package com.sothr.imagetools import grizzled.slf4j.Logging import java.awt.image.{DataBufferByte, BufferedImage, ColorConvertOp} import net.coobird.thumbnailator.Thumbnails import java.io.File import com.sothr.imagetools.image.Image import com.sothr.imagetools.hash.HashService import javax.imageio.ImageIO import java.io.IOException object ImageService extends Logging { def getImage(file:File):Image = { try { val thumbnailPath = getThumbnailPath(file) val bufferedImage = ImageIO.read(file) val hashes = HashService.getImageHashes(bufferedImage, file.getAbsolutePath) val imageSize = { (bufferedImage.getWidth, bufferedImage.getHeight) } val image = new Image(file.getAbsolutePath, thumbnailPath, imageSize, hashes) debug(s"Created image: $image") return image } catch { case ioe:IOException => error(s"Error processing ${file.getAbsolutePath}", ioe) case ex:Exception => error(s"Error processing ${file.getAbsolutePath}", ex) } null } def getThumbnailPath(file:File):String = { "." } /** * Get the raw data for an image */ def getImageData(image:BufferedImage):Array[Array[Int]] = { return convertTo2DWithoutUsingGetRGB(image) } /** * Quickly convert an image to grayscale * * @param image * @return */ def convertToGray(image:BufferedImage):BufferedImage = { debug("Converting an image to grayscale") val grayImage = new BufferedImage(image.getWidth, image.getHeight, BufferedImage.TYPE_BYTE_GRAY) //create a color conversion operation val op = new ColorConvertOp( image.getColorModel.getColorSpace, grayImage.getColorModel.getColorSpace, null) //convert the image to grey val result = op.filter(image, grayImage) //val g = image.getGraphics //g.drawImage(image,0,0,null) //g.dispose() result } def resize(image:BufferedImage, size:Int, forced:Boolean=false):BufferedImage = { debug(s"Resizing an image to size: ${size}x${size} forced: $forced") if (forced) { Thumbnails.of(image).forceSize(size,size).asBufferedImage } else { Thumbnails.of(image).size(size,size).asBufferedImage } } /** * Convert a buffered image into a 2d pixel data array * * @param image * @return */ private def convertTo2DWithoutUsingGetRGB(image:BufferedImage):Array[Array[Int]] = { val pixels = image.getRaster.getDataBuffer.asInstanceOf[DataBufferByte].getData val numPixels = pixels.length val width = image.getWidth val height = image.getHeight val isSingleChannel = if(numPixels == (width * height)) true else false val hasAlphaChannel = image.getAlphaRaster != null debug(s"Converting image to 2d. width:$width height:$height") val result = Array.ofDim[Int](height,width) if (isSingleChannel) { debug(s"Processing Single Channel Image") val pixelLength = 1 var row = 0 var col = 0 debug(s"Processing pixels 0 until $numPixels by $pixelLength") for (pixel <- 0 until numPixels by pixelLength) { //debug(s"Processing pixel: $pixel/${numPixels - 1}") val argb:Int = pixels(pixel).toInt //singleChannel //debug(s"Pixel data: $argb") result(row)(col) = argb col += 1 if (col == width) { col = 0 row += 1 } } } else if (hasAlphaChannel) { debug(s"Processing Four Channel Image") val pixelLength = 4 var row = 0 var col = 0 debug(s"Processing pixels 0 until $numPixels by $pixelLength") for (pixel <- 0 until numPixels by pixelLength) { //debug(s"Processing pixel: $pixel/${numPixels - 1}") var argb:Int = 0 argb += pixels(pixel).toInt << 24 //alpha argb += pixels(pixel + 1).toInt //blue argb += pixels(pixel + 2).toInt << 8 //green argb += pixels(pixel + 3).toInt << 16 //red result(row)(col) = argb col += 1 if (col == width) { col = 0 row += 1 } } } else { debug(s"Processing Three Channel Image") val pixelLength = 3 var row = 0 var col = 0 debug(s"Processing pixels 0 until $numPixels by $pixelLength") for (pixel <- 0 until numPixels by pixelLength) { //debug(s"Processing pixel: $pixel/${numPixels - 1}") var argb:Int = 0 argb += -16777216; // 255 alpha argb += pixels(pixel).toInt //blue argb += pixels(pixel + 1).toInt << 8 //green argb += pixels(pixel + 2).toInt << 16 //red result(row)(col) = argb col += 1 if (col == width) { col = 0 row += 1 } } } result } }