X-Git-Url: http://git.nikiroo.be/?a=blobdiff_plain;f=src%2Fjexer%2Fbackend%2FECMA48Terminal.java;h=e2997d2f6b17486356ddd9d902d114039258bdef;hb=12b90437b5f22c2ae6e9b9b14c3b62b60f6143e5;hp=ca1d499594734c75275a53f90a7f5fb8aa9f9a56;hpb=9f613a0c54cb97e9305fd87ce8eb2f76ac82804e;p=nikiroo-utils.git diff --git a/src/jexer/backend/ECMA48Terminal.java b/src/jexer/backend/ECMA48Terminal.java index ca1d499..e2997d2 100644 --- a/src/jexer/backend/ECMA48Terminal.java +++ b/src/jexer/backend/ECMA48Terminal.java @@ -30,6 +30,7 @@ package jexer.backend; import java.awt.image.BufferedImage; import java.io.BufferedReader; +import java.io.ByteArrayOutputStream; import java.io.FileDescriptor; import java.io.FileInputStream; import java.io.InputStream; @@ -44,6 +45,7 @@ import java.util.ArrayList; import java.util.Collections; import java.util.HashMap; import java.util.List; +import javax.imageio.ImageIO; import jexer.TImage; import jexer.bits.Cell; @@ -81,14 +83,6 @@ public class ECMA48Terminal extends LogicalScreen MOUSE_SGR, } - /** - * Number of colors in the sixel palette. Xterm 335 defines the max as - * 1024. - */ - private static final int MAX_COLOR_REGISTERS = 1024; - // Black-and-white is possible too. - // private static final int MAX_COLOR_REGISTERS = 2; - // ------------------------------------------------------------------------ // Variables -------------------------------------------------------------- // ------------------------------------------------------------------------ @@ -175,6 +169,11 @@ public class ECMA48Terminal extends LogicalScreen */ private TResizeEvent windowResize = null; + /** + * If true, emit wide-char (CJK/Emoji) characters as sixel images. + */ + private boolean wideCharImages = true; + /** * Window width in pixels. Used for sixel support. */ @@ -198,12 +197,49 @@ public class ECMA48Terminal extends LogicalScreen /** * The sixel post-rendered string cache. */ - private SixelCache sixelCache = null; + private ImageCache sixelCache = null; + + /** + * Number of colors in the sixel palette. Xterm 335 defines the max as + * 1024. Valid values are: 2 (black and white), 256, 512, 1024, and + * 2048. + */ + private int sixelPaletteSize = 1024; + + /** + * If true, emit image data via iTerm2 image protocol. + */ + private boolean iterm2Images = false; + + /** + * The iTerm2 post-rendered string cache. + */ + private ImageCache iterm2Cache = null; + + /** + * If true, emit image data via Jexer image protocol. + */ + private boolean jexerImages = false; + + /** + * The Jexer post-rendered string cache. + */ + private ImageCache jexerCache = null; + + /** + * Base64 encoder used by iTerm2 and Jexer images. + */ + private java.util.Base64.Encoder base64 = null; /** * If true, then we changed System.in and need to change it back. */ - private boolean setRawMode; + private boolean setRawMode = false; + + /** + * If true, '?' was seen in terminal response. + */ + private boolean decPrivateModeFlag = false; /** * The terminal's input. If an InputStream is not specified in the @@ -232,9 +268,27 @@ public class ECMA48Terminal extends LogicalScreen */ private Object listener; + // Colors to map DOS colors to AWT colors. + private static java.awt.Color MYBLACK; + private static java.awt.Color MYRED; + private static java.awt.Color MYGREEN; + private static java.awt.Color MYYELLOW; + private static java.awt.Color MYBLUE; + private static java.awt.Color MYMAGENTA; + private static java.awt.Color MYCYAN; + private static java.awt.Color MYWHITE; + private static java.awt.Color MYBOLD_BLACK; + private static java.awt.Color MYBOLD_RED; + private static java.awt.Color MYBOLD_GREEN; + private static java.awt.Color MYBOLD_YELLOW; + private static java.awt.Color MYBOLD_BLUE; + private static java.awt.Color MYBOLD_MAGENTA; + private static java.awt.Color MYBOLD_CYAN; + private static java.awt.Color MYBOLD_WHITE; + /** * SixelPalette is used to manage the conversion of images between 24-bit - * RGB color and a palette of MAX_COLOR_REGISTERS colors. + * RGB color and a palette of sixelPaletteSize colors. */ private class SixelPalette { @@ -247,7 +301,7 @@ public class ECMA48Terminal extends LogicalScreen * Map of color palette index for sixel output, from the order it was * generated by makePalette() to rgbColors. */ - private int [] rgbSortedIndex = new int[MAX_COLOR_REGISTERS]; + private int [] rgbSortedIndex = new int[sixelPaletteSize]; /** * The color palette, organized by hue, saturation, and luminance. @@ -345,7 +399,7 @@ public class ECMA48Terminal extends LogicalScreen int green = (color >>> 8) & 0xFF; int blue = color & 0xFF; - if (MAX_COLOR_REGISTERS == 2) { + if (sixelPaletteSize == 2) { if (((red * red) + (green * green) + (blue * blue)) < 35568) { // Black return 0; @@ -427,7 +481,7 @@ public class ECMA48Terminal extends LogicalScreen ((255 - blue) * (255 - blue))) < diff) { // White is a closer match. - idx = MAX_COLOR_REGISTERS - 1; + idx = sixelPaletteSize - 1; } assert (idx != -1); return idx; @@ -450,7 +504,7 @@ public class ECMA48Terminal extends LogicalScreen } /** - * Dither an image to a MAX_COLOR_REGISTERS palette. The dithered + * Dither an image to a sixelPaletteSize palette. The dithered * image cells will contain indexes into the palette. * * @param image the image to dither @@ -473,7 +527,7 @@ public class ECMA48Terminal extends LogicalScreen imageY) & 0xFFFFFF; int colorIdx = matchColor(oldPixel); assert (colorIdx >= 0); - assert (colorIdx < MAX_COLOR_REGISTERS); + assert (colorIdx < sixelPaletteSize); int newPixel = rgbColors.get(colorIdx); ditheredImage.setRGB(imageX, imageY, colorIdx); @@ -671,11 +725,11 @@ public class ECMA48Terminal extends LogicalScreen private void makePalette() { // Generate the sixel palette. Because we have no idea at this // layer which image(s) will be shown, we have to use a common - // palette with MAX_COLOR_REGISTERS colors for everything, and + // palette with sixelPaletteSize colors for everything, and // map the BufferedImage colors to their nearest neighbor in RGB // space. - if (MAX_COLOR_REGISTERS == 2) { + if (sixelPaletteSize == 2) { rgbColors.add(0); rgbColors.add(0xFFFFFF); rgbSortedIndex[0] = 0; @@ -696,13 +750,13 @@ public class ECMA48Terminal extends LogicalScreen satBits = 2; lumBits = 