How can I find documentation/knowledge/mentorship/ancient tomes for terminal definitions? (getting vim terminal title setting to work with tmux) - vim

I have scoured the internet for an explanation, but the cryptic terseness of t_ts and t_fs makes it impossible to find helpful information about how I can expect systems to work.
Here is an overview of my existing knowledge, and I'd love it if someone wise could fill in the last few dots...
I "started" somewhere here: http://tldp.org/HOWTO/Xterm-Title-3.html
I verified running this in my bash shell (where the ^[ is produced by Ctrl+V,Esc):
printf "^[]0;testTITLEzzz"
This works. It works to set the title on a raw terminal and it works to set the title for a pane in tmux.
Note! I did not need to use a trailing "\007" char.
Inside my .vimrc, when I use set title, and set a titlestring, it always correctly sets the raw terminal title correctly, but failed to set the tmux pane title.
Once I set this, though (same thing with the ^[, it is a raw ESC char):
if &term == "tmux-256color-italic"
set t_ts=^[]0;
set t_fs=
endif
It started to work for setting the tmux pane title. I rejoiced.
Now the trouble I have is how to turn this procedural knowledge into practical knowledge that I can use in the future.
Question 1
I looked up the help in vim, I get this:
t_ts set window title start (to status line) t_ts 't_ts'
t_fs set window title end (from status line) t_fs 't_fs'
I don't know what "status line" means here.
Question 2
I want to know how these terminal-output-codes as documented in vim correspond to the rest of the xterm world, or whatever I should call it.
For example I can query infocmp to get my current terminal config and xterm terminal config's values:
$ infocmp xterm
# Reconstructed via infocmp from file: /lib/terminfo/x/xterm
xterm|xterm-debian|X11 terminal emulator,
am, bce, km, mc5i, mir, msgr, npc, xenl,
colors#8, cols#80, it#8, lines#24, pairs#64,
acsc=``aaffggiijjkkllmmnnooppqqrrssttuuvvwwxxyyzz{{||}}~~,
bel=^G, blink=\E[5m, bold=\E[1m, cbt=\E[Z, civis=\E[?25l,
clear=\E[H\E[2J, cnorm=\E[?12l\E[?25h, cr=\r,
csr=\E[%i%p1%d;%p2%dr, cub=\E[%p1%dD, cub1=^H,
cud=\E[%p1%dB, cud1=\n, cuf=\E[%p1%dC, cuf1=\E[C,
cup=\E[%i%p1%d;%p2%dH, cuu=\E[%p1%dA, cuu1=\E[A,
cvvis=\E[?12;25h, dch=\E[%p1%dP, dch1=\E[P, dim=\E[2m,
dl=\E[%p1%dM, dl1=\E[M, ech=\E[%p1%dX, ed=\E[J, el=\E[K,
el1=\E[1K, flash=\E[?5h$<100/>\E[?5l, home=\E[H,
hpa=\E[%i%p1%dG, ht=^I, hts=\EH, ich=\E[%p1%d#,
il=\E[%p1%dL, il1=\E[L, ind=\n, indn=\E[%p1%dS,
invis=\E[8m, is2=\E[!p\E[?3;4l\E[4l\E>, kDC=\E[3;2~,
kEND=\E[1;2F, kHOM=\E[1;2H, kIC=\E[2;2~, kLFT=\E[1;2D,
kNXT=\E[6;2~, kPRV=\E[5;2~, kRIT=\E[1;2C, kb2=\EOE, kbs=^?,
kcbt=\E[Z, kcub1=\EOD, kcud1=\EOB, kcuf1=\EOC, kcuu1=\EOA,
kdch1=\E[3~, kend=\EOF, kent=\EOM, kf1=\EOP, kf10=\E[21~,
kf11=\E[23~, kf12=\E[24~, kf13=\E[1;2P, kf14=\E[1;2Q,
kf15=\E[1;2R, kf16=\E[1;2S, kf17=\E[15;2~, kf18=\E[17;2~,
kf19=\E[18;2~, kf2=\EOQ, kf20=\E[19;2~, kf21=\E[20;2~,
kf22=\E[21;2~, kf23=\E[23;2~, kf24=\E[24;2~,
kf25=\E[1;5P, kf26=\E[1;5Q, kf27=\E[1;5R, kf28=\E[1;5S,
kf29=\E[15;5~, kf3=\EOR, kf30=\E[17;5~, kf31=\E[18;5~,
kf32=\E[19;5~, kf33=\E[20;5~, kf34=\E[21;5~,
kf35=\E[23;5~, kf36=\E[24;5~, kf37=\E[1;6P, kf38=\E[1;6Q,
kf39=\E[1;6R, kf4=\EOS, kf40=\E[1;6S, kf41=\E[15;6~,
kf42=\E[17;6~, kf43=\E[18;6~, kf44=\E[19;6~,
kf45=\E[20;6~, kf46=\E[21;6~, kf47=\E[23;6~,
kf48=\E[24;6~, kf49=\E[1;3P, kf5=\E[15~, kf50=\E[1;3Q,
kf51=\E[1;3R, kf52=\E[1;3S, kf53=\E[15;3~, kf54=\E[17;3~,
kf55=\E[18;3~, kf56=\E[19;3~, kf57=\E[20;3~,
kf58=\E[21;3~, kf59=\E[23;3~, kf6=\E[17~, kf60=\E[24;3~,
kf61=\E[1;4P, kf62=\E[1;4Q, kf63=\E[1;4R, kf7=\E[18~,
kf8=\E[19~, kf9=\E[20~, khome=\EOH, kich1=\E[2~,
kind=\E[1;2B, kmous=\E[M, knp=\E[6~, kpp=\E[5~,
kri=\E[1;2A, mc0=\E[i, mc4=\E[4i, mc5=\E[5i, meml=\El,
memu=\Em, op=\E[39;49m, rc=\E8, rep=%p1%c\E[%p2%{1}%-%db,
rev=\E[7m, ri=\EM, rin=\E[%p1%dT, ritm=\E[23m, rmacs=\E(B,
rmam=\E[?7l, rmcup=\E[?1049l\E[23;0;0t, rmir=\E[4l,
