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/*
* Copyright (c) 2002-2007, Marc Prud'hommeaux. All rights reserved.
*
* This software is distributable under the BSD license. See the terms of the
* BSD license in the documentation provided with this software.
*/
package jline;
import java.io.*;
/**
* A buffer that can contain ANSI text.
*
* @author Marc Prud'hommeaux
*/
public class ANSIBuffer {
private boolean ansiEnabled = true;
private final StringBuffer ansiBuffer = new StringBuffer();
private final StringBuffer plainBuffer = new StringBuffer();
public ANSIBuffer() {
}
public ANSIBuffer(final String str) {
append(str);
}
public void setAnsiEnabled(final boolean ansi) {
this.ansiEnabled = ansi;
}
public boolean getAnsiEnabled() {
return this.ansiEnabled;
}
public String getAnsiBuffer() {
return ansiBuffer.toString();
}
public String getPlainBuffer() {
return plainBuffer.toString();
}
public String toString(final boolean ansi) {
return ansi ? getAnsiBuffer() : getPlainBuffer();
}
public String toString() {
return toString(ansiEnabled);
}
public ANSIBuffer append(final String str) {
ansiBuffer.append(str);
plainBuffer.append(str);
return this;
}
public ANSIBuffer attrib(final String str, final int code) {
ansiBuffer.append(ANSICodes.attrib(code)).append(str)
.append(ANSICodes.attrib(ANSICodes.OFF));
plainBuffer.append(str);
return this;
}
public ANSIBuffer red(final String str) {
return attrib(str, ANSICodes.FG_RED);
}
public ANSIBuffer blue(final String str) {
return attrib(str, ANSICodes.FG_BLUE);
}
public ANSIBuffer green(final String str) {
return attrib(str, ANSICodes.FG_GREEN);
}
public ANSIBuffer black(final String str) {
return attrib(str, ANSICodes.FG_BLACK);
}
public ANSIBuffer yellow(final String str) {
return attrib(str, ANSICodes.FG_YELLOW);
}
public ANSIBuffer magenta(final String str) {
return attrib(str, ANSICodes.FG_MAGENTA);
}
public ANSIBuffer cyan(final String str) {
return attrib(str, ANSICodes.FG_CYAN);
}
public ANSIBuffer bold(final String str) {
return attrib(str, ANSICodes.BOLD);
}
public ANSIBuffer underscore(final String str) {
return attrib(str, ANSICodes.UNDERSCORE);
}
public ANSIBuffer blink(final String str) {
return attrib(str, ANSICodes.BLINK);
}
public ANSIBuffer reverse(final String str) {
return attrib(str, ANSICodes.REVERSE);
}
public static class ANSICodes {
static final int OFF = 0;
static final int BOLD = 1;
static final int UNDERSCORE = 4;
static final int BLINK = 5;
static final int REVERSE = 7;
static final int CONCEALED = 8;
static final int FG_BLACK = 30;
static final int FG_RED = 31;
static final int FG_GREEN = 32;
static final int FG_YELLOW = 33;
static final int FG_BLUE = 34;
static final int FG_MAGENTA = 35;
static final int FG_CYAN = 36;
static final int FG_WHITE = 37;
static final char ESC = 27;
/**
* Constructor is private since this is a utility class.
*/
private ANSICodes() {
}
/**
* Sets the screen mode. The mode will be one of the following values:
*
* mode description
* ----------------------------------------
* 0 40 x 148 x 25 monochrome (text)
* 1 40 x 148 x 25 color (text)
* 2 80 x 148 x 25 monochrome (text)
* 3 80 x 148 x 25 color (text)
* 4 320 x 148 x 200 4-color (graphics)
* 5 320 x 148 x 200 monochrome (graphics)
* 6 640 x 148 x 200 monochrome (graphics)
* 7 Enables line wrapping
* 13 320 x 148 x 200 color (graphics)
* 14 640 x 148 x 200 color (16-color graphics)
* 15 640 x 148 x 350 monochrome (2-color graphics)
* 16 640 x 148 x 350 color (16-color graphics)
* 17 640 x 148 x 480 monochrome (2-color graphics)
* 18 640 x 148 x 480 color (16-color graphics)
* 19 320 x 148 x 200 color (256-color graphics)
*
*/
public static String setmode(final int mode) {
return ESC + "[=" + mode + "h";
}
/**
* Same as setmode () except for mode = 7, which disables line
* wrapping (useful for writing the right-most column without
* scrolling to the next line).
