Terminal control/Preserve screen: Difference between revisions
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print "\e[?1049l";</lang> |
print "\e[?1049l";</lang> |
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=={{header|Swift}}== |
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{{trans|C}} |
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<lang swift> |
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public let CSI = ESC+"[" // Control Sequence Introducer |
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func write(_ text: String...) { |
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for txt in text { write(STDOUT_FILENO, txt, txt.utf8.count) } |
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} |
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write(CSI,"?1049h") // open alternate screen |
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print("Alternate screen buffer\n") |
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for n in (1...5).reversed() { |
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print("Going back in \(n)...") |
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sleep(1) |
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} |
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write(CSI,"?1049l") // close alternate screen |
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</lang> |
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=={{header|Tcl}}== |
=={{header|Tcl}}== |
Revision as of 16:27, 16 June 2021
You are encouraged to solve this task according to the task description, using any language you may know.
- Task
Clear the screen, output something on the display, and then restore the screen to the preserved state that it was in before the task was carried out.
There is no requirement to change the font or kerning in this task, however character decorations and attributes are expected to be preserved. If the implementer decides to change the font or kerning during the display of the temporary screen, then these settings need to be restored prior to exit.
Applesoft BASIC
Restores 40 x 24 TEXT screen, cursor position, display mode, and speed. Adjusts HIMEM to make room to store 1024 bytes aligned to the 256 byte page boundary. POKEs a machine language "copy 4 pages of memory" routine into page 3. <lang ApplesoftBasic> 10 LET FF = 255:FE = FF - 1
11 LET FD = 253:FC = FD - 1 12 POKE FC, 0 : POKE FE, 0 13 LET R = 768:H = PEEK (116) 14 IF PEEK (R) = 162 GOTO 40
15 LET L = PEEK (115) > 0 16 LET H = H - 4 - L 17 HIMEM:H*256 18 LET A = 10:B = 11:C = 12 19 LET D = 13:E = 14:Z = 256 20 POKE R + 0,162: REMLDX 21 POKE R + 1,004: REM #$04 22 POKE R + 2,160: REMLDY 23 POKE R + 3,000: REM #$00 24 LET L = R + 4: REMLOOP 25 POKE L + 0,177: REMLDA 26 POKE L + 1,FC:: REM($FC),Y 27 POKE L + 2,145: REMSTA 28 POKE L + 3,FE:: REM($FE),Y 29 POKE L + 4,200: REMINY 30 POKE L + 5,208: REMBNE 31 POKE L + 6,Z - 7: REMLOOP 32 POKE L + 7,230: REMINC 33 POKE L + 8,FD:: REM $FD 34 POKE L + 9,230: REMINC 35 POKE L + A,FF:: REM $FF 36 POKE L + B,202: REMDEX 37 POKE L + C,208: REMBNE 38 POKE L + D,Z - E: REMLOOP 39 POKE L + E,096: REMRTS
40 POKE FD, 4 : POKE FF, H 41 CALL R : S = PEEK(241) 42 LET V = PEEK(37) 43 LET C = PEEK(36) 44 LET M = PEEK(50) 45 LET F = PEEK(243)
50 HOME : INVERSE 51 PRINT "ALTERNATE BUFFER" 52 FLASH : SPEED = 125 53 FOR I = 5 TO 1 STEP -1 54 PRINT "GOING BACK IN: "I 55 NEXT I
60 POKE FD, H : POKE FF, 4 61 CALL R : POKE 241, S 62 VTAB V + 1 : HTAB C + 1 63 POKE 50, M : POKE 243, F</lang>
BBC BASIC
The screen is saved as a bitmap: <lang bbcbasic> PRINT "This is the original screen"
OSCLI "GSAVE """ + @tmp$ + "bbcsave""" WAIT 200 CLS PRINT "This is the new screen, following a CLS" WAIT 200 OSCLI "DISPLAY """ + @tmp$ + "bbcsave"""</lang>
Befunge
Assuming a terminal with support for Xterm's alternate screen buffer escape sequences (which I believe is fairly standard these days), this example will switch to the alternate screen buffer, output "Press <Enter> to restore..." in the top left corner, and then restore the original screen.
