fish-shell/doc_src/cmds/read.rst
Johannes Altmanninger 414d9a1eb1 Reference more non-fish shell builtins that have relevant differences
When writing scripts for other shells, it can be confusing and annoying
that our `man` function shadows other manual pages, for example `exec(1p)`
from [Linux man-pages]. I almost never want to see the fish variant for such
contended cases (which obviuosly don't include fish-specific commands like
`string`, only widely-known shell builtins).

For the contented cases like `exec`, the POSIX documentation is more
substantial and useful, since it describes a (sub)set of languages widely
used for scripting.

Because of this I think we should stop overriding the system's man pages.
Nowadays we offer `exec -h` as intuitive way to show the documentation for
the fish-specific command (note that `help` is not a good replacement because
it uses a web browser).

Looking through the contended commands, it seems like for most of them,
the fish version is not substantially different from the system version.
A notable exception is `read` but I don't think it's a very important one.

So I think we should can sacrifice a bit of the native fish-scripting
experience in exchange for playing nicer with other shells. I think the
latter is more important because scripting is not our focus, the way I see it.
So maybe put our manpath at the end.

In lieu of that, let's at least have `exec.rst` reference the system variant.

[Linux man-pages]: https://www.kernel.org/doc/man-pages/

Closes #10376
2024-04-20 13:34:08 +02:00

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7.6 KiB
ReStructuredText

.. _cmd-read:
read - read line of input into variables
========================================
Synopsis
--------
.. synopsis::
read [OPTIONS] [VARIABLE ...]
Description
-----------
.. only:: builder_man
NOTE: This page documents the fish builtin ``read``.
To see the documentation on any non-fish versions, use ``command man read``.
``read`` reads from standard input and stores the result in shell variables. In an alternative mode, it can also print to its own standard output, for example for use in command substitutions.
By default, ``read`` reads a single line and splits it into variables on spaces or tabs. Alternatively, a null character or a maximum number of characters can be used to terminate the input, and other delimiters can be given.
Unlike other shells, there is no default variable (such as :envvar:`REPLY`) for storing the result - instead, it is printed on standard output.
When ``read`` reaches the end-of-file (EOF) instead of the terminator, the exit status is set to 1.
Otherwise, it is set to 0.
If ``read`` sets a variable and you don't specify a scope, it will use the same rules that :doc:`set` does - if the variable exists, it will use it (in the lowest scope). If it doesn't, it will use an unexported function-scoped variable.
The following options, like the corresponding ones in :doc:`set`, control variable scope or attributes:
**-U** or **--universal**
Sets a universal variable.
The variable will be immediately available to all the user's ``fish`` instances on the machine, and will be persisted across restarts of the shell.
**-f** or **--function**
Sets a variable scoped to the executing function.
It is erased when the function ends.
**-l** or **--local**
Sets a locally-scoped variable in this block.
It is erased when the block ends.
Outside of a block, this is the same as **--function**.
**-g** or **--global**
Sets a globally-scoped variable.
Global variables are available to all functions running in the same shell.
They can be modified or erased.
**-u** or **--unexport**
Prevents the variables from being exported to child processes (default behaviour).
**-x** or **--export**
Exports the variables to child processes.
The following options control the interactive mode:
**-c** *CMD* or **--command** *CMD*
Sets the initial string in the interactive mode command buffer to *CMD*.
**-s** or **--silent**
Masks characters written to the terminal, replacing them with asterisks. This is useful for reading things like passwords or other sensitive information.
**-p** or **--prompt** *PROMPT_CMD*
Uses the output of the shell command *PROMPT_CMD* as the prompt for the interactive mode. The default prompt command is ``set_color green; echo -n read; set_color normal; echo -n "> "``
**-P** or **--prompt-str** *PROMPT_STR*
Uses the literal *PROMPT_STR* as the prompt for the interactive mode.
**-R** or **--right-prompt** *RIGHT_PROMPT_CMD*
Uses the output of the shell command *RIGHT_PROMPT_CMD* as the right prompt for the interactive mode. There is no default right prompt command.
