Mercurial > cgi-bin > hgweb.cgi > ImagePrep
view src/name/blackcap/imageprep/RotateDialog.kt @ 8:b5fcabce391f
Use bicubic interpolation, like Gimp.
| author | David Barts <n5jrn@me.com> |
|---|---|
| date | Fri, 17 Jul 2020 22:56:00 -0700 |
| parents | 9129ae110146 |
| children | 1f824742e1fa |
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/* * Represents a file being edited (rotated) */ package name.blackcap.imageprep import java.awt.Dimension import java.awt.Graphics import java.awt.Graphics2D import java.awt.RenderingHints import java.awt.Toolkit import java.awt.event.ActionListener import java.awt.image.BufferedImage import java.io.File import java.io.IOException import java.util.logging.Level import java.util.logging.Logger import javax.imageio.ImageIO import javax.swing.* import kotlin.math.* class RotateDialog(val file: File, initialImage: BufferedImage) : JDialog(Application.mainFrame) { private val BW = 9 private val BW2 = BW * 2 private class DrawingPane(initialImage: BufferedImage) : JPanel() { var image: BufferedImage = initialImage set(value) { field = value revalidate() repaint() } override fun getPreferredSize(): Dimension { val screen = Toolkit.getDefaultToolkit().screenSize return Dimension(min(image.width, screen.width/4*3), min(image.height, screen.height/4*3)) } override protected fun paintComponent(g: Graphics): Unit { g.drawImage(image, 0, 0, null) } } private val drawingPane = DrawingPane(initialImage) val image: BufferedImage get() { return drawingPane.image } private val r90cw = JButton("90° CW").also { it.addActionListener(ActionListener { doRotate(90) }) } private val r180 = JButton("180°").also { it.addActionListener(ActionListener { doRotate(180) }) } private val r90ccw = JButton("90° CCW").also { it.addActionListener(ActionListener { doRotate(270) }) } /* Theoretically, this should do the rotation in a background thread. Practically, that is fraught with difficulties, as it involves manipulating data used by Swing itself. Since the size of the images being rotated are small, we do it in the foreground. */ private fun doRotate(deg: Int) { rootPane.defaultButton = null // https://stackoverflow.com/questions/15927014/rotating-an-image-90-degrees-in-java if (deg % 90 != 0) { val barf = "${deg} not a multiple of 90!" LOGGER.log(Level.SEVERE, barf) throw AssertionError(barf) } val rad = java.lang.Math.toRadians(deg.toDouble()) val (w, h) = if (deg % 180 == 0) Pair(image.width, image.height) else Pair(image.height, image.width) val rotatedImage = BufferedImage(w, h, image.type) rotatedImage.createGraphics().run { translate((w - image.width) / 2, (h - image.height) / 2) rotate(rad, image.width.toDouble()/2.0, image.height.toDouble()/2.0) drawRenderedImage(image, null) dispose() } drawingPane.image = rotatedImage revalidate() pack() repaint() } init { defaultCloseOperation = JDialog.DISPOSE_ON_CLOSE title = "Untitled" contentPane.apply { layout = BoxLayout(this, BoxLayout.Y_AXIS) add(JScrollPane(drawingPane).apply { alignmentX = JScrollPane.CENTER_ALIGNMENT addBorder(BorderFactory.createEmptyBorder(BW2, BW2, BW, BW2)) verticalScrollBarPolicy = ScrollPaneConstants.VERTICAL_SCROLLBAR_ALWAYS horizontalScrollBarPolicy = ScrollPaneConstants.HORIZONTAL_SCROLLBAR_ALWAYS background = Application.mainFrame.background }) add(Box(BoxLayout.X_AXIS).apply { alignmentX = Box.CENTER_ALIGNMENT addBorder(BorderFactory.createEmptyBorder(BW, BW2, BW2, BW2)) add(JLabel("Rotate:")) add(Box.createHorizontalGlue()) add(r90cw) add(Box.createHorizontalGlue()) add(r180) add(Box.createHorizontalGlue()) add(r90ccw) }) } rootPane.defaultButton = null pack() } companion object Factory { /** * Make a dialog asynchronously. * * @param input java.io.File to read for image. */ fun makeDialog(input: File): Unit { Application.mainFrame.useWaitCursor() swingWorker<Pair<BufferedImage?, IOException?>> { inBackground { try { val imageIn = ImageIO.read(input) /* IOException */ val ratio = Settings.maxDimension.toDouble() / max(imageIn.width, imageIn.height).toDouble() if (ratio >= 1.0) { Pair(null, null) } else { val nWidth = (imageIn.width * ratio).toInt() val nHeight = (imageIn.height * ratio).toInt() val imageOut = BufferedImage(nWidth, nHeight, BufferedImage.TYPE_INT_RGB) val graphics = imageOut.createGraphics().apply { setRenderingHint(RenderingHints.KEY_INTERPOLATION, RenderingHints.VALUE_INTERPOLATION_BICUBIC) setRenderingHint(RenderingHints.KEY_RENDERING, RenderingHints.VALUE_RENDER_QUALITY) setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON) } graphics.drawImage(imageIn, 0, 0, nWidth, nHeight, null) Pair(imageOut, null) } } catch (e: IOException) { Pair(null, e) } } whenDone { Application.mainFrame.useNormalCursor() val (image, error) = get() if (error != null) ioExceptionDialog(Application.mainFrame, input, "read", error) else if (image != null) RotateDialog(input, image).run { title = input.name setVisible(true) } else JOptionPane.showMessageDialog(Application.mainFrame, "Image is too small to be scaled.", "Warning", JOptionPane.WARNING_MESSAGE) } } } } }