X-Git-Url: http://git.nikiroo.be/?a=blobdiff_plain;ds=inline;f=src%2Fbe%2Fnikiroo%2Fjvcard%2Ftui%2FImageText.java;h=073315de8c499d08a12f01faaa63fa89c30ae84e;hb=e741845793d462cdb06f27423fa761bb5b8ebd6b;hp=80b675b6fdcbaa46a1c6e9debcb9ace3e0ea7657;hpb=f04d8b1c4c3ed29d4d23cc076f307ef455b2dcb6;p=jvcard.git
diff --git a/src/be/nikiroo/jvcard/tui/ImageText.java b/src/be/nikiroo/jvcard/tui/ImageText.java
index 80b675b..073315d 100644
--- a/src/be/nikiroo/jvcard/tui/ImageText.java
+++ b/src/be/nikiroo/jvcard/tui/ImageText.java
@@ -1,5 +1,6 @@
package be.nikiroo.jvcard.tui;
+import java.awt.Color;
import java.awt.Graphics;
import java.awt.Image;
import java.awt.image.BufferedImage;
@@ -7,58 +8,193 @@ import java.awt.image.ImageObserver;
import com.googlecode.lanterna.TerminalSize;
+/**
+ * This class converts an {@link Image} into a textual representation that can
+ * be displayed to the user in a TUI.
+ *
+ * @author niki
+ *
+ */
public class ImageText {
private Image image;
private TerminalSize size;
private String text;
private boolean ready;
+ private Mode mode;
+ private boolean invert;
+ /**
+ * Th rendering modes supported by this {@link ImageText} to convert
+ * {@link Image}s into text.
+ *
+ * @author niki
+ *
+ */
+ public enum Mode {
+ /**
+ * Use 5 different "colours" which are actually Unicode
+ * {@link Character}s representing
+ *
+ * - space (blank)
+ * - low shade (â)
+ * - medium shade (â)
+ * - high shade (â)
+ * - full block (â)
+ *
+ */
+ DITHERING,
+ /**
+ * Use "block" Unicode {@link Character}s up to quarter blocks, thus in
+ * effect doubling the resolution both in vertical and horizontal space.
+ * Note that since 2 {@link Character}s next to each other are square,
+ * we will use 4 blocks per 2 blocks for w/h resolution.
+ */
+ DOUBLE_RESOLUTION,
+ /**
+ * Use {@link Character}s from both {@link Mode#DOUBLE_RESOLUTION} and
+ * {@link Mode#DITHERING}.
+ */
+ DOUBLE_DITHERING,
+ /**
+ * Only use ASCII {@link Character}s.
+ */
+ ASCII,
+ }
+
+ /**
+ * Create a new {@link ImageText} with the given parameters. Defaults to
+ * {@link Mode#DOUBLE_DITHERING} and no colour inversion.
+ *
+ * @param image
+ * the source {@link Image}
+ * @param size
+ * the final text size to target
+ */
public ImageText(Image image, TerminalSize size) {
- setImage(image, size);
+ this(image, size, Mode.DOUBLE_DITHERING, false);
}
- public void setImage(Image image) {
- setImage(image, size);
+ /**
+ * Create a new {@link ImageText} with the given parameters.
+ *
+ * @param image
+ * the source {@link Image}
+ * @param size
+ * the final text size to target
+ * @param mode
+ * the mode of conversion
+ * @param invert
+ * TRUE to invert colours rendering
+ */
+ public ImageText(Image image, TerminalSize size, Mode mode, boolean invert) {
+ setImage(image);
+ setSize(size);
+ setMode(mode);
+ setColorInvert(invert);
}
- public void setImage(TerminalSize size) {
- setImage(image, size);
+ /**
+ * Change the source {@link Image}.
+ *
+ * @param image
+ * the new {@link Image}
+ */
+ public void setImage(Image image) {
+ this.text = null;
+ this.ready = false;
+ this.image = image;
}
- public void setImage(Image image, TerminalSize size) {
+ /**
+ * Change the target size of this {@link ImageText}.
+ *
+ * @param size
+ * the new size
+ */
+ public void setSize(TerminalSize size) {
this.text = null;
this.ready = false;
this.size = size;
- if (image != null) {
- this.image = image;
- }
}
+ /**
+ * Change the image-to-text mode.