**-S** or **--shell**
Enables syntax highlighting, tab completions and command termination suitable for entering shellscript code in the interactive mode. NOTE: Prior to fish 3.0, the short opt for **--shell** was **-s**, but it has been changed for compatibility with bash's **-s** short opt for **--silent**.
The following options control how much is read and how it is stored:
**-d** or **--delimiter** *DELIMITER*
Splits on *DELIMITER*. *DELIMITER* will be used as an entire string to split on, not a set of characters.
**-n** or **--nchars** *NCHARS*
Makes ``read`` return after reading *NCHARS* characters or the end of the line, whichever comes first.
**-t** -or **--tokenize**
Causes read to split the input into variables by the shell's tokenization rules. This means it will honor quotes and escaping. This option is of course incompatible with other options to control splitting like **--delimiter** and does not honor :envvar:`IFS` (like fish's tokenizer). It saves the tokens in the manner they'd be passed to commands on the commandline, so e.g. ``a\ b`` is stored as ``a b``. Note that currently it leaves command substitutions intact along with the parentheses.
**-a** or **--list**
Stores the result as a list in a single variable. This option is also available as **--array** for backwards compatibility.
**-z** or **--null**
Marks the end of the line with the NUL character, instead of newline. This also disables interactive mode.
**-L** or **--line**
Reads each line into successive variables, and stops after each variable has been filled. This cannot be combined with the ``--delimiter`` option.
Without the ``--line`` option, ``read`` reads a single line of input from standard input, breaks it into tokens, and then assigns one token to each variable specified in *VARIABLES*. If there are more tokens than variables, the complete remainder is assigned to the last variable.
If no option to determine how to split like ``--delimiter``, ``--line`` or ``--tokenize`` is given, the variable ``IFS`` is used as a list of characters to split on. Relying on the use of ``IFS`` is deprecated and this behaviour will be removed in future versions. The default value of ``IFS`` contains space, tab and newline characters. As a special case, if ``IFS`` is set to the empty string, each character of the input is considered a separate token.
With the ``--line`` option, ``read`` reads a line of input from standard input into each provided variable, stopping when each variable has been filled. The line is not tokenized.
If no variable names are provided, ``read`` enters a special case that simply provides redirection from standard input to standard output, useful for command substitution. For instance, the fish shell command below can be used to read a password from the console instead of hardcoding it in the command itself, which prevents it from showing up in fish's history::
mysql -uuser -p(read)
When running in this mode, ``read`` does not split the input in any way and text is redirected to standard output without any further processing or manipulation.
If ``-l`` or ``--list`` is provided, only one variable name is allowed and the tokens are stored as a list in this variable.
In order to protect the shell from consuming too many system resources, ``read`` will only consume a
maximum of 100 MiB (104857600 bytes); if the terminator is not reached before this limit then *VARIABLE*
is set to empty and the exit status is set to 122. This limit can be altered with the
:envvar:`fish_read_limit` variable. If set to 0 (zero), the limit is removed.
Example
-------
``read`` has a few separate uses.
The following code stores the value 'hello' in the shell variable :envvar:`foo`.
::
echo hello|read foo
The :doc:`while <while>` command is a neat way to handle command output line-by-line::
printf '%s\n' line1 line2 line3 line4 | while read -l foo
echo "This is another line: $foo"
end
Delimiters given via "-d" are taken as one string::
echo a==b==c | read -d == -l a b c
echo $a # a
echo $b # b
echo $c # c
``--tokenize`` honors quotes and escaping like the shell's argument passing::
echo 'a\ b' | read -t first second
echo $first # outputs "a b", $second is empty
echo 'a"foo bar"b (command echo wurst)*" "{a,b}' | read -lt -l a b c
echo $a # outputs 'afoo barb' (without the quotes)
echo $b # outputs '(command echo wurst)* {a,b}' (without the quotes)
echo $c # nothing
For an example on interactive use, see :ref:`Querying for user input <user-input>`.