Updates to make it a bit more of a cogent standalone product

src/main.rs

@@ -1,3 +1,8 @@
+// Intended to be used with a 1.3" OLED
+// resolution is 128*64
+// 
+
+
 #![no_std]
 #![no_main]
 
@@ -24,6 +29,7 @@ use crate::sprite::*;
 #[used]
 pub static BOOT_LOADER: [u8; 256] = rp2040_boot2::BOOT_LOADER_W25Q080;
 
+#[allow(unused)]
 #[repr(u8)]
 #[derive(PartialEq, Copy, Clone)]
 enum SH1106Cmd {
@@ -36,7 +42,7 @@ enum SH1106Cmd {
     SetPage = 0xB0,
 }
 
-const SH1106_ADDR:u8 = 0x78u8 >> 1;
+const SH1106_I2C_ADDR:u8 = 0x78u8 >> 1;
 
 #[rp2040_hal::entry]
 fn main() -> ! {
@@ -74,14 +80,7 @@ fn main() -> ! {
     );
 
 
-    // Configure two pins as being I²C, not GPIO
-    // let sda_pin: Pin<_, FunctionI2C, PullUp> = pins.gpio0.reconfigure();
-    // let scl_pin: Pin<_, FunctionI2C, PullUp> = pins.gpio1.reconfigure();
-    // let not_an_scl_pin: Pin<_, FunctionI2C, PullUp> = pins.gpio20.reconfigure();
-
-    // Create the I²C drive, using the two pre-configured pins. This will fail
-    // at compile time if the pins are in the wrong mode, or if this I²C
-    // peripheral isn't available on these pins!
+    // Create the I²C drive, using the two pre-configured pins.
     let mut i2c = hal::I2C::i2c0(
         pac.I2C0,
         pins.gpio8.reconfigure(),
@@ -107,29 +106,17 @@ fn main() -> ! {
 
     let mut gfx_buf = [0u8; 8192];
 
-    // gfx_buf.copy_from_slice(&TILES[0..8192]);
-
-
-
     let sprite_atlas = SpriteAtlas::new(include_bytes!("../sprites/sprites_atlas.bin"));
 
     let mut sprites = [Sprite::new(); 30];
 
-    // for (i, sprite) in sprites.iter_mut().enumerate() {
-    //     sprite.sprite_index = i+30;
-
-    //     let i = i as i32;
-    //     sprite.x = (i*10) % 128;
-    //     sprite.y = (i*10) % 64;
-    //     sprite.x_vel = i % 3 - 2;
-    //     sprite.y_vel = i % 4 - 1;
-    // }
-
     sprites[0].sprite_index = 94;
     sprites[0].x = 90;
     sprites[0].y = 30;
     sprites[0].visible = true;
 
+    let mut scanline = 0u8;
+
     loop {
 
         gfx_buf.iter_mut().for_each(|x| *x = 0);
@@ -144,9 +131,18 @@ fn main() -> ! {
 
         sprite_atlas.draw_textfield(10, 20, 110, 10, "I think this font has a *lot* of 'character'! ;)", &mut gfx_buf);
 
+        draw_bresenham_line(0, scanline, 128, scanline, &mut gfx_buf);
+        draw_bresenham_line(0, 64, 127, 64, &mut gfx_buf);
+        draw_bresenham_line(0, 63, 128, 63, &mut gfx_buf);
+        draw_bresenham_line(0, 0, 0, 63, &mut gfx_buf);
+        draw_bresenham_line(127, 0, 127, 63, &mut gfx_buf);
         blit_framebuffer(&mut i2c, &gfx_buf);
 
         delay.delay_ms(1);
+        // scanline += 1;
+        // if scanline >= 64 {
+        //     scanline = 0;
+        // }
     }
 }
 
@@ -155,11 +151,16 @@ fn draw_bresenham_line(
     x1: u8, y1: u8,
     gfx_buf: &mut [u8; 8192],
 ) {
-    let mut dx = x1 as i32 - x0 as i32;
-    let mut dy = y1 as i32 - y0 as i32;
+    let x0 = (x0 as i32).clamp(0,127);
+    let x1 = (x1 as i32).clamp(0, 127);
+    let y0 = (y0 as i32).clamp(0, 63);
+    let y1 = (y1 as i32).clamp(0, 63);
 
-    let mut x = x0 as i32;
-    let mut y = y0 as i32;
+    let mut dx = x1 - x0;
+    let mut dy = y1 - y0;
+
+    let mut x = x0;
+    let mut y = y0;
 
     let mut err = 0;
 
@@ -241,32 +242,6 @@ fn blit_framebuffer(
     
 }
 
-// as our display is in 8 pages of 128 columns, we need to transform the graphic
-// to match the display's orientation
-// fn transform_hcompress_graphic(graphic: [u8; 1024]) -> [u8; 1024] {
-
-//     let mut cel:[u8;8];
-//     let mut transformed_graphic = [0u8;1024];
-
-//     for row in 0..8 {
-//         for x in 0..16 {
-//             cel = [0u8; 8];
-//             for y in 0..8 {
-//                 let byte = graphic[(row*8+y)*16+x];
-
-//                 for i in 0..8 {
-//                     cel[i] |= ((byte & (0b1000_0000 >> i)) << i) >> y;
-//                 }
-//             }
-
-//             transformed_graphic[row*128+x*8..row*128+x*8+8].copy_from_slice(&cel[0..8]);
-//             // transformed_graphic[x*8..x*8+8].copy_from_slice(&cel[0..8]);
-//         }
-//     }
-
-//     transformed_graphic
-// }
-
 fn set_col(i2c: &mut hal::I2C<pac::I2C0, (Pin<Gpio8, FunctionI2C, PullUp>, Pin<Gpio9, FunctionI2C, PullUp>)>,
             col: u8) {
     let col_lo = col & 0b0000_1111;
@@ -287,7 +262,7 @@ fn clr_screen(i2c: &mut hal::I2C<pac::I2C0, (Pin<Gpio8, FunctionI2C, PullUp>, Pi
     writebuf[0] = 0b0100_0000;
 
     for i in 0..8 {
-        match i2c.write(SH1106_ADDR, &writebuf) {
+        match i2c.write(SH1106_I2C_ADDR, &writebuf) {
             _ => ()
         };
 
@@ -305,7 +280,7 @@ fn write_cel_pixels(
     writebuf[0] = 0b0100_0000;
     writebuf[1..].copy_from_slice(&data[0..8]);
 
-    match i2c.write(SH1106_ADDR, &writebuf) {
+    match i2c.write(SH1106_I2C_ADDR, &writebuf) {
         _ => ()
     };
 }
@@ -319,7 +294,7 @@ fn send_command(i2c: &mut hal::I2C<pac::I2C0, (Pin<Gpio8, FunctionI2C, PullUp>,
     writebuf[0] = 0b1000_0000;
     writebuf[1] = (command.clone() as u8) | data;
 
-    match i2c.write(SH1106_ADDR, &writebuf) {
+    match i2c.write(SH1106_I2C_ADDR, &writebuf) {
         _ => ()
     };
 }