1; - assert (MAX_COLOR_REGISTERS >= 256); - assert ((MAX_COLOR_REGISTERS == 256) - || (MAX_COLOR_REGISTERS == 512) - || (MAX_COLOR_REGISTERS == 1024) - || (MAX_COLOR_REGISTERS == 2048)); + assert (sixelPaletteSize >= 256); + assert ((sixelPaletteSize == 256) + || (sixelPaletteSize == 512) + || (sixelPaletteSize == 1024) + || (sixelPaletteSize == 2048)); - switch (MAX_COLOR_REGISTERS) { + switch (sixelPaletteSize) { case 512: hueBits = 5; satBits = 2; @@ -788,7 +842,7 @@ public class ECMA48Terminal extends LogicalScreen } // System.err.printf("\n\n"); - assert (rgbColors.size() == MAX_COLOR_REGISTERS); + assert (rgbColors.size() == sixelPaletteSize); /* * We need to sort rgbColors, so that toSixel() can know where @@ -800,19 +854,19 @@ public class ECMA48Terminal extends LogicalScreen Collections.sort(rgbColors); HashMap rgbColorIndices = null; rgbColorIndices = new HashMap(); - for (int i = 0; i < MAX_COLOR_REGISTERS; i++) { + for (int i = 0; i < sixelPaletteSize; i++) { rgbColorIndices.put(rgbColors.get(i), i); } - for (int i = 0; i < MAX_COLOR_REGISTERS; i++) { + for (int i = 0; i < sixelPaletteSize; i++) { int rawColor = rawRgbList.get(i); rgbSortedIndex[i] = rgbColorIndices.get(rawColor); } if (DEBUG) { - for (int i = 0; i < MAX_COLOR_REGISTERS; i++) { + for (int i = 0; i < sixelPaletteSize; i++) { assert (rawRgbList != null); int idx = rgbSortedIndex[i]; int rgbColor = rgbColors.get(idx); - if ((idx != 0) && (idx != MAX_COLOR_REGISTERS - 1)) { + if ((idx != 0) && (idx != sixelPaletteSize - 1)) { /* System.err.printf("%d %06x --> %d %06x\n", i, rawRgbList.get(i), idx, rgbColors.get(idx)); @@ -825,7 +879,7 @@ public class ECMA48Terminal extends LogicalScreen // Set the dimmest color as true black, and the brightest as true // white. rgbColors.set(0, 0); - rgbColors.set(MAX_COLOR_REGISTERS - 1, 0xFFFFFF); + rgbColors.set(sixelPaletteSize - 1, 0xFFFFFF); /* System.err.printf("\n"); @@ -850,7 +904,7 @@ public class ECMA48Terminal extends LogicalScreen public String emitPalette(final StringBuilder sb, final boolean [] used) { - for (int i = 0; i < MAX_COLOR_REGISTERS; i++) { + for (int i = 0; i < sixelPaletteSize; i++) { if (((used != null) && (used[i] == true)) || (used == null)) { int rgbColor = rgbColors.get(i); sb.append(String.format("#%d;2;%d;%d;%d", i, @@ -864,10 +918,10 @@ public class ECMA48Terminal extends LogicalScreen } /** - * SixelCache is a least-recently-used cache that hangs on to the - * post-rendered sixel string for a particular set of cells. + * ImageCache is a least-recently-used cache that hangs on to the + * post-rendered sixel or iTerm2 string for a particular set of cells. */ - private class SixelCache { + private class ImageCache { /** * Maximum size of the cache. @@ -916,7 +970,7 @@ public class ECMA48Terminal extends LogicalScreen * * @param maxSize the maximum size of the cache */ - public SixelCache(final int maxSize) { + public ImageCache(final int maxSize) { this.maxSize = maxSize; cache = new HashMap(); } @@ -1009,8 +1063,9 @@ public class ECMA48Terminal extends LogicalScreen * input comes in * @param input an InputStream connected to the remote user, or null for * System.in. If System.in is used, then on non-Windows systems it will - * be put in raw mode; shutdown() will (blindly!) put System.in in cooked - * mode. input is always converted to a Reader with UTF-8 encoding. + * be put in raw mode; closeTerminal() will (blindly!) put System.in in + * cooked mode. input is always converted to a Reader with UTF-8 + * encoding. * @param output an OutputStream connected to the remote user, or null * for System.out. output is always converted to a Writer with UTF-8 * encoding. @@ -1042,8 +1097,9 @@ public class ECMA48Terminal extends LogicalScreen * input comes in * @param input an InputStream connected to the remote user, or null for * System.in. If System.in is used, then on non-Windows systems it will - * be put in raw mode; shutdown() will (blindly!) put System.in in cooked - * mode. input is always converted to a Reader with UTF-8 encoding. + * be put in raw mode; closeTerminal() will (blindly!) put System.in in + * cooked mode. input is always converted to a Reader with UTF-8 + * encoding. * @param output an OutputStream connected to the remote user, or null * for System.out. output is always converted to a Writer with UTF-8 * encoding. @@ -1092,13 +1148,19 @@ public class ECMA48Terminal extends LogicalScreen "UTF-8")); } - // Request xterm report window dimensions in pixels - this.output.printf("%s", xtermReportWindowPixelDimensions()); + // Request Device Attributes + this.output.printf("\033[c"); + + // Request xterm report window/cell dimensions in pixels + this.output.printf("%s", xtermReportPixelDimensions()); // Enable mouse reporting and metaSendsEscape this.output.printf("%s%s", mouse(true), xtermMetaSendsEscape(true)); this.output.flush(); + // Request xterm use the sixel settings we want + this.output.printf("%s", xtermSetSixelSettings()); + // Query the screen size sessionInfo.queryWindowSize(); setDimensions(sessionInfo.getWindowWidth(), @@ -1178,13 +1240,19 @@ public class ECMA48Terminal extends LogicalScreen this.output = writer; - // Request xterm report window dimensions in pixels - this.output.printf("%s", xtermReportWindowPixelDimensions()); + // Request Device Attributes + this.output.printf("\033[c"); + + // Request xterm report window/cell dimensions in pixels + this.output.printf("%s", xtermReportPixelDimensions()); // Enable mouse reporting and metaSendsEscape this.output.printf("%s%s", mouse(true), xtermMetaSendsEscape(true)); this.output.flush(); + // Request xterm use the sixel settings we want + this.output.printf("%s", xtermSetSixelSettings()); + // Query the screen size sessionInfo.queryWindowSize(); setDimensions(sessionInfo.getWindowWidth(), @@ -1310,7 +1378,7 @@ public class ECMA48Terminal extends LogicalScreen */ public void closeTerminal() { - // System.err.println("=== shutdown() ==="); System.err.flush(); + // System.err.println("=== closeTerminal() ==="); System.err.flush(); // Tell the reader thread to stop looking at input stopReaderThread = true; @@ -1325,7 +1393,8 @@ public class ECMA48Terminal extends LogicalScreen // Disable mouse reporting and show cursor. Defensive null check // here in case closeTerminal() is called twice. if (output != null) { - output.printf("%s%s%s", mouse(false), cursor(true), normal()); + output.printf("%s%s%s%s", mouse(false), cursor(true), + defaultColor(), xtermResetSixelSettings()); output.flush(); } @@ -1374,12 +1443,52 @@ public class ECMA48Terminal extends LogicalScreen doRgbColor = false; } + // Default to using images for full-width characters. + if (System.getProperty("jexer.ECMA48.wideCharImages", + "true").equals("true")) { + wideCharImages = true; + } else { + wideCharImages = false; + } + // Pull the system properties for sixel output. if (System.getProperty("jexer.ECMA48.sixel", "true").equals("true")) { sixel = true; } else { sixel = false; } + + // Palette size + int paletteSize = 1024; + try { + paletteSize = Integer.parseInt(System.getProperty( + "jexer.ECMA48.sixelPaletteSize", "1024")); + switch (paletteSize) { + case 2: + case 256: + case 512: + case 1024: + case 2048: + sixelPaletteSize = paletteSize; + break; + default: + // Ignore value + break; + } + } catch (NumberFormatException e) { + // SQUASH + } + + // Default to using images for full-width characters. + if (System.getProperty("jexer.ECMA48.iTerm2Images", + "false").equals("true")) { + iterm2Images = true; + } else { + iterm2Images = false; + } + + // Set custom colors + setCustomSystemColors(); } // ------------------------------------------------------------------------ @@ -1674,7 +1783,11 @@ public class ECMA48Terminal extends LogicalScreen // Image cell: bypass the rest of the loop, it is not // rendered here. - if (lCell.isImage()) { + if ((wideCharImages && lCell.isImage()) + || (!wideCharImages + && lCell.isImage() + && (lCell.getWidth() == Cell.Width.SINGLE)) + ) { hasImage = true; // Save the last rendered cell @@ -1685,7 +1798,16 @@ public class ECMA48Terminal extends LogicalScreen continue; } - assert (!lCell.isImage()); + assert ((wideCharImages && !lCell.isImage()) + || (!wideCharImages + && (!lCell.isImage() + || (lCell.isImage() + && (lCell.getWidth() != Cell.Width.SINGLE))))); + + if (!wideCharImages && (lCell.getWidth() == Cell.Width.RIGHT)) { + continue; + } + if (hasImage) { hasImage = false; sb.append(gotoXY(x, y)); @@ -1845,7 +1967,13 @@ public class ECMA48Terminal extends LogicalScreen } // Emit the character - sb.append(lCell.getChar()); + if (wideCharImages + // Don't emit the right-half of full-width chars. + || (!wideCharImages + && (lCell.getWidth() != Cell.Width.RIGHT)) + ) { + sb.append(Character.toChars(lCell.getChar())); + } // Save the last rendered cell lastX = x; @@ -1876,7 +2004,7 @@ public class ECMA48Terminal extends LogicalScreen } /* - * For sixel support, draw all of the sixel output first, and then + * For images support, draw all of the image output first, and then * draw everything else afterwards. This works OK, but performance * is still a drag on larger pictures. */ @@ -1897,7 +2025,10 @@ public class ECMA48Terminal extends LogicalScreen Cell lCell = logical[x][y]; Cell pCell = physical[x][y]; - if (!lCell.isImage()) { + if (!lCell.isImage() + || (!wideCharImages + && (lCell.getWidth() != Cell.Width.SINGLE)) + ) { continue; } @@ -1919,7 +2050,13 @@ public class ECMA48Terminal extends LogicalScreen physical[x + i][y].setTo(lCell); } if (cellsToDraw.size() > 0) { - sb.append(toSixel(x, y, cellsToDraw)); + if (iterm2Images) { + sb.append(toIterm2Image(x, y, cellsToDraw)); + } else if (jexerImages) { + sb.append(toJexerImage(x, y, cellsToDraw)); + } else { + sb.append(toSixel(x, y, cellsToDraw)); + } } x = right; @@ -1948,6 +2085,7 @@ public class ECMA48Terminal extends LogicalScreen params = new ArrayList(); params.clear(); params.add(""); + decPrivateModeFlag = false; } /** @@ -2294,7 +2432,7 @@ public class ECMA48Terminal extends LogicalScreen getTextWidth() + " x " + getTextHeight()); } - this.output.printf("%s", xtermReportWindowPixelDimensions()); + this.output.printf("%s", xtermReportPixelDimensions()); this.output.flush(); TResizeEvent event = new TResizeEvent(TResizeEvent.Type.SCREEN, @@ -2530,6 +2668,10 @@ public class ECMA48Terminal extends LogicalScreen // Mouse position, SGR (1006) coordinates state = ParseState.MOUSE_SGR; return; + case '?': + // DEC private mode flag + decPrivateModeFlag = true; + return; default: break; } @@ -2659,6 +2801,27 @@ public class ECMA48Terminal extends LogicalScreen events.add(new TKeypressEvent(kbEnd, alt, ctrl, shift)); resetParser(); return; + case 'c': + // Device Attributes + if (decPrivateModeFlag == false) { + break; + } + for (String x: params) { + if (x.equals("4")) { + // Terminal reports sixel support + if (debugToStderr) { + System.err.println("Device Attributes: sixel"); + } + } + if (x.equals("444")) { + // Terminal reports Jexer images support + if (debugToStderr) { + System.err.println("Device Attributes: Jexer images"); + } + jexerImages = true; + } + } + return; case 't': // windowOps if ((params.size() > 2) && (params.get(0).equals("4"))) { @@ -2682,6 +2845,27 @@ public class ECMA48Terminal extends LogicalScreen heightPixels = 400; } } + if ((params.size() > 2) && (params.get(0).equals("6"))) { + if (debugToStderr) { + System.err.printf("windowOp text cell pixels: " + + "height %s width %s\n", + params.get(1), params.get(2)); + } + try { + widthPixels = width * Integer.parseInt(params.get(2)); + heightPixels = height * Integer.parseInt(params.get(1)); + } catch (NumberFormatException e) { + if (debugToStderr) { + e.printStackTrace(); + } + } + if (widthPixels <= 0) { + widthPixels = 640; + } + if (heightPixels <= 0) { + heightPixels = 400; + } + } resetParser(); return; default: @@ -2711,12 +2895,42 @@ public class ECMA48Terminal extends LogicalScreen } /** - * Request (u)xterm to report the current window size dimensions. + * Request (u)xterm to use the sixel settings we need: + * + * - enable sixel scrolling + * + * - disable private color registers (so that we can use one common + * palette) + * + * @return the string to emit to xterm + */ + private String xtermSetSixelSettings() { + return "\033[?80h\033[?1070l"; + } + + /** + * Restore (u)xterm its default sixel settings: + * + * - enable sixel scrolling + * + * - enable private color registers + * + * @return the string to emit to xterm + */ + private String