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MyStitcher/src/main.rs
olymrifki b88ff96b32 connect to csharp
2025-07-07 16:07:14 +07:00

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Rust
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use fast_image_resize as fr;
use fr::{PixelType, ResizeAlg, ResizeOptions, Resizer, images::Image};
use futures::future::join_all;
use std::{
cell::UnsafeCell,
env,
io::Cursor,
ops::{Bound, RangeBounds},
path::Path,
};
use tokio::{
fs,
io::{AsyncReadExt, AsyncWriteExt},
};
use tokio::{io::BufReader, net::TcpListener};
#[tokio::main]
async fn main() -> Result<(), Box<dyn std::error::Error>> {
dotenv::dotenv().ok();
let listener = TcpListener::bind("127.0.0.1:8080").await?;
println!("Server listening on port 8080");
loop {
let (socket, _) = listener.accept().await?;
tokio::spawn(async move {
let timer_start = std::time::Instant::now();
if let Err(e) = handle_client(socket).await {
println!("Error: {}", e);
} else {
println!("Data sent");
}
let duration = timer_start.elapsed();
println!("Operation completed in: {:.2?}", duration);
});
}
}
async fn handle_client(
mut socket: tokio::net::TcpStream,
) -> Result<(), Box<dyn std::error::Error>> {
println!("Incoming request");
let mut reader = BufReader::new(&mut socket);
let rect_len = reader.read_u16_le().await?;
let mut rect_buf = vec![0u8; rect_len as usize];
reader.read_exact(&mut rect_buf).await?;
let rect = String::from_utf8(rect_buf)?;
let offset_x = reader.read_f32_le().await?;
let size_x = reader.read_f32_le().await?;
let offset_y = reader.read_f32_le().await?;
let size_y = reader.read_f32_le().await?;
let scale = reader.read_f32_le().await?;
println!("Parsed values:");
println!(" rect: {rect}");
println!(" offset_x: {offset_x}");
println!(" size_x: {size_x}");
println!(" offset_y: {offset_y}");
println!(" size_y: {size_y}");
println!(" scale: {scale}");
let mut result_buffer = Vec::new();
stitch_and_resize_image(
&mut result_buffer,
&rect,
scale,
offset_x,
offset_y,
size_x,
size_y,
)
.await;
socket.write_all(&result_buffer).await.unwrap();
Ok(())
}
async fn stitch_and_resize_image(
out: &mut Vec<u8>,
rect: &str,
scale: f32,
offset_x: f32,
offset_y: f32,
size_x: f32,
size_y: f32,
) {
let mut rect = rect.split(":");
const SIZE: u32 = 720;
let actual_size = (SIZE as f32 * scale).trunc() as u32;
let start = rect.next().unwrap();
let end = rect.next().unwrap();
let (start_col_s, start_row) = split_before_number(start);
let start_col = column_to_number(start_col_s);
let start_row = start_row.parse::<u32>().unwrap();
let (end_col_s, end_row) = split_before_number(end);
let end_col = column_to_number(end_col_s);
let end_row = end_row.parse::<u32>().unwrap();
let col_count = end_col - start_col + 1;
let row_count = end_row - start_row + 1;
let canvas_width = (row_count * actual_size) as usize;
let canvas_height = (col_count * actual_size) as usize;
let canvas = UnsafeVec::new(vec![0u8; canvas_width * canvas_height * 3]);
let min_row = start_row + (row_count as f32 * offset_x).floor() as u32;
let max_row = start_row + (row_count as f32 * (offset_x + size_x)).floor() as u32;
let min_col = start_col + (col_count as f32 * offset_y).floor() as u32;
let max_col = start_col + (col_count as f32 * (offset_y + size_y)).floor() as u32;
let mut handles = Vec::new();
for i in start_col..=end_col {
for j in start_row..=end_row {
if i < min_col {
continue;
}
if i > max_col {
continue;
}
if j < min_row {
continue;
}
if j > max_row {
continue;
}
handles.push(add_to_canvas(
&canvas,
i,
start_col,
j,
start_row,
SIZE,
actual_size,
canvas_width,
canvas_height,
));
}
}
let results = join_all(handles).await;
let start_x = (offset_x * canvas_width as f32).trunc() as usize;
let start_y = (offset_y * canvas_height as f32).trunc() as usize;
let end_x = ((offset_x + size_x) * canvas_width as f32).trunc() as usize;
let end_y = ((offset_y + size_y) * canvas_height as f32).trunc() as usize;
let crop_width = end_x - start_x;
let crop_height = end_y - start_y;
let mut encoder = png::Encoder::new(
Cursor::new(out),
crop_width.try_into().unwrap(),
crop_height.try_into().unwrap(),
);
encoder.set_color(png::ColorType::Rgb);
encoder.set_depth(png::BitDepth::Eight);
encoder
.write_header()
.unwrap()
.write_image_data(&crop_rgb_image(
&canvas.to_vec(),
(actual_size * row_count) as usize,
(actual_size * col_count) as usize,
start_x,
start_y,
crop_width,
crop_height,
))
.unwrap();
}
fn split_before_number(input: &str) -> (&str, &str) {
let index = find_first_number_start(input);
(&input[..index], &input[index..])
