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use image::{DynamicImage, FilterType, ImageBuffer};
use sha2::{Digest, Sha512};

use palette::LinSrgb;

mod color;
mod grid;
mod map_values;

pub enum Symmetry {
    None,
    X,
    Y,
}

pub struct Identicon {
    hash: Vec<u8>,
    symmetry: Symmetry,
    border: u32,
    size: u32,
    scale: u32,
    background_color: (u8, u8, u8),
}

impl Identicon {
    pub fn new(
        input_value: &str,
        symmetry: Symmetry,
        border: u32,
        size: u32,
        scale: u32,
        background_color: (u8, u8, u8),
    ) -> Identicon {
        let input_trimmed = input_value.trim();
        let hash = Sha512::digest(input_trimmed.as_bytes()).as_slice().to_vec();

        Identicon {
            hash,
            symmetry,
            border,
            size,
            scale,
            background_color,
        }
    }

    pub fn new_default(input_value: &str) -> Identicon {
        let input_trimmed = input_value.trim();
        let hash = Sha512::digest(input_trimmed.as_bytes()).as_slice().to_vec();
        let background_color = 240;

        Identicon {
            hash,
            symmetry: Symmetry::None,
            border: 50,
            size: 5,
            scale: 500,
            background_color: (background_color, background_color, background_color),
        }
    }

    pub fn new_no_border(input_value: &str) -> Identicon {
        let input_trimmed = input_value.trim();
        let hash = Sha512::digest(input_trimmed.as_bytes()).as_slice().to_vec();
        let background_color = 240;

        Identicon {
            hash,
            symmetry: Symmetry::None,
            border: 0,
            size: 5,
            scale: 500,
            background_color: (background_color, background_color, background_color),
        }
    }

    fn get_background_color(&self) -> LinSrgb<u8> {
        let background_color = self.background_color;
        LinSrgb::new(background_color.0, background_color.1, background_color.2)
    }

    fn generate_base_image(&self) -> DynamicImage {
        let background_color = self.get_background_color();

        let color = color::generate_color(&self.hash);

        // create a new ImgBuf with width: imgx and height: imgy
        let mut imgbuf = ImageBuffer::new(self.size, self.size);

        // create a new grid
        let grid = grid::generate_full_grid(self.size, &self.hash);

        // iterate over the coordinates and pixels of the image
        for (x, y, pixel) in imgbuf.enumerate_pixels_mut() {
            let count = x + y * self.size % self.size.pow(2);

            if grid[count as usize] {
                *pixel = image::Rgb([color.red, color.green, color.blue]);
            } else {
                *pixel = image::Rgb([
                    background_color.red,
                    background_color.green,
                    background_color.blue,
                ]);
            }
        }

        // return the image
        DynamicImage::ImageRgb8(imgbuf).resize(self.scale, self.scale, FilterType::Nearest)
    }

    pub fn generate_image(&self) -> DynamicImage {
        if self.border > 0 {
            let base_image = self.generate_base_image().to_rgb();
            let background_color = self.get_background_color();
            let size = self.scale + self.border * 2;
            let mut imgbuf = ImageBuffer::new(size, size);

            // create a clojure to check whether the given location is within the border space
            let check_within_border = |location: u32| -> bool {
                location < self.border || location >= self.border + self.scale
            };

            // iterate over the coordinates and pixels of the image
            for (x, y, pixel) in imgbuf.enumerate_pixels_mut() {
                if check_within_border(x) || check_within_border(y) {
                    *pixel = image::Rgb([
                        background_color.red,
                        background_color.green,
                        background_color.blue,
                    ]);
                } else {
                    *pixel = base_image
                        .get_pixel(x - self.border, y - self.border)
                        .clone();
                }
            }

            DynamicImage::ImageRgb8(imgbuf)
        } else {
            self.generate_base_image()
        }
    }

    pub fn save_image(&self, output_filename: &str) {
        self.generate_image().save(output_filename).unwrap();
    }
}

#[cfg(test)]
mod tests {
    #[test]
    fn it_works() {
        assert_eq!(2 + 2, 4);
    }

    use crate::Identicon;

    #[test]
    fn trim_of_input_works() {
        let image_normal = Identicon::new_default("test").generate_image();
        let image_padded = Identicon::new_default("  test  ").generate_image();
        assert_eq!(
            image_normal.to_rgb().into_raw(),
            image_padded.to_rgb().into_raw()
        );
    }

    #[test]
    fn trim_of_input_failure_works() {
        let image_normal = Identicon::new_default("test").generate_image();
        let image_padded = Identicon::new_default("  test1  ").generate_image();
        assert_ne!(
            image_normal.to_rgb().into_raw(),
            image_padded.to_rgb().into_raw()
        );
    }
}