @@ fn ranges() {
// range with numbers
let cell = grid.get_cell("B0").as_ref().expect("Just set it");
let res = grid.evaluate(&cell.to_string()).expect("Should evaluate.");
assert_eq!(res, 3.);
assert_eq!(res, (3.).into());
// use range output as input for other function
grid.set_cell("B1", "=B0*2".to_string());
let cell = grid.get_cell("B1").as_ref().expect("Just set it");
let res = grid.evaluate(&cell.to_string()).expect("Should evaluate.");
assert_eq!(res, 6.);
assert_eq!(res, (6.).into());
// use equation outputs as range input
grid.set_cell("A2", "=C0+1".to_string());
@@ -776,11 +972,11 @@ fn ranges() {
let cell = grid.get_cell("A2").as_ref().expect("Just set it");
let res = grid.evaluate(&cell.to_string()).expect("Should evaluate.");
assert_eq!(res, 6.);
assert_eq!(res, (6.).into());
let cell = grid.get_cell("B0").as_ref().expect("Just set it");
let res = grid.evaluate(&cell.to_string()).expect("Should evaluate.");
assert_eq!(res, 9.);
assert_eq!(res, (9.).into());
// use function outputs as range input
grid.set_cell("B1", 2.);
@@ -789,7 +985,7 @@ fn ranges() {
let cell = grid.get_cell("C0").as_ref().expect("Just set it");
let res = grid.evaluate(&cell.to_string()).expect("Should evaluate.");
assert_eq!(res, 5.);
assert_eq!(res, (5.).into());
// use range outputs as range input
grid.set_cell("D0", "=sum(C:C)".to_string());
@@ -797,13 +993,21 @@ fn ranges() {
let cell = grid.get_cell("D0").as_ref().expect("Just set it");
let res = grid.evaluate(&cell.to_string()).expect("Should evaluate.");
assert_eq!(res, 6.);
assert_eq!(res, (6.).into());
}
#[test]
fn recursive_ranges() {
// recursive ranges causes weird behavior
// todo!();
let mut grid = Grid::new();
grid.set_cell("A1", 1.);
grid.set_cell("B1", 2.);
grid.set_cell("B0", "=sum(A:A)".to_string());
grid.set_cell("A0", "=sum(B:B)".to_string());
let cell = grid.get_cell("B0").as_ref().expect("Just set it");
let res = grid.evaluate(&cell.to_string());
assert!(res.is_err());
}
#[test]
@@ -940,7 +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$0".to_string());
@@ -959,6 +1163,34 @@ fn cell_eval_depth() {
assert_eq!(c.to_string(), "=A5+$A$0");
let res = app.grid.evaluate(&c.to_string()).expect("Should evaluate");
assert_eq!(res, 7.);
assert_eq!(res, (7.).into());
}
#[test]
fn return_string_from_fn() {
let mut grid = Grid::new();
grid.set_cell("A0", "=if(2>1, \"A\", \"B\")".to_string()); // true, A
grid.set_cell("A1", "=if(1>2, \"A\", \"B\")".to_string()); // false, B
let cell = grid.get_cell("A0").as_ref().expect("Just set the cell");
let res = grid.evaluate(&cell.to_string());
assert!(res.is_ok());
if let Ok(f) = res {
if let CellType::String(s) = f {
assert_eq!("A", s);
} else {
unreachable!();
}
}
let cell = grid.get_cell("A1").as_ref().expect("Just set the cell");
let res = grid.evaluate(&cell.to_string());
assert!(res.is_ok());
if let Ok(f) = res {
if let CellType::String(s) = f {
assert_eq!("B", s);
} else {
unreachable!();
}
}
}

83
src/app/logic/cell.rs
View File

@@ -38,9 +38,9 @@ impl CellType {
// escape string of it has a comma
if display.contains(CSV_DELIMITER) {
format!("\"{display}\"{CSV_DELIMITER}")
format!("\"{display}\"")
} else {
format!("{display}{CSV_DELIMITER}")
display
}
}
@@ -54,42 +54,46 @@ impl CellType {
}
}
/// `replace_fn` takes the string, the old value, and then the new value.