rmkx=\E[?1l\E>, rmm=\E[?1034l, rmso=\E[27m, rmul=\E[24m,
rs1=\Ec, rs2=\E[!p\E[?3;4l\E[4l\E>, sc=\E7,
setab=\E[4%p1%dm, setaf=\E[3%p1%dm,
setb=\E[4%?%p1%{1}%=%t4%e%p1%{3}%=%t6%e%p1%{4}%=%t1%e%p1%{6}%=%t3%e%p1%d%;m,
setf=\E[3%?%p1%{1}%=%t4%e%p1%{3}%=%t6%e%p1%{4}%=%t1%e%p1%{6}%=%t3%e%p1%d%;m,
sgr=%?%p9%t\E(0%e\E(B%;\E[0%?%p6%t;1%;%?%p5%t;2%;%?%p2%t;4%;%?%p1%p3%|%t;7%;%?%p4%t;5%;%?%p7%t;8%;m,
sgr0=\E(B\E[m, sitm=\E[3m, smacs=\E(0, smam=\E[?7h,
smcup=\E[?1049h\E[22;0;0t, smir=\E[4h, smkx=\E[?1h\E=,
smm=\E[?1034h, smso=\E[7m, smul=\E[4m, tbc=\E[3g,
u6=\E[%i%d;%dR, u7=\E[6n, u8=\E[?%[;0123456789]c,
u9=\E[c, vpa=\E[%i%p1%dd,
$ infocmp
# Reconstructed via infocmp from file: /home/slu/.terminfo/t/tmux-256color-italic
tmux-256color-italic|screen with 256 colors and italic,
am, km, mir, msgr, xenl,
colors#0x100, cols#80, it#8, lines#24, pairs#0x7fff,
acsc=++\,\,--..00``aaffgghhiijjkkllmmnnooppqqrrssttuuvvwwxxyyzz{{||}}~~,
bel=^G, blink=\E[5m, bold=\E[1m, cbt=\E[Z, civis=\E[?25l,
clear=\E[H\E[J, cnorm=\E[34h\E[?25h, cr=\r,
csr=\E[%i%p1%d;%p2%dr, cub=\E[%p1%dD, cub1=^H,
cud=\E[%p1%dB, cud1=\n, cuf=\E[%p1%dC, cuf1=\E[C,
cup=\E[%i%p1%d;%p2%dH, cuu=\E[%p1%dA, cuu1=\EM,
cvvis=\E[34l, dch=\E[%p1%dP, dch1=\E[P, dim=\E[2m,
dl=\E[%p1%dM, dl1=\E[M, ed=\E[J, el=\E[K, el1=\E[1K,
enacs=\E(B\E)0, flash=\Eg, home=\E[H, hpa=\E[%i%p1%dG,
ht=^I, hts=\EH, ich=\E[%p1%d#, il=\E[%p1%dL, il1=\E[L,
ind=\n, indn=\E[%p1%dS, is2=\E)0, kbs=^?, kcbt=\E[Z,
kcub1=\EOD, kcud1=\EOB, kcuf1=\EOC, kcuu1=\EOA,
kdch1=\E[3~, kend=\E[4~, kf1=\EOP, kf10=\E[21~,
kf11=\E[23~, kf12=\E[24~, kf2=\EOQ, kf3=\EOR, kf4=\EOS,
kf5=\E[15~, kf6=\E[17~, kf7=\E[18~, kf8=\E[19~, kf9=\E[20~,
khome=\E[1~, kich1=\E[2~, kmous=\E[M, knp=\E[6~, kpp=\E[5~,
nel=\EE, op=\E[39;49m, rc=\E8, rev=\E[7m, ri=\EM,
ritm=\E[23m, rmacs=^O, rmcup=\E[?1049l, rmir=\E[4l,
rmkx=\E[?1l\E>, rmso=\E[27m, rmul=\E[24m,
rs2=\Ec\E[?1000l\E[?25h, sc=\E7,
setab=\E[%?%p1%{8}%<%t4%p1%d%e%p1%{16}%<%t10%p1%{8}%-%d%e48;5;%p1%d%;m,
setaf=\E[%?%p1%{8}%<%t3%p1%d%e%p1%{16}%<%t9%p1%{8}%-%d%e38;5;%p1%d%;m,
sgr=\E[0%?%p6%t;1%;%?%p1%t;3%;%?%p2%t;4%;%?%p3%t;7%;%?%p4%t;5%;%?%p5%t;2%;m%?%p9%t\016%e\017%;,
sgr0=\E[m\017, sitm=\E[3m, smacs=^N, smcup=\E[?1049h,
smir=\E[4h, smkx=\E[?1h\E=, smso=\E[7m, smul=\E[4m,
tbc=\E[3g, vpa=\E[%i%p1%dd,
Nothing seems to line up with ts or fs.
At this point I don't think that the 2 letter codes map together, which is something that I have suspected for years.
Furthermore, since I learned that emitting <Esc>]0; followed by a string works to set the title, through my testing, I see that this always works regardless of the terminal capabilities that are specified in $TERM. This makes me question if looking at infocmp and wondering about whether something specified here is relevant to my ability to control the title.
Though, honestly, I hardly understand what the significance of the $TERM env var even is, aside from that programs such as vim and less complain if I haven't tic'd a terminfo file corresponding to the current value of $TERM. Again, just procedural knowledge, and I'm seeking something a little deeper and meaningful.
Question 3
Now that I've found a combination of configuration that allows tmux's pane titles to be set properly by vim, I wonder what it was that vim was sending prior to my setting of t_ts that worked on raw terminals but did not work for tmux. I know there is a way to trick vim into thinking i'm running it interactively while piping all of its output into a binary file, and then go hex spelunking for the difference in codes, but I have forgotten how this is done, and suspect that there is a less painful way to find out.
Question 4
It is entirely unclear what i should set, if anything, for t_fs, and this touches also upon the question of why the \007 BEL character is not necessary to terminate the title sequence. Why is it not necessary, and what should I expect will terminate the sequence? A newline?


