Why ${(%):-%N} to get expansion of % escapes in zsh? - zsh

To get the path of a currently running script people suggest to use ${(%):-%N}. I have looked into this and I cannot wrap my head around why ${(%)%N} shouldn't work.
From reading the manual (zshexpn) it seems like the above command uses ${name:-value} which returns the value of name if this is set (and non-null), otherwise value. In the case above name is left blank, in which case value is always returned.
The first (%) is a parameter expansion flag that (as far as I understand) should make all % escapes (%N in this case) expand in the same way as in the prompt.
Shouldn't it be possible to simply use ${(%)%N} instead? This does not work, but I do not understand why.
Can anyone shed any light on this? Perhaps my understanding of how ${(%):-%N} is parsed is not correct?

The syntax ${...} is for a parameter expansion, and in this case %N is not a parameter - it's a string literal. The :- syntax is a way to turn a string literal into a parameter.
Some examples that may help explain this:
> parm='%N'
> print ${parm}
%N
> print -- ${(%)parm}
-zsh
> print X${notaparameter}X
XX
> print X${%N}X
XX
> print X${:-%N}X
X%NX
> print X${(%):-%N}X
X-zshX

Related

How to process latex commands in R?

I work with knitr() and I wish to transform inline Latex commands like "\label" and "\ref", depending on the output target (Latex or HTML).
In order to do that, I need to (programmatically) generate valid R strings that correctly represent the backslash: for example "\label" should become "\\label". The goal would be to replace all backslashes in a text fragment with double-backslashes.
but it seems that I cannot even read these strings, let alone process them: if I define:
okstr <- function(str) "do something"
then when I call
okstr("\label")
I directly get an error "unrecognized escape sequence"
(of course, as \l is faultly)
So my question is : does anybody know a way to read strings (in R), without using the escaping mechanism ?
Yes, I know I could do it manually, but that's the point: I need to do it programmatically.
There are many questions that are close to this one, and I have spent some time browsing, but I have found none that yields a workable solution for this.
Best regards.
Inside R code, you need to adhere to R’s syntactic conventions. And since \ in strings is used as an escape character, it needs to form a valid escape sequence (and \l isn’t a valid escape sequence in R).
There is simply no way around this.
But if you are reading the string from elsewhere, e.g. using readLines, scan or any of the other file reading functions, you are already getting the correct string, and no handling is necessary.
Alternatively, if you absolutely want to write LaTeX-like commands in literal strings inside R, just use a different character for \; for instance, +. Just make sure that your function correctly handles it everywhere, and that you keep a way of getting a literal + back. Here’s a suggestion:
okstr("+label{1 ++ 2}")
The implementation of okstr then needs to replace single + by \, and double ++ by + (making the above result in \label{1 + 2}). But consider in which order this needs to happen, and how you’d like to treat more complex cases; for instance, what should the following yield: okstr("1 +++label")?

