init

author: Akshay <[email protected]> 2021-03-12 14:54:55 +0000
committer: Akshay <[email protected]> 2021-03-12 14:54:55 +0000
commit: 9f0dc65dabff2a1e443199ed68292398dcb390b1 (patch)
tree: 17b29a4315df3d5caaa967b079c3d459063c0de9 /src/app.rs
1 files changed, 447 insertions, 0 deletions
diff --git a/src/app.rs b/src/app.rs
new file mode 100644
index 0000000..84d884f
--- /dev/null
+++ b/src/app.rs
@@ -0,0 +1,447 @@
+use crate::undo::{ModifyRecord, OpKind, Operation, UndoStack};
+use sdl2::{
+    event::Event,
+    keyboard::Keycode,
+    mouse::MouseButton,
+    pixels::Color,
+    rect::{Point, Rect},
+    render::Canvas,
+    video::Window,
+    Sdl,
+};
+use crate::consts::{BLACK, GRID_COLOR, WHITE};
+pub struct AppState<'ctx> {
+    start: Point,
+    width: u32,
+    height: u32,
+    data: Vec<bool>,
+    zoom: u8,
+    brush_size: u8,
+    grid: Grid,
+    context: &'ctx Sdl,
+    canvas: Canvas<Window>,
+    last_point: Option<Point>,
+    active_color: bool,
+    undo_stack: UndoStack<Operation>,
+    current_operation: Operation,
+}
+struct Grid {
+    enabled: bool,
+    color: Color,
+}
+impl Grid {
+    fn new() -> Self {
+        Self {
+            enabled: true,
+            color: GRID_COLOR,
+        }
+    }
+}
+// private actions on appstate
+impl<'ctx> AppState<'ctx> {
+    fn pan<P: Into<Point>>(&mut self, direction: P) {
+        self.start += direction.into();
+    }
+    fn bounds(&self) -> (Point, Point) {
+        let x_min = self.start.x();
+        let y_min = self.start.y();
+        let x_max = self.start.x() + (self.width * self.zoom as u32) as i32;
+        let y_max = self.start.y() + (self.height * self.zoom as u32) as i32;
+        return (
+            Point::new(x_min, y_min),
+            Point::new(x_max as i32, y_max as i32),
+        );
+    }
+    fn change_active_color(&mut self) {
+        self.active_color = !self.active_color;
+    }
+    fn idx_at_coord<P: Into<Point>>(&self, p: P) -> Option<(u32, u32)> {
+        let p: Point = p.into();
+        if self.within_canvas(p) {
+            // convert p relative to start of drawing area
+            let rel_p = p - self.start;
+            // reduce p based on zoom and cell size
+            let (sx, sy) = (rel_p.x() / self.zoom as i32, rel_p.y() / self.zoom as i32);
+            return Some((sx as u32, sy as u32));
+        } else {
+            None
+        }
+    }
+    fn within_canvas<P: Into<Point>>(&self, p: P) -> bool {
+        let p: Point = p.into();
+        let (mini, maxi) = self.bounds();
+        p.x() < maxi.x() && p.y() < maxi.y() && p.x() >= mini.x() && p.y() >= mini.y()
+    }
+    fn within_grid<P: Into<Point>>(&self, p: P) -> bool {
+        let p = p.into();
+        let (x, y) = (p.x(), p.y());
+        x >= 0 && x < self.width as i32 && y >= 0 && y < self.height as i32
+    }
+    fn set_at<P: Into<Point>>(&mut self, p: P, val: bool) -> Result<ModifyRecord, ()> {
+        let p: Point = p.into();
+        if let Some((x, y)) = self.idx_at_coord(p) {
+            let old_val = self.data[(y * self.width + x) as usize];
+            self.data[(y * self.width + x) as usize] = val;
+            return Ok(ModifyRecord::new((x as i32, y as i32), old_val, val));
+        }
+        return Err(());
+    }
+    fn set_with_absolute<P: Into<Point>>(&mut self, p: P, val: bool) -> Result<ModifyRecord, ()> {
+        let p: Point = p.into();
+        let (x, y) = (p.x(), p.y());
+        if self.within_grid(p) {
+            let idx = y as u32 * self.width + x as u32;
+            let old_val = self.data[idx as usize];
+            self.data[idx as usize] = val;
+            return Ok(ModifyRecord::new((x as i32, y as i32), old_val, val));
+        }
+        return Err(());
+    }
+    fn toggle_grid(&mut self) {
+        self.grid.enabled = !self.grid.enabled;
+    }
+    fn paint_point<P: Into<Point>>(
+        &mut self,
+        center: P,
+        val: bool,
