X-Git-Url: http://git.nikiroo.be/?a=blobdiff_plain;f=src%2Fjexer%2Ftterminal%2FECMA48.java;h=537b2e0a4a3ba25238ee5d935f393aa07fcba24c;hb=505be508ae7d3fb48122be548b310a238cfb91eb;hp=2b957f1ad75f8493b073b91e2426d1384b05fc7e;hpb=4b7ac2598c005c634966d9c415425bc6c7bc144b;p=fanfix.git diff --git a/src/jexer/tterminal/ECMA48.java b/src/jexer/tterminal/ECMA48.java index 2b957f1..537b2e0 100644 --- a/src/jexer/tterminal/ECMA48.java +++ b/src/jexer/tterminal/ECMA48.java @@ -28,9 +28,11 @@ */ package jexer.tterminal; -import java.awt.Graphics2D; +import java.awt.Graphics; import java.awt.image.BufferedImage; +import java.io.BufferedInputStream; import java.io.BufferedOutputStream; +import java.io.ByteArrayInputStream; import java.io.CharArrayWriter; import java.io.InputStream; import java.io.InputStreamReader; @@ -45,6 +47,7 @@ import java.util.ArrayList; import java.util.Collections; import java.util.HashMap; import java.util.List; +import javax.imageio.ImageIO; import jexer.TKeypress; import jexer.backend.GlyphMaker; @@ -256,7 +259,7 @@ public class ECMA48 implements Runnable { /** * The type of emulator to be. */ - private DeviceType type = DeviceType.VT102; + private final DeviceType type; /** * The scrollback buffer characters + attributes. @@ -271,7 +274,7 @@ public class ECMA48 implements Runnable { /** * The maximum number of lines in the scrollback buffer. */ - private int maxScrollback = 10000; + private int scrollbackMax = 10000; /** * The terminal's input. For type == XTERM, this is an InputStreamReader @@ -323,29 +326,29 @@ public class ECMA48 implements Runnable { * Physical display width. We start at 80x24, but the user can resize us * bigger/smaller. */ - private int width; + private int width = 80; /** * Physical display height. We start at 80x24, but the user can resize * us bigger/smaller. */ - private int height; + private int height = 24; /** * Top margin of the scrolling region. */ - private int scrollRegionTop; + private int scrollRegionTop = 0; /** * Bottom margin of the scrolling region. */ - private int scrollRegionBottom; + private int scrollRegionBottom = height - 1; /** * Right margin column number. This can be selected by the remote side * to be 80/132 (rightMargin values 79/131), or it can be (width - 1). */ - private int rightMargin; + private int rightMargin = 79; /** * Last character printed. @@ -357,7 +360,7 @@ public class ECMA48 implements Runnable { * 132), but the line does NOT wrap until another character is written to * column 1 of the next line, after which the cursor moves to column 2. */ - private boolean wrapLineFlag; + private boolean wrapLineFlag = false; /** * VT220 single shift flag. @@ -394,7 +397,7 @@ public class ECMA48 implements Runnable { /** * Non-csi collect buffer. */ - private StringBuilder collectBuffer; + private StringBuilder collectBuffer = new StringBuilder(128); /** * When true, use the G1 character set. @@ -469,7 +472,12 @@ public class ECMA48 implements Runnable { /** * Sixel collection buffer. */ - private StringBuilder sixelParseBuffer; + private StringBuilder sixelParseBuffer = new StringBuilder(2048); + + /** + * Sixel shared palette. + */ + private HashMap sixelPalette; /** * The width of a character cell in pixels. @@ -498,6 +506,11 @@ public class ECMA48 implements Runnable { */ private ArrayList userQueue = new ArrayList(); + /** + * Number of bytes/characters passed to consume(). + */ + private long readCount = 0; + /** * DECSC/DECRC save/restore a subset of the total state. This class * encapsulates those specific flags/modes. @@ -650,7 +663,8 @@ public class ECMA48 implements Runnable { this.inputStream = new TimeoutInputStream(inputStream, 2000); } if (type == DeviceType.XTERM) { - this.input = new InputStreamReader(this.inputStream, "UTF-8"); + this.input = new InputStreamReader(new BufferedInputStream( + this.inputStream, 1024 * 128), "UTF-8"); this.output = new OutputStreamWriter(new BufferedOutputStream(outputStream), "UTF-8"); this.outputStream = null; @@ -664,6 +678,8 @@ public class ECMA48 implements Runnable { for (int i = 0; i < height; i++) { display.add(new DisplayLine(currentState.attr)); } + assert (currentState.cursorY < height); + assert (currentState.cursorX < width); // Spin up the input reader readerThread = new Thread(this); @@ -755,11 +771,28 @@ public class ECMA48 implements Runnable { int ch = Character.codePointAt(readBufferUTF8, i); i += Character.charCount(ch); - consume(ch); + + // Special case for VT10x: 7-bit characters + // only. + if ((type == DeviceType.VT100) + || (type == DeviceType.VT102) + ) { + consume(ch & 0x7F); + } else { + consume(ch); + } } } else { for (int i = 0; i < rc; i++) { - consume(readBuffer[i]); + // Special case for VT10x: 7-bit characters + // only. + if ((type == DeviceType.VT100) + || (type == DeviceType.VT102) + ) { + consume(readBuffer[i] & 0x7F); + } else { + consume(readBuffer[i]); + } } } } @@ -826,6 +859,34 @@ public class ECMA48 implements Runnable { // ECMA48 ----------------------------------------------------------------- // ------------------------------------------------------------------------ + /** + * Wait for a period of time to get output from the launched process. + * + * @param millis millis to wait for, or 0 to wait forever + * @return true if the launched process has emitted something + */ + public boolean waitForOutput(final int millis) { + if (millis < 0) { + throw new IllegalArgumentException("timeout must be >= 0"); + } + int waitedMillis = millis; + final int pollTimeout = 5; + while (true) { + if (readCount != 0) { + return true; + } + if ((millis > 0) && (waitedMillis < 0)){ + return false; + } + try { + Thread.sleep(pollTimeout); + } catch (InterruptedException e) { + // SQUASH + } + waitedMillis -= pollTimeout; + } + } + /** * Process keyboard and mouse events from the user. * @@ -869,12 +930,14 @@ public class ECMA48 implements Runnable { case VT220: case XTERM: - // "I am a VT220" - 7 bit version + // "I am a VT220" - 7 bit version, with sixel and Jexer image + // support. if (!s8c1t) { - return "\033[?62;1;6;9;4c"; + return "\033[?62;1;6;9;4;22;444c"; } - // "I am a VT220" - 8 bit version - return "\u009b?62;1;6;9;4c"; + // "I am a VT220" - 8 bit version, with sixel and Jexer image + // support. + return "\u009b?62;1;6;9;4;22;444c"; default: throw new IllegalArgumentException("Invalid device type: " + type); } @@ -995,11 +1058,6 @@ public class ECMA48 implements Runnable { // the input streams. if (stopReaderThread == false) { stopReaderThread = true; - try { - readerThread.join(1000); - } catch (InterruptedException e) { - // SQUASH - } } // Now close the output stream. @@ -1179,8 +1237,8 @@ public class ECMA48 implements Runnable { int delta = height - this.height; this.height = height; scrollRegionBottom += delta; - if (scrollRegionBottom < 0) { - scrollRegionBottom = height; + if ((scrollRegionBottom < 0) || (scrollRegionTop > height - 1)) { + scrollRegionBottom = height - 1; } if (scrollRegionTop >= scrollRegionBottom) { scrollRegionTop = 0; @@ -1197,10 +1255,29 @@ public class ECMA48 implements Runnable { display.add(line); } while (display.size() > height) { - scrollback.add(display.remove(0)); + appendScrollbackLine(display.remove(0)); } } + /** + * Get the maximum number of lines in the scrollback buffer. + * + * @return the maximum number of lines in the scrollback buffer + */ + public int getScrollbackMax() { + return scrollbackMax; + } + + /** + * Set the maximum number of lines for the scrollback buffer. + * + * @param scrollbackMax the maximum number of lines for the scrollback + * buffer + */ + public final void setScrollbackMax(final int scrollbackMax) { + this.scrollbackMax = scrollbackMax; + } + /** * Get visible cursor flag. * @@ -1235,7 +1312,7 @@ public class ECMA48 implements Runnable { */ private void toGround() { csiParams.clear(); - collectBuffer = new StringBuilder(8); + collectBuffer.setLength(0); scanState = ScanState.GROUND; } @@ -1258,7 +1335,7 @@ public class ECMA48 implements Runnable { colors88.add(0); } - // Set default system colors. + // Set default system colors. These match DOS colors. colors88.set(0, 0x00000000); colors88.set(1, 0x00a80000); colors88.set(2, 0x0000a800); @@ -1276,6 +1353,249 @@ public class ECMA48 implements Runnable { colors88.set(13, 0x00fc54fc); colors88.set(14, 0x0054fcfc); colors88.set(15, 0x00fcfcfc); + + // These match xterm's default colors from 256colres.h. + colors88.set(16, 0x000000); + colors88.set(17, 0x00005f); + colors88.set(18, 0x000087); + colors88.set(19, 0x0000af); + colors88.set(20, 0x0000d7); + colors88.set(21, 