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- #[macro_use]
- extern crate lazy_static;
- extern crate regex;
- extern crate image;
- extern crate rayon;
-
- extern crate utils;
- extern crate errors;
-
- use std::path::{Path, PathBuf};
- use std::hash::{Hash, Hasher};
- use std::collections::HashMap;
- use std::collections::hash_map::Entry as HEntry;
- use std::collections::hash_map::DefaultHasher;
- use std::fs::{self, File};
-
- use regex::Regex;
- use image::{GenericImage, FilterType};
- use image::jpeg::JPEGEncoder;
- use rayon::prelude::*;
-
- use utils::fs as ufs;
- use errors::{Result, ResultExt};
-
-
- static RESIZED_SUBDIR: &'static str = "_processed_images";
-
- lazy_static!{
- pub static ref RESIZED_FILENAME: Regex = Regex::new(r#"([0-9a-f]{16})([0-9a-f]{2})[.]jpg"#).unwrap();
- }
-
- /// Describes the precise kind of a resize operation
- #[derive(Debug, Clone, Copy, PartialEq, Eq)]
- pub enum ResizeOp {
- /// A simple scale operation that doesn't take aspect ratio into account
- Scale(u32, u32),
- /// Scales the image to a specified width with height computed such
- /// that aspect ratio is preserved
- FitWidth(u32),
- /// Scales the image to a specified height with width computed such
- /// that aspect ratio is preserved
- FitHeight(u32),
- /// Scales the image such that it fits within the specified width and
- /// height preserving aspect ratio.
- /// Either dimension may end up being smaller, but never larger than specified.
- Fit(u32, u32),
- /// Scales the image such that it fills the specified width and height.
- /// Output will always have the exact dimensions specified.
- /// The part of the image that doesn't fit in the thumbnail due to differing
- /// aspect ratio will be cropped away, if any.
- Fill(u32, u32),
- }
-
- impl ResizeOp {
- pub fn from_args(op: &str, width: Option<u32>, height: Option<u32>) -> Result<ResizeOp> {
- use ResizeOp::*;
-
- // Validate args:
- match op {
- "fit_width" => if width.is_none() {
- return Err("op=\"fit_width\" requires a `width` argument".to_string().into())
- },
- "fit_height" => if height.is_none() {
- return Err("op=\"fit_height\" requires a `height` argument".to_string().into())
- },
- "scale" | "fit" | "fill" => if width.is_none() || height.is_none() {
- return Err(format!("op={} requires a `width` and `height` argument", op).into())
- },
- _ => return Err(format!("Invalid image resize operation: {}", op).into())
- };
-
- Ok(match op {
- "scale" => Scale(width.unwrap(), height.unwrap()),
- "fit_width" => FitWidth(width.unwrap()),
- "fit_height" => FitHeight(height.unwrap()),
- "fit" => Fit(width.unwrap(), height.unwrap()),
- "fill" => Fill(width.unwrap(), height.unwrap()),
- _ => unreachable!(),
- })
- }
-
- pub fn width(self) -> Option<u32> {
- use ResizeOp::*;
-
- match self {
- Scale(w, _) => Some(w),
- FitWidth(w) => Some(w),
- FitHeight(_) => None,
- Fit(w, _) => Some(w),
- Fill(w, _) => Some(w),
- }
- }
-
- pub fn height(self) -> Option<u32> {
- use ResizeOp::*;
-
- match self {
- Scale(_, h) => Some(h),
- FitWidth(_) => None,
- FitHeight(h) => Some(h),
- Fit(_, h) => Some(h),
- Fill(_, h) => Some(h),
- }
- }
- }
-
- impl From<ResizeOp> for u8 {
- fn from(op: ResizeOp) -> u8 {
- use ResizeOp::*;
-
- match op {
- Scale(_, _) => 1,
- FitWidth(_) => 2,
- FitHeight(_) => 3,
- Fit(_, _) => 4,
- Fill(_, _) => 5,
- }
- }
- }
-
- impl Hash for ResizeOp {
- fn hash<H: Hasher>(&self, hasher: &mut H) {
- hasher.write_u8(u8::from(*self));
- if let Some(w) = self.width() { hasher.write_u32(w); }
- if let Some(h) = self.height() { hasher.write_u32(h); }
- }
- }
-
- /// Holds all data needed to perform a resize operation
- #[derive(Debug, PartialEq, Eq)]
- pub struct ImageOp {
- source: String,
- op: ResizeOp,
- quality: u8,
- /// Hash of the above parameters
- hash: u64,
- /// If there is a hash collision with another ImageOp, this contains a sequential ID > 1
- /// identifying the collision in the order as encountered (which is essentially random).