+    ) -> Result<Vec<ModifyRecord>, ()> {
+        let radius = self.brush_size;
+        if radius == 1 {
+            return Ok(self.set_at(center, val).map(|x| vec![x])?);
+        } else {
+            if let Some(center_on_grid) = self.idx_at_coord(center) {
+                // center_on_grid is now a coordinate on the drawing grid
+                let (x0, y0) = (center_on_grid.0 as i64, center_on_grid.1 as i64);
+                let (mut dx, mut dy, mut err) = (radius as i64, 0i64, 1 - radius as i64);
+                let mut circle = vec![];
+                let mut old_vals = vec![];
+                while dx >= dy {
+                    circle.push((x0 + dx, y0 + dy));
+                    circle.push((x0 - dx, y0 + dy));
+                    circle.push((x0 + dx, y0 - dy));
+                    circle.push((x0 - dx, y0 - dy));
+                    circle.push((x0 + dy, y0 + dx));
+                    circle.push((x0 - dy, y0 + dx));
+                    circle.push((x0 + dy, y0 - dx));
+                    circle.push((x0 - dy, y0 - dx));
+                    dy = dy + 1;
+                    if err < 0 {
+                        err = err + 2 * dy + 1;
+                    } else {
+                        dx -= 1;
+                        err += 2 * (dy - dx) + 1;
+                    }
+                }
+                // circle's insides
+                for x in 0..radius as i64 {
+                    for y in 0..radius as i64 {
+                        if x.pow(2) + y.pow(2) < (radius as i64).pow(2) {
+                            circle.push((x0 + x, y0 + y));
+                            circle.push((x0 - x, y0 + y));
+                            circle.push((x0 + x, y0 - y));
+                            circle.push((x0 - x, y0 - y));
+                        }
+                    }
+                }
+                dbg!(&circle);
+                for (x, y) in circle {
+                    if self.within_grid((x as i32, y as i32)) {
+                        let idx = y as u32 * self.width + x as u32;
+                        old_vals.push(ModifyRecord::new(
+                            (x as i32, y as i32),
+                            self.data[idx as usize],
+                            val,
+                        ));
+                        self.data[idx as usize] = val;
+                    }
+                }
+                return Ok(old_vals);
+            }
+        }
+        return Err(());
+    }
+    fn draw_line<P: Into<Point>>(&mut self, to: P) {
+        let to = to.into();
+        let from = self.last_point.unwrap_or(to.into());
+    }
+    fn apply_operation(&mut self, op: Operation, op_kind: OpKind) -> Result<(), ()> {
+        for ModifyRecord {
+            point,
+            old_val,
+            val,
+        } in op.into_iter()
+        {
+            self.set_with_absolute(
+                point,
+                match op_kind {
+                    OpKind::Undo => old_val,
+                    OpKind::Redo => val,
+                },
+            )?;
+        }
+        Ok(())
+    }
+    fn zoom_in(&mut self, p: (i32, i32)) {
+        // attempt to center around cursor
+        if let Some(p) = self.idx_at_coord(p) {
+            let (x1, y1) = (p.0 * (self.zoom as u32), p.1 * (self.zoom as u32));
+            let (x2, y2) = (p.0 * (1 + self.zoom as u32), p.1 * (1 + self.zoom as u32));
+            let diffx = x2 as i32 - x1 as i32;
+            let diffy = y2 as i32 - y1 as i32;
+            self.start = self.start - Point::from((diffx, diffy));
+        }
+        self.zoom += 1;
+    }
+    fn increase_brush_size(&mut self) {
+        self.brush_size += 1;
+    }
+    fn descrease_brush_size(&mut self) {
+        if self.brush_size > 1 {
+            self.brush_size -= 1;
+        }
+    }
+    fn zoom_out(&mut self, p: (i32, i32)) {
+        if self.zoom > 1 {
+            // attempt to center around cursor