*/
public static String resetmode(final int mode) {
return ESC + "[=" + mode + "l";
}
/**
* Clears the screen and moves the cursor to the home postition.
*/
public static String clrscr() {
return ESC + "[2J";
}
/**
* Removes all characters from the current cursor position until
* the end of the line.
*/
public static String clreol() {
return ESC + "[K";
}
/**
* Moves the cursor n positions to the left. If n is greater or
* equal to the current cursor column, the cursor is moved to the
* first column.
*/
public static String left(final int n) {
return ESC + "[" + n + "D";
}
/**
* Moves the cursor n positions to the right. If n plus the current
* cursor column is greater than the rightmost column, the cursor
* is moved to the rightmost column.
*/
public static String right(final int n) {
return ESC + "[" + n + "C";
}
/**
* Moves the cursor n rows up without changing the current column.
* If n is greater than or equal to the current row, the cursor is
* placed in the first row.
*/
public static String up(final int n) {
return ESC + "[" + n + "A";
}
/**
* Moves the cursor n rows down. If n plus the current row is greater
* than the bottom row, the cursor is moved to the bottom row.
*/
public static String down(final int n) {
return ESC + "[" + n + "B";
}
/*
* Moves the cursor to the given row and column. (1,1) represents
* the upper left corner. The lower right corner of a usual DOS
* screen is (25, 80).
*/
public static String gotoxy(final int row, final int column) {
return ESC + "[" + row + ";" + column + "H";
}
/**
* Saves the current cursor position.
*/
public static String save() {
return ESC + "[s";
}
/**
* Restores the saved cursor position.
*/
public static String restore() {
return ESC + "[u";
}
/**
* Sets the character attribute. It will be
* one of the following character attributes:
*
*
* Text attributes
* 0 All attributes off
* 1 Bold on
* 4 Underscore (on monochrome display adapter only)
* 5 Blink on
* 7 Reverse video on
* 8 Concealed on
*
* Foreground colors
* 30 Black
* 31 Red
* 32 Green
* 33 Yellow
* 34 Blue
* 35 Magenta
* 36 Cyan
* 37 White
*
* Background colors
* 40 Black
* 41 Red
* 42 Green
* 43 Yellow
* 44 Blue
* 45 Magenta
* 46 Cyan
* 47 White
*
*
* The attributes remain in effect until the next attribute command
* is sent.
*/
public static String attrib(final int attr) {
return ESC + "[" + attr + "m";
}
/**
* Sets the key with the given code to the given value. code must be
* derived from the following table, value must
* be any semicolon-separated
* combination of String (enclosed in double quotes) and numeric values.
* For example, to set F1 to the String "Hello F1", followed by a CRLF
* sequence, one can use: ANSI.setkey ("0;59", "\"Hello F1\";13;10").