0x0000ff); + colors88.set(22, 0x005f00); + colors88.set(23, 0x005f5f); + colors88.set(24, 0x005f87); + colors88.set(25, 0x005faf); + colors88.set(26, 0x005fd7); + colors88.set(27, 0x005fff); + colors88.set(28, 0x008700); + colors88.set(29, 0x00875f); + colors88.set(30, 0x008787); + colors88.set(31, 0x0087af); + colors88.set(32, 0x0087d7); + colors88.set(33, 0x0087ff); + colors88.set(34, 0x00af00); + colors88.set(35, 0x00af5f); + colors88.set(36, 0x00af87); + colors88.set(37, 0x00afaf); + colors88.set(38, 0x00afd7); + colors88.set(39, 0x00afff); + colors88.set(40, 0x00d700); + colors88.set(41, 0x00d75f); + colors88.set(42, 0x00d787); + colors88.set(43, 0x00d7af); + colors88.set(44, 0x00d7d7); + colors88.set(45, 0x00d7ff); + colors88.set(46, 0x00ff00); + colors88.set(47, 0x00ff5f); + colors88.set(48, 0x00ff87); + colors88.set(49, 0x00ffaf); + colors88.set(50, 0x00ffd7); + colors88.set(51, 0x00ffff); + colors88.set(52, 0x5f0000); + colors88.set(53, 0x5f005f); + colors88.set(54, 0x5f0087); + colors88.set(55, 0x5f00af); + colors88.set(56, 0x5f00d7); + colors88.set(57, 0x5f00ff); + colors88.set(58, 0x5f5f00); + colors88.set(59, 0x5f5f5f); + colors88.set(60, 0x5f5f87); + colors88.set(61, 0x5f5faf); + colors88.set(62, 0x5f5fd7); + colors88.set(63, 0x5f5fff); + colors88.set(64, 0x5f8700); + colors88.set(65, 0x5f875f); + colors88.set(66, 0x5f8787); + colors88.set(67, 0x5f87af); + colors88.set(68, 0x5f87d7); + colors88.set(69, 0x5f87ff); + colors88.set(70, 0x5faf00); + colors88.set(71, 0x5faf5f); + colors88.set(72, 0x5faf87); + colors88.set(73, 0x5fafaf); + colors88.set(74, 0x5fafd7); + colors88.set(75, 0x5fafff); + colors88.set(76, 0x5fd700); + colors88.set(77, 0x5fd75f); + colors88.set(78, 0x5fd787); + colors88.set(79, 0x5fd7af); + colors88.set(80, 0x5fd7d7); + colors88.set(81, 0x5fd7ff); + colors88.set(82, 0x5fff00); + colors88.set(83, 0x5fff5f); + colors88.set(84, 0x5fff87); + colors88.set(85, 0x5fffaf); + colors88.set(86, 0x5fffd7); + colors88.set(87, 0x5fffff); + colors88.set(88, 0x870000); + colors88.set(89, 0x87005f); + colors88.set(90, 0x870087); + colors88.set(91, 0x8700af); + colors88.set(92, 0x8700d7); + colors88.set(93, 0x8700ff); + colors88.set(94, 0x875f00); + colors88.set(95, 0x875f5f); + colors88.set(96, 0x875f87); + colors88.set(97, 0x875faf); + colors88.set(98, 0x875fd7); + colors88.set(99, 0x875fff); + colors88.set(100, 0x878700); + colors88.set(101, 0x87875f); + colors88.set(102, 0x878787); + colors88.set(103, 0x8787af); + colors88.set(104, 0x8787d7); + colors88.set(105, 0x8787ff); + colors88.set(106, 0x87af00); + colors88.set(107, 0x87af5f); + colors88.set(108, 0x87af87); + colors88.set(109, 0x87afaf); + colors88.set(110, 0x87afd7); + colors88.set(111, 0x87afff); + colors88.set(112, 0x87d700); + colors88.set(113, 0x87d75f); + colors88.set(114, 0x87d787); + colors88.set(115, 0x87d7af); + colors88.set(116, 0x87d7d7); + colors88.set(117, 0x87d7ff); + colors88.set(118, 0x87ff00); + colors88.set(119, 0x87ff5f); + colors88.set(120, 0x87ff87); + colors88.set(121, 0x87ffaf); + colors88.set(122, 0x87ffd7); + colors88.set(123, 0x87ffff); + colors88.set(124, 0xaf0000); + colors88.set(125, 0xaf005f); + colors88.set(126, 0xaf0087); + colors88.set(127, 0xaf00af); + colors88.set(128, 0xaf00d7); + colors88.set(129, 0xaf00ff); + colors88.set(130, 0xaf5f00); + colors88.set(131, 0xaf5f5f); + colors88.set(132, 0xaf5f87); + colors88.set(133, 0xaf5faf); + colors88.set(134, 0xaf5fd7); + colors88.set(135, 0xaf5fff); + colors88.set(136, 0xaf8700); + colors88.set(137, 0xaf875f); + colors88.set(138, 0xaf8787); + colors88.set(139, 0xaf87af); + colors88.set(140, 0xaf87d7); + colors88.set(141, 0xaf87ff); + colors88.set(142, 0xafaf00); + colors88.set(143, 0xafaf5f); + colors88.set(144, 0xafaf87); + colors88.set(145, 0xafafaf); + colors88.set(146, 0xafafd7); + colors88.set(147, 0xafafff); + colors88.set(148, 0xafd700); + colors88.set(149, 0xafd75f); + colors88.set(150, 0xafd787); + colors88.set(151, 0xafd7af); + colors88.set(152, 0xafd7d7); + colors88.set(153, 0xafd7ff); + colors88.set(154, 0xafff00); + colors88.set(155, 0xafff5f); + colors88.set(156, 0xafff87); + colors88.set(157, 0xafffaf); + colors88.set(158, 0xafffd7); + colors88.set(159, 0xafffff); + colors88.set(160, 0xd70000); + colors88.set(161, 0xd7005f); + colors88.set(162, 