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Start issue 740

- changed introduction section
- added installation section
- added what is a shell section
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\section introduction Introduction \section introduction Introduction
This is the documentation for `fish`, the friendly interactive shell. `fish` is a user friendly commandline shell intended mostly for interactive use. A shell is a program used to execute other programs. For the latest information on `fish`, please visit the <a href="https://fishshell.com/">`fish` homepage</a>. This is the documentation for *fish* the <b>f</b> riendly <b>i</b> nteractive <b>sh</b> ell.
A shell is a commandline interpreter. It reads text input from the commandline and interpretes it as commands to operating system, see: <a href="#shell">What is a Shell</a>.
So shells serve as user-interface between applications and the operating system. There are many different shells. They differ on how this interface is implemented. *fish* specializes in the following ways:
- <b>Extensive UI</b>: *fish* supports the user with syntax highlighting, autosuggestions, tab completions and selections lists, that can be navigated and filtered, see: <a href="#autosuggestions">Autosuggestions</a> and <a href="#completion">Tab Completions</a>.
- <b>No further configuration is needed</b>: *fish* comes preconfigured so that it will be an efficient helper on the commandline out of the box.
- <b>Add new commands easily</b>: in *fish* new commands can be added on the fly. The syntax is easy to learn and there is no administrative overhead, see: <a href="#syntax-function">Functions</a>.
- <b>Interactive shell</b>: *fish* focuses on commands that will be run in an interactive session: While it supports job control for external commands, its own commands share the process of the shell, that started them.
<a href="#introduction"><-</a><hr>
\section install Installation and Start
This section is on how to install, uninstall, start and exit a *fish* shell and on how to make *fish* the default shell:
- <a href="#installation">Install</a>: How to install *fish*
- <a href="#default-shell">Default Shell</a>: How to switch to *fish* as the default shell
- <a href="#start">Starting and Exiting</a>: How to start and exit a *fish* shell
- <a href="#uninstall">Uninstall</a>: How to uninstall *fish*
- <a href="#bash">Executing Bash</a>: How to execute *bash* commands in *fish*
\subsection installation Installation
Instructions for installing fish are on the <a href="https://fishshell.com/">fish homepage</a>. Search that page for "Go fish".
To install the development version of *fish* see the instructions at the <a href="https://github.com/fish-shell/fish-shell">project's GitHub page</a>.
\subsection default-shell Default Shell
You can make *fish* your default shell by adding *fish*'s executable in two places:
- add `/usr/local/bin/fish` to `/etc/shells`
- change your default shell with `chsh -s` to `/usr/local/bin/fish`
For for detailed instructions see <a href="tutorial.html#tut_switching_to_fish">Switching to *fish*</a>.
\subsection uninstall Uninstalling
For uninstalling *fish*: see <a href="faq.html#faq-uninstalling">FAQ: Uninstalling *fish*</a>
\subsection start Starting and Exiting
Once *fish* has been installed, open a terminal. If *fish* is not the default shell:
- Enter `fish` to start a *fish* shell:
\fish
>fish
\endfish
- Enter `exit` to exit a *fish* shell:
\fish
>exit
\endfish
\subsection bash Executing Bash
If *fish* is your default shell you can still execute *bash* commands in case you need to:
- a single command can be executed with:
\fish
>bash -c SomeBashCommand
\endfish
- or a *bash* shell can be opened with:
\fish
>/bin/bash
\endfish
This might be useful, when copying complicated *bash* commands from a website. Translating them into *fish* syntax can be avoided that way.
<a href="#install"><-</a><hr>
\section shell What is a Shell
This section is about the basics of shells. *fish* is a shell and shells have a lot in common:
- <a href="#shell-standards">Shell Standards</a>: Why shells adjust to standards
- <a href="#man-page">Manual Pages</a>: Commands usually come with a standardized manual page
- <a href="#shell-syntax">Command Syntax</a>: Shell commands have a standard syntax
- <a href="#shell-programming">Commands versus Programs</a>: Commands differ from normal programs
- <a href="#shebang-line">Shebang Line</a>: How the shell knows the language of a script
\subsection shell-standards Shell Standards
A shell is an interface to the operating system that reads from the commandline of a terminal. A shell's task is to identify and interpret commands. The commands can come from different applications and can be written in different programming languages.