/// It can be thought of as `echo $1 | sed s/$2/$3/g`
pub fn custom_translate_cell(&self, from: (usize, usize), to: (usize, usize), replace_fn: impl Fn(&str, &str, &str) -> String) -> CellType {
match self {
// don't translate non-equations
CellType::Number(_) | CellType::String(_) => return self.clone(),
CellType::Equation(eq) => {
// extract all the variables
// Populate the context
let ctx = ExtractionContext::new();
let _ = eval_with_context(eq, &ctx);
let _ = eval_with_context(&eq[1..], &ctx);
let mut rolling = eq.clone();
let mut equation = eq.clone();
// translate standard vars A0 -> A1
// extract all the variables
for old_var in ctx.dump_vars() {
let mut lock_x = false;
let mut lock_y = false;
if old_var.contains('$') {
let locations = old_var.char_indices().filter(|(_, c)| *c == '$').map(|(i, _)| i).collect::<Vec<usize>>();
let locations = old_var
.char_indices()
.filter(|(_, c)| *c == '$').map(|(i, _)| i)
.collect::<Vec<usize>>();
match locations.len() {
1 => {
if locations[0] == 0 {
// locking the X axis (A,B,C...)
lock_x = true;
} else if locations[0] < old_var.len() {
} else {
// inside the string somewhere, gonna assume this means to lock Y (1,2,3...)
lock_y = true;
} else {
// where tf is this dollar sign?
// (It's somewhere malformed, like A0$ or something)
}
}
2 => {
// YOLO, lock both X & Y
continue; // just pretend you never even saw this var
// Ignore this variable all together, effectively lockng X & Y
continue;
}
_ => {
// There are 0 or >2 "$" in this string.
//
// Could probably optimize the code or something so you only go over the string
// once, instead of contains() then getting the indexes of where it is.
// You could then put your no-$ code here.
@@ -98,6 +102,7 @@ impl CellType {
}
if let Some((src_x, src_y)) = Grid::parse_to_idx(&old_var) {
// Use i32s instead of usize in case of negative numbers
let (x1, y1) = from;
let x1 = x1 as i32;
let y1 = y1 as i32;
@@ -120,6 +125,7 @@ impl CellType {
let alpha = Grid::num_to_char(dest_x);
let alpha = alpha.trim();
// Persist the "$" locking
let new_var = if lock_x {
format!("${alpha}{dest_y}")
} else if lock_y {
@@ -128,15 +134,48 @@ impl CellType {
format!("{alpha}{dest_y}")
};
// swap out vars
rolling = replace_fn(&rolling, &old_var, &new_var);
equation = replace_fn(&equation, &old_var, &new_var);
// rolling = rolling.replace(&old_var, &new_var);
} else {
// why you coping invalid stuff, nerd?
//
// could be copying a range
if old_var.contains(':') {
let parts = old_var.split(':').collect::<Vec<&str>>();
// This means the var was formatted as X:X
if parts.len() == 2 {
// how far is the movement?
let dx = to.0 as i32 - from.0 as i32;
let range_start = parts[0];
let range_end = parts[1];
// get the letters as numbers
let xs = Grid::char_to_idx(range_start) as i32;
let xe = Grid::char_to_idx(range_end) as i32;
// apply movement
let mut new_range_start = xs+dx;
let mut new_range_end = xe+dx;
// bottom out at 0
if new_range_start < 0 {
new_range_start = 0;
}
if new_range_end < 0 {
new_range_end = 0;
}
// convert the index back into a letter and then submit it
let start = Grid::num_to_char(new_range_start as usize);
let end = Grid::num_to_char(new_range_end as usize);
equation = replace_fn(&equation, &old_var, &format!("{}:{}", start.trim(), end.trim()));
}
}
}
}
return rolling.into();
return equation.into();
}
}
}
@@ -156,3 +195,15 @@ impl Display for CellType {
write!(f, "{d}")
}
}
impl PartialEq for CellType {
fn eq(&self, other: &Self) -> bool {
match (self, other) {
(Self::Number(left), Self::Number(right)) => left == right,
(Self::String(left), Self::String(right)) => left == right,
(Self::Equation(left), Self::Equation(right)) => left == right,
_ => false,
}
}
}

44
src/app/logic/ctx.rs
View File

@@ -24,7 +24,7 @@ impl<'a> CallbackContext<'a> {
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 - 97) + (26 * idx))
.map(|(idx, c)| ((c.to_ascii_lowercase() as usize).saturating_sub(97)) + (26 * idx))
.fold(0, |a, b| a + b)
};
@@ -34,8 +34,8 @@ impl<'a> CallbackContext<'a> {
let mut buf = Vec::new();
for x in start_idx..=end_idx {
for y in 0..=self.variables.max_y_at_x(x) {
if let Some(s) = self.variables.get_cell_raw(x, y) {