+ *
+ * @param mode
+ * the new {@link Mode}
+ */
+ public void setMode(Mode mode) {
+ this.mode = mode;
+ this.text = null;
+ this.ready = false;
+ }
+
+ /**
+ * Set the colour-invert mode.
+ *
+ * @param invert
+ * TRUE to inverse the colours
+ */
+ public void setColorInvert(boolean invert) {
+ this.invert = invert;
+ this.text = null;
+ this.ready = false;
+ }
+
+ /**
+ * Check if the colours are inverted.
+ *
+ * @return TRUE if the colours are inverted
+ */
+ public boolean isColorInvert() {
+ return invert;
+ }
+
+ /**
+ * Return the textual representation of the included {@link Image}.
+ *
+ * @return the {@link String} representation
+ */
public String getText() {
if (text == null) {
- if (image == null)
+ if (image == null || size == null || size.getColumns() == 0
+ || size.getRows() == 0)
return "";
- int w = size.getColumns() * 2;
- int h = size.getRows() * 2;
+ int mult = 1;
+ if (mode == Mode.DOUBLE_RESOLUTION || mode == Mode.DOUBLE_DITHERING)
+ mult = 2;
+
+ int w = size.getColumns() * mult;
+ int h = size.getRows() * mult;
+
BufferedImage buff = new BufferedImage(w, h,
BufferedImage.TYPE_INT_ARGB);
+
Graphics gfx = buff.getGraphics();
TerminalSize srcSize = getSize(image);
+ srcSize = new TerminalSize(srcSize.getColumns() * 2,
+ srcSize.getRows());
int x = 0;
int y = 0;
- if (srcSize.getColumns() > srcSize.getRows()) {
- double ratio = (double) srcSize.getRows()
+
+ if (srcSize.getColumns() < srcSize.getRows()) {
+ double ratio = (double) size.getColumns()
+ / (double) size.getRows();
+ ratio *= (double) srcSize.getRows()
/ (double) srcSize.getColumns();
+
h = (int) Math.round(ratio * h);
y = (buff.getHeight() - h) / 2;
} else {
- double ratio = (double) srcSize.getColumns()
+ double ratio = (double) size.getRows()
+ / (double) size.getColumns();
+ ratio *= (double) srcSize.getColumns()
/ (double) srcSize.getRows();
+
w = (int) Math.round(ratio * w);
x = (buff.getWidth() - w) / 2;
-
}
if (gfx.drawImage(image, x, y, w, h, new ImageObserver() {
@@ -81,18 +217,29 @@ public class ImageText {
gfx.dispose();
- int[][] square = new int[2][2];
StringBuilder builder = new StringBuilder();
- for (int row = 0; row < buff.getHeight(); row += 2) {
+
+ for (int row = 0; row < buff.getHeight(); row += mult) {
if (row > 0)
builder.append('\n');
- for (int col = 0; col < buff.getWidth(); col += 2) {
- square[0][0] = buff.getRGB(col, row);
- square[0][1] = buff.getRGB(col, row + 1);
- square[1][0] = buff.getRGB(col + 1, row);
- square[1][1] = buff.getRGB(col + 1, row + 1);
- builder.append(getChar(square));
+ for (int col = 0; col < buff.getWidth(); col += mult) {
+ if (mult == 1) {
+ if (mode == Mode.DITHERING)
+ builder.append(getDitheringChar(buff.getRGB(col,
+ row)));
+ else
+ // Mode.ASCII
+ builder.append(getAsciiChar(buff.getRGB(col, row)));
+ } else if (mult == 2) {
+ builder.append(getBlockChar( //
+ buff.getRGB(col, row),//
+ buff.getRGB(col + 1, row),//
+ buff.getRGB(col, row + 1),//
+ buff.getRGB(col + 1, row + 1),//
+ mode == Mode.DOUBLE_DITHERING//
+ ));
+ }
}
}
@@ -107,6 +254,14 @@ public class ImageText {
return getText();
}
+ /**
+ * Return the size of the given {@link Image}.