<lang befunge>"h9401?["39*>:#,_"...erotser ot >retnE< sserPH["39*>:#,_~$"l9401?["39*>:#,_@</lang>
C
For Xterm. "Allow alternate screen buffer" must be enabled by the popup menu.<lang C>#include <stdio.h>
- include <unistd.h>
int main() { int i; printf("\033[?1049h\033[H"); printf("Alternate screen buffer\n"); for (i = 5; i; i--) { printf("\rgoing back in %d...", i); fflush(stdout); sleep(1); } printf("\033[?1049l");
return 0; }</lang>
Common Lisp
<lang lisp> (format t "~C[?1049h~C[H" (code-char #O33) (code-char #O33)) (format t "Alternate screen buffer~%") (loop for i from 5 downto 1 do (progn
(format t "~%going back in ~a" i) (sleep 1) ))
(format t "~C[?1049l" (code-char #O33)) </lang>
ncurses
When the ncurses terminal library is used, characters are displayed on an alternate screen of the terminal. Leaving ncurses returns to the original screen buffer with the previous content preserved. To interface ncurses from Lisp, the croatoan library is used. <lang lisp>(defun clear-test ()
;; starting a ncurses screen enters the alternate screen buffer of the terminal (with-screen (scr :input-echoing nil :input-blocking t) (princ "Text to be cleared" scr) (refresh scr) ;; wait for a keypress (get-char scr) (clear scr) (refresh scr) (get-char scr)))
- leaving ncurses returns the terminal to the main screen buffer</lang>
Emacs Lisp
<lang lisp>#!/usr/local/bin/emacs --script
- -*- lexical-binding
- t; -*-
- "ESC [ ? 1049 h" - Enable alternative screen buffer
(princ "\033[?1049h") (princ "Alternate screen buffer\n")
(let ((i 5))
(while (> i 0) (princ (format "\rgoing back in %d..." i)) ;; flush stdout (set-binary-mode 'stdout t) (sleep-for 1) (setq i (1- i))))
- "ESC [ ? 1049 l" - Disable alternative screen buffer
(princ "\033[?1049l")</lang>
Forth
<lang forth>.\" \033[?1049h\033[H" \ preserve screen ." Press any key to return" ekey drop .\" \033[?1049l" \ restore screen</lang>
Go
<lang go>package main
import (
"fmt" "time"
)
func main() {
fmt.Print("\033[?1049h\033[H") fmt.Println("Alternate screen buffer\n") s := "s" for i := 5; i > 0; i-- { if i == 1 { s = "" } fmt.Printf("\rgoing back in %d second%s...", i, s) time.Sleep(time.Second) } fmt.Print("\033[?1049l")
}</lang>
Java
<lang java>public class PreserveScreen {
public static void main(String[] args) throws InterruptedException { System.out.print("\033[?1049h\033[H"); System.out.println("Alternate screen buffer\n"); for (int i = 5; i > 0; i--) { String s = (i > 1) ? "s" : ""; System.out.printf("\rgoing back in %d second%s...", i, s); Thread.sleep(1000); } System.out.print("\033[?1049l"); }
}</lang>
JavaScript
<lang javascript>(function() { var orig= document.body.innerHTML document.body.innerHTML= ; setTimeout(function() { document.body.innerHTML= 'something'; setTimeout(function() { document.body.innerHTML= orig; }, 1000); }, 1000); })();</lang>
This implementation assumes that Javascript is running in the browser.
This task does not admit sample output, but you can demonstrate this solution for yourself using the chrome browser: control-shift-J then copy and paste the above into the command line, and hit enter.
Julia
<lang julia>const ESC = "\u001B" # escape code
print("$ESC[?1049h$ESC[H") print("\n\nNow using an alternate screen buffer. Returning after count of: ") foreach(x -> (sleep(1); print(" $x")), 5:-1:0) print("$ESC[?1049l\n\n\n")
</lang>
Kotlin
<lang scala>// version 1.1.2
const val ESC = "\u001B"
fun main(args: Array<String>) {
print("$ESC[?1049h$ESC[H") println("Alternate screen buffer") for(i in 5 downTo 1) { print("\rGoing back in $i second${if (i != 1) "s" else ""}...") Thread.sleep(1000) } print("$ESC[?1049l")
}</lang>
M2000 Interpreter
M2000 Console can used for graphics also. Here is a small example how we can preserve attributes. We use Hold to save temporary console bitmap, and Release to restore old console bitmap. These statements used for animation too. We can set the refresh rate using refresh statement, so we can make drawings before next refresh.
