main: Implement the main binaryrust

1 files changed, 396 insertions, 1 deletions

diff --git a/src/main.rs b/src/main.rs
index 07e138a..f016b4c 100644
--- a/src/main.rs
+++ b/src/main.rs
@@ -3,4 +3,399 @@ pub mod frontier;
 pub mod hilbert;
 pub mod metric;
 
-fn main() {}
+use crate::color::source::{AllColors, ColorSource, ImageColors};
+use crate::color::{order, ColorSpace, LabSpace, LuvSpace, Rgb8, RgbSpace};
+use crate::frontier::image::ImageFrontier;
+use crate::frontier::mean::MeanFrontier;
+use crate::frontier::min::MinFrontier;
+use crate::frontier::Frontier;
+
+use clap::{self, clap_app, crate_authors, crate_name, crate_version, AppSettings};
+
+use image::{self, Rgba, RgbaImage};
+
+use rand::SeedableRng;
+use rand_pcg::Pcg64;
+
+use term;
+
+use std::cmp;
+use std::error::Error;
+use std::fs;
+use std::io::{self, Write};
+use std::path::PathBuf;
+use std::str::FromStr;
+use std::time::Instant;
+
+/// The color source specified on the command line.
+#[derive(Debug, Eq, PartialEq)]
+enum SourceArg {
+    /// All RGB colors of the given bit depth.
+    AllRgb(u32),
+    /// Take the colors from an image.
+    Image(PathBuf),
+}
+
+/// The order to process colors in.
+#[derive(Debug, Eq, PartialEq)]
+enum OrderArg {
+    /// Sorted by hue.
+    HueSort,
+    /// Shuffled randomly.
+    Random,
+    /// Morton/Z-order.
+    Morton,
+    /// Hilbert curve order.
+    Hilbert,
+}
+
+/// The frontier implementation.
+#[derive(Debug, Eq, PartialEq)]
+enum FrontierArg {
+    /// Pick a neighbor of the closest pixel so far.
+    Min,
+    /// Pick the pixel with the closest mean color of all its neighbors.
+    Mean,
+    /// Target the closest pixel on an image.
+    Image(PathBuf),
+}
+
+/// The color space to operate in.
+#[derive(Debug, Eq, PartialEq)]
+enum ColorSpaceArg {
+    /// sRGB space.
+    Rgb,
+    /// CIE L*a*b* space.
+    Lab,
+    /// CIE L*u*v* space.
+    Luv,
+}
+
+/// Parse an argument into the appropriate type.
+fn parse_arg<F>(arg: Option<&str>) -> clap::Result<Option<F>>
+where
+    F: FromStr,
+    F::Err: Error,
+{
+    match arg.map(|s| s.parse()) {
+        Some(Ok(f)) => Ok(Some(f)),
+        Some(Err(e)) => Err(clap::Error::with_description(
+            &e.to_string(),
+            clap::ErrorKind::InvalidValue,
+        )),
+        None => Ok(None),
+    }
+}
+
+/// The parsed command line arguments.
+#[derive(Debug)]
+struct Args {
+    source: SourceArg,
+    order: OrderArg,
+    stripe: bool,
+    frontier: FrontierArg,
+    space: ColorSpaceArg,
+    width: Option<u32>,
+    height: Option<u32>,
+    x0: Option<u32>,
+    y0: Option<u32>,
+    animate: bool,
+    output: PathBuf,
+    seed: u64,
+}
+
+impl Args {
+    fn parse() -> clap::Result<Self> {
+        let args = clap_app!((crate_name!()) =>
+            (version: crate_version!())
+            (author: crate_authors!())
+            (setting: AppSettings::ColoredHelp)
+            (@group source =>
+                (@arg DEPTH: -b --("bit-depth") +takes_value "Use all DEPTH-bit colors")
+                (@arg INPUT: -i --input +takes_value "Use colors from the INPUT image")
+            )
+            (@group order =>
+                (@arg HUE: -s --hue-sort "Sort colors by hue [default]")
+                (@arg RANDOM: -r --random "Randomize colors")
+                (@arg MORTON: -M --morton "Place colors in Morton order (Z-order)")
+                (@arg HILBERT: -H --hilbert "Place colors in Hilbert curve order")
+            )
+            (@group stripe =>
