1
0
mirror of https://github.com/xuthus83/pigallery2.git synced 2024-11-03 21:04:03 +08:00
pigallery2/backend/model/threading/ThumbnailWoker.ts
Braun Patrik 6fb57a7b0a Implementing cluster based threading
removing threads dependency
2017-07-04 10:24:20 +02:00

171 lines
5.2 KiB
TypeScript

import {Metadata, SharpInstance} from "sharp";
import {Dimensions, State} from "gm";
import {Logger} from "../../Logger";
import {ThumbnailProcessingLib} from "../../../common/config/private/IPrivateConfig";
export class ThumbnailWoker {
private static renderer: (input: RendererInput) => Promise<void> = null;
private static rendererType = null;
public static render(input: RendererInput, renderer: ThumbnailProcessingLib): Promise<void> {
if (ThumbnailWoker.rendererType != renderer) {
ThumbnailWoker.renderer = RendererFactory.build(renderer);
ThumbnailWoker.rendererType = renderer;
}
return ThumbnailWoker.renderer(input);
}
}
export interface RendererInput {
imagePath: string;
size: number;
makeSquare: boolean;
thPath: string;
qualityPriority: boolean
}
export class RendererFactory {
public static build(renderer: ThumbnailProcessingLib): (input: RendererInput) => Promise<void> {
switch (renderer) {
case ThumbnailProcessingLib.Jimp:
return RendererFactory.Jimp();
case ThumbnailProcessingLib.gm:
return RendererFactory.Gm();
case ThumbnailProcessingLib.sharp:
return RendererFactory.Sharp();
}
throw "unknown renderer"
}
public static Jimp() {
const Jimp = require("jimp");
return async (input: RendererInput): Promise<void> => {
//generate thumbnail
Logger.silly("[JimpThRenderer] rendering thumbnail:", input.imagePath);
const image = await Jimp.read(input.imagePath);
/**
* newWidth * newHeight = size*size
* newHeight/newWidth = height/width
*
* newHeight = (height/width)*newWidth
* newWidth * newWidth = (size*size) / (height/width)
*
* @type {number}
*/
const ratio = image.bitmap.height / image.bitmap.width;
const algo = input.qualityPriority == true ? Jimp.RESIZE_BEZIER : Jimp.RESIZE_NEAREST_NEIGHBOR;
if (input.makeSquare == false) {
let newWidth = Math.sqrt((input.size * input.size) / ratio);
image.resize(newWidth, Jimp.AUTO, algo);
} else {
image.resize(input.size / Math.min(ratio, 1), Jimp.AUTO, algo);
image.crop(0, 0, input.size, input.size);
}
image.quality(60); // set JPEG quality
await new Promise((resolve, reject) => {
image.write(input.thPath, (err) => { // save
if (err) {
return reject(err);
}
resolve();
});
});
};
}
public static Sharp() {
const sharp = require("sharp");
return async (input: RendererInput): Promise<void> => {
Logger.silly("[SharpThRenderer] rendering thumbnail:", input.imagePath);
const image: SharpInstance = sharp(input.imagePath);
const metadata: Metadata = await image.metadata();
/**
* newWidth * newHeight = size*size
* newHeight/newWidth = height/width
*
* newHeight = (height/width)*newWidth
* newWidth * newWidth = (size*size) / (height/width)
*
* @type {number}
*/
const ratio = metadata.height / metadata.width;
const kernel = input.qualityPriority == true ? sharp.kernel.lanczos3 : sharp.kernel.nearest;
const interpolator = input.qualityPriority == true ? sharp.interpolator.bicubic : sharp.interpolator.nearest;
if (input.makeSquare == false) {
const newWidth = Math.round(Math.sqrt((input.size * input.size) / ratio));
image.resize(newWidth, null, {
kernel: kernel,
interpolator: interpolator
});
} else {
image
.resize(input.size, input.size, {
kernel: kernel,
interpolator: interpolator
})
.crop(sharp.strategy.center);
}
await image.jpeg().toFile(input.thPath);
};
}
public static Gm() {
const gm = require("gm");
return (input: RendererInput): Promise<void> => {
return new Promise((resolve, reject) => {
Logger.silly("[GMThRenderer] rendering thumbnail:", input.imagePath);
let image: State = gm(input.imagePath);
image.size((err, value: Dimensions) => {
if (err) {
return reject(err);
}
/**
* newWidth * newHeight = size*size
* newHeight/newWidth = height/width
*
* newHeight = (height/width)*newWidth
* newWidth * newWidth = (size*size) / (height/width)
*
* @type {number}
*/
try {
const ratio = value.height / value.width;
const filter = input.qualityPriority == true ? 'Lanczos' : 'Point';
image.filter(filter);
if (input.makeSquare == false) {
const newWidth = Math.round(Math.sqrt((input.size * input.size) / ratio));
image = image.resize(newWidth);
} else {
image = image.resize(input.size, input.size)
.crop(input.size, input.size);
}
image.write(input.thPath, (err) => {
if (err) {
return reject(err);
}
return resolve();
});
} catch (err) {
return reject(err);
}
});
});
};
}
}