If we change Mode (size of font), or Window size (console witdh/height), or use a Form statement to set character resolution (number characters in a row by row number) which automatic calculate size and line spacing, then saved consoled bitmap erased. To preserve screen from this situation we have to preserve last form's arguments, or window's arguments or mode's argument.
<lang M2000 Interpreter> Module PreserveScreen {
Bold 1 Font "Arial" Paper=#225511 SplitScreenRow=0 Cls Paper, SplitScreenRow Print "Test" Gosub GetState Font "Tahoma" Bold 1 : Italic 1: Pen 15 cls 0, 5 For i=1 to 100 : Print i: Next i Move 6000,6000 For i=1000 to 6000 step 1000 : Circle i : Next i WaitKey$=Key$ Gosub RestoreState Print "End" End GetState: prevfont$=fontname$ prevbold=bold previtalic=italic prevpen=pen posx=pos posy=row graphicx=pos.x graphicy=pos.y OldPaper=Paper OldSplit=SplitScreenRow Hold Return RestoreState: Paper=OldPaper SplitScreenRow=OldSplit Cls Paper, SplitScreenRow Release font prevfont$ bold prevbold italic previtalic pen prevpen cursor posx, posy move graphicx, graphicy Return
} PreserveScreen
</lang>
Mathematica
<lang Mathematica>Run["tput smcup"] (* Save the display *) Run["echo Hello"] Pause[5] (* Wait five seconds *) Run["tput rmcup"] </lang>
Nim
<lang nim>import os
echo "\e[?1049h\e[H" echo "Alternate buffer!"
for i in countdown(5, 1):
echo "Going back in: ", i sleep 1000
echo "\e[?1049l"</lang>
Perl
<lang perl>print "\033[?1049h\033[H"; print "Alternate screen buffer\n";
for (my $i = 5; $i > 0; --$i) {
print "going back in $i...\n"; sleep(1);
}
print "\033[?1049l";</lang>
Phix
<lang Phix>sequence s = save_text_image({1,1}, {25,80}) clear_screen() puts(1,"\n\n *** hello ***\n") sleep(5) display_text_image({1,1}, s) sleep(3)</lang> The following also works fine on linux (but not windows) <lang Phix>puts(1,"\e[?1049h\e[H") puts(1,"Alternate buffer!\n")
for i=5 to 0 by -1 do
printf(1,"Going back in:%d\r", i) sleep(1)
end for puts(1,"\e[?1049l")</lang>
PicoLisp
<lang PicoLisp>#!/usr/bin/picolisp /usr/lib/picolisp/lib.l
(call 'tput "smcup") (prinl "something") (wait 3000) (call 'tput "rmcup")
(bye)</lang>
Python
Similar to the C example above:
<lang Python>#!/usr/bin/env python
import time
print "\033[?1049h\033[H" print "Alternate buffer!"
for i in xrange(5, 0, -1):
print "Going back in:", i time.sleep(1)
print "\033[?1049l"</lang>
Racket
<lang Racket>
- lang racket
(require racket/system) (define (flash str)
(system "tput smcup") (displayln str) (sleep 2) (system "tput rmcup") (void))
(flash "Hello world.") </lang>
Raku
(formerly Perl 6) <lang perl6>print "\e[?1049h\e[H"; say "Alternate buffer!";
for 5,4...1 {
print "\rGoing back in: $_"; sleep 1;
}
print "\e[?1049l";</lang>
REXX
This version only works with PC/REXX and Personal REXX.
The CLS (DOS) command is used to clear the terminal screen. <lang rexx>/*REXX program saves the screen contents and also the cursor location, then clears the */ /*──── screen, writes a half screen of ~~~ lines, and then restores the original screen.*/
parse value scrsize() with sd sw . /*determine the size of terminal screen*/ parse value cursor(1,1) with curRow curCol . /*also, find the location of the cursor*/
do original=1 for sd /*obtain the original screen contents. */ @line.original=scrRead(original,1, sw) /*obtain a line of the terminal screen.*/ end /*original*/ /* [↑] obtains SD number of lines. */
'CLS' /*start with a clean slate on terminal.*/
do sd % 2 /*write a line of ~~~ for half of scr. */ say '~~~' /*writes ~~~ starting at top of screen.*/ end /*sd % 2*/ /* [↑] this shows ~~~ will be overlaid*/ /*no need to clear the screen here. */ do restore=1 for sd /*restore original screen from @line. */ call scrWrite restore,1, @line.restore /*write to terminal the original lines.*/ end /*restore*/ /* [↑] writes (restores) SD lines. */ /*stick a fork in it, we're all done. */
call cursor curRow, curCol /*restore the original cursor position.*/</lang> This REXX program makes use of scrsize BIF which is used to determine the screen size of the terminal (console).