* Heres's the table of key values:
*
* Key Code SHIFT+code CTRL+code ALT+code
* ---------------------------------------------------------------
* F1 0;59 0;84 0;94 0;104
* F2 0;60 0;85 0;95 0;105
* F3 0;61 0;86 0;96 0;106
* F4 0;62 0;87 0;97 0;107
* F5 0;63 0;88 0;98 0;108
* F6 0;64 0;89 0;99 0;109
* F7 0;65 0;90 0;100 0;110
* F8 0;66 0;91 0;101 0;111
* F9 0;67 0;92 0;102 0;112
* F10 0;68 0;93 0;103 0;113
* F11 0;133 0;135 0;137 0;139
* F12 0;134 0;136 0;138 0;140
* HOME (num keypad) 0;71 55 0;119 --
* UP ARROW (num keypad) 0;72 56 (0;141) --
* PAGE UP (num keypad) 0;73 57 0;132 --
* LEFT ARROW (num keypad) 0;75 52 0;115 --
* RIGHT ARROW (num keypad) 0;77 54 0;116 --
* END (num keypad) 0;79 49 0;117 --
* DOWN ARROW (num keypad) 0;80 50 (0;145) --
* PAGE DOWN (num keypad) 0;81 51 0;118 --
* INSERT (num keypad) 0;82 48 (0;146) --
* DELETE (num keypad) 0;83 46 (0;147) --
* HOME (224;71) (224;71) (224;119) (224;151)
* UP ARROW (224;72) (224;72) (224;141) (224;152)
* PAGE UP (224;73) (224;73) (224;132) (224;153)
* LEFT ARROW (224;75) (224;75) (224;115) (224;155)
* RIGHT ARROW (224;77) (224;77) (224;116) (224;157)
* END (224;79) (224;79) (224;117) (224;159)
* DOWN ARROW (224;80) (224;80) (224;145) (224;154)
* PAGE DOWN (224;81) (224;81) (224;118) (224;161)
* INSERT (224;82) (224;82) (224;146) (224;162)
* DELETE (224;83) (224;83) (224;147) (224;163)
* PRINT SCREEN -- -- 0;114 --
* PAUSE/BREAK -- -- 0;0 --
* BACKSPACE 8 8 127 (0)
* ENTER 13 -- 10 (0
* TAB 9 0;15 (0;148) (0;165)
* NULL 0;3 -- -- --
* A 97 65 1 0;30
* B 98 66 2 0;48
* C 99 66 3 0;46
* D 100 68 4 0;32
* E 101 69 5 0;18
* F 102 70 6 0;33
* G 103 71 7 0;34
* H 104 72 8 0;35
* I 105 73 9 0;23
* J 106 74 10 0;36
* K 107 75 11 0;37
* L 108 76 12 0;38
* M 109 77 13 0;50
* N 110 78 14 0;49
* O 111 79 15 0;24
* P 112 80 16 0;25
* Q 113 81 17 0;16
* R 114 82 18 0;19
* S 115 83 19 0;31
* T 116 84 20 0;20
* U 117 85 21 0;22
* V 118 86 22 0;47
* W 119 87 23 0;17
* X 120 88 24 0;45
* Y 121 89 25 0;21
* Z 122 90 26 0;44
* 1 49 33 -- 0;120
* 2 50 64 0 0;121
* 3 51 35 -- 0;122
* 4 52 36 -- 0;123
* 5 53 37 -- 0;124
* 6 54 94 30 0;125
* 7 55 38 -- 0;126
* 8 56 42 -- 0;126
* 9 57 40 -- 0;127
* 0 48 41 -- 0;129
* - 45 95 31 0;130
* = 61 43 --- 0;131
* [ 91 123 27 0;26
* ] 93 125 29 0;27
* 92 124 28 0;43
* ; 59 58 -- 0;39
* ' 39 34 -- 0;40
* , 44 60 -- 0;51
* . 46 62 -- 0;52
* / 47 63 -- 0;53
* ` 96 126 -- (0;41)
* ENTER (keypad) 13 -- 10 (0;166)
* / (keypad) 47 47 (0;142) (0;74)
* * (keypad) 42 (0;144) (0;78) --
* - (keypad) 45 45 (0;149) (0;164)
* + (keypad) 43 43 (0;150) (0;55)
* 5 (keypad) (0;76) 53 (0;143) --
*/
public static String setkey(final String code, final String value) {
return ESC + "[" + code + ";" + value + "p";
}
}
public static void main(final String[] args) throws Exception {
// sequence, one can use: ANSI.setkey ("0;59", "\"Hello F1\";13;10").
BufferedReader reader =
new BufferedReader(new InputStreamReader(System.in));
System.out.print(ANSICodes.setkey("97", "97;98;99;13")
+ ANSICodes.attrib(ANSICodes.OFF));
System.out.flush();
String line;
while ((line = reader.readLine()) != null) {
System.out.println("GOT: " + line);
}
}
}