This can only work smoothly if shells adapt to some common standards. For shells there is the POSIX standard, see <a href="https://en.wikipedia.org/wiki/Command-line_interface#Command-line_interpreter">Command-line interpreters</a>. `fish` tries to satisfy the POSIX standard wherever it does not get into the way of its own design principles, see <a href="design.html">`fish` Design</a>.
\subsection man-page Manual Pages
There is a common standard on how to receive help on shell commands: applications provide a manual page to their commands that can be opened with the `man` command:
\fish
>man COMMAND
\endfish
This convention helps to make sure help can be found on commands no matter where they originate from. *fish*'s internal commands all come with a manual page.
\subsection shell-syntax Command Syntax
Shell commands also have some syntax in common, no matter where they originate from:
Commands consist of three parts:
\fish
COMMAND [OPTIONS] ARGUMENTS
\endfish
- <b>`COMMAND`</b>: the name of the executeable
- <b>`[OPTIONS]`</b>: options can change the behaviour of a command
- <b>`ARGUMENTS`</b>: input to the command
For external <b>commands</b> the executable is usually stored on file and the file path must be included in the variable `$PATH`, so that the file can be found: see <a href="#variables-special">Special Variables</a>.
<b>Options</b> come in two forms: a short name, that is a hyphen with a single letter; or a long name, consisting of two hyphens with words connected by hyphens. Example: `-h` and `--help` are common options for opening the manual page of a command. Options are a fixed set, described in the manual pages of the command, see <a href="#man-page">Manual Pages</a>
<b>Arguments</b> are the arbitrary input part of a command: often it is a file or directory name, sometimes it is a string or a list.
Example:
\fish
>echo -s Hallo World!
HalloWorld!
\endfish
- both `Hallo` and `World!` are arguments to the echo command
- `-s` is an option that suppresses spaces in the output of the command
\subsection shell-programming Commands versus Programs
Shell commands differ from other programs in the following way:
- they cannot return variables
Instead:
- They transform an <b>input stream</b> into an <b>output stream</b>. Both of these streams are usually the terminal, but they can be redirected.
- They return an <b>exit code</b>: this exit code is 0 when the command executes normally and between 1 and 255 otherwise.
This leads to another way of programming for shell commands: they can directly return variables, but they can pass on content to other commands in following ways:
<b>Commands can pass on content as a stream</b>: one command takes the output stream of another command as its input stream:
Example:
\fish
>ls -l | grep "my topic"
\endfish
- every line of the `ls` command is immediatelly passed on to the `grep` command and treated separately.
In this case the two commands execute in parallel. This is called piping, see <a href="#piping">Piping</a>.
<b>Commands can pass on all of their output stream as a chunk</b>:
Example:
\fish
>echo (ls a*)
\endfish
- the `echo` command takes the output of the `ls` command as a chunk and prints it to the terminal. The `echo` command waits for the `ls` command to finish, before it executes.
In this case one command waits for the other command to finish, before it executes. This is called command substitution, see <a href="#expand-command-substitution">Command Substitution</a>.
\subsection shebang-line Shebang Line
Since script for shell commands can be written in many different languages, they need to carry information about what interpreter is needed to execute them: For this they are expected to have a first line, the shebang line, which names an executable for this purpose:
Example:
A scripts written in `bash` it would need a first line like this:
```
#!/bin/bash
```
- this line tells the shell to execute the file with the *bash* interpreter, that is located at the path `/bin/bash`.
For a script, written in another language, just replace the interpreter `/bin/bash` with the language interpreter of that other language (for example `/bin/python` for a `python` script)
This line is only needed when scripts are executed by another interpreter, so for *fish* internal commands, that are executed by *fish* the shebang line is not necessary.
<a href="#shell"><-</a><hr>
\section syntax Syntax overview \section syntax Syntax overview