xtermResetSixelSettings() { + return "\033[?80h\033[?1070h"; + } + + /** + * Request (u)xterm to report the current window and cell size dimensions + * in pixels. * * @return the string to emit to xterm */ - private String xtermReportWindowPixelDimensions() { - return "\033[14t"; + private String xtermReportPixelDimensions() { + // We will ask for both window and text cell dimensions, and + // hopefully one of them will work. + return "\033[14t\033[16t"; } /** @@ -2748,6 +2962,46 @@ public class ECMA48Terminal extends LogicalScreen // Sixel output support --------------------------------------------------- // ------------------------------------------------------------------------ + /** + * Get the number of colors in the sixel palette. + * + * @return the palette size + */ + public int getSixelPaletteSize() { + return sixelPaletteSize; + } + + /** + * Set the number of colors in the sixel palette. + * + * @param paletteSize the new palette size + */ + public void setSixelPaletteSize(final int paletteSize) { + if (paletteSize == sixelPaletteSize) { + return; + } + + switch (paletteSize) { + case 2: + case 256: + case 512: + case 1024: + case 2048: + break; + default: + throw new IllegalArgumentException("Unsupported sixel palette " + + " size: " + paletteSize); + } + + // Don't step on the screen refresh thread. + synchronized (this) { + sixelPaletteSize = paletteSize; + palette = null; + sixelCache = null; + clearPhysical(); + } + } + /** * Start a sixel string for display one row's worth of bitmap data. * @@ -2768,6 +3022,8 @@ public class ECMA48Terminal extends LogicalScreen if (palette == null) { palette = new SixelPalette(); + // TODO: make this an option (shared palette or not) + palette.emitPalette(sb, null); } return sb.toString(); @@ -2812,8 +3068,22 @@ public class ECMA48Terminal extends LogicalScreen return sb.toString(); } + if (y == height - 1) { + // We are on the bottom row. If scrolling mode is enabled + // (default), then VT320/xterm will scroll the entire screen if + // we draw any pixels here. + + // TODO: support sixel scrolling mode disabled as an option. + sb.append(normal()); + sb.append(gotoXY(x, y)); + for (int j = 0; j < cells.size(); j++) { + sb.append(' '); + } + return sb.toString(); + } + if (sixelCache == null) { - sixelCache = new SixelCache(height * 10); + sixelCache = new ImageCache(height * 10); } // Save and get rows to/from the cache that do NOT have inverted @@ -2858,6 +3128,7 @@ public class ECMA48Terminal extends LogicalScreen imageWidth); int tileHeight = Math.min(cells.get(i).getImage().getHeight(), imageHeight); + if (false && cells.get(i).isInvertedImage()) { // I used to put an all-white cell over the cursor, don't do // that anymore. @@ -2939,18 +3210,29 @@ public class ECMA48Terminal extends LogicalScreen // Dither the image. It is ok to lose the original here. if (palette == null) { palette = new SixelPalette(); + // TODO: make this an option (shared palette or not) + palette.emitPalette(sb, null); } image = palette.ditherImage(image); + // Collect the raster information + int rasterHeight = 0; + int rasterWidth = image.getWidth(); + + /* + + // TODO: make this an option (shared palette or not) + // Emit the palette, but only for the colors actually used by these // cells. - boolean [] usedColors = new boolean[MAX_COLOR_REGISTERS]; + boolean [] usedColors = new boolean[sixelPaletteSize]; for (int imageX = 0; imageX < image.getWidth(); imageX++) { for (int imageY = 0; imageY < image.getHeight(); imageY++) { usedColors[image.getRGB(imageX, imageY)] = true; } } palette.emitPalette(sb, usedColors); + */ // Render the entire row of cells. for (int currentRow = 0; currentRow < fullHeight; currentRow += 6) { @@ -2964,13 +3246,13 @@ public class ECMA48Terminal extends LogicalScreen int colorIdx = image.getRGB(imageX, imageY + currentRow); assert (colorIdx >= 0); - assert (colorIdx < MAX_COLOR_REGISTERS); + assert (colorIdx < sixelPaletteSize); sixels[imageX][imageY] = colorIdx; } } - for (int i = 0; i < MAX_COLOR_REGISTERS; i++) { + for (int i = 0; i < sixelPaletteSize; i++) { boolean isUsed = false; for (int imageX = 0; imageX < image.getWidth(); imageX++) { for (int j = 0; j < 6; j++) { @@ -3018,6 +3300,9 @@ public class ECMA48Terminal extends LogicalScreen data += 32; break; } + if ((currentRow + j + 1) > rasterHeight) { + rasterHeight = currentRow + j + 1; + } } } assert (data >= 0); @@ -3047,7 +3332,7 @@ public class ECMA48Terminal extends LogicalScreen sb.append((char) oldData); } - } // for (int i = 0; i < MAX_COLOR_REGISTERS; i++) + } // for (int i = 0; i < sixelPaletteSize; i++) // Advance to the next scan line. sb.append("-"); @@ -3057,6 +3342,9 @@ public class ECMA48Terminal extends LogicalScreen // Kill the very last "-", because it is unnecessary. sb.deleteCharAt(sb.length() - 1); + // Add the raster information + sb.insert(0, String.format("\"1;1;%d;%d", rasterWidth, rasterHeight)); + if (saveInCache) { // This row is OK to save into the cache. sixelCache.put(cells, sb.toString()); @@ -3078,127 +3366,662 @@ public class ECMA48Terminal extends LogicalScreen // End sixel output support ----------------------------------------------- // ------------------------------------------------------------------------ - /** - * Create a SGR parameter sequence for a single color change. - * - * @param bold if true, set bold - * @param color one of the Color.WHITE, Color.BLUE, etc. constants - * @param foreground if true, this is a foreground color - * @return the string to emit to an ANSI / ECMA-style terminal, - * e.g. "\033[42m" - */ - private String color(final boolean bold, final Color color, - final boolean foreground) { - return color(color, foreground, true) + - rgbColor(bold, color, foreground); - } + // ------------------------------------------------------------------------ + // iTerm2 image output support -------------------------------------------- + // ------------------------------------------------------------------------ /** - * Create a T.416 RGB parameter sequence for a single color change. + * Create an iTerm2 images string representing a row of several cells + * containing bitmap data. * - * @param colorRGB a 24-bit RGB value for foreground color - * @param foreground if true, this is a foreground color - * @return the string to emit to an ANSI / ECMA-style terminal, - * e.g. "\033[42m" + * @param x column coordinate. 