+ *
+ * @param img
+ * the image to measure
+ *
+ * @return the size
+ */
static private TerminalSize getSize(Image img) {
TerminalSize size = null;
while (size == null) {
@@ -125,15 +280,82 @@ public class ImageText {
return size;
}
- static private char getChar(int[][] square) {
+ /**
+ * Return the {@link Character} corresponding to this colour in
+ * {@link Mode#ASCII} mode.
+ *
+ * @param pixel
+ * the colour
+ *
+ * @return the {@link Character} to use
+ */
+ private char getAsciiChar(int pixel) {
+ float brigthness = getBrightness(pixel);
+ if (brigthness < 0.20) {
+ return ' ';
+ } else if (brigthness < 0.40) {
+ return '.';
+ } else if (brigthness < 0.60) {
+ return '+';
+ } else if (brigthness < 0.80) {
+ return '*';
+ } else {
+ return '#';
+ }
+ }
+
+ /**
+ * Return the {@link Character} corresponding to this colour in
+ * {@link Mode#DITHERING} mode.
+ *
+ * @param pixel
+ * the colour
+ *
+ * @return the {@link Character} to use
+ */
+ private char getDitheringChar(int pixel) {
+ float brigthness = getBrightness(pixel);
+ if (brigthness < 0.20) {
+ return ' ';
+ } else if (brigthness < 0.40) {
+ return 'â';
+ } else if (brigthness < 0.60) {
+ return 'â';
+ } else if (brigthness < 0.80) {
+ return 'â';
+ } else {
+ return 'â';
+ }
+ }
+
+ /**
+ * Return the {@link Character} corresponding to the 4 given colours in
+ * {@link Mode#DOUBLE_RESOLUTION} or {@link Mode#DOUBLE_DITHERING} mode.
+ *
+ * @param upperleft
+ * the upper left colour
+ * @param upperright
+ * the upper right colour
+ * @param lowerleft
+ * the lower left colour
+ * @param lowerright
+ * the lower right colour
+ * @param dithering
+ * TRUE to use {@link Mode#DOUBLE_DITHERING}, FALSE for
+ * {@link Mode#DOUBLE_RESOLUTION}
+ *
+ * @return the {@link Character} to use
+ */
+ private char getBlockChar(int upperleft, int upperright, int lowerleft,
+ int lowerright, boolean dithering) {
int choice = 0;
- if (rgb2hsl(square[0][0])[3] > 50)
+ if (getBrightness(upperleft) > 0.5f)
choice += 1;
- if (rgb2hsl(square[0][1])[3] > 50)
+ if (getBrightness(upperright) > 0.5f)
choice += 2;
- if (rgb2hsl(square[1][0])[3] > 50)
+ if (getBrightness(lowerleft) > 0.5f)
choice += 4;
- if (rgb2hsl(square[1][1])[3] > 50)
+ if (getBrightness(lowerright) > 0.5f)
choice += 8;
switch (choice) {
@@ -168,54 +390,132 @@ public class ImageText {
case 14:
return 'â';
case 15:
- return 'â';
+ if (dithering) {
+ float avg = 0;
+ avg += getBrightness(upperleft);
+ avg += getBrightness(upperright);
+ avg += getBrightness(lowerleft);
+ avg += getBrightness(lowerright);
+ avg /= 4;
+
+ if (avg < 0.20) {
+ return ' ';
+ } else if (avg < 0.40) {
+ return 'â';
+ } else if (avg < 0.60) {
+ return 'â';
+ } else if (avg < 0.80) {
+ return 'â';
+ } else {
+ return 'â';
+ }
+ } else {
+ return 'â';
+ }
}
return ' ';
}
- // return [a, h, s, l]; a/s/l: 0 to 100%, h = 0 to 359°
- static int[] rgb2hsl(int argb) {
- double a, r, g, b;
- a = ((argb & 0xff000000) >> 24) / 255.0;
- r = ((argb & 0x00ff0000) >> 16) / 255.0;
- g = ((argb & 0x0000ff00) >> 8) / 255.0;
- b = ((argb & 0x000000ff)) / 255.0;
+ /**
+ * Temporary array used so not to create a lot of new ones.
+ */
+ private float[] tmp = new float[4];
- double rgbMin, rgbMax;
- rgbMin = Math.min(r, Math.min(g, b));
- rgbMax = Math.max(r, Math.max(g, b));
+ /**
+ * Return the brightness value to use from the given ARGB colour.