You definitely need the trailing \007 (or \033\\) or some terminals will stop responding waiting for the end of the sequence. Did you try this inside tmux? tmux has a timeout to prevent panes hanging, but most other terminals do not. If you try it in xterm without the \007, it will hang.
For information on the title setting sequences themselves, look at https://invisible-island.net/xterm/ctlseqs/ctlseqs.html (title setting is OSC 0 and 2 - look under "Operating System Commands").
ts and fs are termcap names (terminfo is tsl/fsl) meaning "to status line" and "from status line" (as the name implies, infocmp is showing you terminfo, not termcap). These are somewhat historical from the days when hardware terminals had a separate status line, but in recent years have been reused sometimes for the X terminal title. Look at the "Status Lines" section in terminfo(5) for some bits about status line capabilities. In practice, tsl and fsl are not often provided or used and instead most applications look at the XT capability ("xterm titles") to work out if they should use the OSC sequences. XT is an extension capability - you need to use "infocmp -x" to see it.
You can always set the title inside tmux using the OSC sequences, by default the title (#{pane_title} format) is shown in quotes in status-right. tmux will not also set the external terminal title (the terminal tmux is running in) unless the set-titles option is on. The set-titles-string option controls the format of the title tmux sets (by default it includes the active pane's title and some other information). set-titles will only work if TERM outside tmux specifies an entry that contains XT or tsl/fsl (xterm does have XT).
I don't know how to configure vim to set the title but it seems like you are on the right track there with t_ts and t_fs - it seems like vim is using the tsl/fsl but using the termcap names (probably a legacy from vi which was started long before terminfo existed).
I can give you a brief description of how it works:
termcap was originally written in the 70s to allow vi to run on different (hardware) terminals;
terminfo was written as a replacement in the 80s to fix a number of problems and limitations with termcap;
both are still used (terminfo much more commonly) for both software and hardware terminals;
they both work in a similar way - there is a database of named entries (like "xterm" or "tmux-256color") which give a set of named capabilities of the terminal; some capabilities are flags (eg "XT") or numbers (eg "colors") but most are strings which specify the sequence an application should send to a terminal to make something happen (eg "cuu1" make the cursor move one line up - "\033[A" on vt100-compatible terminals);
termcap has short most two-character names, terminfo tend to be longer; termcap has a small limit of 1024 bytes on the length of a database entry so it is often missing many capabilities that terminfo has;
TERM is set to the name of the termcap or terminfo entry the application should look for in the database;
the terminfo database is maintained and shipped as part of ncurses (a library for drawing to the terminal which is used by many terminal applications); the termcap database is generated from terminfo using tic.
There isn't really a single source with all the information put together. For the escape sequences, https://vt100.net/ has a lot of manuals for old hardware terminals (much of which is now irrelevent however) and the link I gave above for xterm documents the escape sequences supported by xterm and most other modern terminal emulators support a subset of these (almost all terminals still around are vt100-compatible and xterm is the de facto standard terminal). ncurses has some manuals: terminfo(5) and termcap(5). There is an O'Reilly book called "termcap and terminfo" which covers much as well, but it was written in the late 80s so some of it is out of date.