0 is the left-most column. + * @param y row coordinate. 0 is the top-most row. + * @param cells the cells containing the bitmap data + * @return the string to emit to an ANSI / ECMA-style terminal */ - private String colorRGB(final int colorRGB, final boolean foreground) { - - int colorRed = (colorRGB >>> 16) & 0xFF; - int colorGreen = (colorRGB >>> 8) & 0xFF; - int colorBlue = colorRGB & 0xFF; + private String toIterm2Image(final int x, final int y, + final ArrayList cells) { StringBuilder sb = new StringBuilder(); - if (foreground) { - sb.append("\033[38;2;"); - } else { - sb.append("\033[48;2;"); - } - sb.append(String.format("%d;%d;%dm", colorRed, colorGreen, colorBlue)); - return sb.toString(); - } - /** - * Create a T.416 RGB parameter sequence for both foreground and - * background color change. - * - * @param foreColorRGB a 24-bit RGB value for foreground color - * @param backColorRGB a 24-bit RGB value for foreground color - * @return the string to emit to an ANSI / ECMA-style terminal, - * e.g. "\033[42m" - */ - private String colorRGB(final int foreColorRGB, final int backColorRGB) { - int foreColorRed = (foreColorRGB >>> 16) & 0xFF; - int foreColorGreen = (foreColorRGB >>> 8) & 0xFF; - int foreColorBlue = foreColorRGB & 0xFF; - int backColorRed = (backColorRGB >>> 16) & 0xFF; - int backColorGreen = (backColorRGB >>> 8) & 0xFF; - int backColorBlue = backColorRGB & 0xFF; + assert (cells != null); + assert (cells.size() > 0); + assert (cells.get(0).getImage() != null); - StringBuilder sb = new StringBuilder(); - sb.append(String.format("\033[38;2;%d;%d;%dm", - foreColorRed, foreColorGreen, foreColorBlue)); - sb.append(String.format("\033[48;2;%d;%d;%dm", - backColorRed, backColorGreen, backColorBlue)); - return sb.toString(); - } + if (iterm2Images == false) { + sb.append(normal()); + sb.append(gotoXY(x, y)); + for (int i = 0; i < cells.size(); i++) { + sb.append(' '); + } + return sb.toString(); + } - /** - * Create a T.416 RGB parameter sequence for a single color change. - * - * @param bold if true, set bold - * @param color one of the Color.WHITE, Color.BLUE, etc. constants - * @param foreground if true, this is a foreground color - * @return the string to emit to an xterm terminal with RGB support, - * e.g. "\033[38;2;RR;GG;BBm" - */ - private String rgbColor(final boolean bold, final Color color, - final boolean foreground) { - if (doRgbColor == false) { - return ""; + if (iterm2Cache == null) { + iterm2Cache = new ImageCache(height * 10); + base64 = java.util.Base64.getEncoder(); } - StringBuilder sb = new StringBuilder("\033["); - if (bold) { - // Bold implies foreground only - sb.append("38;2;"); - if (color.equals(Color.BLACK)) { - sb.append("84;84;84"); - } else if (color.equals(Color.RED)) { - sb.append("252;84;84"); - } else if (color.equals(Color.GREEN)) { - sb.append("84;252;84"); - } else if (color.equals(Color.YELLOW)) { - sb.append("252;252;84"); - } else if (color.equals(Color.BLUE)) { - sb.append("84;84;252"); - } else if (color.equals(Color.MAGENTA)) { - sb.append("252;84;252"); - } else if (color.equals(Color.CYAN)) { - sb.append("84;252;252"); - } else if (color.equals(Color.WHITE)) { - sb.append("252;252;252"); - } - } else { - if (foreground) { - sb.append("38;2;"); - } else { - sb.append("48;2;"); + + // Save and get rows to/from the cache that do NOT have inverted + // cells. + boolean saveInCache = true; + for (Cell cell: cells) { + if (cell.isInvertedImage()) { + saveInCache = false; } - if (color.equals(Color.BLACK)) { - sb.append("0;0;0"); - } else if (color.equals(Color.RED)) { - sb.append("168;0;0"); - } else if (color.equals(Color.GREEN)) { - sb.append("0;168;0"); - } else if (color.equals(Color.YELLOW)) { - sb.append("168;84;0"); + } + if (saveInCache) { + String cachedResult = iterm2Cache.get(cells); + if (cachedResult != null) { + // System.err.println("CACHE HIT"); + sb.append(gotoXY(x, y)); + sb.append(cachedResult); + return sb.toString(); + } + // System.err.println("CACHE MISS"); + } + + int imageWidth = cells.get(0).getImage().getWidth(); + int imageHeight = cells.get(0).getImage().getHeight(); + + // cells.get(x).getImage() has a dithered bitmap containing indexes + // into the color palette. Piece these together into one larger + // image for final rendering. + int totalWidth = 0; + int fullWidth = cells.size() * getTextWidth(); + int fullHeight = getTextHeight(); + for (int i = 0; i < cells.size(); i++) { + totalWidth += cells.get(i).getImage().getWidth(); + } + + BufferedImage image = new BufferedImage(fullWidth, + fullHeight, BufferedImage.TYPE_INT_ARGB); + + int [] rgbArray; + for (int i = 0; i < cells.size() - 1; i++) { + int tileWidth = Math.min(cells.get(i).getImage().getWidth(), + imageWidth); + int tileHeight = Math.min(cells.get(i).getImage().getHeight(), + imageHeight); + if (false && cells.get(i).isInvertedImage()) { + // I used to put an all-white cell over the cursor, don't do + // that anymore. + rgbArray = new int[imageWidth * imageHeight]; + for (int j = 0; j < rgbArray.length; j++) { + rgbArray[j] = 0xFFFFFF; + } + } else { + try { + rgbArray = cells.get(i).getImage().getRGB(0, 0, + tileWidth, tileHeight, null, 0, tileWidth); + } catch (Exception e) { + throw new RuntimeException("image " + imageWidth + "x" + + imageHeight + + "tile " + tileWidth + "x" + + tileHeight + + " cells.get(i).getImage() " + + cells.get(i).getImage() + + " i " + i + + " fullWidth " + fullWidth + + " fullHeight " + fullHeight, e); + } + } + + /* + System.err.printf("calling image.setRGB(): %d %d %d %d %d\n", + i * imageWidth, 0, imageWidth, imageHeight, + 0, imageWidth); + System.err.printf(" fullWidth %d fullHeight %d cells.size() %d textWidth %d\n", + fullWidth, fullHeight, cells.size(), getTextWidth()); + */ + + image.setRGB(i * imageWidth, 0, tileWidth, tileHeight, + rgbArray, 0, tileWidth); + if (tileHeight < fullHeight) { + int backgroundColor = cells.get(i).getBackground().getRGB(); + for (int imageX = 0; imageX < image.getWidth(); imageX++) { + for (int imageY = imageHeight; imageY < fullHeight; + imageY++) { + + image.setRGB(imageX, imageY, backgroundColor); + } + } + } + } + totalWidth -= ((cells.size() - 1) * imageWidth); + if (false && cells.get(cells.size() - 1).isInvertedImage()) { + // I used to put an all-white cell over the cursor, don't do that + // anymore. + rgbArray = new int[totalWidth * imageHeight]; + for (int j = 0; j < rgbArray.length; j++) { + rgbArray[j] = 0xFFFFFF; + } + } else { + try { + rgbArray = cells.get(cells.size() - 1).getImage().getRGB(0, 0, + totalWidth, imageHeight, null, 0, totalWidth); + } catch (Exception e) { + throw new RuntimeException("image " + imageWidth + "x" + + imageHeight + " cells.get(cells.size() - 1).getImage() " + + cells.get(cells.size() - 1).getImage(), e); + } + } + image.setRGB((cells.size() - 1) * imageWidth, 0, totalWidth, + imageHeight, rgbArray, 0, totalWidth); + + if (totalWidth < getTextWidth()) { + int backgroundColor = cells.get(cells.size() - 1).getBackground().getRGB(); + + for (int imageX = image.getWidth() - totalWidth; + imageX < image.getWidth(); imageX++) { + + for (int imageY = 0; imageY < fullHeight; imageY++) { + image.setRGB(imageX, imageY, backgroundColor); + } + } + } + + /* + * From https://iterm2.com/documentation-images.html: + * + * Protocol + * + * iTerm2 extends the xterm protocol with a set of proprietary escape + * sequences. In general, the pattern is: + * + * ESC ] 1337 ; key = value ^G + * + * Whitespace is shown here for ease of reading: in practice, no + * spaces should be used. + * + * For file transfer and inline images, the code is: + * + * ESC ] 1337 ; File = [optional arguments] : base-64 encoded file contents ^G + * + * The optional arguments are formatted as key=value with a semicolon + * between each key-value pair. They are described below: + * + * Key Description of value + * name base-64 encoded filename. Defaults to "Unnamed file". + * size File size in bytes. Optional; this is only used by the + * progress indicator. + * width Width to render. See notes below. + * height Height to render. See notes below. + * preserveAspectRatio If set to 0, then the image's inherent aspect + * ratio will not be respected; otherwise, it + * will fill the specified width and height as + * much as possible without stretching. Defaults + * to 1. + * inline If set to 1, the file will be displayed inline. Otherwise, + * it will be downloaded with no visual representation in the + * terminal session. Defaults to 0. + * + * The width and height are given as a number followed by a unit, or + * the word "auto". + * + * N: N character cells. + * Npx: N pixels. + * N%: N percent of the session's width or height. + * auto: The image's inherent size will be used to determine an + * appropriate dimension. + * + */ + + // File contents can be several image formats. We will use PNG. + ByteArrayOutputStream pngOutputStream = new ByteArrayOutputStream(1024); + try { + if (!ImageIO.write(image.getSubimage(0, 0, image.getWidth(), + Math.min(image.getHeight(), fullHeight)), + "PNG", pngOutputStream) + ) { + // We failed to render image, bail out. + return ""; + } + } catch (IOException e) { + // We failed to render image, bail out. + return ""; + } + + // iTerm2 does not advance the cursor automatically, so place it + // myself. + sb.append("\033]1337;File="); + /* + sb.append(String.format("width=$d;height=1;preserveAspectRatio=1;", + cells.size())); + */ + /* + sb.append(String.format("width=$dpx;height=%dpx;preserveAspectRatio=1;", + image.getWidth(), Math.min(image.getHeight(), + getTextHeight()))); + */ + sb.append("inline=1:"); + sb.append(base64.encodeToString(pngOutputStream.toByteArray())); + sb.append("\007"); + + if (saveInCache) { + // This row is OK to save into the cache. + iterm2Cache.put(cells, sb.toString()); + } + + return (gotoXY(x, y) + sb.toString()); + } + + /** + * Get the iTerm2 images support flag. + * + * @return true if this terminal is emitting iTerm2 images + */ + public boolean hasIterm2Images() { + return iterm2Images; + } + + // ------------------------------------------------------------------------ + // End iTerm2 image output support ---------------------------------------- + // ------------------------------------------------------------------------ + + // ------------------------------------------------------------------------ + // Jexer image output support --------------------------------------------- + // ------------------------------------------------------------------------ + + /** + * Create a Jexer images string representing a row of several cells + * containing bitmap data. + * + * @param x column coordinate. 0 is the left-most column. + * @param y row coordinate. 0 is the top-most row. + * @param cells the cells containing the bitmap data + * @return the string to emit to an ANSI / ECMA-style terminal + */ + private String toJexerImage(final int x, final int y, + final ArrayList cells) { + + StringBuilder sb = new StringBuilder(); + + assert (cells != null); + assert (cells.size() > 0); + assert (cells.get(0).getImage() != null); + + if (jexerImages == false) { + sb.append(normal()); + sb.append(gotoXY(x, y)); + for (int i = 0; i < cells.size(); i++) { + sb.append(' '); + } + return sb.toString(); + } + + if (jexerCache == null) { + jexerCache = new ImageCache(height * 10); + base64 = java.util.Base64.getEncoder(); + } + + // Save and get rows to/from the cache that do NOT have inverted + // cells. + boolean saveInCache = true; + for (Cell cell: cells) { + if (cell.isInvertedImage()) { + saveInCache = false; + } + } + if (saveInCache) { + String cachedResult = jexerCache.get(cells); + if (cachedResult != null) { + // System.err.println("CACHE HIT"); + sb.append(gotoXY(x, y)); + sb.append(cachedResult); + return sb.toString(); + } + // System.err.println("CACHE MISS"); + } + + int imageWidth = cells.get(0).getImage().getWidth(); + int imageHeight = cells.get(0).getImage().getHeight(); + + // cells.get(x).getImage() has a dithered bitmap containing indexes + // into the color palette. Piece these together into one larger + // image for final rendering. + int totalWidth = 0; + int fullWidth = cells.size() * getTextWidth(); + int fullHeight = getTextHeight(); + for (int i = 0; i < cells.size(); i++) { + totalWidth += cells.get(i).getImage().getWidth(); + } + + BufferedImage image = new