+ *
+ * @param argb
+ * the argb colour
+ *
+ * @return the brightness to sue for computations
+ */
+ private float getBrightness(int argb) {
+ if (invert)
+ return 1 - rgb2hsb(argb, tmp)[2];
+ return rgb2hsb(argb, tmp)[2];
+ }
- double l;
- l = (rgbMin + rgbMax) / 2;
+ /**
+ * Convert the given ARGB colour in HSL/HSB, either into the supplied array
+ * or into a new one if array is NULL.
+ *
+ *
+ * ARGB pixels are given in 0xAARRGGBB format, while the returned array will
+ * contain Hue, Saturation, Lightness/Brightness, Alpha, in this order. H,
+ * S, L and A are all ranging from 0 to 1 (indeed, H is in 1/360th).
+ *
+ * pixel
+ *
+ * @param argb
+ * the ARGB colour pixel to convert
+ * @param array
+ * the array to convert into or NULL to create a new one
+ *
+ * @return the array containing the HSL/HSB converted colour
+ */
+ static float[] rgb2hsb(int argb, float[] array) {
+ int a, r, g, b;
+ a = ((argb & 0xff000000) >> 24);
+ r = ((argb & 0x00ff0000) >> 16);
+ g = ((argb & 0x0000ff00) >> 8);
+ b = ((argb & 0x000000ff));
- double s;
- if (rgbMin == rgbMax) {
- s = 0;
- } else {
- if (l <= 0.5) {
- s = (rgbMax - rgbMin) / (rgbMax + rgbMin);
- } else {
- s = (rgbMax - rgbMin) / (2.0 - rgbMax - rgbMin);
- }
- }
+ if (array == null)
+ array = new float[4];
+ Color.RGBtoHSB(r, g, b, array);
- double h;
- if (r > g && r > b) {
- h = (g - b) / (rgbMax - rgbMin);
- } else if (g > b) {
- h = 2.0 + (b - r) / (rgbMax - rgbMin);
- } else {
- h = 4.0 + (r - g) / (rgbMax - rgbMin);
- }
+ array[3] = a;
- int aa = (int) Math.round(100 * a);
- int hh = (int) (60 * h);
- if (hh < 0)
- hh += 360;
- int ss = (int) Math.round(100 * s);
- int ll = (int) Math.round(100 * l);
+ return array;
- return new int[] { aa, hh, ss, ll };
+ // // other implementation:
+ //
+ // float a, r, g, b;
+ // a = ((argb & 0xff000000) >> 24) / 255.0f;
+ // r = ((argb & 0x00ff0000) >> 16) / 255.0f;
+ // g = ((argb & 0x0000ff00) >> 8) / 255.0f;
+ // b = ((argb & 0x000000ff)) / 255.0f;
+ //
+ // float rgbMin, rgbMax;
+ // rgbMin = Math.min(r, Math.min(g, b));
+ // rgbMax = Math.max(r, Math.max(g, b));
+ //
+ // float l;
+ // l = (rgbMin + rgbMax) / 2;
+ //
+ // float s;
+ // if (rgbMin == rgbMax) {
+ // s = 0;
+ // } else {
+ // if (l <= 0.5) {
+ // s = (rgbMax - rgbMin) / (rgbMax + rgbMin);
+ // } else {
+ // s = (rgbMax - rgbMin) / (2.0f - rgbMax - rgbMin);
+ // }
+ // }
+ //
+ // float h;
+ // if (r > g && r > b) {
+ // h = (g - b) / (rgbMax - rgbMin);
+ // } else if (g > b) {
+ // h = 2.0f + (b - r) / (rgbMax - rgbMin);
+ // } else {
+ // h = 4.0f + (r - g) / (rgbMax - rgbMin);
+ // }
+ // h /= 6; // from 0 to 1
+ //
+ // return new float[] { h, s, l, a };
+ //
+ // // // natural mode:
+ // //
+ // // int aa = (int) Math.round(100 * a);
+ // // int hh = (int) (360 * h);
+ // // if (hh < 0)
+ // // hh += 360;
+ // // int ss = (int) Math.round(100 * s);
+ // // int ll = (int) Math.round(100 * l);
+ // //
+ // // return new int[] { hh, ss, ll, aa };
}
}