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upscayl/electron/utils/convert-and-scale.ts
2024-02-08 20:27:35 +05:30

123 lines
3.5 KiB
TypeScript

import fs from "fs";
import sharp, { FormatEnum, Metadata } from "sharp";
import logit from "./logit";
import { compression, customWidth } from "./config-variables";
import { ImageFormat } from "./types";
const convertAndScale = async (
originalImagePath: string,
upscaledImagePath: string,
processedImagePath: string,
scale: string,
saveImageAs: ImageFormat,
isAlpha: boolean,
) => {
if (!isAlpha && !customWidth && scale === "4" && compression === 0) {
logit("Skipping compression for 4x scale and 0% compression");
return;
}
let originalImage: Metadata | undefined;
try {
originalImage = await sharp(originalImagePath).metadata();
} catch (error) {
logit("❌ Error with original Image: ", error, " - ", originalImagePath);
}
fs.access(originalImagePath, fs.constants.F_OK, (err) => {
logit("🖼️ Checking if original image exists: ", originalImagePath);
if (err) {
throw new Error(
"Could not grab the original image from the path provided! - " + err,
);
}
});
if (!originalImage) {
throw new Error("Could not grab the original image!");
}
console.log("🚀 => originalImage:", originalImage);
// Convert compression percentage (0-100) to compressionLevel (0-9)
const compressionLevel = Math.round((compression / 100) * 9);
logit(
"📐 Processing Image: ",
JSON.stringify({
originalWidth: originalImage.width,
originalHeight: originalImage.height,
customWidth,
scale,
saveImageAs,
compressionPercentage: compression,
compressionLevel,
}),
);
// Resize the image to the scale
const newImage = sharp(upscaledImagePath, {
limitInputPixels: false,
})
.resize(
customWidth
? parseInt(customWidth)
: originalImage.width && originalImage.width * parseInt(scale),
customWidth
? null
: originalImage.height && originalImage.height * parseInt(scale),
)
.withMetadata({
density: originalImage.density,
orientation: originalImage.orientation,
});
console.log("🚀 => newImage:", newImage);
const buffer = await newImage
.withMetadata({
density: originalImage.density,
orientation: originalImage.orientation,
})
.toBuffer();
try {
await sharp(buffer, {
limitInputPixels: false,
})
.withMetadata({
density: originalImage.density,
orientation: originalImage.orientation,
})
.toFormat(saveImageAs as keyof FormatEnum, {
...(saveImageAs === "jpg" && {
quality: 100 - (compression === 100 ? 99 : compression),
chromaSubsampling: "4:4:4",
}),
// For PNGs, compression enables indexed colors automatically,
// so we need to warn the user that this will happen
// https://sharp.pixelplumbing.com/api-output#png
...(saveImageAs === "png" &&
compression > 0 && {
...(compression > 0 && {
quality: 100 - (compression === 100 ? 99 : compression),
}),
compressionLevel: 9,
}),
...(saveImageAs === "webp" && {
quality: 100 - (compression === 100 ? 99 : compression),
alphaQuality: 100,
lossless: compression === 0,
smartSubsample: true,
}),
force: true,
})
.toFile(processedImagePath);
} catch (error) {
logit("❌ Error converting to: ", saveImageAs, error);
}
logit("✅ Done converting to: ", upscaledImagePath);
};
export default convertAndScale;