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);
}
}
@@ -104,13 +104,13 @@ impl<'a> CallbackContext<'a> {
functions.insert(
"xlookup".to_string(),
Function::new(|arg| {
let expected = vec![ValueType::Tuple, ValueType::String, ValueType::Tuple];
let expected = vec![ValueType::String, ValueType::Tuple, ValueType::Tuple];
if arg.is_tuple() {
let args = arg.as_tuple()?;
if args.len() == 3 {
let lookup_array = &args[0];
let lookup_value = &args[1];
let lookup_value = &args[0];
let lookup_array = &args[1];
let return_array = &args[2];
if lookup_array.is_tuple() && return_array.is_tuple() {
@@ -162,8 +162,8 @@ impl<'a> Context for CallbackContext<'a> {
}
if let Ok(mut trail) = self.eval_breadcrumbs.write() {
let find = trail.iter().filter(|id| *id == identifier).collect::<Vec<&String>>();
if find.len() > 0 {
let find = trail.iter().filter(|id| *id == identifier).count();
if find > 0 {
// recursion detected
return None;
} else {
@@ -195,7 +195,7 @@ impl<'a> Context for CallbackContext<'a> {
},
Err(e) => {
match e {
EvalexprError::VariableIdentifierNotFound(_) => {
EvalexprError::VariableIdentifierNotFound(_err) => {
// If the variable isn't found, that's ~~probably~~ because
// of recursive reference, considering all references
// are grabbed straight from the table.
@@ -217,8 +217,14 @@ impl<'a> Context for CallbackContext<'a> {
CellType::Number(e) => vals.push(Value::Float(*e)),
CellType::String(s) => vals.push(Value::String(s.to_owned())),
CellType::Equation(eq) => {
if let Ok(val) = eval_with_context(&eq[1..], self) {
vals.push(val);
match eval_with_context(&eq[1..], self) {
Ok(val) => vals.push(val),
Err(_err) => {
// At this point we are getting an error because
// recursion protection made this equation return
// None. We now don't get any evaluation.
return None
},
}
}
}
@@ -270,10 +276,19 @@ impl ExtractionContext {
}
}
pub fn dump_vars(&self) -> Vec<String> {
if let Ok(r) = self.var_registry.read() { r.clone() } else { Vec::new() }
if let Ok(r) = self.var_registry.read() {
r.clone()
} else {
Vec::new()
}
}
#[allow(dead_code)]
pub fn dump_fns(&self) -> Vec<String> {
if let Ok(r) = self.fn_registry.read() { r.clone() } else { Vec::new() }
if let Ok(r) = self.fn_registry.read() {
r.clone()
} else {
Vec::new()
}
}
}
@@ -301,8 +316,7 @@ impl Context for ExtractionContext {
} else {
panic!("The RwLock should always be write-able")
}
// Ok(Value::Int(1))
unimplemented!("Extracting function identifier not implemented yet")
Ok(Value::Int(1))
}
fn are_builtin_functions_disabled(&self) -> bool {

199
src/app/mode.rs
View File

@@ -1,5 +1,9 @@
use std::{
cmp::{max, min}, fmt::Display, fs, path::PathBuf
cmp::{max, min},
fmt::Display,
fs,
path::PathBuf,
process::Command,
};
use ratatui::{
@@ -12,7 +16,7 @@ use crate::app::{
app::App,
error_msg::StatusMessage,
logic::{
calc::{CSV_EXT, CUSTOM_EXT, LEN},
calc::{Grid, LEN},
cell::CellType,
},
};
@@ -23,6 +27,7 @@ pub enum Mode {
Normal,
Command(Chord),
Visual((usize, usize)),
VisualCmd((usize, usize), Chord),
}
impl Display for Mode {
@@ -33,6 +38,7 @@ impl Display for Mode {
Mode::Chord(_) => write!(f, "CHORD"),
Mode::Command(_) => write!(f, "COMMAND"),
Mode::Visual(_) => write!(f, "VISUAL"),
Mode::VisualCmd(_, _) => write!(f, "V-CMD"),
}
}
}
@@ -43,6 +49,7 @@ impl Mode {
// Where you are typing
Mode::Insert(_) => Style::new().fg(Color::White).bg(Color::Blue),
Mode::Command(_) => Style::new().fg(Color::Black).bg(Color::Magenta),
Mode::VisualCmd(_, _) => Style::new().fg(Color::Black).bg(Color::Yellow),
Mode::Chord(_) => Style::new().fg(Color::Black).bg(Color::LightBlue),
// Movement-based modes
Mode::Visual(_) => Style::new().fg(Color::Yellow),
@@ -64,25 +71,11 @@ impl Mode {
"w" => {
// first try the passed argument as file
if let Some(arg) = args.get(1) {
let mut path: PathBuf = arg.into();
match path.extension() {
Some(s) => {
match s.to_str() {
// leave the file alone, it already has
// a valid extension
Some(CSV_EXT) | Some(CUSTOM_EXT) => {}
_ => {
path.add_extension(CUSTOM_EXT);
}
}
}
None => {
path.add_extension(CUSTOM_EXT);
}
};
let path: PathBuf = arg.into();
// TODO Check if the file exists, but the program wasn't opened with it. We might be accidentally overwriting something else.