+            if let Some(p) = self.idx_at_coord(p) {
+                let (x1, y1) = (p.0 * (self.zoom as u32), p.1 * (self.zoom as u32));
+                let (x2, y2) = (p.0 * (self.zoom as u32 - 1), p.1 * (self.zoom as u32 - 1));
+                let diffx = x2 as i32 - x1 as i32;
+                let diffy = y2 as i32 - y1 as i32;
+                self.start = self.start - Point::from((diffx, diffy));
+            }
+            self.zoom -= 1;
+        }
+    }
+    fn draw_grid(&mut self) {
+        let cs = self.zoom as u32;
+        let canvas = &mut self.canvas;
+        canvas.set_draw_color(self.grid.color);
+        for i in 0..=self.width {
+            let x = (i * cs) as i32;
+            let y = (self.height * cs) as i32;
+            let start = self.start + Point::new(x, 0);
+            let end = self.start + Point::new(x, y);
+            canvas.draw_line(start, end).unwrap();
+        }
+        for j in 0..=self.height {
+            let x = (self.width * cs) as i32;
+            let y = (j * cs) as i32;
+            let start = self.start + Point::new(0, y);
+            let end = self.start + Point::new(x, y);
+            canvas.draw_line(start, end).unwrap();
+        }
+    }
+    fn draw(&mut self) {
+        let cs = self.zoom as u32;
+        if self.grid.enabled {
+            self.draw_grid();
+        }
+        let canvas = &mut self.canvas;
+        for (idx, val) in self.data.iter().enumerate() {
+            if *val {
+                let idx = idx as i32;
+                let (x, y) = (idx % self.width as i32, idx / self.height as i32);
+                canvas.set_draw_color(WHITE);
+                canvas
+                    .fill_rect(Rect::new(
+                        // start drawing 1 pixel after the grid line
+                        x * cs as i32 + self.start.x() + 1,
+                        y * cs as i32 + self.start.y() + 1,
+                        // stop drawing 1 pixel before the grid line
+                        cs - 1,
+                        cs - 1,
+                    ))
+                    .unwrap();
+            }
+        }
+    }
+    fn modify<F>(&mut self, func: F)
+    where
+        F: FnOnce(&mut Self),
+    {
+        func(self);
+        self.canvas.set_draw_color(Color::RGB(0, 0, 0));
+        self.canvas.clear();
+        self.canvas.set_draw_color(Color::RGB(64, 64, 64));
+        self.draw();
+        self.canvas.present();
+    }
+}
+// publicly available functions on appstate
+impl<'ctx> AppState<'ctx> {
+    pub fn init(width: u32, height: u32, context: &'ctx Sdl) -> Self {
+        let video_subsystem = context.video().unwrap();
+        let window = video_subsystem
+            .window("Pixel editor", 200, 200)
+            .position_centered()
+            .opengl()
+            .build()
+            .map_err(|e| e.to_string())
+            .unwrap();
+        let canvas = window
+            .into_canvas()
+            .build()
+            .map_err(|e| e.to_string())
+            .unwrap();
+        let data = vec![false; (width * height) as usize];
+        Self {
+            start: Point::new(60, 60),
+            width,
+            height,
+            data,
+            zoom: 5,
+            brush_size: 1,
+            grid: Grid::new(),
+            canvas,
+            context,
+            last_point: None,
+            active_color: true,
+            undo_stack: UndoStack::new(),
+            current_operation: Vec::new(),
+        }
+    }
+    pub fn run(&mut self) {
+        self.canvas.set_draw_color(BLACK);
+        self.canvas.clear();
+        self.draw();
+        self.canvas.present();
+        let mut event_pump = self.context.event_pump().unwrap();
+        'running: loop {
+            let mouse = event_pump.mouse_state();
+            for event in event_pump.poll_iter() {
+                match event {
+                    Event::KeyDown {
+                        keycode: Some(k), ..