}
fn find_first_number_start(s: &str) -> usize {
for (i, c) in s.char_indices() {
if c.is_ascii_digit() {
return i;
}
}
s.len()
}
fn number_to_column(mut num: u32) -> String {
let mut result = String::new();
while num > 0 {
num -= 1;
let ch = ((num % 26) as u8 + b'A') as char;
result.insert(0, ch);
num /= 26;
}
result
}
fn column_to_number(s: &str) -> u32 {
let mut result = 0;
for ch in s.chars() {
result = result * 26 + (ch as u32 - 'A' as u32 + 1);
}
result
}
async fn add_to_canvas(
canvas: &UnsafeVec<u8>,
i: u32,
start_col: u32,
j: u32,
start_row: u32,
size: u32,
actual_size: u32,
canvas_width: usize,
canvas_height: usize,
) {
let mut resizer = Resizer::new();
let env = &env::var("ASSET_PATH_RO").unwrap();
let img_path = Path::new(&env);
let filename = format!("{}{}.png", number_to_column(i), j);
let data = Cursor::new(fs::read(img_path.join(filename)).await.unwrap());
let decoder = png::Decoder::new(data);
let mut reader = decoder.read_info().unwrap();
let mut buf = vec![0; reader.output_buffer_size()];
let _info = reader.next_frame(&mut buf).unwrap();
let src_img = Image::from_vec_u8(size, size, buf, PixelType::U8x3).unwrap();
let mut img = Image::new(actual_size, actual_size, PixelType::U8x3);
resizer
.resize(
&src_img,
&mut img,
&ResizeOptions::new()
.resize_alg(ResizeAlg::Nearest)
.use_alpha(false),
)
.unwrap();
place_image(
canvas,
canvas_width,
canvas_height,
&img.into_vec(),
(actual_size) as usize,
(actual_size) as usize,
((j - start_row) * actual_size) as usize,
((i - start_col) * actual_size) as usize,
);
}
fn place_image(
canvas: &UnsafeVec<u8>,
canvas_width: usize,
canvas_height: usize,
image: &[u8],
image_width: usize,
image_height: usize,
x_offset: usize,
y_offset: usize,
) {
let channels = 3;
for row in 0..image_height {
let canvas_y = y_offset + row;
if canvas_y >= canvas_height {
continue;
}
let canvas_start = (canvas_y * canvas_width + x_offset) * channels;
let canvas_end = canvas_start + image_width * channels;
let image_start = row * image_width * channels;
let image_end = image_start + image_width * channels;
if canvas_end <= canvas.len() && image_end <= image.len() {
unsafe {
canvas.range_mut(canvas_start..canvas_end, &image[image_start..image_end]);
}
}
}
}
fn crop_rgb_image(
img: &[u8],
width: usize,
height: usize,
start_x: usize,
start_y: usize,
crop_width: usize,
crop_height: usize,
) -> Vec<u8> {
let mut cropped = Vec::with_capacity(crop_width * crop_height * 3);
let end_x = start_x + crop_width;
let end_y = start_y + crop_height;
for y in start_y..end_y {
let row_start = (y * width + start_x) * 3;
let row_end = (y * width + end_x) * 3;
cropped.extend_from_slice(&img[row_start..row_end]);
}
cropped
}
pub struct UnsafeVec<T> {
data: UnsafeCell<Vec<T>>,
}
impl<T: Copy> UnsafeVec<T> {
pub fn new(initial: Vec<T>) -> Self {
UnsafeVec {
data: UnsafeCell::new(initial),
}
}
pub fn len(&self) -> usize {
unsafe { (*self.data.get()).len() }
}
pub fn to_vec(self) -> Vec<T> {
self.data.into_inner()
}
pub unsafe fn range_mut<R: RangeBounds<usize>>(&self, range: R, value: &[T]) {
unsafe {
let vec = &mut *self.data.get();
let start = match range.start_bound() {
Bound::Included(&s) => s,
Bound::Excluded(&s) => s + 1,
Bound::Unbounded => 0,
};
let end = match range.end_bound() {
Bound::Included(&e) => e + 1,
Bound::Excluded(&e) => e,
Bound::Unbounded => vec.len(),
};
&mut vec[start..end].copy_from_slice(value);
}
}
}
unsafe impl<T> Sync for UnsafeVec<T> {}
unsafe impl<T> Send for UnsafeVec<T> {}
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