+                (@arg STRIPE: -t --stripe "Reduce artifacts by iterating through the colors in multiple stripes [default]")
+                (@arg NOSTRIPE: -T --("no-stripe") "Don't stripe")
+            )
+            (@group frontier =>
+                (@arg MODE: -l --selection +takes_value possible_value[min mean] "Specify the selection mode")
+                (@arg TARGET: -g --target +takes_value "Place colors on the closest pixels of the TARGET image")
+            )
+            (@arg SPACE: -c --("color-space") default_value("Lab") possible_value[RGB Lab Luv] "Use the given color space")
+            (@arg WIDTH: -w --width +takes_value "The width of the generated image")
+            (@arg HEIGHT: -h --height +takes_value "The height of the generated image")
+            (@arg X: -x +takes_value "The x coordinate of the first pixel")
+            (@arg Y: -y +takes_value "The y coordinate of the first pixel")
+            (@arg ANIMATE: -a --animate "Generate frames of an animation")
+            (@arg PATH: -o --output default_value("kd-forest.png") "Save the image to PATH")
+            (@arg SEED: -e --seed default_value("0") "Seed the random number generator")
+        )
+        .get_matches_safe()?;
+
+        let source = if let Some(input) = args.value_of("INPUT") {
+            SourceArg::Image(PathBuf::from(input))
+        } else {
+            SourceArg::AllRgb(parse_arg(args.value_of("DEPTH"))?.unwrap_or(24))
+        };
+
+        let order = if args.is_present("RANDOM") {
+            OrderArg::Random
+        } else if args.is_present("MORTON") {
+            OrderArg::Morton
+        } else if args.is_present("HILBERT") {
+            OrderArg::Hilbert
+        } else {
+            OrderArg::HueSort
+        };
+
+        let stripe = !args.is_present("NOSTRIPE") && order != OrderArg::Random;
+
+        let frontier = if let Some(target) = args.value_of("TARGET") {
+            FrontierArg::Image(PathBuf::from(target))
+        } else {
+            match args.value_of("MODE") {
+                Some("min") | None => FrontierArg::Min,
+                Some("mean") => FrontierArg::Mean,
+                _ => unreachable!(),
+            }
+        };
+
+        let space = match args.value_of("SPACE").unwrap() {
+            "RGB" => ColorSpaceArg::Rgb,
+            "Lab" => ColorSpaceArg::Lab,
+            "Luv" => ColorSpaceArg::Luv,
+            _ => unreachable!(),
+        };
+
+        let width = parse_arg(args.value_of("WIDTH"))?;
+        let height = parse_arg(args.value_of("HEIGHT"))?;
+        let x0 = parse_arg(args.value_of("X"))?;
+        let y0 = parse_arg(args.value_of("Y"))?;
+
+        let animate = args.is_present("ANIMATE");
+
+        let mut path = args.value_of("PATH").unwrap();
+        if animate && args.occurrences_of("PATH") == 0 {
+            path = "kd-frames";
+        }
+        let output = PathBuf::from(path);
+
+        let seed = parse_arg(args.value_of("SEED"))?.unwrap_or(0);
+
+        Ok(Self {
+            source,
+            order,
+            stripe,
+            frontier,
+            space,
+            width,
+            height,
+            x0,
+            y0,
+            animate,
+            output,
+            seed,
+        })
+    }
+}
+
+/// main() return type.
+type MainResult = Result<(), Box<dyn Error>>;
+
+/// The kd-forest application itself.
+#[derive(Debug)]
+struct App {
+    args: Args,
+    rng: Pcg64,
+    width: Option<u32>,
+    height: Option<u32>,
+    start_time: Instant,
+}
+
+impl App {
+    /// Make the App.