- /// Therefore, ImageOps with collisions (ie. collision_id > 0) are always considered out of date.
- /// Note that this is very unlikely to happen in practice
- collision_id: u32,
- }
-
- impl ImageOp {
- pub fn new(source: String, op: ResizeOp, quality: u8) -> ImageOp {
- let mut hasher = DefaultHasher::new();
- hasher.write(source.as_ref());
- op.hash(&mut hasher);
- hasher.write_u8(quality);
- let hash = hasher.finish();
-
- ImageOp { source, op, quality, hash, collision_id: 0 }
- }
-
- pub fn from_args(
- source: String,
- op: &str,
- width: Option<u32>,
- height: Option<u32>,
- quality: u8,
- ) -> Result<ImageOp> {
- let op = ResizeOp::from_args(op, width, height)?;
- Ok(Self::new(source, op, quality))
- }
-
- fn perform(&self, content_path: &Path, target_path: &Path) -> Result<()> {
- use ResizeOp::*;
-
- let src_path = content_path.join(&self.source);
- if !ufs::file_stale(&src_path, target_path) {
- return Ok(())
- }
-
- let mut img = image::open(&src_path)?;
- let (img_w, img_h) = img.dimensions();
-
- const RESIZE_FILTER: FilterType = FilterType::Gaussian;
- const RATIO_EPSILLION: f32 = 0.1;
-
- let img = match self.op {
- Scale(w, h) => img.resize_exact(w, h, RESIZE_FILTER),
- FitWidth(w) => img.resize(w, u32::max_value(), RESIZE_FILTER),
- FitHeight(h) => img.resize(u32::max_value(), h, RESIZE_FILTER),
- Fit(w, h) => img.resize(w, h, RESIZE_FILTER),
- Fill(w, h) => {
- let factor_w = img_w as f32 / w as f32;
- let factor_h = img_h as f32 / h as f32;
-
- if (factor_w - factor_h).abs() <= RATIO_EPSILLION {
- // If the horizontal and vertical factor is very similar,
- // that means the aspect is similar enough that there's not much point
- // in cropping, so just perform a simple scale in this case.
- img.resize_exact(w, h, RESIZE_FILTER)
- } else {
- // We perform the fill such that a crop is performed first
- // and then resize_exact can be used, which should be cheaper than
- // resizing and then cropping (smaller number of pixels to resize).
- let (crop_w, crop_h) = if factor_w < factor_h {
- (img_w, (factor_w * h as f32).round() as u32)
- } else {
- ((factor_h * w as f32).round() as u32, img_h)
- };
-
- let (offset_w, offset_h) = if factor_w < factor_h {
- (0, (img_h - crop_h) / 2)
- } else {
- ((img_w - crop_w) / 2, 0)
- };
-
- img.crop(offset_w, offset_h, crop_w, crop_h)
- .resize_exact(w, h, RESIZE_FILTER)
- }
- },
- };
-
- let mut f = File::create(target_path)?;
- let mut enc = JPEGEncoder::new_with_quality(&mut f, self.quality);
- let (img_w, img_h) = img.dimensions();
- enc.encode(&img.raw_pixels(), img_w, img_h, img.color())?;
- Ok(())
- }
- }
-
-
- /// A strcture into which image operations can be enqueued and then performed.
- /// All output is written in a subdirectory in `static_path`,
- /// taking care of file stale status based on timestamps and possible hash collisions.
- #[derive(Debug)]
- pub struct Processor {
- content_path: PathBuf,
- resized_path: PathBuf,
- resized_url: String,
- /// A map of a ImageOps by their stored hash.
- /// Note that this cannot be a HashSet, because hashset handles collisions and we don't want that,
- /// we need to be aware of and handle collisions ourselves.
- img_ops: HashMap<u64, ImageOp>,
- /// Hash collisions go here:
- img_ops_collisions: Vec<ImageOp>,
- }
-
- impl Processor {
- pub fn new(content_path: PathBuf, static_path: &Path, base_url: &str) -> Processor {
- Processor {
- content_path,
- resized_path: static_path.join(RESIZED_SUBDIR),
- resized_url: Self::resized_url(base_url),
- img_ops: HashMap::new(),
- img_ops_collisions: Vec::new(),
- }
- }
-
- fn resized_url(base_url: &str) -> String {
- if base_url.ends_with('/') {
- format!("{}{}", base_url, RESIZED_SUBDIR)
- } else {
- format!("{}/{}", base_url, RESIZED_SUBDIR)
- }
- }
-
- pub fn set_base_url(&mut self, base_url: &str) {
- self.resized_url = Self::resized_url(base_url);
- }
-
- pub fn source_exists(&self, source: &str) -> bool {
- self.content_path.join(source).exists()
- }
-
- pub fn num_img_ops(&self) -> usize {
- self.img_ops.len() + self.img_ops_collisions.len()
- }
-
- fn insert_with_collisions(&mut self, mut img_op: ImageOp) -> u32 {
- match self.img_ops.entry(img_op.hash) {
- HEntry::Occupied(entry) => if *entry.get() == img_op { return 0; },
- HEntry::Vacant(entry) => {
- entry.insert(img_op);
- return 0;
- },
- }
-
- // If we get here, that means a hash collision.