Multiline prompt formatting incorrectly due to date command in zsh

I have the following in my .zshrc:
setopt PROMPT_SUBST
precmd(){
echo""
LEFT="$fg[cyan]$USERNAME#$HOST $fg[green]$PWD"
RIGHT="$fg[yellow]$(date +%I:%M\ %P)"
RIGHTWIDTH=$(($COLUMNS-${#LEFT}))
echo $LEFT${(l:$RIGHTWIDTH:)RIGHT}
}
PROMPT="$ "
This gives me the following screenshot
The time part on the right is always not going all the way to the edge of the terminal, even when resized. I think this is due to the $(date +%I:%M\ %P) Anyone know how to fix this?
EDIT: Zoomed in screenshot
While your idea is commendable, the problem you suffer from is that your LEFT and RIGHT contains ANSI escape sequences (for colors), which should be zero-width characters, but are nevertheless counted toward the length of a string if you naively use $#name, or ${(l:expr:)name}.
Also, as a matter of style, you're better off using Zsh's builtin prompt expansion, which wraps a lot of common things people may want to see in their prompts in short percent escape sequences. In particular, there are builtin sequences for colors, so you don't need to rely on nonstandard $fg[blah].
Below is an approximate of your prompt written in my preferred coding style... Not exactly, I made everything super verbose so as to be understandable (hopefully). The lengths of left and right preprompts are calculated after stripping the escape sequences for colors and performing prompt expansion, which gives the correct display length (I can't possibly whip that up in minutes; I ripped the expression off pure).
precmd(){
local preprompt_left="%F{cyan}%n#%m %F{green}%~"
local preprompt_right="%F{yellow}%D{%I:%M %p}%f"
local preprompt_left_length=${#${(S%%)preprompt_left//(\%([KF1]|)\{*\}|\%[Bbkf])}}
local preprompt_right_length=${#${(S%%)preprompt_right//(\%([KF1]|)\{*\}|\%[Bbkf])}}
local num_filler_spaces=$((COLUMNS - preprompt_left_length - preprompt_right_length))
print -Pr $'\n'"$preprompt_left${(l:$num_filler_spaces:)}$preprompt_right"
}
PROMPT="$ "
Edit: In some terminal emulators, printing exactly $COLUMN characters might wrap the line. In that case, replace the appropriate line with
local num_filler_spaces=$((COLUMNS - preprompt_left_length - preprompt_right_length - 1))
End of edit.
This is very customizable, because you can put almost anything in preprompt_left and preprompt_right and still get the correct lengths — just remember to use prompt escape sequence for zero width sequences, e.g., %F{}%f for colors, %B%b for bold, etc. Again, read the docs on prompt expansion: http://zsh.sourceforge.net/Doc/Release/Prompt-Expansion.html.
Note: You might notice that %D{%I:%M %p} expands to things like 11:35 PM. That's because I would like to use %P to get pm, but not every implementation of strftime supports %P. Worst case scenario: if you really want lowercase but %P is not supported, use your original command subsitution $(date +'%I:%M %P').
Also, I'm using %~ instead of %/, so you'll get ~/Desktop instead of /c/Users/johndoe/Desktop. Some like it, some don't. However, as I said, this is easily customizable.

ZSH prompt substitution issues

I've searched through several answers here and through Google, but I'm still not sure what's going wrong with my prompt.
According to the documentation I've read, this should work
setopt prompt_subst
autoload -U colors && colors
PROMPT="%{[00m[38;5;245m%}test %D%{[00m%}"
My prompt is the following, however:
[00m[38;5;245mtest 15-07-01[00m
Note that the date expansion actually worked, so prompt substitution is working. The ZSH man pages for prompt expansion states that %{...%} should be treated as a raw escape code, but that doesn't seem to be happening. Passing that string to print -P also results in the output above. I've found example prompts on the Internet for ZSH that also seem to indicate that the above syntax should work. See this for one example - the $FG and $FX arrays are populated with escape codes and are defined here. I've tried this example directly by merging both the files above, adding setopt prompt_subst to the beginning just to make sure it's set, then sourcing it and the prompt is a mess of escape codes.
The following works
setopt prompt_subst
autoload -U colors && colors
PROMPT=$'%{\e[00m\e[38;5;245m%}test %D%{\e[00m%}'
I get the expected result of test 15-07-01 in the proper color.
I've tested this on ZSH 5.0.5 in OSX Yosimite, 5.0.7 from MacPorts, and 4.3.17 on Debian, with the same results. I know I have provided a valid solution to my own problem here with the working example, but I'm wondering why the first syntax isn't working as it seems it should.
I think this all has to do with the timeless and perennial problem of escaping. It's worth reminding ourselves what escaping means, briefly: an escape character is an indicator to the computer that what follows should not be output literally.
So there are 2 escaping issues with:
PROMPT="%{[00m[38;5;245m%}test %D%{[00m%}"
Firstly, the colour escape sequences (eg; [00m) should all start with the control character like so \e[00m. You may have also seen it written as ^[00m and \003[00m. What I suspect has happened is one of the variations has suffered the common fate of being inadvertently escaped by either the copy/paste of the author or the website's framework stack, whether that be somewhere in a database, HTTP rendering or JS parsing. The control character (ie, ^, \e or \003), as you probably know, does not have a literal representation, say if you press it on the keyboard. That's why a web stack might decide to not display anything if it sees it in a string. So let's correct that now:
PROMPT="%{\e[00m\e[38;5;245m%}test %D%{\e[00m%}"
This actually nicely segues into the next escaping issue. Somewhat comically \e[ is actually a representation of ESC, it is therefore in itself an escape sequence marker that, yes, is in turn escaped by \. It's a riff on the old \\\\\\\\\\ sort of joke. Now, significantly, we must be clear on the difference between the escape expressions for the terminal and the string substitutions of the prompt, in pseudo code:
PROMPT="%{terminal colour stuff%}test %D%{terminal colour stuff%}"
Now what I suspect is happening, though I can't find any documentation to prove it, is that once ZSH has done its substitutions, or indeed during the substitution process, all literal characters, regardless of escape significations, are promoted to real characters¹. To yet further the farce, this promotion is likely done by escaping all the escape characters. For example if you actually want to print '\e' on the command line, you have to do echo "\\\e". So to overcome this issue, we just need to make sure the 'terminal colour stuff' escape sequences get evaluated before being assigned to PROMPT and that can be done simply with the $'' pattern, like so:
PROMPT=$'%{\e[00m\e[38;5;245m%}test %D%{\e[00m%}'
Note that $'' is of the same ilk as $() and ${}, except that its only function is to interpret escape sequences.
[1] My suspicion for this is based on the fact that you can actually do something like the following:
PROMPT='$(date)'
where $(date) serves the same purpose as %D, by printing a live version of the date for every new prompt output to the screen. What this specific examples serves to demonstrate is that the PROMPT variable should really be thought of as storage for a mini script, not a string (though admittedly there is overlap between the 2 concepts and thus stems confusion). Therefore, as a script, the string is first evaluated and then printed. I haven't looked at ZSH's prompt rendering code, but I assume such evaluation would benefit from native use of escape sequences. For example what if you wanted to pass an escape sequence as an argument to a command (a command that gets run for every prompt render) in the prompt? For example the following is functionally identical to the prompt discussed above:
PROMPT='%{$(print "\e[00m\e[38;5;245m")%}test $(date)%{$(print "\e[00m")%}'
The escape sequences are stored literally and only interpreted at the moment of each prompt rendering.