+                    } => {
+                        match k {
+                            // pan
+                            Keycode::W => self.modify(|e| e.pan((0, 10))),
+                            Keycode::A => self.modify(|e| e.pan((10, 0))),
+                            Keycode::S => self.modify(|e| e.pan((0, -10))),
+                            Keycode::D => self.modify(|e| e.pan((-10, 0))),
+                            // zoom
+                            Keycode::C => {
+                                let cursor = (mouse.x(), mouse.y());
+                                self.modify(|e| e.zoom_in(cursor));
+                            }
+                            Keycode::Z => {
+                                let cursor = (mouse.x(), mouse.y());
+                                self.modify(|e| e.zoom_out(cursor));
+                            }
+                            // brush ops
+                            Keycode::Q => self.modify(|e| e.descrease_brush_size()),
+                            Keycode::E => self.modify(|e| e.increase_brush_size()),
+                            // flip color
+                            Keycode::X => self.modify(|e| e.change_active_color()),
+                            // toggle grid
+                            Keycode::Tab => self.modify(|e| e.toggle_grid()),
+                            // exit
+                            Keycode::Escape => break 'running,
+                            // undo & redo
+                            Keycode::U => self.modify(|e| {
+                                if let Some(op) = e.undo_stack.undo() {
+                                    e.apply_operation(op, OpKind::Undo);
+                                }
+                            }),
+                            Keycode::R => self.modify(|e| {
+                                if let Some(op) = e.undo_stack.redo() {
+                                    e.apply_operation(op, OpKind::Redo);
+                                }
+                            }),
+                            _ => (),
+                        }
+                    }
+                    // start of operation
+                    Event::MouseButtonDown {
+                        x, y, mouse_btn, ..
+                    } => {
+                        self.modify(|e| {
+                            let pt = (x, y);
+                            e.last_point = Some(pt.into());
+                            let val = match mouse_btn {
+                                MouseButton::Right => !e.active_color,
+                                _ => e.active_color,
+                            };
+                            if let Ok(o) = e.paint_point(pt, val) {
+                                e.current_operation.extend(o);
+                            }
+                        });
+                    }
+                    // click and drag
+                    Event::MouseMotion {
+                        x, y, mousestate, ..
+                    } => {
+                        let is_left = mousestate.is_mouse_button_pressed(MouseButton::Left);
+                        let is_right = mousestate.is_mouse_button_pressed(MouseButton::Right);
+                        if is_left {
+                            self.modify(|e| {
+                                let pt = (x, y);
+                                let val = e.active_color;
+                                if let Ok(o) = e.paint_point(pt, val) {
+                                    e.current_operation.extend(o);
+                                }
+                            });
+                        } else if is_right {
+                            self.modify(|e| {
+                                let pt = (x, y);
+                                let val = !e.active_color;
+                                if let Ok(o) = e.paint_point(pt, val) {
+                                    e.current_operation.extend(o);
+                                }
+                            });
+                        }
+                    }
+                    // end of operation
+                    Event::MouseButtonUp { .. } => self.modify(|e| {
+                        dbg!(&e.current_operation.len());
+                        let op = e
+                            .current_operation
+                            .drain(..)