Related

characters randomly showing up on screen when move the cursor from left to right in vim insert mode

i have Vim with plugin vim-go and neocomplete, when o move the cursor from left to right in insert mode this happens
Note: this only happens with go code and vim-go required binaries (such as gocode, godef, goimports, etc..)
someone have same problem?
i am running Ubuntu 14.04.2 LTS 64bits with Kernel 3.13.0-48 Vim 7.4.52 with lua support
thanks in advance

It looks as if you are using gnome-terminal or konsole.
When you use cursor-keys to move around in insert-mode, the keys send escape sequences. In particular, if you happen to press the shift- or control-keys, those can send different escape sequences (with numbers), possibly with semicolons to separate the numbers. There are some limitations on vim's handling strings of that sort, and in some cases (see this discussion) it will get confused and stop interpreting the string, leaving junk on the screen.
The root of the problem is that in vi, the program (mis)uses the escape character for two different reasons:
a special "command" character sent by the user to the editor
the first character in the strings sent by most special keys to an application (including an editor).
The latter requires the program (vim) to wait "a while" to determine which case to use. If you are using a slow machine (or a slow connection) and your keyboard-repeat is fast, that defeats vim's attempt to distinguish the two cases. Likewise, your plugins send many characters to the screen for each keystroke, making vim slower.
It is aggravated by modified keys (using shift- or control-modifiers) since xterm and other terminals encode that information as a number. gnome-terminal and konsole use an older variant of xterm's (see xterm FAQ How can I use shift- or control-modifiers?) which is more easily mistaken by vim as not being an escape sequence.
If it is only a matter of timing, then moving your cursor more slowly would avoid the problem (agreeing that is only a workaround). You can gauge the amount of output done by vim by running it in script to capture the output into a typescript file. I do that to analyze bugs, by sending the data back to the terminal more slowly. Some of those typescript files are surprisingly large, for the little apparent work done.

I changed from neocomplete to YouCompleteMe, the random characters is not showing anymore.

terminal escape sequences for fonts

What I want to develop:
Terminal which can use at least 2 fonts in the same time. One font I will use for shell input lines, another font for command output. For example:
user#host$ ls /home
user user1 user2 user3
Why:
More readable terminal/shell
How: Here I have problem. Probably shell needs to generate some new escape sequences. And terminal need to load different fonts and handle those sequences. Where to start? How to define new escaping sequence, where are standards?
Future: Maybe somebody want to join me in this project?