// let mut file = fs::OpenOptions::new().write(true).append(false).truncate(true).create(true).open(path)?;
// TODO Check if the file we are writing to exists, since
// this code path already knows that we are writing to a new file.
// We might be accidentally overwriting something else.
if let Err(e) = app.grid.save_to(&path) {
app.msg = StatusMessage::error(format!("{e}"));
@@ -143,6 +136,105 @@ impl Mode {
_ => {}
}
}
if let Mode::VisualCmd(pos, editor) = &mut app.mode {
let cmd = &editor.as_string()[1..];
let args = cmd.split_ascii_whitespace().collect::<Vec<&str>>();
if args.is_empty() {
return;
}
// These values are going to be used in probably all
// the commands related to ranges, we will just write
// logic here first, once.
let (x1, y1) = pos;
let (x1, y1) = (*x1, *y1);
let (x2, y2) = app.grid.cursor();
let (low_x, hi_x) = if x1 < x2 { (x1, x2) } else { (x2, x1) };
let (low_y, hi_y) = if y1 < y2 { (y1, y2) } else { (y2, y1) };
let mut save_range = |to: &str| {
let mut g = Grid::new();
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");
}
};
let get_project_name = || {
if let Some(file) = &app.file {
if let Some(name) = file.file_name() {
if let Some(name) = name.to_str() {
return name;
}
}
}
return "unknown";
};
match args[0] {
"f" | "fill" => {
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
}
"export" => {
if let Some(arg1) = args.get(1) {
save_range(&arg1);
} else {
app.msg = StatusMessage::error("export <path.csv>")
}
app.mode = Mode::Normal
}
"plot" => {
// 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" };
save_range("/tmp/plot.csv");
let plot = include_str!("../../template.gnuplot");
let s = plot.replace("$FILE", "/tmp/plot.csv");
let s = s.replace("$TITLE", get_project_name());
let s = s.replace("$XLABEL", "hard-coded x");
let s = s.replace("$YLABEL", "hard-coded y");
let s = s.replace("$OUTPUT", "/tmp/output.png");
let _ = fs::write("/tmp/plot.p", s);
let cmd_res = Command::new("gnuplot").arg("/tmp/plot.p").output();
if let Err(err) = cmd_res {
match err.kind() {
std::io::ErrorKind::NotFound => {
app.msg = StatusMessage::error("Error - Is gnuplot installed?")
}
_ => app.msg = StatusMessage::error(format!("{err}")),
};
} else {
let _ = fs::copy("/tmp/output.png", output_filename);
app.msg = StatusMessage::info(format!("Created {output_filename}. Artifacts are in /tmp"));
}
app.mode = Mode::Normal
}
_ => {}
}
}
}
pub fn process_key(app: &mut App, key: char) {
@@ -178,6 +270,18 @@ impl Mode {
app.grid.mv_cursor_to(0, y);
return;
}
// Go to end of row
'$' => {
let (_, y) = app.grid.cursor();
app.grid.mv_cursor_to(super::logic::calc::LEN, y);
return;
}
// Go to bottom of column
'G' => {
let (x, _) = app.grid.cursor();
app.grid.mv_cursor_to(x, super::logic::calc::LEN);
return;
}
// edit cell
'i' | 'a' => {
let (x, y) = app.grid.cursor();
@@ -211,7 +315,18 @@ impl Mode {
app.grid.insert_row_above(app.grid.cursor());
}
'v' => app.mode = Mode::Visual(app.grid.cursor()),
':' => app.mode = Mode::Command(Chord::new(':')),
':' => {
if let Self::Visual(pos) = app.mode {
app.mode = Mode::VisualCmd(pos, Chord::new(':'));
} else {
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());
@@ -285,6 +400,34 @@ impl Mode {
app.grid.mv_cursor_to(x, 0);
app.mode = Mode::Normal;
}
// Go to the bottom of the current window
("g", 'G') => {
let (x, _) = app.grid.cursor();
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.mode = Mode::Normal;
return;
}
// Go to the right edge of the current window
("g", '$') => {
let (_, y) = app.grid.cursor();
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.mode = Mode::Normal;
}
// Go to the left edge of the current window
("g", '0') => {
let (_, y) = app.grid.cursor();
let x_origin = app.screen.scroll_x();
app.grid.mv_cursor_to(x_origin, y);
app.mode = Mode::Normal;
return;
}
// center screen to cursor
("z", 'z') => {
app.screen.center_x(app.grid.cursor(), &app.vars);
@@ -323,15 +466,16 @@ impl Mode {
}
}
}
// IDK why it works but it does. Keystrokes are process somewhere else?