0xd70087); + colors88.set(163, 0xd700af); + colors88.set(164, 0xd700d7); + colors88.set(165, 0xd700ff); + colors88.set(166, 0xd75f00); + colors88.set(167, 0xd75f5f); + colors88.set(168, 0xd75f87); + colors88.set(169, 0xd75faf); + colors88.set(170, 0xd75fd7); + colors88.set(171, 0xd75fff); + colors88.set(172, 0xd78700); + colors88.set(173, 0xd7875f); + colors88.set(174, 0xd78787); + colors88.set(175, 0xd787af); + colors88.set(176, 0xd787d7); + colors88.set(177, 0xd787ff); + colors88.set(178, 0xd7af00); + colors88.set(179, 0xd7af5f); + colors88.set(180, 0xd7af87); + colors88.set(181, 0xd7afaf); + colors88.set(182, 0xd7afd7); + colors88.set(183, 0xd7afff); + colors88.set(184, 0xd7d700); + colors88.set(185, 0xd7d75f); + colors88.set(186, 0xd7d787); + colors88.set(187, 0xd7d7af); + colors88.set(188, 0xd7d7d7); + colors88.set(189, 0xd7d7ff); + colors88.set(190, 0xd7ff00); + colors88.set(191, 0xd7ff5f); + colors88.set(192, 0xd7ff87); + colors88.set(193, 0xd7ffaf); + colors88.set(194, 0xd7ffd7); + colors88.set(195, 0xd7ffff); + colors88.set(196, 0xff0000); + colors88.set(197, 0xff005f); + colors88.set(198, 0xff0087); + colors88.set(199, 0xff00af); + colors88.set(200, 0xff00d7); + colors88.set(201, 0xff00ff); + colors88.set(202, 0xff5f00); + colors88.set(203, 0xff5f5f); + colors88.set(204, 0xff5f87); + colors88.set(205, 0xff5faf); + colors88.set(206, 0xff5fd7); + colors88.set(207, 0xff5fff); + colors88.set(208, 0xff8700); + colors88.set(209, 0xff875f); + colors88.set(210, 0xff8787); + colors88.set(211, 0xff87af); + colors88.set(212, 0xff87d7); + colors88.set(213, 0xff87ff); + colors88.set(214, 0xffaf00); + colors88.set(215, 0xffaf5f); + colors88.set(216, 0xffaf87); + colors88.set(217, 0xffafaf); + colors88.set(218, 0xffafd7); + colors88.set(219, 0xffafff); + colors88.set(220, 0xffd700); + colors88.set(221, 0xffd75f); + colors88.set(222, 0xffd787); + colors88.set(223, 0xffd7af); + colors88.set(224, 0xffd7d7); + colors88.set(225, 0xffd7ff); + colors88.set(226, 0xffff00); + colors88.set(227, 0xffff5f); + colors88.set(228, 0xffff87); + colors88.set(229, 0xffffaf); + colors88.set(230, 0xffffd7); + colors88.set(231, 0xffffff); + colors88.set(232, 0x080808); + colors88.set(233, 0x121212); + colors88.set(234, 0x1c1c1c); + colors88.set(235, 0x262626); + colors88.set(236, 0x303030); + colors88.set(237, 0x3a3a3a); + colors88.set(238, 0x444444); + colors88.set(239, 0x4e4e4e); + colors88.set(240, 0x585858); + colors88.set(241, 0x626262); + colors88.set(242, 0x6c6c6c); + colors88.set(243, 0x767676); + colors88.set(244, 0x808080); + colors88.set(245, 0x8a8a8a); + colors88.set(246, 0x949494); + colors88.set(247, 0x9e9e9e); + colors88.set(248, 0xa8a8a8); + colors88.set(249, 0xb2b2b2); + colors88.set(250, 0xbcbcbc); + colors88.set(251, 0xc6c6c6); + colors88.set(252, 0xd0d0d0); + colors88.set(253, 0xdadada); + colors88.set(254, 0xe4e4e4); + colors88.set(255, 0xeeeeee); + } /** @@ -1350,8 +1670,13 @@ public class ECMA48 implements Runnable { currentState = new SaveableState(); savedState = new SaveableState(); scanState = ScanState.GROUND; - width = 80; - height = 24; + if (displayListener != null) { + width = displayListener.getDisplayWidth(); + height = displayListener.getDisplayHeight(); + } else { + width = 80; + height = 24; + } scrollRegionTop = 0; scrollRegionBottom = height - 1; rightMargin = width - 1; @@ -1359,11 +1684,6 @@ public class ECMA48 implements Runnable { arrowKeyMode = ArrowKeyMode.ANSI; keypadMode = KeypadMode.Numeric; wrapLineFlag = false; - if (displayListener != null) { - width = displayListener.getDisplayWidth(); - height = displayListener.getDisplayHeight(); - rightMargin = width - 1; - } // Flags shiftOut = false; @@ -1394,14 +1714,25 @@ public class ECMA48 implements Runnable { toGround(); } + /** + * Append a to the scrollback buffer, clearing image data for lines more + * than three screenfuls in. + */ + private void appendScrollbackLine(DisplayLine line) { + scrollback.add(line); + if (scrollback.size() > height * 3) { + scrollback.get(scrollback.size() - (height * 3)).clearImages(); + } + } + /** * Append a new line to the bottom of the display, adding lines off the * top to the scrollback buffer. */ private void newDisplayLine() { // Scroll the top line off into the scrollback buffer - scrollback.add(display.get(0)); - if (scrollback.size() > maxScrollback) { + appendScrollbackLine(display.get(0)); + while (scrollback.size() > scrollbackMax) { scrollback.remove(0); scrollback.trimToSize(); } @@ -1446,7 +1777,6 @@ public class ECMA48 implements Runnable { * Handle a linefeed. */ private void linefeed() { - if (currentState.cursorY < scrollRegionBottom) { // Increment screen y currentState.cursorY++; @@ -1657,35 +1987,45 @@ public class ECMA48 implements Runnable { if (mouseEncoding == MouseEncoding.SGR) { sb.append((char) 0x1B); sb.append("[<"); + int buttons = 0; if (mouse.isMouse1()) { if (mouse.getType() == TMouseEvent.Type.MOUSE_MOTION) { - sb.append("32;"); + buttons = 32; } else { - sb.append("0;"); + buttons = 0; } } else if (mouse.isMouse2()) { if (mouse.getType() == TMouseEvent.Type.MOUSE_MOTION) { - sb.append("33;"); + buttons = 33; } else { - sb.append("1;"); + buttons = 1; } } else if (mouse.isMouse3()) { if (mouse.getType() == TMouseEvent.Type.MOUSE_MOTION) { - sb.append("34;"); + buttons = 34; } else { - sb.append("2;"); + buttons = 2; } } else if (mouse.isMouseWheelUp()) { - sb.append("64;"); + buttons = 64; } else if (mouse.isMouseWheelDown()) { - sb.append("65;"); + buttons = 65; } else { // This is motion with no buttons down. - sb.append("35;"); + buttons = 35; + } + if (mouse.isAlt()) { + buttons |= 0x08; + } + if (mouse.isCtrl()) { + buttons |= 0x10; + } + if (mouse.isShift()) { + buttons |= 0x04; } - sb.append(String.format("%d;%d", mouse.getX() + 1, + sb.append(String.format("%d;%d;%d", buttons, mouse.getX() + 1, mouse.getY() + 1)); if (mouse.getType() == TMouseEvent.Type.MOUSE_UP) { @@ -1699,35 +2039,46 @@ public class ECMA48 implements Runnable { sb.append((char) 0x1B); sb.append('['); sb.append('M'); + int buttons = 0; if (mouse.getType() == TMouseEvent.Type.MOUSE_UP) { - sb.append((char) (0x03 + 32)); + buttons = 0x03 + 32; } else if (mouse.isMouse1()) { if (mouse.getType() == TMouseEvent.Type.MOUSE_MOTION) { - sb.append((char) (0x00 + 32 + 32)); + buttons = 0x00 + 32 + 32; } else { - sb.append((char) (0x00 + 32)); + buttons = 0x00 + 32; } } else if (mouse.isMouse2()) { if (mouse.getType() == TMouseEvent.Type.MOUSE_MOTION) { - sb.append((char) (0x01 + 32 + 32)); + buttons = 0x01 + 32 + 32; } else { - sb.append((char) (0x01 + 32)); + buttons = 0x01 + 32; } } else if (mouse.isMouse3()) { if (mouse.getType() == TMouseEvent.Type.MOUSE_MOTION) { - sb.append((char) (0x02 + 32 + 32)); + buttons = 0x02 + 32 + 32; } else { - sb.append((char) (0x02 + 32)); + buttons = 0x02 + 32; } } else if (mouse.isMouseWheelUp()) { - sb.append((char) (0x04 + 64)); + buttons = 0x04 + 64; } else if (mouse.isMouseWheelDown()) { - sb.append((char) (0x05 + 64)); + buttons = 0x05 + 64; } else { // This is motion with no buttons down. - sb.append((char) (0x03 + 32)); + buttons = 0x03 + 32; + } + if (mouse.isAlt()) { + buttons |= 0x08; + } + if (mouse.isCtrl()) { + buttons |= 0x10; + } + if (mouse.isShift()) { + buttons |= 0x04; } + sb.append((char) (buttons & 0xFF)); sb.append((char) (mouse.getX() + 33)); sb.append((char) (mouse.getY() + 33)); } @@ -3144,6 +3495,21 @@ public class ECMA48 implements Runnable { break; + case 80: + if (type == DeviceType.XTERM) { + if (decPrivateModeFlag == true) { + if (value == true) { + // Enable sixel scrolling (default). + // Not supported + } else { + // Disable sixel scrolling. + // Not supported + } + } + } + + break; + case 1000: if ((type == DeviceType.XTERM) && (decPrivateModeFlag == true) @@ -3209,6 +3575,22 @@ public class ECMA48 implements Runnable { } break; + case 1070: + if (type == DeviceType.XTERM) { + if (decPrivateModeFlag == true) { + if (value == true) { + // Use private color registers for each sixel + // graphic (default). + sixelPalette = null; + } else { + // Use shared color registers for each sixel + // graphic. + sixelPalette = new HashMap(); + } + } + } + break; + default: break; @@ -3901,14 +4283,14 @@ public class ECMA48 implements Runnable { * RGB color mode. */ rgbColor = true; - break; + continue; case 5: /* * Indexed color mode. */ idx88Color = true; - break; + continue; default: /* @@ -3956,7 +4338,7 @@ public class ECMA48 implements Runnable { case 8: // Invisible - // TODO + // Not supported break; case 90: @@ -4341,6 +4723,9 @@ public class ECMA48 implements Runnable { // DECSTBM