BufferedImage(fullWidth, + fullHeight, BufferedImage.TYPE_INT_ARGB); + + int [] rgbArray; + for (int i = 0; i < cells.size() - 1; i++) { + int tileWidth = Math.min(cells.get(i).getImage().getWidth(), + imageWidth); + int tileHeight = Math.min(cells.get(i).getImage().getHeight(), + imageHeight); + if (false && cells.get(i).isInvertedImage()) { + // I used to put an all-white cell over the cursor, don't do + // that anymore. + rgbArray = new int[imageWidth * imageHeight]; + for (int j = 0; j < rgbArray.length; j++) { + rgbArray[j] = 0xFFFFFF; + } + } else { + try { + rgbArray = cells.get(i).getImage().getRGB(0, 0, + tileWidth, tileHeight, null, 0, tileWidth); + } catch (Exception e) { + throw new RuntimeException("image " + imageWidth + "x" + + imageHeight + + "tile " + tileWidth + "x" + + tileHeight + + " cells.get(i).getImage() " + + cells.get(i).getImage() + + " i " + i + + " fullWidth " + fullWidth + + " fullHeight " + fullHeight, e); + } + } + + /* + System.err.printf("calling image.setRGB(): %d %d %d %d %d\n", + i * imageWidth, 0, imageWidth, imageHeight, + 0, imageWidth); + System.err.printf(" fullWidth %d fullHeight %d cells.size() %d textWidth %d\n", + fullWidth, fullHeight, cells.size(), getTextWidth()); + */ + + image.setRGB(i * imageWidth, 0, tileWidth, tileHeight, + rgbArray, 0, tileWidth); + if (tileHeight < fullHeight) { + int backgroundColor = cells.get(i).getBackground().getRGB(); + for (int imageX = 0; imageX < image.getWidth(); imageX++) { + for (int imageY = imageHeight; imageY < fullHeight; + imageY++) { + + image.setRGB(imageX, imageY, backgroundColor); + } + } + } + } + totalWidth -= ((cells.size() - 1) * imageWidth); + if (false && cells.get(cells.size() - 1).isInvertedImage()) { + // I used to put an all-white cell over the cursor, don't do that + // anymore. + rgbArray = new int[totalWidth * imageHeight]; + for (int j = 0; j < rgbArray.length; j++) { + rgbArray[j] = 0xFFFFFF; + } + } else { + try { + rgbArray = cells.get(cells.size() - 1).getImage().getRGB(0, 0, + totalWidth, imageHeight, null, 0, totalWidth); + } catch (Exception e) { + throw new RuntimeException("image " + imageWidth + "x" + + imageHeight + " cells.get(cells.size() - 1).getImage() " + + cells.get(cells.size() - 1).getImage(), e); + } + } + image.setRGB((cells.size() - 1) * imageWidth, 0, totalWidth, + imageHeight, rgbArray, 0, totalWidth); + + if (totalWidth < getTextWidth()) { + int backgroundColor = cells.get(cells.size() - 1).getBackground().getRGB(); + + for (int imageX = image.getWidth() - totalWidth; + imageX < image.getWidth(); imageX++) { + + for (int imageY = 0; imageY < fullHeight; imageY++) { + image.setRGB(imageX, imageY, backgroundColor); + } + } + } + + sb.append(String.format("\033]444;%d;%d;0;", image.getWidth(), + Math.min(image.getHeight(), fullHeight))); + + byte [] bytes = new byte[image.getWidth() * image.getHeight() * 3]; + int stride = image.getWidth(); + for (int px = 0; px < stride; px++) { + for (int py = 0; py < image.getHeight(); py++) { + int rgb = image.getRGB(px, py); + bytes[(py * stride * 3) + (px * 3)] = (byte) ((rgb >>> 16) & 0xFF); + bytes[(py * stride * 3) + (px * 3) + 1] = (byte) ((rgb >>> 8) & 0xFF); + bytes[(py * stride * 3) + (px * 3) + 2] = (byte) ( rgb & 0xFF); + } + } + sb.append(base64.encodeToString(bytes)); + sb.append("\007"); + + if (saveInCache) { + // This row is OK to save into the cache. + jexerCache.put(cells, sb.toString()); + } + + return (gotoXY(x, y) + sb.toString()); + } + + /** + * Get the Jexer images support flag. + * + * @return true if this terminal is emitting Jexer images + */ + public boolean hasJexerImages() { + return jexerImages; + } + + // ------------------------------------------------------------------------ + // End Jexer image output support ----------------------------------------- + // ------------------------------------------------------------------------ + + /** + * Setup system colors to match DOS color palette. + */ + private void setDOSColors() { + MYBLACK = new java.awt.Color(0x00, 0x00, 0x00); + MYRED = new java.awt.Color(0xa8, 0x00, 0x00); + MYGREEN = new java.awt.Color(0x00, 0xa8, 0x00); + MYYELLOW = new java.awt.Color(0xa8, 0x54, 0x00); + MYBLUE = new java.awt.Color(0x00, 0x00, 0xa8); + MYMAGENTA = new java.awt.Color(0xa8, 0x00, 0xa8); + MYCYAN = new java.awt.Color(0x00, 0xa8, 0xa8); + MYWHITE = new java.awt.Color(0xa8, 0xa8, 0xa8); + MYBOLD_BLACK = new java.awt.Color(0x54, 0x54, 0x54); + MYBOLD_RED = new java.awt.Color(0xfc, 0x54, 0x54); + MYBOLD_GREEN = new java.awt.Color(0x54, 0xfc, 0x54); + MYBOLD_YELLOW = new java.awt.Color(0xfc, 0xfc, 0x54); + MYBOLD_BLUE = new java.awt.Color(0x54, 0x54, 0xfc); + MYBOLD_MAGENTA = new java.awt.Color(0xfc, 0x54, 0xfc); + MYBOLD_CYAN = new java.awt.Color(0x54, 0xfc, 0xfc); + MYBOLD_WHITE = new java.awt.Color(0xfc, 0xfc, 0xfc); + } + + /** + * Setup ECMA48 colors to match those provided in system properties. + */ + private void setCustomSystemColors() { + setDOSColors(); + + MYBLACK = getCustomColor("jexer.ECMA48.color0", MYBLACK); + MYRED = getCustomColor("jexer.ECMA48.color1", MYRED); + MYGREEN = getCustomColor("jexer.ECMA48.color2", MYGREEN); + MYYELLOW = getCustomColor("jexer.ECMA48.color3", MYYELLOW); + MYBLUE = getCustomColor("jexer.ECMA48.color4", MYBLUE); + MYMAGENTA = getCustomColor("jexer.ECMA48.color5", MYMAGENTA); + MYCYAN = getCustomColor("jexer.ECMA48.color6", MYCYAN); + MYWHITE = getCustomColor("jexer.ECMA48.color7", MYWHITE); + MYBOLD_BLACK = getCustomColor("jexer.ECMA48.color8", MYBOLD_BLACK); + MYBOLD_RED = getCustomColor("jexer.ECMA48.color9", MYBOLD_RED); + MYBOLD_GREEN = getCustomColor("jexer.ECMA48.color10", MYBOLD_GREEN); + MYBOLD_YELLOW = getCustomColor("jexer.ECMA48.color11", MYBOLD_YELLOW); + MYBOLD_BLUE = getCustomColor("jexer.ECMA48.color12", MYBOLD_BLUE); + MYBOLD_MAGENTA = getCustomColor("jexer.ECMA48.color13", MYBOLD_MAGENTA); + MYBOLD_CYAN = getCustomColor("jexer.ECMA48.color14", MYBOLD_CYAN); + MYBOLD_WHITE = getCustomColor("jexer.ECMA48.color15", MYBOLD_WHITE); + } + + /** + * Setup one system color to match the RGB value provided in system + * properties. + * + * @param key the system property key + * @param defaultColor the default color to return if key is not set, or + * incorrect + * @return a color from the RGB