Is it possible to disable Command Substitution in Bash?

Is it possible to disable Command Substitution in Bash?
I want to pass a string containing several backticks characters as command-line argument to a program, without trailing backslashs or quoting the string.
Thank you.
I assume there is a misconception which grounds your question. Quoting is most likely the solution to your situation. But maybe you haven't found the right way of quoting yet or similar.
If your dangerous string shall be verbatim (without quoting or escaping) in the source code, you can put it in a separate file and read it from there:
dangerous_string=$(cat dangerous_string_file.txt)
If it shall be passed without interpretation to a command, use the double quotes to prevent interpretation:
my_command "$dangerous_string"
If you have to pass it to a command which needs to receive a quoted version of your string because it is known to carelessly pass the string without using sth like the double quotes to prevent interpretation, you can always use printf to get a quoted version:
quoted_dangerous_string=$(printf "%q" "$dangerous_string")
careless_command "$quoted_dangerous_string"
If all these options do not help in your situation, please explain in more detail where your problem lies.

Ungoogleble machine-code or otherwise hard to read EUID part

Not sure whether obfuscated, machine-code or something else. Please, let me know what the part is for and how to read it. The part is from the file.
###############################################################################
# Set prompt based on EUID
################################################################################
if (( EUID == 0 )); then
PROMPT=$'%{\e[01;31m%}%n#%m%{\e[0m%}[%{\e[01;34m%}%3~%{\e[0;m%}]$(pc_scm_f)%# '
else
PROMPT=$'%{\e[01;32m%}%n#%m%{\e[0m%}[%{\e[01;34m%}%3~%{\e[0;m%}]$(pc_scm_f)%% '
fi
could someone break it a bit more into parts?
What does the conditional EUID == 0 do?
I get an error about pc_scm_f, using OBSD, is it some sort of value in other OS?
the \e starts some sort of logical part, what do the rest do?
Looks like ANSI escape sequences to me.
I found this link which seems to contain the whole thing in proper context.
Also tells me Ferruccio is right: It's an ANSI escape string, used to change the style of the command-prompt. \e starts the escape codes, the rest is the code itself. Used to be very popular in the old DOS time, especially with a game called NetHack. It's just pretty-print for your console.

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