+    fn new(args: Args) -> Self {
+        let rng = Pcg64::seed_from_u64(args.seed);
+        let width = args.width;
+        let height = args.height;
+        let start_time = Instant::now();
+
+        Self {
+            args,
+            rng,
+            width,
+            height,
+            start_time,
+        }
+    }
+
+    fn run(&mut self) -> MainResult {
+        let colors = match self.args.source {
+            SourceArg::AllRgb(depth) => {
+                self.width.get_or_insert(1u32 << ((depth + 1) / 2));
+                self.height.get_or_insert(1u32 << (depth / 2));
+                self.get_colors(AllColors::new(depth as usize))
+            }
+            SourceArg::Image(ref path) => {
+                let img = image::open(path)?.into_rgb();
+                self.width.get_or_insert(img.width());
+                self.height.get_or_insert(img.height());
+                self.get_colors(ImageColors::from(img))
+            }
+        };
+
+        match self.args.space {
+            ColorSpaceArg::Rgb => self.paint::<RgbSpace>(colors),
+            ColorSpaceArg::Lab => self.paint::<LabSpace>(colors),
+            ColorSpaceArg::Luv => self.paint::<LuvSpace>(colors),
+        }
+    }
+
+    fn get_colors<S: ColorSource>(&mut self, source: S) -> Vec<Rgb8> {
+        let colors = match self.args.order {
+            OrderArg::HueSort => order::hue_sorted(source),
+            OrderArg::Random => order::shuffled(source, &mut self.rng),
+            OrderArg::Morton => order::morton(source),
+            OrderArg::Hilbert => order::hilbert(source),
+        };
+
+        if self.args.stripe {
+            order::striped(colors)
+        } else {
+            colors
+        }
+    }
+
+    fn paint<C: ColorSpace>(&mut self, colors: Vec<Rgb8>) -> MainResult {
+        let width = self.width.unwrap();
+        let height = self.height.unwrap();
+        let x0 = self.args.x0.unwrap_or(width / 2);
+        let y0 = self.args.x0.unwrap_or(height / 2);
+
+        match &self.args.frontier {
+            FrontierArg::Image(ref path) => {
+                let img = image::open(path)?.into_rgb();
+                self.paint_on(colors, ImageFrontier::<C>::new(&img))
+            }
+            FrontierArg::Min => {
+                let rng = Pcg64::from_rng(&mut self.rng)?;
+                self.paint_on(colors, MinFrontier::<C, _>::new(rng, width, height, x0, y0))
+            }
+            FrontierArg::Mean => {
+                self.paint_on(colors, MeanFrontier::<C>::new(width, height, x0, y0))
+            }
+        }
+    }
+
+    fn paint_on<F: Frontier>(&mut self, colors: Vec<Rgb8>, mut frontier: F) -> MainResult {
+        let width = frontier.width();
+        let height = frontier.height();
+        let mut output = RgbaImage::new(width, height);
+
+        let size = cmp::min((width * height) as usize, colors.len());
+        println!("Generating a {}x{} image ({} pixels)", width, height, size);
+
+        if self.args.animate {
+            fs::create_dir_all(&self.args.output)?;
+            output.save(&self.args.output.join("0000.png"))?;
+        }
+
+        let interval = cmp::max(width, height) as usize;
+
+        let mut max_frontier = frontier.len();
+
+        for (i, color) in colors.into_iter().enumerate() {
+            let pos = frontier.place(color);
+            if pos.is_none() {
+                break;
+            }
+
+            let (x, y) = pos.unwrap();
+            let rgba = Rgba([color[0], color[1], color[2], 255]);
+            output.put_pixel(x, y, rgba);
+
+            max_frontier = cmp::max(max_frontier, frontier.len());
+
+            if (i + 1) % interval == 0 {
+                if self.args.animate {
+                    let frame = (i + 1) / interval;
+                    output.save(&self.args.output.join(format!("{:04}.png", frame)))?;
+                }
+
+                if i + 1 < size {
+                    self.print_progress(i + 1, size, frontier.len())?;
+                }
+            }
+        }
+
+        if self.args.animate && size % interval != 0 {
+            let frame = size / interval;
+            output.save(&self.args.output.join(format!("{:04}.png", frame)))?;
+        }
+
+        self.print_progress(size, size, max_frontier)?;
+
+        if !self.args.animate {
+            output.save(&self.args.output)?;
+        }
+
+        Ok(())
+    }
+
+    fn print_progress(&self, i: usize, size: usize, frontier_len: usize) -> io::Result<()> {
+        let mut term = match term::stderr() {
+            Some(term) => term,
+            None => return Ok(()),
+        };
+
+        let progress = 100.0 * (i as f64) / (size as f64);
+        let mut rate = (i as f64) / self.start_time.elapsed().as_secs_f64();
+        let mut unit = "px/s";
+
+        if rate >= 10_000.0 {
+            rate /= 1_000.0;
+            unit = "Kpx/s";
+        }
+
+        if rate >= 10_000.0 {
+            rate /= 1_000.0;
+            unit = "Mpx/s";
+        }
+
+        if rate >= 10_000.0 {
+            rate /= 1_000.0;
+            unit = "Gpx/s";
+        }
+
+        let (frontier_label, newline) = if i == size {
+            ("max frontier size", "\n")
+        } else {
+            ("frontier size", "")
+        };
+
+        term.carriage_return()?;
+        term.delete_line()?;
+
+        write!(
+            term,
+            "{:>6.2}%  | {:4.0} {:>5}  | {}: {}{}",
+            progress, rate, unit, frontier_label, frontier_len, newline,
+        )
+    }
+}
+
+fn main() -> MainResult {
+    let args = match Args::parse() {
+        Ok(args) => args,
+        Err(e) => e.exit(),
+    };
+
+    App::new(args).run()
+}