- // This is detected when there is an ImageOp with the same hash in the `img_ops`
- // map but which is not equal to this one.
- // To deal with this, all collisions get a (random) sequential ID number.
-
- // First try to look up this ImageOp in `img_ops_collisions`, maybe we've
- // already seen the same ImageOp.
- // At the same time, count IDs to figure out the next free one.
- // Start with the ID of 2, because we'll need to use 1 for the ImageOp
- // already present in the map:
- let mut collision_id = 2;
- for op in self.img_ops_collisions.iter().filter(|op| op.hash == img_op.hash) {
- if *op == img_op {
- // This is a colliding ImageOp, but we've already seen an equal one
- // (not just by hash, but by content too), so just return its ID:
- return collision_id;
- } else {
- collision_id += 1;
- }
- }
-
- // If we get here, that means this is a new colliding ImageOp and
- // `collision_id` is the next free ID
- if collision_id == 2 {
- // This is the first collision found with this hash, update the ID
- // of the matching ImageOp in the map.
- self.img_ops.get_mut(&img_op.hash).unwrap().collision_id = 1;
- }
- img_op.collision_id = collision_id;
- self.img_ops_collisions.push(img_op);
- collision_id
- }
-
- fn op_filename(hash: u64, collision_id: u32) -> String {
- // Please keep this in sync with RESIZED_FILENAME
- assert!(collision_id < 256, "Unexpectedly large number of collisions: {}", collision_id);
- format!("{:016x}{:02x}.jpg", hash, collision_id)
- }
-
- fn op_url(&self, hash: u64, collision_id: u32) -> String {
- format!("{}/{}", &self.resized_url, Self::op_filename(hash, collision_id))
- }
-
- pub fn insert(&mut self, img_op: ImageOp) -> String {
- let hash = img_op.hash;
- let collision_id = self.insert_with_collisions(img_op);
- self.op_url(hash, collision_id)
- }
-
- pub fn prune(&self) -> Result<()> {
- // Do not create folders if they don't exist
- if !self.resized_path.exists() {
- return Ok(());
- }
-
- ufs::ensure_directory_exists(&self.resized_path)?;
- let entries = fs::read_dir(&self.resized_path)?;
- for entry in entries {
- let entry_path = entry?.path();
- if entry_path.is_file() {
- let filename = entry_path.file_name().unwrap().to_string_lossy();
- if let Some(capts) = RESIZED_FILENAME.captures(filename.as_ref()) {
- let hash = u64::from_str_radix(capts.get(1).unwrap().as_str(), 16).unwrap();
- let collision_id = u32::from_str_radix(
- capts.get(2).unwrap().as_str(), 16
- ).unwrap();
-
- if collision_id > 0 || !self.img_ops.contains_key(&hash) {
- fs::remove_file(&entry_path)?;
- }
- }
- }
- }
- Ok(())
- }
-
- pub fn do_process(&mut self) -> Result<()> {
- if !self.img_ops.is_empty() {
- ufs::ensure_directory_exists(&self.resized_path)?;
- }
-
- self.img_ops.par_iter().map(|(hash, op)| {
- let target = self.resized_path.join(Self::op_filename(*hash, op.collision_id));
- op.perform(&self.content_path, &target)
- .chain_err(|| format!("Failed to process image: {}", op.source))
- })
- .fold(|| Ok(()), Result::and)
- .reduce(|| Ok(()), Result::and)
- }
- }
-
-
- /// Looks at file's extension and returns whether it's a supported image format
- pub fn file_is_img<P: AsRef<Path>>(p: P) -> bool {
- p.as_ref().extension().and_then(|s| s.to_str()).map(|ext| {
- match ext.to_lowercase().as_str() {
- "jpg" | "jpeg" => true,
- "png" => true,
- "gif" => true,
- "bmp" => true,
- _ => false,
- }
- }).unwrap_or(false)
- }
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