// Keys are process in the handle_event method in App for these
Mode::Insert(_chord) => {}
Mode::Command(_chord) => {}
Mode::VisualCmd(_pos, _chord) => {}
}
}
pub fn chars_to_display(&self, cell: &Option<CellType>) -> u16 {
let len = match &self {
Mode::Insert(edit) | Mode::Command(edit) | Mode::Chord(edit) => edit.len(),
Mode::Insert(edit) | Mode::VisualCmd(_, edit) | Mode::Command(edit) | Mode::Chord(edit) => edit.len(),
Mode::Normal => {
let len = cell.as_ref().map(|f| f.to_string().len()).unwrap_or_default();
len
@@ -360,6 +504,7 @@ impl Mode {
area,
),
Mode::Visual(_) => {}
Mode::VisualCmd(_, editor) => f.render_widget(editor, area),
}
}
}
@@ -371,9 +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 }
}
}
@@ -382,9 +525,7 @@ impl Chord {
let mut buf = Vec::new();
buf.push(inital);
Self {
buf,
}
Self { buf }
}
pub fn backspace(&mut self) {

109
src/app/screen.rs
View File

@@ -5,9 +5,12 @@ use ratatui::prelude;
use crate::app::logic::calc::LEN;
pub struct ScreenSpace {
/// This is measured in cells
/// This is measured in cells.
/// This is the top-left cell index.
scroll: (usize, usize),
/// In chars
default_cell_len: usize,
/// In chars
default_cell_hight: usize,
/// This is measured in chars
last_seen_screen_size: RwLock<(usize, usize)>
@@ -17,74 +20,84 @@ impl ScreenSpace {
pub fn new() -> Self {
Self {
scroll: (0, 0),
default_cell_len: 10,
default_cell_len: 9,
default_cell_hight: 1,
last_seen_screen_size: RwLock::new((0,0))
}
}
pub fn center_x(&mut self, (cursor_x, _): (usize, usize), vars: &HashMap<String, String>) {
if let Ok(screen_size) = self.last_seen_screen_size.read() {
let x_cells = (screen_size.0 / self.get_cell_width(vars) as usize) -2;
let x_center = self.scroll_x() + (x_cells/2);
let (x_cells, _) = self.get_screen_size(vars);
let x_center = self.scroll_x() + (x_cells/2);
let delta = cursor_x as isize - x_center as isize;
self.scroll.0 = self.scroll.0.saturating_add_signed(delta);
}
let delta = cursor_x as isize - x_center as isize;
self.scroll.0 = self.scroll.0.saturating_add_signed(delta);
}
pub fn center_y(&mut self, (_, cursor_y): (usize, usize), vars: &HashMap<String, String>) {
if let Ok(screen_size) = self.last_seen_screen_size.read() {
let y_cells = (screen_size.1 / self.get_cell_height(vars) as usize) -2;
let y_center = self.scroll_y() + (y_cells/2);
let (_, y_cells) = self.get_screen_size(vars);
let y_center = self.scroll_y() + (y_cells/2);
let delta = cursor_y as isize - y_center as isize;
self.scroll.1 = self.scroll.1.saturating_add_signed(delta);
}
let delta = cursor_y as isize - y_center as isize;
self.scroll.1 = self.scroll.1.saturating_add_signed(delta);
}
pub fn scroll_based_on_cursor_location(&mut self, (cursor_x, cursor_y): (usize, usize), vars: &HashMap<String, String>) {
/// In chars
pub fn get_screen_size(&self, vars: &HashMap<String, String>) -> (usize, usize) {
if let Ok(screen_size) = self.last_seen_screen_size.read() {
// ======= X =======
// screen seems to be 2 cells smaller than it should be
// this is probably related to issue #6
let x_cells = (screen_size.0 / self.get_cell_width(vars) as usize) -2;
let lower_x = self.scroll_x();
let upper_x = self.scroll_x() + x_cells;
if cursor_x < lower_x {
let delta = lower_x - cursor_x;
self.scroll.0 = self.scroll.0.saturating_sub(delta);