The standard for control sequences is pretty much the Xterm Control Sequences document ctlseqs.ms in the XTerm source code. (You can turn it into a PDF with the command groff -ms -Tps ctlseqs.ms | ps2pdf - ctlseqs.pdf, though the -ms option seems to be broken on Ubuntu 12.04).
XTerm already supports control sequences to change the font, but for the entire terminal at once. Open xterm and type into your shell—
echo -e "\033[?35h\033]50;#+1^G\033\\" # aka CSI ? 35 h OSC 50 ; #+1 BEL ST
the font for the entire terminal should change. This control sequence actually supports the names of True-Type fonts as well; see page 21.
If you'd like to change an existing terminal to support changing the font inline, you're
welcome to choose pretty much any control sequences not already allocated in ctrlseqs.ms and use them. However, it's a good idea to choose new control sequences similar to the control sequences for functionality that already exists.
Your next step is to get the source code for an existing terminal and start digging. What terminal do you use right now? The source code for Konsole or gnome-terminal is probably going to be easier to work with than that for XTerm.

There is a standard sequence for swapping fonts.
SGR 11
Also known as
CSI 11m
ESC [ 11m
Similarly
SGR 10
will switch back to the default font.
However, as has been commented, almost no terminal actually supports this. You'd likely be better off using some other rendering attribute, such as bold/underline/italics. Though note also not many terminals support italics.
For reference
SGR 1 = bold
SGR 4 = underline
SGR 3 = italics

If you are happy with just different font attributes (and not different fonts) you can even implement something similar without writing your own terminal emulator if you use zsh. You can just set up your shell to emit the right escape sequences to set the correct terminal attribute (italics, bold, color, ...) before and after the prompt and before command execution.
Let's assume you use Xterm and want your prompt to be bold, the typed command line to be italics and the command output to be normal.
Then the setup looks like this:
# bold is \e[1m and italics is \e[3m , \e[0m resets the attributes
PS1=$'\e[1m'$PS1$'\e[0;3m' # I assume you have set PS1 already
function reset-terminal-attributes { printf '\e[0m'; }
autoload add-zsh-hook
add-zsh-hook preexec reset-terminal-attributes

Use Vim to "colourize" files or input streams

This may be an odd question, but still. I use cat to display a file in bash (KDE Konsole),
cat foobar.rb
Now, I would like to use Vim to colourize that foobar.rb file according to what you would get when you start foobar.rb in Vim. Edit: But only for display purpose, on the terminal.
I am not sure this is possible, but I thought it would be neat if I could use Vim for that.
I really just want colourized keywords, and Vim has the perfect colour definitions.
So I thought combining this would be great.
Is this possible in Vim out of the box though?

One approach would be to use a library such as Pygments, which is a general purpose syntax highlighter. You could write a wrapper called ccat or something that would apply syntax highlighting to an input file and write to stdout.
If you want to page up and down in a highlighted file, you can use less with the -R switch, which passes control characters through to the terminal directly, preserving colours. So:
ccat file.rb | less -R
But at that point, you're pretty much at the capabilities of view.

I'm not sure if I understand your question correctly, but if you are only looking for a command that will give you a read-only view of the input file (like cat) but with coloured keywords, use view. view is an alternative way to start vim in read-only mode, so you have all syntax highlighting possibilities. From the vim man page:
view Start in read-only mode. You will be protected from writing
the files. Can also be done with the "-R" argument.
gvim gview
The GUI version. Starts a new window. Can also be done with
the "-g" argument.
evim eview
The GUI version in easy mode. Starts a new window. Can also
be done with the "-y" argument.
rvim rview rgvim rgview
Like the above, but with restrictions. It will not be possi-
ble to start shell commands, or suspend Vim. Can also be
done with the "-Z" argument.
I have always seen view on systems that have vim installed.

