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use anyhow::Context; |
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use super::Image; |
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pub fn convolution2x2<F>(bitmap: &Image, callback: F) -> anyhow::Result<Image> |
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where F: Fn(&Image) -> anyhow::Result<u8> |
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{ |
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let width: u8 = bitmap.width(); |
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let height: u8 = bitmap.height(); |
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if width < 2 || height < 2 { |
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return Err(anyhow::anyhow!("too small bitmap, must be 2x2 or bigger")); |
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} |
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let mut computed_bitmap = Image::zero(width - 1, height - 1); |
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let mut conv_bitmap = Image::zero(2, 2); |
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for self_y in 0..height-1 { |
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for self_x in 0..width-1 { |
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for conv_y in 0..2u8 { |
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for conv_x in 0..2u8 { |
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let get_x: i32 = (self_x as i32) + (conv_x as i32); |
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let get_y: i32 = (self_y as i32) + (conv_y as i32); |
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let pixel_value: u8 = bitmap.get(get_x, get_y) |
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.ok_or_else(|| anyhow::anyhow!("self.get({},{}) returned None", get_x, get_y))?; |
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conv_bitmap.set(conv_x as i32, conv_y as i32, pixel_value) |
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.ok_or_else(|| anyhow::anyhow!("conv_bitmap.set({},{}) returned None", conv_x, conv_y))?; |
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} |
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} |
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let computed_value: u8 = callback(&conv_bitmap) |
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.with_context(|| format!("error in callback when computing ({},{})", self_x, self_y))?; |
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computed_bitmap.set(self_x as i32, self_y as i32, computed_value) |
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.ok_or_else(|| anyhow::anyhow!("computed_bitmap.set({},{}) returned None", self_x, self_y))?; |
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} |
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} |
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Ok(computed_bitmap) |
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} |
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#[allow(dead_code)] |
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fn conv2x2_max(bm: &Image) -> anyhow::Result<u8> { |
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let mut value: u8 = 0; |
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for pixel in bm.pixels() { |
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value = u8::max(value, *pixel); |
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} |
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Ok(value) |
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} |
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#[allow(dead_code)] |
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fn conv2x2_min(bm: &Image) -> anyhow::Result<u8> { |
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let mut value: u8 = 255; |
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for pixel in bm.pixels() { |
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value = u8::min(value, *pixel); |
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} |
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Ok(value) |
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} |
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#[cfg(test)] |
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mod tests { |
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use super::*; |
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use crate::arc::ImageTryCreate; |
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#[test] |
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fn test_10000_callback() { |
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let pixels: Vec<u8> = vec![ |
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1, 2, 3, |
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4, 5, 6, |
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7, 8, 9, |
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]; |
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let input: Image = Image::try_create(3, 3, pixels).expect("image"); |
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let output: Image = convolution2x2(&input, |bm| { |
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let mut sum: u64 = 0; |
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for pixel in bm.pixels() { |
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sum += *pixel as u64; |
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} |
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let value = (sum & 255) as u8; |
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Ok(value) |
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}).expect("image"); |
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assert_eq!(output.width(), 2); |
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assert_eq!(output.height(), 2); |
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assert_eq!(output.get(0, 0), Some(1+2+4+5)); |
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assert_eq!(output.get(1, 0), Some(2+3+5+6)); |
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assert_eq!(output.get(0, 1), Some(4+5+7+8)); |
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assert_eq!(output.get(1, 1), Some(5+6+8+9)); |
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} |
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#[test] |
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fn test_20000_max() { |
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let pixels: Vec<u8> = vec![ |
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1,2,3,4, |
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5,6,7,8, |
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9,10,11,12, |
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13,14,15,16, |
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]; |
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let input: Image = Image::try_create(4, 4, pixels).expect("image"); |
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let output: Image = convolution2x2(&input, conv2x2_max).expect("image"); |
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let expected_pixels: Vec<u8> = vec![ |
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6,7,8, |
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10,11,12, |
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14,15,16, |
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]; |
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let expected: Image = Image::try_create(3, 3, expected_pixels).expect("image"); |
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assert_eq!(output, expected); |
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} |
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#[test] |
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fn test_20001_min() { |
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let pixels: Vec<u8> = vec![ |
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1,2,3,4, |
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5,6,7,8, |
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9,10,11,12, |
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13,14,15,16, |
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]; |
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let input: Image = Image::try_create(4, 4, pixels).expect("image"); |
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let output: Image = convolution2x2(&input, conv2x2_min).expect("image"); |
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let expected_pixels: Vec<u8> = vec![ |
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1,2,3, |
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5,6,7, |
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9,10,11, |
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]; |
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let expected: Image = Image::try_create(3, 3, expected_pixels).expect("image"); |
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assert_eq!(output, expected); |
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} |
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} |
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