int top = getCsiParam(0, 1, 1, height) - 1; int bottom = getCsiParam(1, height, 1, height) - 1; + if (bottom > height - 1) { + bottom = height - 1; + } if (top > bottom) { top = bottom; @@ -4694,13 +5079,22 @@ public class ECMA48 implements Runnable { private void oscPut(final char xtermChar) { // System.err.println("oscPut: " + xtermChar); + boolean oscEnd = false; + + if (xtermChar == 0x07) { + oscEnd = true; + } + if ((xtermChar == '\\') + && (collectBuffer.charAt(collectBuffer.length() - 1) == '\033') + ) { + oscEnd = true; + } + // Collect first collectBuffer.append(xtermChar); // Xterm cases... - if ((xtermChar == 0x07) - || (collectBuffer.toString().endsWith("\033\\")) - ) { + if (oscEnd) { String args = null; if (xtermChar == 0x07) { args = collectBuffer.substring(0, collectBuffer.length() - 1); @@ -4753,6 +5147,19 @@ public class ECMA48 implements Runnable { color.getBlue() << 8)); } } + + if (p[0].equals("444")) { + if (p[1].equals("0") && (p.length == 6)) { + // Jexer image - RGB + parseJexerImageRGB(p[2], p[3], p[4], p[5]); + } else if (p[1].equals("1") && (p.length == 4)) { + // Jexer image - PNG + parseJexerImageFile(1, p[2], p[3]); + } else if (p[1].equals("2") && (p.length == 4)) { + // Jexer image - JPG + parseJexerImageFile(2, p[2], p[3]); + } + } } // Go to SCAN_GROUND state @@ -4770,11 +5177,19 @@ public class ECMA48 implements Runnable { private void pmPut(final char pmChar) { // System.err.println("pmPut: " + pmChar); + boolean pmEnd = false; + + if ((pmChar == '\\') + && (collectBuffer.charAt(collectBuffer.length() - 1) == '\033') + ) { + pmEnd = true; + } + // Collect first collectBuffer.append(pmChar); // Xterm cases... - if (collectBuffer.toString().endsWith("\033\\")) { + if (pmEnd) { String arg = null; arg = collectBuffer.substring(0, collectBuffer.length() - 2); @@ -4861,16 +5276,12 @@ public class ECMA48 implements Runnable { * * @param ch character from the remote side */ - private void consume(int ch) { + private void consume(final int ch) { + readCount++; // DEBUG // System.err.printf("%c STATE = %s\n", ch, scanState); - // Special case for VT10x: 7-bit characters only - if ((type == DeviceType.VT100) || (type == DeviceType.VT102)) { - ch = (ch & 0x7F); - } - // Special "anywhere" states // 18, 1A --> execute, then switch to SCAN_GROUND @@ -6643,7 +7054,7 @@ public class ECMA48 implements Runnable { // 0x71 goes to DCS_SIXEL if (ch == 0x71) { - sixelParseBuffer = new StringBuilder(); + sixelParseBuffer.setLength(0); scanState = ScanState.DCS_SIXEL; } else if ((ch >= 0x40) && (ch <= 0x7E)) { // 0x40-7E goes to DCS_PASSTHROUGH @@ -6728,7 +7139,7 @@ public class ECMA48 implements Runnable { // 0x71 goes to DCS_SIXEL if (ch == 0x71) { - sixelParseBuffer = new StringBuilder(); + sixelParseBuffer.setLength(0); scanState = ScanState.DCS_SIXEL; } else if ((ch >= 0x40) && (ch <= 0x7E)) { // 0x40-7E goes to DCS_PASSTHROUGH @@ -6791,11 +7202,13 @@ public class ECMA48 implements Runnable { if (ch == 0x9C) { parseSixel(); toGround(); + return; } // 0x1B 0x5C goes to GROUND if (ch == 0x1B) { collect((char) ch); + return; } if (ch == 0x5C) { if ((collectBuffer.length() > 0) @@ -6803,29 +7216,20 @@ public class ECMA48 implements Runnable { ) { parseSixel(); toGround(); + return; } } // 00-17, 19, 1C-1F, 20-7E --> put - if (ch <= 0x17) { - sixelParseBuffer.append((char) ch); - return; - } - if (ch == 0x19) { - sixelParseBuffer.append((char) ch); - return; - } - if ((ch >= 0x1C) && (ch <= 0x1F)) { - sixelParseBuffer.append((char) ch); - return; - } - if ((ch >= 0x20) && (ch <= 0x7E)) { + if ((ch <= 0x17) + || (ch == 0x19) + || ((ch >= 0x1C) && (ch <= 0x1F)) + || ((ch >= 0x20) && (ch <= 0x7E)) + ) { sixelParseBuffer.append((char) ch); - return; } // 7F --> ignore - return; case SOSPMAPC_STRING: @@ -6923,9 +7327,43 @@ public class ECMA48 implements Runnable { return mouseProtocol; } - // ------------------------------------------------------------------------ - // Sixel support ---------------------------------------------------------- - // ------------------------------------------------------------------------ + /** + * Draw the left and right cells of a two-cell-wide (full-width) glyph. + * + * @param leftX the x position to draw the left half to + * @param leftY the y position to draw the left half to + * @param rightX the x position to draw the right half to + * @param rightY the y position to draw the right half to + * @param ch the character to draw + */ + private void drawHalves(final int leftX, final int leftY, + final int rightX, final int rightY, final int ch) { + + // System.err.println("drawHalves(): " + Integer.toHexString(ch)); + + if (lastTextHeight != textHeight) { + glyphMaker = GlyphMaker.getInstance(textHeight); + lastTextHeight = textHeight; + } + + Cell cell = new Cell(ch, currentState.attr); + BufferedImage image = glyphMaker.getImage(cell, textWidth * 2, + textHeight); + BufferedImage leftImage = image.getSubimage(0, 0, textWidth, + textHeight); + BufferedImage rightImage = image.getSubimage(textWidth, 0, textWidth, + textHeight); + + Cell left = new Cell(cell); + left.setImage(leftImage); + left.setWidth(Cell.Width.LEFT); + display.get(leftY).replace(leftX, left); + + Cell right = new Cell(cell); + right.setImage(rightImage); + right.setWidth(Cell.Width.RIGHT); + display.get(rightY).replace(rightX, right); + } /** * Set the width of a character cell in pixels. @@ -6954,9 +7392,9 @@ public class ECMA48 implements Runnable { /* System.err.println("parseSixel(): '" + sixelParseBuffer.toString() + "'"); - */ + */ - Sixel sixel = new Sixel(sixelParseBuffer.toString()); + Sixel sixel = new Sixel(sixelParseBuffer.toString(), sixelPalette); BufferedImage image = sixel.getImage(); // System.err.println("parseSixel(): image " + image); @@ -6965,6 +7403,167 @@ public class ECMA48 implements Runnable { // Sixel data was malformed in some way, bail out. return; } + if ((image.getWidth() < 1) + || (image.getWidth() > 10000) + || (image.getHeight() < 1) + || (image.getHeight() > 10000) + ) { + return; + } + + imageToCells(image, true); + } + + /** + * Parse a "Jexer" RGB image string into a bitmap image, and overlay that + * image onto the text cells. + * + * @param pw width token + * @param ph height token + * @param ps scroll token + * @param data pixel data + */ + private void parseJexerImageRGB(final String pw, final String ph, + final String ps, final String data) { + + int imageWidth = 0; + int imageHeight = 0; + boolean scroll = false; + try { + imageWidth = Integer.parseInt(pw); + imageHeight = Integer.parseInt(ph); + } catch (NumberFormatException e) { + // SQUASH + return; + } + if ((imageWidth < 1) + || (imageWidth > 10000) + || (imageHeight < 1) + || (imageHeight > 10000) + ) { + return; + } + if (ps.equals("1")) { + scroll = true; + } else if (ps.equals("0")) { + scroll = false; + } else { + return; + } + + byte [] bytes = StringUtils.fromBase64(data.getBytes()); + if (bytes.length != (imageWidth * imageHeight * 3)) { + return; + } + + BufferedImage image = new BufferedImage(imageWidth, imageHeight, + BufferedImage.TYPE_INT_ARGB); + + for (int x = 0; x < imageWidth; x++) { + for (int y = 0; y < imageHeight; y++) { + int red = bytes[(y * imageWidth * 3) + (x * 3) ]; + if (red < 0) { + red += 256; + } + int green = bytes[(y * imageWidth * 3) + (x * 3) + 1]; + if (green < 0) { + green += 256; + } + int blue = bytes[(y * imageWidth * 3) + (x * 3) + 2]; + if (blue < 0) { + blue += 256; + } + int rgb = 0xFF000000 | (red << 16) | (green << 8) | blue; + image.setRGB(x, y, rgb); + } + } + + imageToCells(image, scroll); + } + + /** + * Parse a "Jexer" PNG or JPG image string into a bitmap image, and + * overlay that image onto the text cells. + * + * @param type 1 for PNG, 2 for JPG + * @param ps scroll token + * @param data pixel data + */ + private void parseJexerImageFile(final int type, final String ps, + final String data) { + + int imageWidth = 0; + int imageHeight = 0; + boolean scroll = false; + BufferedImage image = null; + try { + byte [] bytes = StringUtils.fromBase64(data.getBytes()); + + switch (type) { + case 1: + if ((bytes[0] != (byte) 0x89) + || (bytes[1] != 'P') + || (bytes[2] != 'N') + || (bytes[3] != 'G') + || (bytes[4] != (byte) 0x0D) + || (bytes[5] != (byte) 0x0A) + || (bytes[6] != (byte) 0x1A) + || (bytes[7] != (byte) 0x0A) + ) { + // File does not have PNG header, bail out. + return; + } + break; + + case 2: + if ((bytes[0] != (byte) 0XFF) + || (bytes[1] != (byte) 0xD8) + || (bytes[2] != (byte) 0xFF) + ) { + // File does not have JPG header, bail out. + return; + } + break; + + default: + // Unsupported type, bail out. + return; + } + + image = ImageIO.read(new ByteArrayInputStream(bytes)); + } catch (IOException e) { + // SQUASH + return; + } + assert (image != null); + imageWidth = image.getWidth(); + imageHeight = image.getHeight(); + if ((imageWidth < 1) + || (imageWidth > 10000) + || (imageHeight < 1) + || (imageHeight > 10000) + ) { + return; + } + if (ps.equals("1")) { + scroll = true; + } else if (ps.equals("0")) { + scroll = false; + } else { + return; + } + + imageToCells(image, scroll); + } + + /** + * Break up an image into the cells at the current cursor. + * + * @param image the image to display + * @param scroll if true, scroll the image and move the cursor + */ + private void imageToCells(final BufferedImage image, final boolean scroll) { + assert (image != null); /* * Procedure: @@ -7013,72 +7612,64 @@ public class ECMA48 implements Runnable { } Cell cell = new Cell(); - cell.setImage(image.getSubimage(x * textWidth, - y * textHeight, width, height)); + if ((width != textWidth) || (height != textHeight)) { + BufferedImage newImage; + newImage = new BufferedImage(textWidth, textHeight, + BufferedImage.TYPE_INT_ARGB); + + Graphics gr = newImage.getGraphics(); + gr.drawImage(image.getSubimage(x * textWidth, + y * textHeight, width, height), + 0, 0, null, null); + gr.dispose(); + cell.setImage(newImage); + } else { + cell.setImage(image.getSubimage(x * textWidth, + y * textHeight, width, height)); + } cells[x][y] = cell; } } int x0 = currentState.cursorX; + int y0 = currentState.cursorY; for (int y = 0; y < cellRows; y++) { for (int x = 0; x < cellColumns; x++) { - printCharacter(' '); - cursorLeft(1, false); - if ((x == cellColumns - 1) || (y == cellRows - 1)) { - // TODO: render text of current cell first, then image - // over it. For now, just copy the cell. - DisplayLine line = display.get(currentState.cursorY); - line.replace(currentState.cursorX, cells[x][y]); - } else { - // Copy the image cell into the display. - DisplayLine line = display.get(currentState.cursorY); - line.replace(currentState.cursorX, cells[x][y]); + assert (currentState.cursorX <= rightMargin); + + // A real sixel terminal would render the text of the current + // cell first, then image over it (accounting for blank + // pixels). We do not support that. A cell is either text, + // or image, but not a mix of image-over-text. + DisplayLine line = display.get(currentState.cursorY); + line.replace(currentState.cursorX, cells[x][y]); + + // If at the end of the visible screen, stop. + if (currentState.cursorX == rightMargin) { + break; } - cursorRight(1, false); + // Room for more image on the visible screen. + currentState.cursorX++; } - linefeed(); + if (currentState.cursorY < scrollRegionBottom - 1) { + // Not at the bottom, down a line. + linefeed(); + } else if (scroll == true) { + // At the bottom, scroll as needed. + linefeed(); + } else { + // At the bottom, no more scrolling, done. + break; + } + cursorPosition(currentState.cursorY, x0); } - } - - /** - * Draw the left and right cells of a two-cell-wide (full-width) glyph. - * - * @param leftX the x position to draw the left half to - * @param leftY the y position to draw the left half to - * @param rightX the x position to draw the right half to - * @param rightY the y position to draw the right half to - * @param ch the character to draw - */ - private void drawHalves(final int leftX, final int leftY, - final int rightX, final int rightY, final int ch) { - - // System.err.println("drawHalves(): " + Integer.toHexString(ch)); - - if (lastTextHeight != textHeight) { - glyphMaker = GlyphMaker.getInstance(textHeight); - lastTextHeight = textHeight; + if (scroll == false) { + cursorPosition(y0, x0); } - Cell cell = new Cell(ch, currentState.attr); - BufferedImage image = glyphMaker.getImage(cell, textWidth * 2, - textHeight); - BufferedImage leftImage = image.getSubimage(0, 0, textWidth, - textHeight); - BufferedImage rightImage = image.getSubimage(textWidth, 0, textWidth, - textHeight); - - Cell left = new Cell(cell); - left.setImage(leftImage); - left.setWidth(Cell.Width.LEFT); - display.get(leftY).replace(leftX, left); - - Cell right = new Cell(cell); - right.setImage(rightImage); - right.setWidth(Cell.Width.RIGHT); - display.get(rightY).replace(rightX, right); } }