+                            .filter(|v| !v.old_val == v.val)
+                            .collect::<Vec<_>>();
+                        e.undo_stack.push(op);
+                        dbg!(&e.undo_stack);
+                    }),
+                    Event::Quit { .. } => {
+                        break 'running;
+                    }
+                    _ => {
+                        self.modify(|_| ());
+                    }
+                }
+            }
+        }
+    }
+}
author	Akshay <[email protected]>	2021-03-12 14:54:55 +0000
committer	Akshay <[email protected]>	2021-03-12 14:54:55 +0000
commit	9f0dc65dabff2a1e443199ed68292398dcb390b1 (patch)
tree	17b29a4315df3d5caaa967b079c3d459063c0de9 /src/app.rs

diff --git a/src/app.rs b/src/app.rs new file mode 100644 index 0000000..84d884f --- /dev/null +++ b/src/app.rs
@@ -0,0 +1,447 @@
	1	use crate::undo::{ModifyRecord, OpKind, Operation, UndoStack};
	2
	3	use sdl2::{
	4	event::Event,
	5	keyboard::Keycode,
	6	mouse::MouseButton,
	7	pixels::Color,
	8	rect::{Point, Rect},
	9	render::Canvas,
	10	video::Window,
	11	Sdl,
	12	};
	13
	14	use crate::consts::{BLACK, GRID_COLOR, WHITE};
	15
	16	pub struct AppState<'ctx> {
	17	start: Point,
	18	width: u32,
	19	height: u32,
	20	data: Vec<bool>,
	21	zoom: u8,
	22	brush_size: u8,
	23	grid: Grid,
	24	context: &'ctx Sdl,
	25	canvas: Canvas<Window>,
	26	last_point: Option<Point>,
	27	active_color: bool,
	28	undo_stack: UndoStack<Operation>,
	29	current_operation: Operation,
	30	}
	31
	32	struct Grid {
	33	enabled: bool,
	34	color: Color,
	35	}
	36
	37	impl Grid {
	38	fn new() -> Self {
	39	Self {
	40	enabled: true,
	41	color: GRID_COLOR,
	42	}
	43	}
	44	}
	45
	46	// private actions on appstate
	47	impl<'ctx> AppState<'ctx> {
	48	fn pan<P: Into<Point>>(&mut self, direction: P) {
	49	self.start += direction.into();
	50	}
	51
	52	fn bounds(&self) -> (Point, Point) {
	53	let x_min = self.start.x();
	54	let y_min = self.start.y();
	55	let x_max = self.start.x() + (self.width * self.zoom as u32) as i32;
	56	let y_max = self.start.y() + (self.height * self.zoom as u32) as i32;
	57	return (
	58	Point::new(x_min, y_min),
	59	Point::new(x_max as i32, y_max as i32),
	60	);
	61	}
	62
	63	fn change_active_color(&mut self) {
	64	self.active_color = !self.active_color;
	65	}
	66
	67	fn idx_at_coord<P: Into<Point>>(&self, p: P) -> Option<(u32, u32)> {
	68	let p: Point = p.into();
	69	if self.within_canvas(p) {
	70	// convert p relative to start of drawing area
	71	let rel_p = p - self.start;
	72	// reduce p based on zoom and cell size
	73	let (sx, sy) = (rel_p.x() / self.zoom as i32, rel_p.y() / self.zoom as i32);
	74	return Some((sx as u32, sy as u32));
	75	} else {
	76	None
	77	}
	78	}
	79
	80	fn within_canvas<P: Into<Point>>(&self, p: P) -> bool {
	81	let p: Point = p.into();
	82	let (mini, maxi) = self.bounds();
	83	p.x() < maxi.x() && p.y() < maxi.y() && p.x() >= mini.x() && p.y() >= mini.y()
	84	}
	85
	86	fn within_grid<P: Into<Point>>(&self, p: P) -> bool {
	87	let p = p.into();
	88	let (x, y) = (p.x(), p.y());
	89	x >= 0 && x < self.width as i32 && y >= 0 && y < self.height as i32
	90	}
	91
	92	fn set_at<P: Into<Point>>(&mut self, p: P, val: bool) -> Result<ModifyRecord, ()> {
	93	let p: Point = p.into();
	94	if let Some((x, y)) = self.idx_at_coord(p) {
	95	let old_val = self.data[(y * self.width + x) as usize];
	96	self.data[(y * self.width + x) as usize] = val;
