import fs from "fs"; import sharp, { FormatEnum, Metadata } from "sharp"; import logit from "./logit"; import { getMainWindow } from "../main-window"; import { compression } from "./config-variables"; const convertAndScale = async ( originalImagePath: string, upscaledImagePath: string, processedImagePath: string, scale: string, saveImageAs: string, onError: (error: any) => void ) => { if (saveImageAs === "png" && scale === "4" && compression === 0) { logit("Skipping png compression for 4x scale"); return; } const mainWindow = getMainWindow(); let originalImage: Metadata | undefined; try { originalImage = await sharp(originalImagePath).metadata(); } catch (error) { logit("❌ Error with original Image: ", error); } fs.access(originalImagePath, fs.constants.F_OK, (err) => { if (err) { throw new Error("Could not grab the original image!"); } }); if (!mainWindow || !originalImage) { throw new Error("Could not grab the original image!"); } // Resize the image to the scale const newImage = sharp(upscaledImagePath, { limitInputPixels: false, }).resize( originalImage.width && originalImage.width * parseInt(scale), originalImage.height && originalImage.height * parseInt(scale), { fit: "outside", } ); // 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, scale, saveImageAs, compressionPercentage: compression, compressionLevel, }) ); const buffer = await newImage.toBuffer(); try { await sharp(buffer, { limitInputPixels: false, }) .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, }), force: true, }) .withMetadata({ orientation: originalImage.orientation, density: originalImage.density, }) .toFile(processedImagePath); } catch (error) { logit("❌ Error converting to: ", saveImageAs, error); onError(error); } logit("✅ Done converting to: ", upscaledImagePath); }; export default convertAndScale;