Closest is the less script that comes with vim:
cat myfile | vim -u /usr/share/vim/vim72/macros/less.vim -
Note the - argument to vim. You may need to change the vim72 to your version (and the whole path if you have it installed elsewhere)
Now, this isn't exactly what you want, because its behaviour is less-like, in that you have to press keys to make it scroll down or complete. However, they are briefer than usual vim. For example, space to scroll down; and q to quit (not :q).
You want a cat-like version; me too. But there doesn't seem to be one.
EDIT uh, there's also a vimpager project, that includes vimcat - exactly what you want. But it doesn't come with vim, and I haven't tried it yet.
vim.org: http://www.vim.org/scripts/script.php?script_id=1723
github: https://github.com/rkitover/vimpager

Redraw screen in terminal

How do some programs edit whats being displayed on the terminal (to pick a random example, the program 'sl')? I'm thinking of the Linux terminal here, it may happen in other OS's too, I don't know. I've always thought once some text was displayed, it stayed there. How do you change it without redrawing the entire screen?

Depending on the terminal you send control seuqences. Common sequences are for example esc[;H to send the cursor to a specific position (e.g. on Ansi, Xterm, Linux, VT100). However, this will vary with the type or terminal the user has ... curses (in conjunction with the terminfo files) will wrap that information for you.

Many applications make use of the curses library, or some language binding to it.
For rewriting on a single line, such as updating progress information, the special character "carriage return", often specified by the escape sequence "\r", can return the cursor to the start of the current line allowing subsequent output to overwrite what was previously written there.

try this shellscript
#!/bin/bash
i=1
while [ true ]
do
echo -e -n "\r $i"
i=$((i+1))
done
the -n options prevents the newline ... and the \r does the carriage return ... you write again and again into the same line - no scroling or what so ever

If you terminate a line sent to the terminal with a carriage return ('\r') instead of a linefeed ('\n'), it will move the cursor to the beginning of the current line, allowing the program to print more text over top of what it printed before. I use this occasionally for progress messages for long tasks.
If you ever need to do more terminal editing than that, use ncurses or a variant thereof.

There are characters that can be sent to the terminal that move the cursor back. Then text can be overwritten.
There is a list here. Note the "move cursor something" lines.

NCurses is a cross-platform library that lets you draw user interfaces on smart terminals.

Corporal Touchy has answered how this is done at the lowest level. For easier development the curses library gives a higher level of control than simply sending characters to the terminal.

To build on #Corporal Touchy's answer, there are libraries available that will handle some of this functionality for you such as curses/ncurses

I agree with danio, ncurses is the way to go. Here's a good tutorial:
http://tldp.org/HOWTO/NCURSES-Programming-HOWTO/

Why do my keystrokes turn into crazy characters after I dump a bunch of binary data into my terminal?

If I do something like:
$ cat /bin/ls
into my terminal, I understand why I see a bunch of binary data, representing the ls executable. But afterwards, when I get my prompt back, my own keystrokes look crazy. I type "a" and I get a weird diagonal line. I type "b" and I get a degree symbol.
Why does this happen?

Because somewhere in your binary data were some control sequences that your terminal interpreted as requests to, for example, change the character set used to draw. You can restore everything to normal like so:
reset

Just do a copy-paste:
echo -e '\017'
to your bash and characters will return to normal. If you don't run bash, try the following keystrokes:
<Ctrl-V><Ctrl-O><Enter>
and hopefully your terminal's status will return to normal when it complains that it can't find either a <Ctrl-V><Ctrl-O> or a <Ctrl-O> command to run.
<Ctrl-N>, or character 14 —when sent to your terminal— orders to switch to a special graphics mode, where letters and numbers are replaced with symbols. <Ctrl-O>, or character 15, restores things back to normal.

The terminal will try to interpret the binary data thrown at it as control codes, and garble itself up in the process, so you need to sanitize your tty.
Run:
stty sane
And things should be back to normal. Even if the command looks garbled as you type it, the actual characters are being stored correctly, and when you press return the command will be invoked.
You can find more information about the stty command here.

You're getting some control characters piped into the shell that are telling the shell to alter its behavior and print things differently.

VT100 is pretty much the standard command set used for terminal windows, but there are a lot of extensions. Some control character set used, keyboard mapping, etc.
When you send a lot of binary characters to such a terminal, a lot of settings change. Some terminals have options to 'clear' the settings back to default, but in general they simply weren't made for binary data.
VT100 and its successors are what allow Linux to print in color text (such as colored ls listings) in a simple terminal program.
-Adam

If you really must dump binary data to your terminal, you'd have much better luck if you pipe it to a pager like less, which will display it in a slightly more readable format. (You may also be interested in strings and od, both can be useful if you're fiddling around with binary files.)

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