	97	return Ok(ModifyRecord::new((x as i32, y as i32), old_val, val));
	98	}
	99	return Err(());
	100	}
	101
	102	fn set_with_absolute<P: Into<Point>>(&mut self, p: P, val: bool) -> Result<ModifyRecord, ()> {
	103	let p: Point = p.into();
	104	let (x, y) = (p.x(), p.y());
	105	if self.within_grid(p) {
	106	let idx = y as u32 * self.width + x as u32;
	107	let old_val = self.data[idx as usize];
	108	self.data[idx as usize] = val;
	109	return Ok(ModifyRecord::new((x as i32, y as i32), old_val, val));
	110	}
	111	return Err(());
	112	}
	113
	114	fn toggle_grid(&mut self) {
	115	self.grid.enabled = !self.grid.enabled;
	116	}
	117
	118	fn paint_point<P: Into<Point>>(
	119	&mut self,
	120	center: P,
	121	val: bool,
	122	) -> Result<Vec<ModifyRecord>, ()> {
	123	let radius = self.brush_size;
	124	if radius == 1 {
	125	return Ok(self.set_at(center, val).map(\|x\| vec![x])?);
	126	} else {
	127	if let Some(center_on_grid) = self.idx_at_coord(center) {
	128	// center_on_grid is now a coordinate on the drawing grid
	129	let (x0, y0) = (center_on_grid.0 as i64, center_on_grid.1 as i64);
	130	let (mut dx, mut dy, mut err) = (radius as i64, 0i64, 1 - radius as i64);
	131	let mut circle = vec![];
	132	let mut old_vals = vec![];
	133	while dx >= dy {
	134	circle.push((x0 + dx, y0 + dy));
	135	circle.push((x0 - dx, y0 + dy));
	136	circle.push((x0 + dx, y0 - dy));
	137	circle.push((x0 - dx, y0 - dy));
	138	circle.push((x0 + dy, y0 + dx));
	139	circle.push((x0 - dy, y0 + dx));
	140	circle.push((x0 + dy, y0 - dx));
	141	circle.push((x0 - dy, y0 - dx));
	142	dy = dy + 1;
	143	if err < 0 {
	144	err = err + 2 * dy + 1;
	145	} else {
	146	dx -= 1;
	147	err += 2 * (dy - dx) + 1;
	148	}
	149	}
	150	// circle's insides
	151	for x in 0..radius as i64 {
	152	for y in 0..radius as i64 {
	153	if x.pow(2) + y.pow(2) < (radius as i64).pow(2) {
	154	circle.push((x0 + x, y0 + y));
	155	circle.push((x0 - x, y0 + y));
	156	circle.push((x0 + x, y0 - y));
	157	circle.push((x0 - x, y0 - y));
	158	}
	159	}
	160	}
	161	dbg!(&circle);
	162	for (x, y) in circle {
	163	if self.within_grid((x as i32, y as i32)) {
	164	let idx = y as u32 * self.width + x as u32;
	165	old_vals.push(ModifyRecord::new(
	166	(x as i32, y as i32),
	167	self.data[idx as usize],
	168	val,
	169	));
	170	self.data[idx as usize] = val;
	171	}
	172	}
	173	return Ok(old_vals);
	174	}
	175	}
	176	return Err(());
	177	}
	178
	179	fn draw_line<P: Into<Point>>(&mut self, to: P) {
	180	let to = to.into();
	181	let from = self.last_point.unwrap_or(to.into());
	182	}
	183
	184	fn apply_operation(&mut self, op: Operation, op_kind: OpKind) -> Result<(), ()> {
	185	for ModifyRecord {
	186	point,
	187	old_val,
	188	val,
	189	} in op.into_iter()
	190	{
	191	self.set_with_absolute(
	192	point,
	193	match op_kind {
	194	OpKind::Undo => old_val,
	195	OpKind::Redo => val,
	196	},
	197	)?;
	198	}
	199	Ok(())
	200	}
	201
	202	fn zoom_in(&mut self, p: (i32, i32)) {
	203	// attempt to center around cursor
	204	if let Some(p) = self.idx_at_coord(p) {
	205	let (x1, y1) = (p.0 * (self.zoom as u32), p.1 * (self.zoom as u32));
	206	let (x2, y2) = (p.0 * (1 + self.zoom as u32), p.1 * (1 + self.zoom as u32));
	207	let diffx = x2 as i32 - x1 as i32;
	208	let diffy = y2 as i32 - y1 as i32;
	209	self.start = self.start - Point::from((diffx, diffy));
	210	}
	211	self.zoom += 1;
	212	}
	213
	214	fn increase_brush_size(&mut self) {
	215	self.brush_size += 1;
	216	}
	217
	218	fn descrease_brush_size(&mut self) {