For those REXXes that don't have the scrsize BIF, the SCRSIZE.REX REXX program is included here ──► SCRSIZE.REX.
Scala
Similar to the C example above:
<lang Scala>print("\033[?1049h\033[H") println("Alternate buffer!")
for (i <- 5 to 0 by -1) {
println(s"Going back in: $i") Thread.sleep(1000)
}
print("\033[?1049l")</lang>
Sidef
<lang ruby>print "\e[?1049h\e[H"; say "Alternate buffer!";
3.downto(1).each { |i|
say "Going back in: #{i}"; Sys.sleep(1);
}
print "\e[?1049l";</lang>
Swift
<lang swift> public let CSI = ESC+"[" // Control Sequence Introducer func write(_ text: String...) {
for txt in text { write(STDOUT_FILENO, txt, txt.utf8.count) }
} write(CSI,"?1049h") // open alternate screen print("Alternate screen buffer\n") for n in (1...5).reversed() {
print("Going back in \(n)...") sleep(1)
} write(CSI,"?1049l") // close alternate screen </lang>
Tcl
On Unix terminals only, with the help of tput: <lang tcl># A helper to make code more readable proc terminal {args} {
exec /usr/bin/tput {*}$args >/dev/tty
}
- Save the screen with the "enter_ca_mode" capability, a.k.a. 'smcup'
terminal smcup
- Some indication to users what is happening...
puts "This is the top of a blank screen. Press Return/Enter to continue..." gets stdin
- Restore the screen with the "exit_ca_mode" capability, a.k.a. 'rmcup'
terminal rmcup</lang>
UNIX Shell
<lang sh>#!/bin/sh tput smcup # Save the display echo 'Hello' sleep 5 # Wait five seconds tput rmcup # Restore the display</lang>
Wren
<lang ecmascript>import "io" for Stdout import "timer" for Timer
System.write("\e[?1049h\e[H") System.print("Alternate screen buffer") for (i in 5..1) {
var s = (i != 1) ? "s" : "" System.write("\rGoing back in %(i) second%(s)...") Stdout.flush() Timer.sleep(1000)
} System.write("\e[?1049l")</lang>
XPL0
<lang XPL0>include c:\cxpl\codes; \intrinsic 'code' declarations
proc SetPage(P); \Select active display page for video screen int P; int CpuReg; [CpuReg:= GetReg; \access CPU registers CpuReg(0):= $0500 + P; \call BIOS interrupt $10, function 5 SoftInt($10); ]; \SetPage
[SetPage(1); \enable page 1 text display screen Clear; \clear screen and output something Text(0, "Hit any key to restore original screen. "); if ChIn(1) then []; \wait for keystroke SetPage(0); \restore original, default text screen, page 0 ]</lang>
Z80 Assembly
Using the Amstrad CPC firmware:
<lang z80> org $3000
txt_output: equ $bb5a scr_clear: equ $bc14 wait_char: equ $bb06 scr_get_loc: equ $bc0b scr_set_off: equ $bc05
push bc push de push hl push af
call scr_get_loc ; save this value just in case the push hl ; original screen has been scrolled vertically
ld hl,$c000 ; copy screen to block 1 ld de,$4000 ld bc,$4000 ldir
call scr_clear ld hl,text
print: ld a,(hl) cp 0 jr z,key call txt_output inc hl jr print
key: call wait_char pop hl call scr_set_off ld hl,$4000 ; restore screen ld de,$c000 ld bc,$4000 ldir pop af pop hl pop de pop bc ret
text: defm "This is some text. Please press a key.\0"</lang>
zkl
Works in a Mint Linux terminal, switching to the alternate screen buffer, printing a count down message and then switching back. <lang zkl>print("\e[?1049h\e[H"); println("Alternate screen buffer"); foreach i in ([5..1,-1]){
print("\rgoing back in %d...".fmt(i)); Atomic.sleep(1);
} print("\e[?1049l");</lang>