string, or defaultColor + */ + private java.awt.Color getCustomColor(final String key, + final java.awt.Color defaultColor) { + + String rgb = System.getProperty(key); + if (rgb == null) { + return defaultColor; + } + if (rgb.startsWith("#")) { + rgb = rgb.substring(1); + } + int rgbInt = 0; + try { + rgbInt = Integer.parseInt(rgb, 16); + } catch (NumberFormatException e) { + return defaultColor; + } + java.awt.Color color = new java.awt.Color((rgbInt & 0xFF0000) >>> 16, + (rgbInt & 0x00FF00) >>> 8, + (rgbInt & 0x0000FF)); + + return color; + } + + /** + * Create a T.416 RGB parameter sequence for a custom system color. + * + * @param color one of the MYBLACK, MYBOLD_BLUE, etc. colors + * @return the color portion of the string to emit to an ANSI / + * ECMA-style terminal + */ + private String systemColorRGB(final java.awt.Color color) { + return String.format("%d;%d;%d", color.getRed(), color.getGreen(), + color.getBlue()); + } + + /** + * Create a SGR parameter sequence for a single color change. + * + * @param bold if true, set bold + * @param color one of the Color.WHITE, Color.BLUE, etc. constants + * @param foreground if true, this is a foreground color + * @return the string to emit to an ANSI / ECMA-style terminal, + * e.g. "\033[42m" + */ + private String color(final boolean bold, final Color color, + final boolean foreground) { + return color(color, foreground, true) + + rgbColor(bold, color, foreground); + } + + /** + * Create a T.416 RGB parameter sequence for a single color change. + * + * @param colorRGB a 24-bit RGB value for foreground color + * @param foreground if true, this is a foreground color + * @return the string to emit to an ANSI / ECMA-style terminal, + * e.g. "\033[42m" + */ + private String colorRGB(final int colorRGB, final boolean foreground) { + + int colorRed = (colorRGB >>> 16) & 0xFF; + int colorGreen = (colorRGB >>> 8) & 0xFF; + int colorBlue = colorRGB & 0xFF; + + StringBuilder sb = new StringBuilder(); + if (foreground) { + sb.append("\033[38;2;"); + } else { + sb.append("\033[48;2;"); + } + sb.append(String.format("%d;%d;%dm", colorRed, colorGreen, colorBlue)); + return sb.toString(); + } + + /** + * Create a T.416 RGB parameter sequence for both foreground and + * background color change. + * + * @param foreColorRGB a 24-bit RGB value for foreground color + * @param backColorRGB a 24-bit RGB value for foreground color + * @return the string to emit to an ANSI / ECMA-style terminal, + * e.g. "\033[42m" + */ + private String colorRGB(final int foreColorRGB, final int backColorRGB) { + int foreColorRed = (foreColorRGB >>> 16) & 0xFF; + int foreColorGreen = (foreColorRGB >>> 8) & 0xFF; + int foreColorBlue = foreColorRGB & 0xFF; + int backColorRed = (backColorRGB >>> 16) & 0xFF; + int backColorGreen = (backColorRGB >>> 8) & 0xFF; + int backColorBlue = backColorRGB & 0xFF; + + StringBuilder sb = new StringBuilder(); + sb.append(String.format("\033[38;2;%d;%d;%dm", + foreColorRed, foreColorGreen, foreColorBlue)); + sb.append(String.format("\033[48;2;%d;%d;%dm", + backColorRed, backColorGreen, backColorBlue)); + return sb.toString(); + } + + /** + * Create a T.416 RGB parameter sequence for a single color change. + * + * @param bold if true, set bold + * @param color one of the Color.WHITE, Color.BLUE, etc. constants + * @param foreground if true, this is a foreground color + * @return the string to emit to an xterm terminal with RGB support, + * e.g. "\033[38;2;RR;GG;BBm" + */ + private String rgbColor(final boolean bold, final Color color, + final boolean foreground) { + if (doRgbColor == false) { + return ""; + } + StringBuilder sb = new StringBuilder("\033["); + if (bold) { + // Bold implies foreground only + sb.append("38;2;"); + if (color.equals(Color.BLACK)) { + sb.append(systemColorRGB(MYBOLD_BLACK)); + } else if (color.equals(Color.RED)) { + sb.append(systemColorRGB(MYBOLD_RED)); + } else if (color.equals(Color.GREEN)) { + sb.append(systemColorRGB(MYBOLD_GREEN)); + } else if (color.equals(Color.YELLOW)) { + sb.append(systemColorRGB(MYBOLD_YELLOW)); } else if (color.equals(Color.BLUE)) { - sb.append("0;0;168"); + sb.append(systemColorRGB(MYBOLD_BLUE)); } else if (color.equals(Color.MAGENTA)) { - sb.append("168;0;168"); + sb.append(systemColorRGB(MYBOLD_MAGENTA)); } else if (color.equals(Color.CYAN)) { - sb.append("0;168;168"); + sb.append(systemColorRGB(MYBOLD_CYAN)); } else if (color.equals(Color.WHITE)) { - sb.append("168;168;168"); + sb.append(systemColorRGB(MYBOLD_WHITE)); + } + } else { + if (foreground) { + sb.append("38;2;"); + } else { + sb.append("48;2;"); + } + if (color.equals(Color.BLACK)) { + sb.append(systemColorRGB(MYBLACK)); + } else if (color.equals(Color.RED)) { + sb.append(systemColorRGB(MYRED)); + } else if (color.equals(Color.GREEN)) { + sb.append(systemColorRGB(MYGREEN)); + } else if (color.equals(Color.YELLOW)) { + sb.append(systemColorRGB(MYYELLOW)); + } else if (color.equals(Color.BLUE)) { + sb.append(systemColorRGB(MYBLUE)); + } else if (color.equals(Color.MAGENTA)) { + sb.append(systemColorRGB(MYMAGENTA)); + } else if (color.equals(Color.CYAN)) { + sb.append(systemColorRGB(MYCYAN)); + } else if (color.equals(Color.WHITE)) { + sb.append(systemColorRGB(MYWHITE)); } } sb.append("m"); @@ -3435,7 +4258,7 @@ public class ECMA48Terminal extends LogicalScreen } /** - * Create a SGR parameter sequence to reset to defaults. + * Create a SGR parameter sequence to reset to VT100 defaults. * * @return the string to emit to an ANSI / ECMA-style terminal, * e.g. "\033[0m" @@ -3444,6 +4267,29 @@ public class ECMA48Terminal extends LogicalScreen return normal(true) + rgbColor(false, Color.WHITE, Color.BLACK); } + /** + * Create a SGR parameter sequence to reset to ECMA-48 default + * foreground/background. + * + * @return the string to emit to an ANSI / ECMA-style terminal, + * e.g. "\033[0m" + */ + private String defaultColor() { + /* + * VT100 normal. + * Normal (neither bold nor faint). + * Not italicized. + * Not underlined. + * Steady (not blinking). + * Positive (not inverse). + * Visible (not hidden). + * Not crossed-out. + * Default foreground color. + * Default background color. + */ + return "\033[0;22;23;24;25;27;28;29;39;49m"; + } + /** * Create a SGR parameter sequence to reset to defaults. *