}
if cursor_x > upper_x {
let delta = cursor_x - upper_x;
self.scroll.0 = self.scroll.0.saturating_add(delta);
}
// ======= Y =======
// screen seems to be 2 cells smaller than it should be
// this is probably related to issue #6
let y_cells = (screen_size.1 / self.get_cell_height(vars) as usize) -2;
let lower_y = self.scroll_y();
let upper_y = self.scroll_y() + y_cells;
(x_cells,y_cells)
} else {
(0,0)
}
}
if cursor_y < lower_y {
let delta = lower_y - cursor_y;
self.scroll.1 = self.scroll.1.saturating_sub(delta);
}
pub fn scroll_based_on_cursor_location(&mut self, (cursor_x, cursor_y): (usize, usize), vars: &HashMap<String, String>) {
let (x_cells, y_cells) = self.get_screen_size(vars);
if cursor_y > upper_y {
let delta = cursor_y - upper_y;
self.scroll.1 = self.scroll.1.saturating_add(delta);
}
let lower_x = self.scroll_x();
let upper_x = self.scroll_x() + x_cells;
if cursor_x < lower_x {
let delta = lower_x - cursor_x;
self.scroll.0 = self.scroll.0.saturating_sub(delta);
}
if cursor_x > upper_x {
let delta = cursor_x - upper_x;
self.scroll.0 = self.scroll.0.saturating_add(delta);
}
let lower_y = self.scroll_y();
let upper_y = self.scroll_y() + y_cells;
if cursor_y < lower_y {
let delta = lower_y - cursor_y;
self.scroll.1 = self.scroll.1.saturating_sub(delta);
}
if cursor_y > upper_y {
let delta = cursor_y - upper_y;
self.scroll.1 = self.scroll.1.saturating_add(delta);
}
}
pub fn scroll_x(&self) -> usize {
self.scroll.0
}
pub fn scroll_y(&self) -> usize{
self.scroll.1
}
pub fn get_cell_height(&self, vars: &HashMap<String, String>) -> usize {
if let Some(h) = vars.get("height") {
if let Ok(p) = h.parse::<usize>() {
@@ -93,6 +106,7 @@ impl ScreenSpace {
}
return self.default_cell_hight
}
pub fn get_cell_width(&self, vars: &HashMap<String, String>) -> usize {
if let Some(h) = vars.get("length") {
if let Ok(p) = h.parse::<usize>() {
@@ -100,19 +114,34 @@ impl ScreenSpace {
}
}
self.default_cell_len
}
pub fn how_many_cells_fit_in(&self, area: &prelude::Rect, vars: &HashMap<String, String>) -> (u16, u16) {
if let Ok(mut l) = self.last_seen_screen_size.write() {
l.0 = area.width as usize;
l.1 = area.height as usize;
}
// let width = (area.width as usize + calc::get_header_size() -1) / self.get_cell_width(vars);
let width = area.width as usize / self.get_cell_width(vars);
let height = area.height as usize / self.get_cell_height(vars);
let x_max =
if area.width as usize / self.get_cell_width(vars) > LEN { LEN - 1 } else { area.width as usize / self.get_cell_width(vars)};
if width > LEN {
LEN - 1
} else {
width
};
let y_max =
if area.height as usize / self.get_cell_height(vars) > LEN { LEN - 1 } else { area.height as usize / self.get_cell_height(vars)};
if height > LEN {
LEN - 1
} else {
height
};
(x_max as u16, y_max as u16)
}
}
#[test]

18
template.gnuplot Normal file
View File

@@ -0,0 +1,18 @@
datafile = '$FILE'
set datafile separator ','
set title '$TITLE'
set key autotitle columnhead
set xlabel "$XLABEL"
set ylabel "$YLABEL"
set style line 1 linewidth 2 linecolor 1 pointtype 7 pointsize 1.5
set autoscale
set grid
set term png size 1280, 720
set output '$OUTPUT'
plot datafile using 1:2 with linespoints linestyle 1
# plot datafile using 1:2 with linespoints linestyle 1, datafile using 1:3, etc...
replot