	219	if self.brush_size > 1 {
	220	self.brush_size -= 1;
	221	}
	222	}
	223
	224	fn zoom_out(&mut self, p: (i32, i32)) {
	225	if self.zoom > 1 {
	226	// attempt to center around cursor
	227	if let Some(p) = self.idx_at_coord(p) {
	228	let (x1, y1) = (p.0 * (self.zoom as u32), p.1 * (self.zoom as u32));
	229	let (x2, y2) = (p.0 * (self.zoom as u32 - 1), p.1 * (self.zoom as u32 - 1));
	230	let diffx = x2 as i32 - x1 as i32;
	231	let diffy = y2 as i32 - y1 as i32;
	232	self.start = self.start - Point::from((diffx, diffy));
	233	}
	234	self.zoom -= 1;
	235	}
	236	}
	237
	238	fn draw_grid(&mut self) {
	239	let cs = self.zoom as u32;
	240	let canvas = &mut self.canvas;
	241	canvas.set_draw_color(self.grid.color);
	242	for i in 0..=self.width {
	243	let x = (i * cs) as i32;
	244	let y = (self.height * cs) as i32;
	245	let start = self.start + Point::new(x, 0);
	246	let end = self.start + Point::new(x, y);
	247	canvas.draw_line(start, end).unwrap();
	248	}
	249	for j in 0..=self.height {
	250	let x = (self.width * cs) as i32;
	251	let y = (j * cs) as i32;
	252	let start = self.start + Point::new(0, y);
	253	let end = self.start + Point::new(x, y);
	254	canvas.draw_line(start, end).unwrap();
	255	}
	256	}
	257
	258	fn draw(&mut self) {
	259	let cs = self.zoom as u32;
	260	if self.grid.enabled {
	261	self.draw_grid();
	262	}
	263	let canvas = &mut self.canvas;
	264	for (idx, val) in self.data.iter().enumerate() {
	265	if *val {
	266	let idx = idx as i32;
	267	let (x, y) = (idx % self.width as i32, idx / self.height as i32);
	268	canvas.set_draw_color(WHITE);
	269	canvas
	270	.fill_rect(Rect::new(
	271	// start drawing 1 pixel after the grid line
	272	x * cs as i32 + self.start.x() + 1,
	273	y * cs as i32 + self.start.y() + 1,
	274	// stop drawing 1 pixel before the grid line
	275	cs - 1,
	276	cs - 1,
	277	))
	278	.unwrap();
	279	}
	280	}
	281	}
	282
	283	fn modify<F>(&mut self, func: F)
	284	where
	285	F: FnOnce(&mut Self),
	286	{
	287	func(self);
	288	self.canvas.set_draw_color(Color::RGB(0, 0, 0));
	289	self.canvas.clear();
	290	self.canvas.set_draw_color(Color::RGB(64, 64, 64));
	291	self.draw();
	292	self.canvas.present();
	293	}
	294	}
	295
	296	// publicly available functions on appstate
	297	impl<'ctx> AppState<'ctx> {
	298	pub fn init(width: u32, height: u32, context: &'ctx Sdl) -> Self {
	299	let video_subsystem = context.video().unwrap();
	300
	301	let window = video_subsystem
	302	.window("Pixel editor", 200, 200)
	303	.position_centered()
	304	.opengl()
	305	.build()
	306	.map_err(\|e\| e.to_string())
	307	.unwrap();
	308
	309	let canvas = window
	310	.into_canvas()
	311	.build()
	312	.map_err(\|e\| e.to_string())
	313	.unwrap();
	314
	315	let data = vec![false; (width * height) as usize];
	316	Self {
	317	start: Point::new(60, 60),
	318	width,
	319	height,
	320	data,
	321	zoom: 5,
	322	brush_size: 1,
	323	grid: Grid::new(),
	324	canvas,
	325	context,
	326	last_point: None,
	327	active_color: true,
	328	undo_stack: UndoStack::new(),
	329	current_operation: Vec::new(),
	330	}
	331	}
	332
	333	pub fn run(&mut self) {
	334	self.canvas.set_draw_color(BLACK);
	335	self.canvas.clear();
	336	self.draw();
	337	self.canvas.present();
	338
	339	let mut event_pump = self.context.event_pump().unwrap();
	340
	341	'running: loop {
	342	let mouse = event_pump.mouse_state();
	343	for event in event_pump.poll_iter() {
	344	match event {
	345	Event::KeyDown {
	346	keycode: Some(k), ..
	347	} => {
	348	match k {
	349	// pan
	350	Keycode::W => self.modify(\|e\| e.pan((0, 10))),
	351	Keycode::A => self.modify(\|e\| e.pan((10, 0))),
	352	Keycode::S => self.modify(\|e\| e.pan((0, -10))),
	353	Keycode::D => self.modify(\|e\| e.pan((-10, 0))),
	354	// zoom
	355	Keycode::C => {
	356	let cursor = (mouse.x(), mouse.y());
	357	self.modify(\|e\| e.zoom_in(cursor));
	358	}
	359	Keycode::Z => {
	360	let cursor = (mouse.x(), mouse.y());
	361	self.modify(\|e\| e.zoom_out(cursor));
	362	}
	363	// brush ops
	364	Keycode::Q => self.modify(\|e\| e.descrease_brush_size()),
	365	Keycode::E => self.modify(\|e\| e.increase_brush_size()),
	366	// flip color
	367	Keycode::X => self.modify(\|e\| e.change_active_color()),
	368	// toggle grid
	369	Keycode::Tab => self.modify(\|e\| e.toggle_grid()),
	370	// exit
	371	Keycode::Escape => break 'running,
	372	// undo & redo
	373	Keycode::U => self.modify(\|e\| {
	374	if let Some(op) = e.undo_stack.undo() {
	375	e.apply_operation(op, OpKind::Undo);
	376	}
	377	}),
	378	Keycode::R => self.modify(\|e\| {
	379	if let Some(op) = e.undo_stack.redo() {
	380	e.apply_operation(op, OpKind::Redo);
	381	}
	382	}),
	383	_ => (),
	384	}
	385	}
	386	// start of operation
	387	Event::MouseButtonDown {
	388	x, y, mouse_btn, ..
	389	} => {
	390	self.modify(\|e\| {
	391	let pt = (x, y);
	392	e.last_point = Some(pt.into());
	393	let val = match mouse_btn {
	394	MouseButton::Right => !e.active_color,
	395	_ => e.active_color,
	396	};
	397	if let Ok(o) = e.paint_point(pt, val) {
	398	e.current_operation.extend(o);
	399	}
	400	});
	401	}
	402	// click and drag
	403	Event::MouseMotion {
	404	x, y, mousestate, ..
	405	} => {
	406	let is_left = mousestate.is_mouse_button_pressed(MouseButton::Left);
	407	let is_right = mousestate.is_mouse_button_pressed(MouseButton::Right);
	408	if is_left {
	409	self.modify(\|e\| {
	410	let pt = (x, y);
	411	let val = e.active_color;
	412	if let Ok(o) = e.paint_point(pt, val) {
	413	e.current_operation.extend(o);
	414	}
	415	});
	416	} else if is_right {
	417	self.modify(\|e\| {
	418	let pt = (x, y);
	419	let val = !e.active_color;
	420	if let Ok(o) = e.paint_point(pt, val) {
	421	e.current_operation.extend(o);
	422	}
	423	});
	424	}
	425	}
	426	// end of operation
	427	Event::MouseButtonUp { .. } => self.modify(\|e\| {
	428	dbg!(&e.current_operation.len());
	429	let op = e
	430	.current_operation
	431	.drain(..)
	432	.filter(\|v\| !v.old_val == v.val)
	433	.collect::<Vec<_>>();
	434	e.undo_stack.push(op);
	435	dbg!(&e.undo_stack);
	436	}),
	437	Event::Quit { .. } => {
	438	break 'running;
	439	}
	440	_ => {
	441	self.modify(\|_\| ());
	442	}
	443	}
	444	}
	445	}
	446	}
	447	}